Integrating Management of Watersheds & Coastal
Areas in Small Island Developing States of the
Caribbean
NATIONAL REPORT
for
Antigua & Barbuda
Complied by:
Brian Cooper and Vincent Bowen
Environment Division, Ministry of Tourism and Environment
April, 2001
Table of Contents
1. Introduction and Background
Page 1
1.1. General Physical Characteristics of Antigua and Barbuda
Page 1
1.1.1. General Features
Page 1
1.1.2. Geology and Soils
Page 7
1.1.3. Coastal Features
Page 8
1.2. Socio- Economic Setting
Page 10
1.2.1. Historical and Cultural Background
Page 10
1.2.2. Population and Human Resources
Page 10
1.2.3. Physical Infrastructure and Public Utilities
Page 13
1.2.4. Economic Development
Page 14
2. Water Resources and Coastal Zone Management Issues
Page 16
2.1. Watershed Management
Page 16
2.1.1. Agriculture and Forestry
Page 16
2.1.2. Biodiversity and Wildlife
Page 17
2.1.3. Land Use and Ownership
Page 18
2.1.4. Watersheds
Page 19
2.1.5. Water Resources
Page 21
2.1.6. Improving Management of Water Resources
Page 25
2.1.7. Improving Management of Watersheds
Page 26
2.2. Management of Coastal and Marine Resources
Page 30
2.2.1. Coastal Habitats and Ecosystems
Page 30
2.2.2. Exploitation and Use of Coastal Zone Resources
Page 31
2.2.3. Improving Management of Coastal Areas
Page 32
3. Common Management Issues
Page 34
3.1. Land Use Planning and Development Control
Page 34
3.2. Pollution and Health Issues
Page 34
3.3. National Parks and Protected Areas
Page 36
3.4. Institutional Framework
Page 37
3.4.1. Legal Framework
Page 37
ii
3.4.2. Institutional Framework
Page 37
3.4.3. Climate Change and Natural Disasters
Page 44
3.4.4. Data, Information Support and Research
Page 46
4. Integrating Watershed and Coastal Zone Management
Page 48
4.1. Problem Description
Page 48
4.1.1. Lack of Awareness
Page 48
4.1.2. Weak Policy Framework
Page 49
4.1.3. Division of Responsibilities
Page 49
4.1.4. Fragmented Legal Support
Page 49
4.1.5. Weak Financial Support
Page 51
4.2. Goals of Integrated Management
Page 51
4.3. Key Issues in Developing an Integrated Plan
Page 51
4.3.1. Land Use Policy
Page 51
4.3.2. Watershed Development
Page 52
4.3.3. Water Resources
Page 53
4.3.4. Coastal Areas
Page 53
4.3.5. Public Awareness
Page 54
4.3.6. Inter-Institutional Cooperation and Liaison
Page 54
4.3.7. Stakeholder Involvement and Community Management
Page 55
4.3.8. Capacity Building
Page 56
4.3.9. Research, Data management and Decision Support Systems
Page 56
4.4. Financial Resources
Page 57
4.4.1. Internal
Page 57
4.4.2. Regional and International Assistance
Page 58
5. National Action Programme to improve integrated
Page 59
management of Watersheds and Coastal Areas
5.1. Policy and Legislation
Page 59
iii
5.1.1 Action 1: Enact all pending legislation relating to watersheds
Page 59
and coastal zones
5.1.2. Action 2: Policy Adoption - Water Resources Board
Page 60
5.2 Public Awareness, Data Gathering, Training and Demonstration
Page 60
5.2.1. Action 3: Demonstration Watershed
Page 60
5.2.2. Action 4: Natural Resources Database
Page 62
6. Recommended Inputs to Regional Action Programme
Page 63
6.1 Regional toxic substances monitoring programme
Page 63
7. Bibliography
Page 66
List of Tables
Table 2.1 Land Use in Antigua, 1985
Page 19
Table 2.2 Features of the six major watersheds in Antigua
Page 20
Table 2.3 Antigua's surface storage capacity for existing and proposed
agricultural and municipal supplies (acre feet)
Page 21
Table 2.4 Approximate water production costs
Page 24
Table 3.1 Key legislation with relevance to water resources and coastal
zone management (After Lausche, 1986)
Page 38
List of Figures
Figure 1.1 Location of Antigua and Barbuda in the Eastern Caribbean
Page 2
Figure 1.2 Map of main infrastructure for Antigua and Barbuda
Page 3
Figure 1.3a. Topographic zones of Antigua
Page 4
Figure 1.3b Topographic zones of Barbuda
Page 4
Figure 1.4a Annual rainfall totals for V. C. Bird Airport (1960-1999)
Page 5
Figure 1.4b Monthly rainfall averages for Antigua (V. C. Bird Airport,
Page 5
1960 - 1999)
Figure 1.5 Annual rainfall distribution for Antigua (Isohyets in inches)
Page 6
Figure 1.6 Distribution of main soil groups for Antigua
Page 9
Figure 1.7a Map showing locations of main reef systems of Antigua
Page 11
iv
Figure 1.7b Map showing the location of main reef systems of Barbuda
Page 11
Figure 1.8a Location of major wetland areas in Antigua
Page 12
Figure 1.8b Location of major wetland areas in Barbuda
Page 12
Figure 2.1a Location of major watersheds in Antigua
Page 21
Figure 2.1b. Location of watersheds in Barbuda
Page 21
Figure 4.1 Interrelationships among stakeholders and management
Page 50
agencies dealing with watersheds and coastal areas.
Acknowledgements
Many persons have assisted in the preparation of this report, whose help is hereby acknowledged. In
particular, the following persons provided valuable information on identification of the issues or
contributed ideas and suggestions for the action plan:
Ministry of Tourism and Environment: Diann Black Layne, Chief Environment Officer
Ministry of Agriculture, Lands and Fisheries: McRonnie Henry, Chief Forest Officer; Gerry
Fernandez, Soil and Water Engineer; Cheryl Jeffrey- , Chief Fisheries Officer; Philmore James,
Fisheries Officer; Anthony Richards, Chief Chemist
Ministry of Health: Lionel Michael, Chief Health Inspector
Antigua Public Utilities Authority, Water Division: Veronica Yearwood, Hydrologist
The authors nevertheless take full responsibility for the accuracy and views presented in this report.
All the figures except Figures 1.4a, 1.4b and 4.1 were adapted from the Country Environmental
Profile for Antigua and Barbuda, Caribbean Conservation Association (1991).
v
Executive Summary
The islands of Antigua and Barbuda, located in the northern Leeward Islands, are characterised by
relatively low relief and upper watershed lands that were deforested and degraded through two
centuries of sugar cultivation. The low average rainfall and highly erratic distribution, as well as the
shortage of suitable surface or ground water storage areas, have combined to produce a situation
where the country is severely short of fresh water to supply even domestic needs in drought years.
This has led to increased reliance on desalinated water to supply domestic needs, but has left the
agricultural sector with very minimal resources for irrigation. Climatic changes resulting from global
warming are predicted to make both the supply and demand situation worse.
Given the critical nature of the fresh water resource, it is surprising that so little priority has been
accorded to watershed management. There are no effective laws relating to watershed protection and
no watershed reserves have been declared. There has been little or no attempt to reforest denuded
hillsides, despite acknowledged problems of siltation and erosion in some valleys. Burning and
overgrazing of hillsides continue to be a significant source of watershed degradation in several areas.
The Forestry Division remains very under-staffed and under-funded and with no clear mandate to
manage the upper watershed areas.
At present, approximately one third of the domestic water supply is obtained from surface storage or
ground water aquifers. Shallow reservoirs and high rates of evapotranspiration lead to significant loss
of surface stored water. The last major investment in fresh water storage capacity was more than 30
years ago. Salt water intrusion into groundwater supplies is a problem in several aquifers, especially
during times of drought when extraction is excessive.
Other demands on the watershed lands include their use for cattle pasture, especially during times of
drought when other areas are overgrazed. Some of these areas are burnt to provide young re-growth
of the coarse grasses, which are more palatable for the cattle. There are considerable populations of
semi-feral goats which depend on the forest and scrub lands for fodder. This has resulted in the
removal of much of the understory growth and loss of forest regeneration in places where the grazing
pressure is high. In addition, the forest areas provide a source of forest products, such as wattle, for
fishpot construction, as well as wood for charcoal making. These uses are uncontrolled and may be at
non-sustainable levels in some areas.
In the lower watershed areas, food crop and livestock production is carried out, often in close
proximity to surface reservoirs or groundwater supplies. Concerns have been raised about the
possibility of pesticide contamination of water supplies or leaching out into the coastal zone in times
of heavy runoff. A lack of pesticide monitoring capability has prevented any proper assessment of
this risk.
Due to the short length of all watersheds and the rapid runoff during rainstorms, silt load and
pesticide contamination are expected to produce problems in the coastal zone, especially in those
watersheds where the natural protection of mangrove wetlands has been removed by coastal
development.
Besides these threats from watershed runoff, the coastal zone is under considerable stress from tourist
related development along much of the coast. Siting of structures too close to the natural waterline as
resulted in beach erosion. Destruction of wetlands to construct hotels, marinas and other tourism
related facilities, has put stress on the whole near-shore ecosystem, increasing turbidity, removing fish
breeding habitats and food supplies. Increased fishing pressure in the inshore areas has added to the
stress and fish catch is declining. This may also have been contributed to by increased levels of
vi
pollution from improperly functioning sewage treatment plants used by hotels situated on the coast
and wash off from urban areas, particularly St. John's harbour, which is heavily polluted. An
increased incidence of hurricanes and tropical storms, experienced over the last decade, has also had a
deleterious effect on reefs, mangroves and seagrass ecosystems.
Integrating the management of watersheds and coastal areas will require the input of considerable
resources in order to provide the legal and institutional support that will be needed. A major obstacle
to real progress is the lack of understanding at all levels, from policy makers to the general public, of
the function and importance of watersheds and how the relatively slow processes of land degradation
lead to the downstream degradation of coastal ecosystems and their associated fisheries resources.
Currently, many agencies have responsibility for various aspects of watershed and coastal zone
management, although watersheds are hardly recognised, as such, in any legal or institutional
arrangements. The level of cooperation among these institutions, government, parastatal and
community or user groups, is very variable and depends largely on working relationships between
individuals in the respective agencies. Sometimes this can work well, but is subject to instability
when personnel changes take place. Traditionally, watersheds and coastal ecosystems have been
managed by quite separate agencies. However, the need for a "ridge to reef" approach will have to be
reflected in the new legal and institutional arrangements that will be needed to provide effective
integration of watershed and coastal zone management and the coordination and rationalization of the
many agencies responsible for various aspects of watershed and coastal zone management.
The legal support for management of natural resources is, in general, quite out of date, fragmented
and provides inadequate force to be effective. The legal officers, themselves, are often not well
informed on the consequences of damage to natural systems and habitats. Certain improvements to
legislation governing land use, forestry, fisheries and control of toxic substances are in the pipeline,
but progress has been very slow. No attempt has yet been made to look at legal issues for watersheds
and coastal areas as a whole.
Effective management of both watersheds and coastal areas has been constrained by a lack of basic
scientific information on the status of these ecosystems and the results of various pressures to which
they have been exposed. Adequate data collection, processing and storage in accessible systems
remain a pressing need. Present levels of human and physical resources are insufficient to provide the
monitoring that is necessary.
New ways of revenue generation are required to support the management systems that are required
and it is proposed that greater attention to cost recovery for services provided to the tourism sector
should be pursued.
A plan of action to be supported by the project is proposed, which focuses on increasing general
awareness of the function of watersheds in providing water resources for the nation and in protecting
the fisheries and coastal ecosystems on which tourism is so dependent. The concept of a model
watershed is outlined as a vehicle to raise awareness by visible demonstration and at the same time to
address, in a local context, the many management and technical issues that have to be solved at a
national level, if watersheds and coastal areas are to be managed in a more integrated and functional
manner, thereby maximizing the sustainable use of these indispensable natural resources.
It is also suggested that there is a need to set up a regional system for monitoring levels of toxic
substances in soils, aquatic and coastal environments. National capabilities to collect and prepare
samples would be supported by regional laboratories with a mandate to provide specialist analytical
vii
services. This would be particularly helpful to the smaller territories of the Eastern Caribbean which
do not have the resources, physical or human, for many types of pesticide analysis.
List of Acronyms
AF
acre foot (1233 m3)
APUA
Antigua Public Utilities Authority
CBD
Convention on Biological Diversity
CBH
Central Board of Health
CBO
Community Based Organization
CEHI
Caribbean Environmental Health Institute
CIDA
Canadian International Development Agency
DCA
Development Control Authority
GARDC
The Gilbert Agricultural and Rural Development Centre
GDP
Gross Domestic Product
GIS
Geographical Information System
GPS
Geographical Positioning System
MAL&F
Ministry of Agriculture, Lands and Fisheries
MARPOL
Marine Pollution Agreement
MG/M
million gallons/month
NDNP
Nelsons Dockyard National Park
NGO
Non-Governmental Organization
NODS
National Office of Disaster Services
NPA
National Parks Authority
NRMU
Natural Resources Management Unit (OECS)
NSWMA
National Solid Waste Management Authority
OAS
Organization of American States
OECS
Organization of Eastern Caribbean States
WTO
World Trade Organization
viii
1. Introduction and Background
1.1. General Physical Characteristics of Antigua and Barbuda
1.1.1. General Features
The islands of Antigua and Barbuda are located in the eastern arc of the Leeward Islands, between
Guadeloupe and Saint Martin as shown in Figure 1.1, Antigua is situated at latitude 17o 10' N by 61o 55'
W and the island of Barbuda is found 28 miles north of Antigua at 17o 35' N by 61o 48' W. Redonda, a
small rocky island about 25 miles west of Antigua is uninhabited and will not be included fully in this
report.
Antigua is roughly round in shape and occupies a land area of 280 sq. km. (108 sq. miles) while
Barbuda is approximately two thirds this size, occupying 160 sq. km. (62 sq. miles). The location of
important features of Antigua and Barbuda is shown in Figure 1.2
The island of Antigua is divided into three topographic zones, the mountainous south west region, the
relatively flat Central Plains and the rolling limestone hills and valleys in the north and east. (See Figure
1.3a) The highest point in Antigua, Boggy Peak, 402 m (1,319 ft.) and the steepest slopes, are found in
the South West zone. Here slopes of 11o to 20o are common and up to 30o are present in localized areas
particularly around Tramontania and Sugar Loaf areas. Barbuda is relatively flat with some low hills
rising to just under 40 metres (125 ft.) in the Highlands area. Slopes are mostly under 2o (See Figure
1.3b)
Antigua and Barbuda both experience a tropical maritime climate with little variation in daily or
seasonal temperatures. Average monthly minimum temperatures range from 22.4oC in February to
25.4oC in August, while monthly maximum temperatures range from 27.9oC in February to 30.5oC in
September. Slightly greater diurnal variation is observed in some inland areas. Relative Humidity
averages range from lows of 72% - 78% in mid afternoon to early morning highs of between 81% to
85%. The drier conditions and lower temperatures are experienced during the months of January to
April.
The islands lie in the path of the northeasterly Trade Winds and experience fairly steady winds off the
Atlantic ranging from the NE to the SE. Monthly average wind speeds are 17 to 26 km/hour, with
lowest speeds in September to November.
Rainfall is probably the most important and variable climatic feature and severe droughts are
experienced every few years. Conversely, depending on the major climatic cycles associated with El
Nino/La Nina, quite wet years are also possible. Average annual precipitation averages about 1050 mm
(40 ins.), but has ranged from 667 mm to 1708 mm since 1960. Figure 1.4a shows annual rainfall totals
for V C Bird Airport for the period 1960-1999. Monthly rainfall averages are provided in Figure 1.4b
and these show that the months of January to April are the driest period while September to November
are considered Wet Season months. These months coincide with the period of active tropical waves
and tropical storms. May is particularly variable and while often quite dry also holds the record as the
wettest month.
Rainfall distribution over Antigua is represented in Figure 1.5, which shows the drier areas located in
the flatter eastern and northern regions and the highest rainfall areas in the mountainous south west.
1
Figure 1.1 Location of Antigua and Barbuda in the Eastern Caribbean.
See file: (figure1_1.pdf)
2
Figure 1.2 Map of main infrastructure for Antigua and Barbuda
See file: (figure 1_2.pdf)
3
Figure 1.3a. Topographic zones of Antigua
Figure 1.3b Topographic zones of Barbuda
See file: (figure1_3ab.pdf)
4
Figure 1.4a Annual rainfall totals for V. C. Bird Airport (1960-1999)
Figure 1.4b Monthly rainfall averages for Antigua (V. C. Bird Airport, 1960 - 1999)
See file: (figure1_4ab.pdf)
5
Figure 1.5 Annual rainfall distribution for Antigua (Isohyets in inches)
See file: (figure1_5.pdf)
6
Most precipitation is received in short lived heavy to intense showers, which increases erosion hazards
on unprotected soils. Maximum rainfall in 24 hours recorded at V. C. Bird airport stands at 212 mm
Evapotranspiration rates are quite high due to the steady winds and high temperatures. These average
between a low of 87 mm/month in November and a peak of 143 mm/month in March (McMillan
1985). On average, even in the wetter zones, like Greencastle, potential evapotranspiration exceeds
effective precipitation (estimated at 70% of actual) in 11 months of the year, and vegetative growth is
significantly constrained by lack of water in most years.
Rainfall data for Barbuda is much less comprehensive, but indicate that Barbuda is significantly drier, as
would be expected from the flat topography, with annual average precipitation of 750 to 900 mm. (30 to
35 ins.)
In recent years, hurricanes and tropical storms have been much more frequent and damaging. Since
1995 Antigua and Barbuda have experienced four serious hurricanes and several tropical storms. Winds
of up to 190 km/hr were recorded. Damage to infrastructure, vegetation and coastal features such as
beaches and reefs has been significant.
1.1.2. Geology and Soils
1.1.2.1.
Geology
Antigua lies on the older volcanic arc associated with the meeting of Atlantic and Caribbean tectonic
plates and is the much altered remnant of a volcanic area which became inactive in the Upper
Oligocene, about 20 million years ago. Geologically, Antigua can be divided into three regions running
north-west to south-east. These are: 1) the volcanic region in the south-west, 2) the central plain and 3)
the north-eastern limestone region. The volcanic region comprises hard igneous rocks in the uplands and
sedimentary material in the associated valleys. The central plain consists of a mixture of agglomerates,
tuffs, and conglomerates, together with some cherts and limestones. The limestone area in the north and
east is geologically the most recent and is composed of a mixture of hard limestone and softer marly
deposits of the Antigua formation. The geology of Antigua has been described in detail by Martin Kaye
(1959).
Barbuda also has three geological regions:
I. The Highlands Limestone area, mostly of hard limestones, which contain caverns and sink holes
II. The Codrington Limestone region which contains sandy and fossiliferous sediments less crystalline
than the Highland limestone
III. The Palmetto Point Series. This overlies the Highlands and Codrington formations in coastal areas
especially between Palmetto Point and Sand Ground and is composed of beach sands and ridges, with
shelly horizons.
1.1.2.2.
Soils
Soil formation has been influenced primarily by the different parent materials, land slope and the
relatively dry climate. Soils have been mapped (1:25,000) and described in detail by Hill (1955). In
7
Antigua, the 33 soil series described by Hill may be conveniently grouped into five broad groups
according to depth and texture (CEP 1991). These comprise:
1. Deep alluvial/colluvial soils in the valley systems of the volcanic region. These soils are primarily
sandy loams or loams with near neutral pH. Some of the best tree growth is found in these soils
2. Deep kaolinitic clay soils of the Central Plain. These are hard to work, heavy clays with impeded
drainage and near neutral pH. Some are saline at various depths below the topsoil. Some calcareous
clays are found in parts of this region
3. Generally shallow calcareous clay soils of the limestone areas in the north. These are productive in
the deeper phases over the softer marls. Despite the high clay content, they possess good structure
and have high base saturation. Soil pH is around 8.2
4. Complex of shallow and deep calcareous soils, mostly in the eastern part of the limestone region.
Similar to Group 3 but with greater areas of deeper soils. Drier climate restricts productivity.
5. Shallow soils of the mountainous volcanic region. These are thin to very thin, stony soils formed
over andesite and basaltic rocks. They are mostly clay loams and clays of reddish brown colour with
slightly acid pH. Steep slopes, erosion hazard and shallowness preclude use for other than
watersheds, and forest cover.
Figure 1.6 shows the distribution of these soil groups. The deeper marl soils and the alluvial soils of the
volcanic area are the most productive soils for agriculture and will support production of a range of
vegetables and tree crops. Water remains the biggest limitation to agricultural production
In Barbuda, there are three main soil series corresponding to the three geological regions. The Barbuda
series is found predominantly over the hard limestone of the Highland region and is composed of a
reddish kaolinitic clay loam. The Blackmere series is found at lower elevations over hard limestone and
is a brown clay loam. The Codrington series is found on the more recent terraces of hard limestone and
is a dark coloured montmorillonitic clay. There are also extensive areas of very young soils developing
on stabilized beach sands and dunes, where water holding capacity is very low and drainage is
excessive.
1.1.3. Coastal Features
1.1.3.1.
Coastline, Beaches and Reef Systems
Antigua and Barbuda are emergent parts of a 3,400 sq. km sub-marine platform, one of the largest in the
Eastern Caribbean. The depth of water between the two islands ranges from 27-33 m. The coastline of
Antigua is markedly indented with numerous islands, creeks and inlets and associated sand bars and
wetlands at their inland end - (See Figure 1.7a). A large portion of the east, north and south coasts are
protected by fringing reefs. Large areas of sandy bottom in shallow water are found on the west coast
and between the fringing reefs and the shore. The Barbuda coastline is less varied but has extensive reef
systems, especially off the east coast (Figure 1.7b). Codrington Lagoon in the north west is a large
almost enclosed salt water lagoon bordered by mangroves and sand ridges with considerable importance
to the fisheries and wildlife of Barbuda.
8
Figure 1.6 Distribution of main soil groups for Antigua
See file: (figure1_6.pdf)
9
Bacon has estimated the combined area of both reef systems as 25 sq. km. (Bacon 1984). Both islands
have extensive coral sand beaches with relatively shallow off-shore waters.
1.1.3.2.
Wetlands and Estuaries
Antigua and Barbuda have some of the most extensive mangrove wetlands to be found in the Eastern
Caribbean. Antigua's major wetlands areas are displayed in Figure 1.8a and those of Barbuda in Figure
1.8b. An estimated 4,900 ha of mangroves and salt ponds were to be found in the two islands, (World
Resources Institute, 1987). Several major wetlands have been removed through tourism based
development in the last 20 years as shown on the maps. The Environmental Awareness Group has
recently carried out a study of the remaining wetland areas in Antigua and identified XX sites occupying
XX ha. Well developed mangrove woodlands are present in Parham Harbour, Fitches Creek, and
Guiana Island in the north west while another important site is at Ayres Creek.
1.2. Socio-Economic Setting
1.2.1. Historical and Cultural Background
Antigua and Barbuda have a rich legacy of pre-Colombian sites and artefacts and were an important
regional source of flint and chert for stone tool making. The colonial history of the two islands was
somewhat less turbulent than other Leeward and Windward islands as British rule was only once briefly
interrupted between colonization in 1632 and the country's attainment of full independence in 1981. The
many safe harbours offered by Antigua's creeks and bays, notably English Harbour, and extensive reef
system, favoured it as a naval base and made it difficult to attack effectively. Slavery and sugar are the
two main threads of Antigua and Barbuda's colonial history. The production of sugar throughout the
island starting around 1675 and lasting until the 1970s, has had an indelible effect on the population and
the natural resources of the island. Slavery, as in other islands, was introduced to provide labour for the
many sugar estates and lasted until abolition in 1834. However, the black population continued to live
in deplorable conditions until the development of the labour movement began to turn the tide after
World War II.
Barbuda was leased by the British to the Codrington family from 1668 until 1870 when it came under
the control of Antigua, but has continued to have a somewhat separate existence, even since
independence.
1.2.2.
Population and Human Resources
The population of Antigua Barbuda was enumerated at the last official census in 1991 as 63,878, a
figure marginally lower than the population in 1970 when the previous census was taken. Of the total,
Barbuda contributes approximately 1,200 persons. The population density of 228 persons per square
kilometer is somewhat lower than the OECS average, largely due to the low population density of
Barbuda (about 7 persons per sq. km.). In 1984, nearly 60% of the population was recorded as living in
the city and parish of St. John's, giving rise to a population
10
Figure 1.7a Map showing locations of main reef systems of Antigua
Figure 1.7b Map showing the location of main reef systems of Barbuda
See file: (figure 1_7ab.pdf)
11
Figure 1.8a Location of major wetland areas in Antigua
Figure 1.8b Location of major wetland areas in Barbuda
See file: (figure 1_8ab.pdf)
12
density of approximately 2,700 persons per square kilometre in the main urban area. The remaining
population is relatively well distributed over the rural areas and highest population concentrations are on
the coast. Average size per household is 3.2 persons
Despite minimal increases in population, increased affluence and mobility and smaller family units,
have increased demand for most public services and utilities. Electricity, water and telephone usage has
increased considerably in the last 10 years. The number of private vehicles has also increased
significantly. All this is putting increased demand on the natural and physical resources available.
Unemployment is estimated at 7.8% (1998 figures) with seasonal shifts due to hotel closures or low
occupancy during the off season. Unemployment is higher in Barbuda. There has been universal
primary education since the mid-60's and school enrollment rates are about 95%. Adult literacy is
estimated at 90%. Primary, post-primary, and secondary education, to CXC level, are offered at
approximately 30 public schools and 12 private schools. Many private pre-schools have come into
existence during the last fifteen years. There is one sixth form college which also teaches some first and
second year courses for the University of the West Indies.
1.2.3. Physical Infrastructure and Public Utilities
Ever since the development of extensive naval facilities in Antigua in the Napoleonic period, Antigua
has had better physical facilities than many neighbouring islands. Today, with the growth of the
economy due to tourism, Antigua possesses an excellent communications and transport infrastructure,
including international airport, deep water harbour, cruise ship berthing facilities, and extensive road
network linking all parts of the island. Electronic communications are also well developed including
cellular telephone services, with fibre optic and microwave linkages between major communication
nodes, suitable for rapid data transmission.
Power generation and transmission have been extensively improved in recent years providing a
relatively reliable, hurricane resistant service. Domestic water shortages such as those of the 1980's
have been replaced by an expensive but more reliable water generation system that relies heavily on
desalinated water to provide up to 60% of the daily requirement.
Barbuda's infrastructure lags significantly behind that of Antigua but is being upgraded. The small
runway at Codrington Airport limits use to small aircraft with up to 20 passengers.
Telecommunications are modernised, but roads are by and large unpaved.
The City of St. John's, located on the west coast, is the nation's capital, housing the market, major
banking and commercial activity, as well as the Deep Water Harbour and cruise ship berthing facilities
at Heritage Quay. Despite its high population density, St. John's still does not have a sewerage system
although the ground is unable to accommodate the volume of septic tank effluent produced. English
Harbour, on the south-east coast is the next largest urban center, servicing the tourist and yachting
centres at Nelson's Dockyard and Falmouth Harbour. Another important yachting centre and marina is
situated at Jolly Harbour on the west coast. Several villages along the coast and some inland are rural
centres of population concentration. In recent years, the general rise in standards of living has seen
movement of commercial activity outside St. John's and considerable expansion of housing into rural
areas, such as Lightfoots, Buckleys and Langfords, leading to some loss of agricultural land.
13
Hotels and tourist activity are quite well distributed along the coast, with greatest concentrations on the
west coast, both north and south of St. John's. This generally follows the distribution of the larger
beaches around the island. In Barbuda, the two hotels are located near the southern tip of the island.
1.2.4. Economic Development
1.2.4.1.
Tourism
Tourism has been the single most important factor in the recent development of the economy of Antigua
and Barbuda and is now responsible for approximately 60% of the GDP. The growth of GDP over the
period 1985 to 1998 has clearly followed the fortunes of the tourist industry. The damaging effect of
hurricanes Luis and Georges was significant, both on tourism and the overall economy. During the
period, the most important developments have been the construction of marinas and boating related
facilities and the relative growth of cruise ship tourism.
1.2.4.2.
Banking and Offshore Industries
Over the last ten years, and particularly since 1995, there has been a significant increase in offshore
business in Antigua. This has included off shore banks and internet based industries in insurance,
gaming and betting, benefitting from the high quality of telecommunictions/internet connection services
available.
1.2.4.3.
Industry and Business Sector
The manufacturing sector's share of GDP has declined steadily from 4.1% in 1988 to 2.5% in 1998. The
decline has been partly due to the faster growth of the tourism sector with which manufacturing has to
compete for labour. High utilities costs have also had a negative effect. Difficulties in accessing
regional or extra regional markets also limit expansion and cost reduction through economies of scale.
1.2.4.4.
Agriculture
Agriculture continues to struggle with a series of constraints, including high cost of labour, small size of
local market and lack of marketing structures and infrastructure, competition from imported foodstuffs,
inadequate supply of water for irrigation as well as a regular succession of severe droughts and, in recent
years, destructive hurricanes. Not least among agriculture's constraints is the negative legacy of slavery
and plantation agriculture, which continues to exert its effect on public perceptions and policies towards
agriculture.
During the period 1983 to 1998, agriculture as percent of total GDP declined from 4.82 to 3.56. This
translates to a slight increase in actual dollar value. Fisheries makes the greatest contribution to the
sector (49.8%) and indicates the importance of maintaining productivity in coastal waters. Barbuda
depends heavily on this activity and lobster exports, continue to make a major contribution.
Although some small amount of cotton production continues (< 300 acres), the major crop production
activities are in vegetables and food crops and lesser quantities of vine and tree fruit. The local Antigua
Black pineapple is one of the major fruit crops produced.
Farmers have taken advantage of irrigation and other technologies and a small core with medium sized
farms (5 to 15 hectares) have developed highly efficient, mechanized production technologies and have
demonstrated the potential to produce high quality produce competitively. However, lack of continuous
water supplies and difficulties with gluts caused by imported produce have deterred many from
14
investing further in needed infrastructure or marketing systems. Many farm on land rented from the
Government with little security of tenure, further reducing willingness to invest.
The dry climate of Antigua and Barbuda is well suited to livestock production and the grassland areas
support considerable populations of cattle and small ruminants. However, production remains a part
time hobby for many livestock owners, who rely on waste land as pasture. Production practices are
basically impossible to improve under these conditions and even for those with land, livestock
production generally remains a low-input/low-output enterprise, subject to the vagaries of the weather.
The future development of agriculture and fisheries will have an important influence on the
management needs of the watersheds and coastal zones. A sustained effort to reduce the level of food
imports, particularly in the tourism sector, probably offers the best option for agricultural development
in the near future. Attempts to increase the linkages between the tourism sector and agriculture are
under active discussion, but the effort needs to be continued and intensified. A development focus in
this area would be likely to result in more intensive production in the better soils close to irrigation
water, which may have implications for water resources with respect to both quantity and quality. Other
constraints such as land tenure will also need to be addressed.
Opportunities for successful export based production appear limited due to the problems of high labour
costs and small scales of production, which reduce competitiveness. However, some opportunities for
production of specialty products such as sea island cotton may have potential, especially if a proportion
of the production can be processed into quality products for the up-market tourist visitor with a high
value added. The increasing interest in natural materials and products in developed countries may
provide some potential here. These types of development could utilize existing forest and scrubland as
the source of raw materials, providing incentives for better conservation and management of watershed
areas.
Inshore fisheries resources are already heavily exploited and need to be carefully conserved if serious
depletion is to be avoided. Developments in this sector are focusing on the exploitation of resources
further offshore, but this requires better-trained fishermen and a greater investment in boats and
handling equipment.
There are signs that agriculture and the natural resources on which it depends are beginning to be
recognized as significant components of the tourism experience which Antigua has to offer. Eco-
tourism has begun to see significant developments as cruise ship visitors, in particular, demand more
things to do during their brief stopovers and this trend is likely to intensify. Very recently there have
been some developments in the area of agro-tourism, which may also have some potential.
15
2. Water Resources and Coastal Zone Management Issues
2.1. Watershed Management
2.1.1. Agriculture and Forestry
Antigua's history has had a profound effect on the present state of its watersheds and biodiversity. The
soils and relatively gentle topography of Antigua lent themselves to cultivation and contributed to the
almost total deforestation of the island to plant sugarcane in the 1700s. Due to cultivation of much
unsuitable land, extensive erosion and soil degradation took place, especially in upper watershed areas.
However, much arable land of reasonable productivity still remains, though this is coming under
increasing competition from housing, industrial and other urban development, especially around St.
John's and major tourism development areas. Antigua currently possesses 2200 ha of crop land. A
further 10,700 ha are used for grazing of cattle and small ruminants, though the area is difficult to define
as the grazing is mostly "unofficial" and temporary. Woodland occupies 9,600 ha. Another study of
forest resources carried out in 1983 estimated the areas of woodland and scrub vegetation at 5,600 ha
and 10,000 ha respectively (DFS 1984), indicating the variation in areas depending on classification.
Much of the upper watershed areas not in scrub or woodland are used for rough grazing. These lands
are frequently burnt to provide fresh grass for livestock to eat, but this is uncontrolled and frequently
leads to further destruction of the adjoining forest and scrub vegetation.
Antigua's agriculture is mainly confined to production of food crops, fruit and vegetables for the local
market. The only significant export crop is sea-island cotton for the Japanese market. Local markets are
necessarily small and easily saturated leading to a cycles of gluts and scarcities. This is compounded by
the lack of adequate water for irrigation, forcing many farmers to produce only when rainfall is
adequate. Soils are quite fertile, many with good texture and gentle slopes, making mechanization quite
feasible. In fact, there are a number of very competent farmers who have applied quite advanced levels
of technology, including mechanized seeding, use of drip irrigation and selective herbicides.
As mentioned above, Antigua's original forest cover was almost completely removed for sugarcane
production and much of the original soil cover lost. Some re-growth of secondary forest has taken place
especially in the wetter and least accessible areas, but Antigua remains depleted in true forest cover.
There has only been one attempt at reforestation on any significant scale. This was at Wallings and
involved the planting of approximately 5 hectares of trees in 1912 to protect the watersheds supplying
water to the Wallings reservoir. A detailed inventory (Beard, 1949) identified 47 species of trees in a
half acre (2000 m2) quadrant of the Wallings forest. A similar inventory at Brecknocks found only 14
species.
Forest areas are, none the less, important sources of raw materials for several industries. Charcoal
making continues to use significant quantities of wood from bush and trees, unfortunately, too
frequently, quality timber trees are used for charcoal making. Extraction of wattle for fishpot making is
also a major use of forest products. After the loss of thousands of fishpots during hurricane Luis,
demand for wattle was exceeding supply. Honey bees also make considerable use of flowering plants in
the forest as source of pollen and nectar. Medicinal plants, used in traditional medicine and increasingly
in modern preparations are also found primarily in forest areas.
16
Increasing attention has been paid in recent years to the forest for recreation and as an eco-tourism
resource. The growth in use of the Wallings dam and trail system by individual visitors, hikers and tour
groups from cruise ships is evidence of the growing demand for such experiences and evidence that
there are several levels of eco-tourism not all of which are dependent on virgin rain forest to attract the
casual visitor.
The forest and shrub covered areas are also, of course, vital to the protection of the major watersheds in
the areas of heaviest precipitation. This will be dealt with further in Section 2.1.3.
2.1.2. Biodiversity and Wildlife
The biodiversity of Antigua and Barbuda suffered a similar fate along with the forest cover. Destruction
of habitat during early colonial times was severe and extensive in a country where, it has been estimated,
that 92% of the land area was eventually cleared for sugarcane cultivation.
Despite these losses, much of considerable interest and significance remains and should be conserved.
Island ecosystems are typically rich breeding grounds for endemism and high levels of diversity on an
area basis.
Vegetation
There have been several attempts to classify the current vegetation of Antigua and Barbuda, the most
recent by Lindsay and Horwith as part of the Convention on Biodiversity enabling activities (Lindsay
and Horwith, 1997a). Their study identified 54 Plant Alliances and Associations, belonging to 5
vegetative classes. In an associated study, Lindsay and Horwith (1997b) listed 1,158 species of higher
plants (149 families), including 45 species of ferns and fern allies; 4 species of gymnosperms (3
families) and 1,109 species of flowering plants (141 families) which are known to occur in Antigua,
Barbuda or Redonda. Twenty two species are identified as endemic to the Lesser Antilles, including
one, which may be endemic to Barbuda. One hundred and ninety seven species of flowering plants and
24 species of ferns were considered rare, and either Endangered or Vulnerable and therefore meriting
special conservation concern. No information was provided on mosses, liverworts or fungi.
Of importance to watershed management is the quality of vegetative cover on the upper watershed areas
where slopes are steepest and rainfall erosivity highest. No specific study of this aspect of vegetation
has been undertaken, but qualitative observations would suggest that the protection of many upper
watershed areas is of poor quality, especially in areas where Citronella grass is the dominant vegetation.
Fish
The fresh water fish of the Lesser Antilles have not been extensively studied, but 5 native species are
known for these islands. A list of marine fish that occur specifically in the waters of Antigua-Barbuda-
Redonda does not exist, but fish guides for the wider Caribbean list some 400 species.
Amphibians and Reptiles
Only two amphibians are known for Antigua; a tree frog and the marine toad. Twenty species of reptiles
are listed, four being now extinct. These include three species of gecko, three Anolis lizards, the green
lizard endemic to Antigua, a lizard endemic to Redonda and the ground lizard common to Barbuda but
found only in parts of Antigua. There is also a blind snake (Typhlops sp.) and the Antigua Racer snake
(Alsophis antiguae) endemic to Antigua and amongst the rarest snakes in the world. Three marine
turtles are found in Antigua and Barbuda's waters - Hawksbill, Green and Leatherback. The Hawksbill
17
is known to nest on several beaches and studies of the population nesting at Long Island have been
carried out for over 15 years.
Birds
One hundred and eighty two species of birds are recorded for Antigua and Barbuda, two thirds of which
are migratory. Twenty of these species are sub-regional endemics. Two are single island endemics. The
wetlands and offshore islands are of special importance to many species of birds as they are important
feeding grounds and nesting sites.
Mammals
Bats are the only native terrestrial mammal in the country and seven species of bats are found in both
Antigua and Barbuda. Agouti, Fallow Deer, Indian mongoose, rabbits and rats were all introduced.
Marine mammals are represented by seven species of whales and dolphins. One whale, the Humpback,
is relatively common to waters around the islands. Several species of dolphins are also recorded.
Invertebrates
Knowledge of the invertebrate fauna is not well recorded. Species listings are very incomplete and
largely restricted to agricultural pests and some beneficial insects. Studies of invertebrate fauna
associated with freshwater ecosystems are notably lacking.
2.1.3. Land Use and Ownership
The Agricultural Census carried out in 1985 identified land utilization/vegetation in Antigua as shown
in Table 2.1. (OAS, 1990) This shows that there were some 3183 ha of crop land and improved pasture;
9767 ha of rough grazing and mixed scrub/rough grazing; and a further 9569 ha of woodland. Swamps,
mangroves and beach sand occupied 876 ha. Urban areas, industrial sites, tourism related uses (hotels,
golf courses, historical sites, etc.) and airports occupied a total of 3225 ha.
Since the time this survey was done, there has been considerable expansion in the areas of some rural
settlements, which then occupied only 763 ha. This figure could well have doubled with the housing
construction programmes of the last ten years.
In Barbuda, less than 1 per cent of the land area is occupied by human settlement and related uses (109
ha). Dry forest areas occupied 7,900 ha and swamps and mangroves a further 3,729 ha., most of which
is contributed by the Codrington lagoon.
18
Table 2.1 Land Use in Antigua, 1985
Category
Area (ha.)
Percent
Agriculture - Crop
2,226
8.5
Agriculture - Livestock
Improved pasture
957
3.6
Rough grazing
6,942
26.4
Mixed scrub/rough grazing
2,825
10.8
Woodland
Volcanic areas
6,147
23.4
Limestone areas
3,422
13.0
Rural areas
763
2.9
Urban areas
1,946
7.4
Industrial areas
154
0.5
Hotels, Golf courses, Other tourism related
458
1.7
Recreational and historical areas
289
1.1
Airports and Military installations
378
1.4
Dams and reservoirs
257
1.0
Swamps, mangroves and beach sand
876
3.3
Source: OAS 1990, (quoted in CEP 1991)
2.1.4. Watersheds
A watershed is a topographically defined area having a common drainage system. Watersheds are used
as fundamental units for assessing hydrological budgets and processes such as erosion and to provide for
land use planning and management.
Antigua
Antigua's 86 watersheds recognised by the Halcrow study (Halcrow 1977) were grouped by McMillan
(1985) into are 13 larger watershed groups. These are depicted in Figure 2.1a. The two largest
watersheds (1 Potworks, and 2 Big Creek) drain the northern slopes of the south west volcanic region
and the main parts of the Central Plain to the east and west respectively. Fitches Creek drains into North
Sound. Christian Valley, Parham and Bethesda are also important watershed groups. These six
watersheds occupy 43 percent of the land area and contain 80 percent of the groundwater supplies and
19
90 percent of surface water storage. Within these watersheds are found 50 percent of the island's forest
land, 90 percent of its crop production, 60 percent of livestock production and 70 percent of the
population (Fernandez 1990). Details of these six major watersheds are provided in Table 2.2
Table 2.2 Features of the six major watersheds in Antigua
Watershed
No.
Area
Existing Storage
Groundwater
(ha)
(acre feet)
Yield
Agriculture Municipa
(m3/yr)
l
Creekside
2
4,000
200.4
278
390,000
Potworks
1
3,160
30.6
4,010
220,000
Christian Valley 4-11
1,780
9.2
166
610,000
Parham
63-66
1,472
33.4
Fitches Creek
3
1,040
334.5
Bethesda
47-53
120
540.0
Total
11,572
1,148
4,454
1,220,000
Source: Fernandez et al (1999)
It can be seen from Figure 2.1a, that all the watersheds are quite short, the largest being not more than
11 km in length. The two largest have areas of 4000 ha and 3,160 ha respectively. Considerable
portions of many watersheds are close to the coast and salt water intrusion is a factor in the quality of
some surface storage and ground water supplies in many aquifers.
Vegetative coverage of these watersheds is very variable. The upper catchments may have considerable
forest cover mixed with scrub and brush. The Creekside watershed in particular has considerable areas
where citronella grass (Cymbopogon citratus) is the dominant cover. This poses specific problems
which are discussed later (Section 2.1.7.3) On the lower slopes, rough grazing and pastures as well as
crop production are important land uses.
Barbuda
Barbuda has been divided into 10 watersheds as shown in Figure 2.1b. The relatively flat nature of the
topography and permeable nature of the soils in Barbuda make surface runoff minimal and surface
catchments impractical. Surface cover is generally evergreen woodland.
2.1.5. Water Resources
In Antigua, fresh water resources are found in three forms: surface storage, groundwater sources and
domestic catchment in cisterns and storage containers. There are no permanent streams or rivers in
Antigua or Barbuda. Stream flow in the various ghauts and valley bottoms is short lived and occurs
during, and for short periods after, rainfall events. After heavy or prolonged rainfall, some sections of
20
Figure 2.1a Location of major watersheds in Antigua
Figure 2.1b. Location of watersheds in Barbuda
See file: (figure 2_1ab.pdf)
21
the larger streams may flow for periods of a few months. All the major catchments are dammed at
several points to retain streamflow.
In addition to these freshwater resources, seawater is being increasingly used to provide water for
domestic and agricultural use through desalination.
2.1.5.1.
Surface Storage
Table 2.3 provides details of the surface storage capacity of the thirteen watersheds and some additional
surface storage potential, which has been proposed.
Table 2.3 Antigua's surface storage capacity estimates for existing and
proposed agricultural and municipal supplies (acre-feet) (1 acre foot = 1233
m3)
Agriculture
Municipal
Watershed
Storage
Storage
No.
Existing
Proposed
Existing
Proposed
1
30.6
82.9
4,010
-
2
200.4
202.2
278
4,120
3
334.5
18.2
-
-
4-11
9.2
25.2
166
160
12-20
2
-
50
140
21-26
-
-
-
80
27-46
5.2
10.7
-
-
47-53
570.4
32.5
-
-
54-62
19.2
33.6
-
-
63-66
33.4
59.1
-
-
67-77
38.4
16.3
-
-
78-84
2.2
-
-
-
85-86
2.5
2.2
-
-
Totals
1248.0
482.9
4,504
4,500
Notes: (1) Does not include Red Hill (46 AF) and Picadilly (c. 2 AF).
(2) Includes Bethesda (540 AF), which has been converted to municipal use during droughts
(3) Does not include Langfords (99 AF)
(4) Potworks (3,700 AF) + Collins (310 AF)
(5) Creekside (2900 AF) + Body Ponds (1200 AF)
Source: McMillan (1985)
Antigua has 10 medium to small reservoirs and some 550 ponds and earth dams with a total designed
capacity of approximately 5,700 acre feet. Of this total capacity, 4,500 acre feet is utilized for municipal
water supplies. In 2000, the volume of surface water supplied to the domestic distribution system was
1.27 M cubic metres (336 Mgals), or 3475 m3/day (0.92 Mgal/day).
22
Most surface storage, including the largest reservoir, Potworks, is shallow and exposed to the prevailing
trade winds. The constant wind run and high temperatures result in high rates of evaporative loss from
these storage systems, especially the mini-dams and ponds. Many of these will dry up during the dry
season of an average year and do not provide reliable storage for agricultural use. There are no
permanent rivers or streams in Antigua and recharge of ponds and reservoirs takes place during rainfall
events. Depending of the depth of drying out of the soils in the watersheds, considerable rainfall is often
required before runoff and significant recharge takes place. Total rainfall for a period may not therefore
give an accurate forecast of storage recharge. Amount and intensity information on each event is needed
to better predict runoff.
The majority of storage is located in the Central Plain where topography and soil conditions are more
favourable. The limestone zone is generally unsuitable for storage because of very permeable subsoils.
Barbuda has very little potential for surface storage due to the flat topography and permeable nature of
the main soils.
2.1.5.2.
Groundwater Supplies
In Antigua, suitable groundwater storage is found primarily in the sandy deposits underlying the valleys
bordering the volcanic region of the south-west. Currently, water is pumped from some 50 active wells.
The higher yielding aquifers are found in the Bendals Valley, Bolans and Collins areas. Most wells
have been drilled to depths of 24 to 30 metres (80 - 100 ft.). Production of the major well fields for
2000 is given below:
Well Field
Annual Production for 2000
(Cubic metres/yr.)
Bendals
251,000
Christian Valley
40,000
Claremont Cades Bay
74,000
Collins Bristol Springs
266,000
Follies
29,000
(Source: V. Yearwood, 2000)
In several areas, ground water is of varying salinity and usually this problem is worse closer to the
coastline where fresh water overlies salt water lenses connected to the sea.
Some wells have been abandoned or temporarily put out of use, due to salt water intrusion. This occurs
particularly during periods of drought when water resources are severely stretched and wells are over
pumped. Since 1989, there have been at least three periods when surface water resources were
essentially depleted. During such droughts, Potworks reservoir has been dry for periods of several
months. At these times demand on ground water resources reaches unsustainable levels, even with
desalination plants at full production.
In Barbuda, the primary source of fresh water is from shallow aquifers that underlie the 650 hectares of
sands in the Palmetto Point area. Elsewhere ground water is saline and unsuitable even for agriculture.
Water development potential is reported to be 53 acre feet per annum (AFA) although recharge rates
indicate considerably higher potential.
23
2.1.5.3.
Domestic Catchments
New domestic buildings are required by the Development Control Authority to include in their
construction plans, permanent water storage according to roof area. There are no reliable estimates of
the rainwater stored this way, but it is believed that it makes a significant contribution to the domestic
supply in both Antigua and Barbuda. Many householders not connected to pipe-borne supply also
collect rainwater in tanks or drums.
2.1.5.4.
Desalinated Water
In recent years, desalination capacity has been invested in, to supplement the supply from natural
sources. This was a response to the periodic drought crises such as that in 1983/84, when fresh water
had to be barged in from neighbouring islands.
Currently there are 2 municipal desalination plants located at Crabbs, on the northeast coast and another
is planned for Barbuda. The larger thermal plant at Crabbs has a capacity of 7575 m3/day (2 MG/D).
The second plant, commissioned in 1993 is a reverse osmosis plant with a capacity of 3030 m3/day (0.8
MG/D). In addition to these municipal facilities, several coastal hotels and manufacturing plants have
invested in their own desalination plants to insure a dependable supply.
The result of these developments is a much more reliable domestic supply, produced at a high cost.
Average daily supply for 2000, from all sources, was approximately 15,500 m3/day, to which
desalinated water contributed 10,200 m3/day; surface supplies, 3,500 m3/day and groundwater, 1,800
m3/day (V. Yearwood, 2001). There were also small contributions from household catchments
(cisterns) and private ponds for agriculture. Actual proportions will vary from year to year, due
primarily to fluctuation of the surface supplies as a result of rainfall.
Water supplies for agriculture have seen no major developments, except for some mini-dam
construction and some vegetable farmers, where they are suitably located near to the domestic supply
and who can afford to use the domestic supply for their irrigation needs.
Costs of producing potable water for distribution from the various sources are given in Table 2.4 below.
These compare with a consumer price of EC$ 21/1000gals (US$ 2.05/m3)
Table 2.4. Approximate water production costs
Cost
Cost
Water Source
(US$/m3)
(EC$/1000 gal
Ground
2.50
25.57
Surface
3.00
30.68
Desalination
4.70
48.07
Source: Fernandez et al (1999)
The table indicates the high cost for desalinated water and suggests that it is not practical to rely on such
sources for agricultural use, except in very intensive production systems.
24
The difference between water production costs and water revenues shows that piped water is highly
subsidized. The existing differentiated tariff structure means that certain consumer groups such as non-
domestic users, have to pay a higher price.
2.1.6. Improving Management of Water Resources
Water is a critical resource in a semi-arid country such as Antigua and Barbuda. Careful planning and
development; equitable distribution of this resource among the various sectors of the economy; and
conscious efforts at conservation and reuse at all levels of the economy, would appear to be the key
elements of a sustainable water management policy.
2.1.6.1.
Municipal Water
As indicated in Section 2.1.5.4., municipal demand for potable water currently stands at approximately
15,500 m3/day. This demand is met from desalination (66%), surface reservoirs (22%) and ground
water (12%). During normal rainfall years, the situation is reasonably secure, with even some water left
over to supply agricultural needs. However, during the droughts which Antigua experiences on a
frequent but unpredictable basis, municipal demand exceeds supply as surface sources become
exhausted. At this point, ground water resources are often over-exploited and salt water intrusion may
occur.
During wetter than normal years, considerable quantities of fresh water are lost to the sea as reservoirs
and mini-dams over flow. While Antigua does not have ideal conditions for abundant water storage,
additional possibilities for surface storage have been proposed by several professional studies (e.g.
McMillan, 1985) but have not been exploited. A planning time frame that looks 25 or 50 years ahead
would suggest that suitable sites be identified and set aside now, before unsuitable development takes
place. The view that we should increase our reliance on desalination to provide the additional supplies
required is attractive from a high technology standpoint, but if energy costs are likely to increase more
rapidly in the long run, this option becomes less attractive, especially as it will virtually exclude
agriculture from obtaining a share of this vital resource.
2.1.6.2.
Water for Agriculture
Since Antigua's annual average evapotranspiration is significantly higher than the annual average
rainfall, (Section 2.1) supplemental irrigation is necessary for sustained yields and even moderate levels
of production, especially in drought years. These can be expected at least one year in five and in the last
decade have occurred three years in ten. With global warming expected to increase the extremes of
weather experienced, irrigation is likely to become even more critical.
Another factor increasing the need for greater dependence on irrigated production is the increasing
competition that farmers are going to face with the reduction in protective tariffs and other structures
mandated by WTO agreements, which will begin to take effect in the next two to three years. Similarly,
current attempts by the Ministry of Agriculture to secure a greater market linkage with the tourist sector,
by increasing sales of vegetable and fruit produce to hotels and even cruise ships, will require a steady
and reliable supply of produce to these markets from local producers. This will be impossible to achieve
with rainfed production systems. Antigua's rainfall reliability is such, that even in so called wet season
months, short, dry periods frequently occur that are sufficient to seriously affect vegetable production,
especially if occurring at critical periods of growth.
At the moment, irrigation water is provided by a mixture of potable water taken from the government
supply, surface supplies from reservoirs, mini-dams and ponds and in a few cases from private wells.
25
Currently, distribution is restricted to those farms in easy distance of surface or municipal supplies.
When water is restricted, municipal needs are paramount and agriculture suffers. No reliable figures are
available for the current consumption of water for irrigation or the proportion obtained from municipal
sources. However, if crop production were increased to meet the current levels of importation of fresh
vegetables, salad crops and vine fruit, approximately 1.2 Mm3/yr (1000 ac ft/yr) of water would be
required. At present, only a small percentage of farmers have access to water year round and it is
estimated that approximately, some 40% of crop farmers have access to some irrigation.
The Ministry of Agriculture, through its Soil and Water Conservation Division has had a programme of
encouraging farmers to invest in irrigation and has assisted with the construction of mini-dams and some
larger ponds in key production areas. Use of drip irrigation has been promoted and many farmers have
adopted this technology to varying degrees. Some larger farmers have invested heavily in dams and
irrigation equipment. However, progress has been constrained due to damage to dam structures in the
recent hurricanes. Also, because there is no clear policy regarding allocation of water resources, some
farmers have suffered, when their source of water has been 'redirected ' to municipal supplies during
severe droughts, a time when their own production is seriously threatened. Improvements to the supply
of water available for irrigation are therefore vital to any programme of agricultural development.
2.1.6.3.
Managing Water Resources
There is obviously a need for a clear and fair policy for water allocation to municipal uses and
agriculture to alleviate the problems discussed above. While water resources remain the sole
prerogative of the APUA, it is difficult to see how this will come about, as APUA has no official or
legal mandate to supply water for agriculture (See Section 3.4.2).
It would seem desirable to vest these powers in a body, such as a Water Resources Board, that would be
representative of all water user interests. The Board should be responsible for planning development
and allocation of water resources, as suggested ten years ago (Henry, 1990). The Board would also need
to develop a policy to significantly improve water conservation efforts, by reducing use and encouraging
reuse of grey water and treated sewage effluent for irrigation and grounds maintenance. Some hotels
have shown that this is quite practicable and may well be demanded by tourists in the future.
As demands for water increase and worsening climatic threats to water resources are predicted, it is
doubly important that these resources be effectively managed.
2.1.7. Improving Management of Watersheds
At the moment, it is quite true to say that no management of the country's watersheds is practiced.
Minimal activities such as cleaning of sediment from ponds and reservoirs and some ghauts close to
these installations is carried out, but apart from this, watersheds are left to function without official
interference. The result of this is that problems of misuse and abuse go unresolved. The Forestry
Division needs the resources and manpower to manage a vigorous watershed management programme
in the key watershed areas, so as to improve the ability of these watersheds to produce more water for
surface storage and ground water recharge.
2.1.7.1.
Maximizing water retention
26
Since surface storage is quite limited and subject to evaporative losses, sub-surface retention within the
watershed by increasing percolation should increase retention and prolong stream flow. Where
vegetative cover is reduced through clearing, burning or overgrazing, runoff is accelerated and retention
reduced. A multi-story vegetative canopy and humus covered topsoil are thus required to maximize
retention. The steeper the slope and more intense the rainfall, the more this applies.
2.1.7.2.
Erosion management
Loss of topsoil through sheet erosion is often a slow process, which is not very visible and is frequently
ignored until most topsoil has been lost and restoration is either impossible or very costly. As
mentioned in the previous Section, topsoil retention aids moisture retention through facilitating deep
percolation, helps maintain vegetative cover and reduces siltation of downstream storage and wash of
sediment into the coastal waters where coral and other marine life may be affected. Keeping the soil
covered with vegetation is paramount in any strategy to reduce sheet erosion losses.
Landslides and gully formation are usually significant when topsoil has already been largely lost.
However, these processes occur where runoff is concentrated in ghauts or natural drainage ways on
steeper slopes. Vegetation is the key to minimizing their development. As Hurricane Lenny showed,
however, even on vegetated slopes, 500 mm of rainfall in 24 hours can cause great destruction of even
vegetated slopes.
2.1.7.3.
Grazing and Land Degradation issues
Antigua has a large population of cattle and small ruminants including goats. At least half the
population of livestock is owned by farmers who have no land. Animals, therefore, are grazed on waste
and otherwise unoccupied land, sometimes on steep lands in the upper areas of the watersheds. Normal
grazing of the grass covered areas found near the summits of the South west mountain block is
generally not detrimental to the vegetative cover, except in localized areas where livestock gather.
Goats are a special problem, however, as they eat a much wider range of shrubby vegetation and tree
seedlings and can denude the understory, removing tree seedlings and limiting species diversity. Serious
degradation of watershed vegetative cover exists in a number of areas of both private and government
lands.
Clearing of land for agriculture is generally more a problem on the lower slopes of most watersheds
where erosion risks are less. However, some practices affect the upper watershed areas. Clearing land
by burning off vegetative cover prior to cultivation is a common practice. Although burning is supposed
to be controlled by the issuing of permits issued by the Fire Department, few adhere to this practice and
it is not enforced. The legislation is archaic and takes no account of practices designed to limit danger
of fire spread, such as burning during the cool part of the day. As a result of this situation, many fires
are unsupervised and get out of control burning large tracts of hillside and removing vegetative cover.
A particular problem exists in the Potworks and Creekside watersheds, where there are large areas of
citronella grass. (See Section 2.1.4) This grass was planted to control erosion in the Body Ponds area
about 100 years ago. It is a very sturdy grass, will grow on very denuded soils and generates
considerable biomass in a short time. However, it is particularly prone to fire, to which it is also very
well adapted. The dead leaves and dried flower stalks burn very easily and rapidly when ignited. Fires
spread rapidly in this grass, but the grass survives and re-sprouts in a short while. However, other
vegetation is killed or greatly set back by these fires which in some areas are set every few months.
Forest and bush at the edges of the grass are being slowly burnt back, and the grass is expanding in area
each year. At the moment several hundred acres of the citronella grass exist. Although it provides some
27
soil cover, it is not effective in controlling sheet erosion because of the bunch habit of the grass and the
frequent fires which are removing valuable nutrients and baring the soil to rain splash after each fire.
Citronella grass areas are extremely poor in species composition and as a biodiversity habitat. Unless
the problem of citronella grass is tackled soon, the most important watershed areas will be devoid of tree
and bush cover in 25 to 30 years as the grass takes over.
2.1.7.4.
Biodiversity conservation
An important benefit of healthy watersheds covered with a variety of vegetation is the varied habitat this
provides for a range of flora and fauna. Besides serving to stabilize these ecosystems, the biodiversity is
a source of medicinal plants and others of economic significance for their use as pesticides, natural dyes
and other such uses. A rich biodiversity can also be a valuable resource in developing eco-tourism
potential as discussed below.
2.1.7.5.
Tourism and Recreational use
An analysis of the development of tourism in the last few years will show that tourism needs are
changing and that the attractions of "sun, sand and sea" for which the Caribbean is rightly famous, are
not enough. Our visitors are looking for more and a growing interest in nature and the environment, as
well as greater knowledge of tropical forests and marine life are creating tourists who want to see as
much as possible of the natural history of the places they visit. It is no surprise then, that eco-tourism
has seen a significant expansion in the last 10 years, moreover visitors to places like Antigua, not
especially famous for its flora and fauna, are interested to see what the country has to offer around its
reefs and shores and in its forests.
Off-road tours, group hikes and even treasure hunt style excursions in natural areas are rapidly gaining
favour with the cruise ship passenger and group tourist. The popularity of the Wallings trail system with
tourist groups in the last few years is evidence of this growing trend. While these developments may
assist in making the maintenance of natural areas a higher priority, they also point to the need to manage
eco-tourism properly and to determine levels of usage that are sustainable. Heavy traffic into sensitive
areas, whether the Wallings forest or the Codrington Lagoon may result in physical or biological
degradation of the site. Simple measures such as walkways, hides and notices about expected behaviour
can assist considerably, but in sensitive areas, wardens and restrictions on numbers or access may be
required. Waste management is another factor that needs to be planned for.
2.1.7.6.
Carrying capacities
As mentioned above, all sites with a biological component have a carrying capacity that, if exceeded,
will lead to the deterioration of the biological resource. Some sites are more fragile and sensitive than
others. Some sites lend themselves to practical and inexpensive measures that can go a long way to
minimising damage and thereby increasing carrying capacities. Some of these were mentioned in the
last section. Buoy moorings for water craft visiting reef sites to fish or observe the wildlife are another
example, since anchors can do significant damage to living coral. At the moment, these concerns are
shared by only a few persons within the environment related institutions such as Environment, Fisheries,
Forestry and some of the NGOs.
2.1.7.7.
Balancing multiple uses
28
The need to find a more equitable balance between competing needs of the Domestic sector and
Agriculture for scarce water resources has already been discussed at some length. Similar conflicts
exist between the tourism development agencies and those dependent either directly or indirectly on
mangrove wetlands, for their livelihood. Wetlands are frequently near to attractive beach systems and
are sought after by developers for siting marinas, hotels and golf courses. Unfortunately, the price of
wetlands land usually does not reflect its importance and value to the protection of fisheries and coastal
erosion, so is often cheap as real estate. How can the true and long term value of wetlands be more
accurately and meaningfully accounted for? This will be difficult until there is a better general
understanding of the wetland's role in coastal protection and health. Perhaps the educational activities of
the various environmental Conventions referred to earlier can help in this regard. Certainly novel ways
need to be found to attach value to environmental assets, so that a better balanced assessment of cost and
benefits can be made.
2.1.7.8.
Revenue generation
At present, there is little scope for generation of revenue to assist in the management and development
of watershed or forest areas. However, with the development of greater opportunities for eco-tourism,
the possibilities for charging user fees has improved. Such practices need to be part of the development
of park and forest reserves, where facilities are provided and use can be regulated.
The Forestry Division has recently begun to provide trail guides in the Wallings area as a regular service
to tour companies offering hiking tours to cruise ship visitors. This type of service could, no doubt, be
expanded in the future. Consideration should also be given to entrance fees for tour companies for use
of facilities such as Wallings, which need maintenance and development. The experiences of the Nation
Park Authority in this regard may be helpful in determining the right approach.
The legal implications of this approach need to be explored as well as measures to reduce any deterrent
to the local population to use such facilities. A better equipped Forestry Division may wish to consider
granting licences or permits for extraction of forest produce, which could also assist in revenue
generation.
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2.2. Management of Coastal and Marine Resources
2.2.1. Coastal Habitats and Ecosystems
2.2.1.1.
Mangroves
Antigua and Barbuda's wetlands and the associated mangrove woodlands, are vital components in the
maintenance of a healthy beach and reef system. Mangrove wetlands provide the transition for
freshwater exiting from the watersheds and its entry to the sea. The four mangrove species found in
Antigua and Barbuda are the Red (Rhizophora mangle), Black (Avicennia germinans), White
(Laguncularia racemosa) and Button (Conocarpus erectus). These four species inhabit different parts of
the wetland habitat and their roots and associated plants retard the flow of silt-laden freshwater,
allowing the silt time to be deposited in the swamp, rather than being washed out into the sea, where it
will settle on coral formations. Coral is particularly sensitive to silt damage and turbid waters support
very much poorer reef communities.
The silt load also brings with it considerable nutrients which feed the mangrove system and make it
biologically very productive. In fact, healthy mangrove wetlands are among the most productive
ecosystems known. This is why mangroves provide such an important habitat for juvenile fish such as
mullet, snapper and mojarras, as well as other predatory fish species
2.2.1.2.
Sea grass
There are extensive areas of sea grass beds in the shallow waters around the coasts of Antigua and
Barbuda. Sea grass communities are generally found in waters up to 20 metres deep. Species lists for
the coastal flora and fauna are not available, but there are three main sea grass species found in the
islands' shallow waters. These are turtle grass (Thalassia testudinum), manatee grass (Syringodium
filiforme) and shoal grass (Halodule wrightii). Calcareous algae such as Halimeda sp. which also are
found among the sea grasses, are believed to be the major source of the white sand found on Antigua
and Barbuda's beaches. These species and other epiphytes provide important feeding grounds, shelter
and breeding areas for juvenile fish, Queen conch, spiny lobster and other marine organisms.
Sea grass beds are important in helping to stabilize loose sand thereby retarding coastal erosion. Also, it
is not often recognised that calcareous algae, which are found among the sea grass, are important
sources of the white sand, which makes our beaches so attractive (Multer, 1988).
2.2.1.3.
Beaches and Sand Bars
The beaches of Antigua and Barbuda are perhaps the most valuable physical asset the country possesses.
There is no doubt that they are the major attraction for many of the tourists whose visits fuel the
economy. They are also a major barrier to the constant force of coastal erosion, which eats away at our
land base. White sand beaches are found in almost all parts of the coast line of Antigua and are
especially well developed on the west coast. In Barbuda, wide sandy beaches stretch uninterrupted for
several miles on the west coast. Considering the low lying nature of the inshore area, this measure of
protection is most important.
30
With growing concern about the effects of increased hurricane damage on these defenses and threats
from sea level rise associated with global warming, the health and maintenance of our beach systems
should be a top priority. Instead, the last decade has seen an escalation of practices which undermine the
very existence of our beach system.
There has been extensive mining of many beaches, especially those on the west coast of Antigua and the
sand deposits of Barbuda. In Barbuda, removal of sand deposits in the Palmetto Sands area has raised
the effective water table by several feet and exposed part of the shallow freshwater aquifer to drying out.
In the Pearns area of Antigua, several smaller less accessible beaches have become rocky shores. At
other beaches, mining combined with storm damage, has caused excessive rates of erosion, fallen trees
marking the inward march of the highwater mark.
2.2.1.4.
Coral Reefs
Coral reefs are a vital habitat for many of the inshore fisheries resources as well as providing habitat for
life stages of many pelagic fish and other marine organisms such as the sea turtles. Antigua and Barbuda
is fortunate in possessing extensive systems of off shore reefs. These were described in Section 1.3.1.
Studies have been made of the reef systems and the state of their health, in the last few years. Some
reports have suggested that there has been significant deterioration and that some reefs are showing
considerable signs of stress (CIDA 1988). Sediment stress has been implicated by some authors for the
absence of elkhorn and star corals in some reefs on the west coast close to dredged areas.
Eutrophication and pollution from sewage discharge are also frequently cited as concerns, despite some
improvement in the standards of maintenance by hotels of their sewage treatment plants.
2.2.2. Exploitation and Use of Coastal Zone Resources
2.2.2.1.
Fishing
The fishing industry in Antigua and Barbuda produces revenues of approximately EC$ 30M, which is
nearly twice that of crop production activities and provides a livelihood for over 600 fisherfolk and their
families. For the most part, fishing is carried out close to shore and fish traps are the dominant method
of harvesting. The main fish caught include the shallow and deeper reef fish as well as Spiny lobster
and conch. Investment is small and technology is limited. Services for fisherfolk are provided by the
Antigua Fisheries Ltd, a statutory body set up to provide cold storage facilities, ice and other inputs, etc.
for the fishing community.
The Fisheries Division of the Ministry of Agriculture, Lands and Fisheries, is expected to provide the
technical resources for management and development of the Fisheries Sector. The Division, comprising
nine professional staff members, provides monitoring of catch and the status of fish populations as well
as training of fishermen and regulation of fishing activities. The Division is also responsible for the
management of the three marine reserves now in existence. Lacking a single vessel, the Division relies
heavily on the Coast Guard, with whom it has a close working relationship, to provide sea transportation
to carry out its various responsibilities.
The Division is concerned about declining catch figures and would like to see fishermen trained and
with the financial resources to make greater use of the further off shore fishing grounds, in order to take
pressure off the near shore areas and allow some rebuilding of fish stocks.
31
There is also significant sport fishing activity, which concentrates primarily on the larger pelagic fish
such as dolphinfish and marlin. The Sport Fishing Association organises regular tournaments.
2.2.2.2.
Sand Mining
Pressure from the construction industry and the lack of suitable alternative sources of building sand, has
resulted in extensive mining of sand from a number of beaches around the island, despite legal
restrictions designed to regulate sand removal. Some beaches have been so badly mined that they are
now no longer beaches but rocky shores. In other places, the removal of sand has threatened to allow
the sea to breach the natural shore line. Given the threats to shorelines from hurricanes and storm
generated swells and surges experienced in the last decade, protection of the beaches from damage by
sand removal is a pressing concern.
Control of beach sand removal is vested in the Public Works Department, which is empowered to issue
permits. However, it has no control over how the removal is carried out and is not able to regulate the
quantities removed. Legal difficulties regarding definitions of beach and other problems remain to be
resolved
Despite many statements by government authorities, that sand mining needs to be controlled, little
seems likely to change until alternative sources of sand for construction are available.
2.2.2.3.
Recreational and Tourism Related
Antigua and Barbuda's beaches have been, perhaps, the major component in the tourism product which
Antigua and Barbuda has to offer the visitor. The abundant seagrass beds and nearshore coral reefs as
well as the shallow slope of the coastal shelf in many parts of the coast have provided the country with
many safe, beautiful white sand beaches. However, hotel development on beach fronts without
adequate setbacks has resulted in beach erosion, leading to a cycle of demand for protective measures
which are likely to compound the problem in the long term.
Tourism related development has had a significant impact on other coastal resources over the last 20
years. Wetlands have been particularly vulnerable to conversion to hotel and marina sites, with
consequent loss of fish habitat and sedimentation protection for offshore reefs. There have also been
concerns about the effects of increased pollution from hotels and the growing concentration of yachts
using the expanded facilities now available in Antigua. The number of tour and dive operators has also
expanded, putting increased pressure on coral reefs from damage by anchors and other physical damage
as well as spear fishing and other demands on the fish population. In addition, demands for fish and
lobster to supply the hotels and restaurants have probably contributed to the pressure on these fisheries
resources. Several beaches are important turtle nesting sites and there is potential for development of
turtle watching as an additional tourist activity, but it would need to be carefully controlled.
2.2.3. Improving Management of Coastal Areas
The management of coastal areas is made difficult by the large number of different stakeholders and
institutions involved in the use of these resources. The Fisheries Division is well placed to provide the
major technical and regulatory functions, provided that mechanisms for input by the various
stakeholders are incorporated when developing management plans, regulations and programmes. The
resources available to the Fisheries Division are minimal and need expansion if it is to be able to carry
out its responsibilities effectively. Considering the importance of the coastal zone in the development of
the tourism sector, adequate finances for proper management of its development and regulation should
be a high priority.
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Public awareness of the importance of coastal ecosystems and how they function is important in
directing public attitudes and opinion regarding development options for tourism and tourist related
infrastructure, as well as the other land based factors such as siltation and pollution that affect coastal
zone health.
The recent frequency and severity of damaging tropical storms and hurricanes has made many more
aware of the fragility and vulnerability of coastal systems and of the need to retain and provide as much
protection as possible. However, the difficulty of costing the negative effects of development that is not
sustainable in the long term, makes taking decisions favourable to long term benefits difficult in the face
of short term financial gain.
2.2.3.1.
Carrying capacities
Mention has already been made of the concerns regarding the gradual depletion of fish stocks through
overfishing. The growing number of tourists using the resources of the coastal zone are also putting
increasing pressure on these resources and care needs to be taken so that they are not degraded. Better
management techniques and practices, use of mooring buoys instead of anchors by tour boats on the
reefs, for example, can help to increase carrying capacity, but in some instances, consideration may be
necessary of limiting usage. Declaration and management of marine reserves is one way of approaching
this problem.
2.2.3.2.
Balancing competing uses
This problem is really the other side of the problem discussed above and requires a good understanding
of the demands made by competing uses on the same resource, as well as the benefits, both financial and
social, relative to particular uses of a resource. Beaches are important for tourism, for local health and
recreation and for coastal protection. How should the competing use for building sand be balanced off
against these other functions?
2.2.3.3.
Monitoring and Regulation
Monitoring and regulation of the use of these resources is obviously going to become more important as
the demands on these coastal resources becomes greater. The Fisheries Division is well placed to
provide these functions, but will need additional resources if it is to provide an adequate service.
2.2.3.4.
Revenue generation
At the moment, coastal resources are considered a common property available to all, more or less
without restriction. Given the discussion in the above sections, this position may need to change in the
future and some restrictions on use may need to be introduced as in the case of the Marine Reserves.
This opens up the possibility of use being on a controlled basis perhaps regulated by issuance of licences
or payment of a user fee. As with land based facilities for tours and tourist groups, it may be feasible to
charge tour operators for use of a reef to help provide for maintenance of the facilities, such as mooring
buoys. Such measures may well be resisted at first, but if introduced carefully and with adequate public
information and explanation could possibly be accepted.
33
3. Common Management Issues
3.1. Land Use Planning and Development Control
The Development Control Authority has authority to regulate built development through the Land
Development and Control Act (#15 of 1977), which provides for the granting or refusing of permission
to develop land. Further, there are a number of legal instruments used to manage the upper watershed,
prime among them being the Forestry ordinance (Cap 99, 1941) which provides for the establishment of
forest reserves, the granting of permits for harvesting forest produce, forest clearing etc. Apart from the
prohibition of forest clearing on steep slopes, the regulations of the Forest Law are almost completely
ignored and exploitation for fuel wood and charcoal on both government and private lands is virtually
uncontrolled. The Forestry Division of the Ministry of Agriculture does not have the manpower to
enforce these ordinances, even if there was a policy to do so.
There is no single authority which has watershed management as its mandate, and many institutions
have some responsibilities for coastal zone management. State lands for agriculture are allocated by the
Extension Division of the Ministry of Agriculture. Parcels of more than 2 hectares are handled by the
Lands Division of the same Ministry. Record keeping is antiquated at best and frequent disputes arise
as to who has been allocated, what land.
At present, Antigua and Barbuda has no physical development plan to guide land use decisions in the
country. A draft plan is now under intense discussion. The development and adoption of such a plan
would help determine the way in which competing uses for the same land could be resolved in a rational
way.
3.2. Pollution and Health Issues
In the last ten years, considerable effort has been made to better manage and control the disposal of solid
waste in Antigua. All solid waste is now disposed of at a single, managed, disposal site, at Cooks, and
other dumps around the island have been closed. This does not mean that unofficial dumping has been
eliminated, but a significant proportion of solid waste is being disposed of at a managed site where some
aspects of sanitary landfill practices are employed. The rate of growth of the site and the proximity to a
major wetland area at the mouth of the Creekside watershed are some cause for concern, however.
Movement of leachates from the dump site could pose a potential problem for pollution of both the
wetland and the coastal area adjacent and the situation needs to be carefully monitored. There are still
no proper provisions for the handling of toxic chemicals or biologically hazardous materials.
Management of sewage and other liquid wastes is still a serious problem, especially in St. John's, where
there is urgent need to provide a proper sewerage system to replace the present system of septic tanks.
With the population density of St. John's growing daily, the soil is incapable of handling the volume of
septic tank effluent produced and the presence of these effluents at the surface, is evident in many parts
of the city. Much of it drains directly into the St. John's harbour, where the water is severely polluted.
Recently, there has been greater recognition of the need for better management of these liquid wastes,
but the financial resources needed for a sewerage system may take some effort and time to find.
There is considerable pressure on hotels in the post-Rio environment to display greater environmental
awareness and to conform their practices with environmentally correct principles. Perhaps as a result of
34
this, most of the larger hotels have invested in their own sewage treatment plants, which reduce the
health hazards of the resulting effluent. In addition, some of the larger developments have an integrated
system, such as at Jolly Harbour, where treated sewage waters are used for irrigation of adjacent grounds
and golf course. Open air ponds help improve the final quality of water for irrigation, provide habitat
for fish and add to the aesthetic appeal of the development. It is important that these systems continue
to operate to a high standard, or adverse effects may arise. The Central Board of Health provided
training for the operators of these systems some time ago, but this needs to be repeated on a regular basis
to keep up with new entrants to the system.
Currently the CBH has no regular programme of monitoring the operation of these systems, but it plans
to introduce a system of monitoring and reporting for the operators of these systems. This will provide
more time for CBH personnel to focus on the problem areas. CBH has recently created and filled a new
position in the CBH to manage this programme.
Most domestic premises utilize septic tank systems to provide primary treatment of sewage. However,
apart from the problems already cited for St. John's, there is little monitoring of building practices by the
DCA, so it is probable that many tanks are not properly constructed and in certain areas, this could lead
to contamination of streams or groundwater through overflow or runoff.
Another general problem concerning sewage treatment is the disposal of bio-solid waste from
package plants and domestic septic tanks. At the moment this is disposed of in a special area of the
Cooks Disposal site. This poses a potential hazard, whereas alternative handling could turn this
waste into a useful bi-fertilizer or soil ameliorant. Research is needed at a regional level to develop
practical ways of utilizing this organic resource.
Antigua and Barbuda is not a heavily industrialised country and manufacturing is confined to paint
production, appliance assembly and light engineering activities. There is therefore relatively low
potential for pollution from industrial materials. The major sources of pollution are associated with
agriculture, food and beverage processing and disposal of wastes, both liquid and solid.
Agricultural chemicals such as pesticides, herbicides and fertilizers are widely used in agricultural
production. In some areas, agricultural production is carried out adjacent to surface water storage
facilities and given the shortness of even the main watersheds, distances between most agricultural
activity and water storage facilities are quite small, giving rise to concerns about possible contamination
of the water sources, through chemical wash or percolation. The possibility is increased during heavy
runoff. There has been at least one incidence of a fish kill at Potworks Reservoir, the cause of which
was not confirmed, but agro-chemical poisoning was strongly suspected. Domestic water supplies are
routinely monitored for biological contamination before distribution, but no monitoring of chemical
contamination is carried out and facilities for such analyses in the APUA or elsewhere are inadequate.
Responsibility for importation and conditions for use of agricultural and domestic pesticides rests with
the Pesticides Control Board, which was set up under the Pesticides Control Act (1973). However, the
provisions of the act are rather limited and have not been fully enforced. A new act has been drawn up
with the assistance of the OECS NRMU and is currently awaiting approval of the Legal Affairs
Department for consideration by Parliament. The new act encompasses control of both pesticides and
other toxic substances and would give the Board powers and responsibilities to register companies
dealing in toxic substances, approve pesticides for importation and monitor use of such substances.
The Ministry of Agriculture is aware of the dangers associated with agricultural pesticides and has
devoted considerable resources to training farmers through the Plant Protection Unit and Extension
Division to adopt integrated pest management practices which minimise pest use. It has also utilized
35
external funds to promote use of biopesticides such as neem, in an effort to reduce the risks associated
with chemical use.
The Central Board of Health is responsible for public health issues and has collaborated with the
Ministry of Agriculture in activities such as Pesticide Awareness Week, where the dangers of chemical
pesticides are highlighted and training in proper safety precautions is provided to the public along with
suggestions for safer alternatives.
However, there is still no proper storage facility for disposal of toxic substances, either chemical or
biologically hazardous waste and this poses problems for disposal of out of date chemicals.
Disposal of solid waste is handled by the newly created National Solid Waste Management Authority at
a central disposal site at Cooks. This does not operate fully as a sanitary landfill, although this is
planned to come on stream in the near future. The site is very close to a major mangrove wetland area at
the mouth of the Creekside watershed. There are concerns about possible leakage of toxic leachates
from this site into the estuary, especially during periods of heavy rainfall. Recently, disposal of cruise
ship wastes, under the MARPOL agreement, has become an added responsibility of the NSWMA. A
new site, adjacent to the present one, is in the planning stages. This will incorporate a properly lined site
with separate treatment for hazardous wastes such as toxic substances and bio- hazards such as hospital
waste.
Testing of inshore coastal waters near some of the heavily used beaches has been carried out over
several years by the CBH. Results have not been reported publicly, but some concerns were expressed
regarding levels of fecal bacteria in waters off some beaches. However, recent testing has indicated that
the waters are at acceptable international standards.
3.3. National Parks and Protected Areas
Antigua and Barbuda has one national park. The National Parks Act of 1984 established one park, the
Nelsons Dockyard National Park. The NDNP occupies over 3,000 ha or 8 percent of Antigua's land
mass and has both terrestrial and marine components. The major focus of the National Parks Authority,
which was set up to manage the park, is to create a world class tourism destination based on the
historical and natural resources in the Park area. Major activities so far have concentrated on the
upgrading of basic infrastructure, building an interpretation centre, revamping the dockyard museum
and some stabilization of the historical structures. There has been very little emphasis on management
of the biological resources, either terrestrial or marine, though an early development plan called for a
land use plan, natural resources inventory, and an archeological survey.
There are two marine parks, one in Antigua and the other in Barbuda. Diamond Reef Marine Park (also
called Salt Fish Tail Marine Park) was established in 1973 under the provisions of the Marine Areas,
Preservation and Enhancement Act (No 5 of 1972). The 2000 hectare park is located off the north-west
coast of Antigua. Palaster Reef Marine Park was established at the same time as Diamond Reef and is
located off the southern tip of Barbuda. It occupies 500 hectares. Neither park is presently administered
or managed as a protected area, but arrangements are now being made to demarcate the two areas.
Cades Bay Marine Reserve was established in March 1999 and includes the marine and wetlands areas
associated with the Cades Reef system. The Act establishing the reserve gives the Fisheries Division
36
powers to demarcate certain areas where fishing or other activities would be restricted or prohibited
altogether.
Two areas were proclaimed as Public Parks under the Public Parks Ordinance (No. 4 of 1965). One
area in Falmouth/English Harbour is now part of the NDNP, although the National Parks Act makes no
mention of its existence. The other is a 47 hectare area in the Long Bay/Indian Town Creek area. It
receives no special management or protection, so exists as a park only in name.
There are also forest reserve areas, established under the Forest Ordinance (Cap. 99, 1941) and the
Forestry Regulations (SRO No. 13, 1941 & SRO No. 42, 1952, consolidated). However, these
regulations are not effective and therefore offer no protection. Under the proposed Forest and Wildlife
Act, presently under discussion, more effective powers would be assigned to the Forestry Division to
enable them to manage such reserves.
3.4. Institutional Framework
3.4.1. Legal Framework
There are some forty six pieces of legislation governing the management of water resources, watersheds
and coastal zone management or other aspects of the environment (Lausche, 1986). Some of these have
been referred to already. The listing of key pieces of legislation is provided in Table 3.1.
It is clear that most of the legislation is outdated and does not reflect more current standards for natural
resources management. Particular deficiencies exist in relation to management responsibilities for
watersheds, proper protection of biodiversity, clearly enforceable laws regarding the issuing of permits
and supervision of mining of any sort, especially sand. In addition, the laws need to be assembled in
some more coherent manner rather than being scattered throughout the law books. Environmental
impact assessments for development projects involving dredging, shoreline or marine construction,
removal of mangroves, and large scale land clearing of any sort should be made legal requirements.
3.4.2. Institutional Framework
A large number of institutions are involved in activities associated with watersheds, water harvesting
and treatment and with the marine and coastal zone. These institutions include government ministries,
statutory bodies, NGO's and community groups. Some of the more important are described below.
The Ministry of Agriculture, Lands and Fisheries. This ministry has the broadest and oldest
involvement with land and marine based natural resources. It is staffed with well qualified professionals
in many areas, but frequently lacks the basic equipment and supplies to do an effective job. Professional
staff are often not adequately provided with support staff having adequate training. The technical
activities of the Ministry come under the direction of the Director of Agriculture, who heads the
Department of Agriculture.
37
The Fisheries Division has responsibility for development of the fisheries sub-sector, monitoring fish
stocks and marine resources, as well as a regulatory role in policing fishing practices. The Division is
given powers under the Marine Areas Act (1972), to restrict fishing in certain areas and to preserve
habitats, flora and fauna, natural beauty or shipwrecks in marine areas. These powers however, have not
been exercised to any large extent due to inadequate resources.
The Forestry Division has responsibility for managing the country's forest and woodland areas and
theoretically for reforestation. However, the Division is seriously under staffed and under budgeted,
which makes it impractical to attempt any significant forestry development activities. In recent years,
the Forestry Division has taken on activities more related to biodiversity conservation and to eco-
tourism development, reflecting a more environmentally conscious thrust from the newly trained staff.
Forest officers now regularly lead groups of cruise ship passengers on forest hikes. The Division has
also been restricted in its work by the lack of adequate legislation to support its activities.
Table 3.1 Key legislation with relevance to water resources and coastal zone management. (After
Lausche, 1986)
Relevant Area
Law
Land Use
Town and Country Act (Cap 278, 1948)
Town and Country Planning Regulations (SRO No. 24, 1953)
Land Development and Control Act (No. 15 of 1977)
Antigua Agricultural Development Corporation Act No. 11 of 1978
Crown Lands (Regulation) Act (Cap 130, 1917)
The Crown Lands (Land Settlement ) Regulations (SRO No. 24, 1930)
Agriculture
The PesticidesControl Act (No 15 of 1973)
The Plant Protection Act (Cap 102)
Forestry
Forestry Act (Cap 99, 1941)
Forestry Regulations (SRO No. 13, 1941 and SRO No. 42, 1952)
The Bush Fires Act (Cap 62, 1901)
Bush Fires Act (Cap 303)
Water
The Public Utilities Act (No. 10 of 1973)
Watercourses and Water Works Regulations (SRO 23, 1954 and SRO No. 24 of 1961)
Beaches
Beach Control Act (Cap. 297, 1959)
Beach Protection (Cap. 298, 1957)
Beach Protection (Ammendment) Act (No. 1, 1968
Marine
The Fisheries Act (No. 14, 1983)
Fisheries (Protection of Lobster) Regulations (SRO No. 3, 1978)
Turtle Ordinance (Cap. 333, 1927)
Maritime Areas Act (No. 23 of 1986) (formerly Territorial Waters Act)
Fisheries Regulations (No. 10, 1990)
Wildlife
Wild Birds Protection Act (Cap 115, 1919
Protection of Animals Act (Cap 113)
Protected Areas The National Parks Act (No. 11 of 1984)
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National Parks (Ammendment) Act (No. 3 of 1986)
The Marine Areas (Preservation and Enhancement) Act (No. 5 of 1972)
The Marine Areas (Preservation and Enhancement) Regulations (SRO No. 25, 1973)
The Marine (Restricted Areas) Order (SRO No. 47, 1973)
Waste
Dumping at Sea Act (No. 29 of 1975)
Management
Public Health Act (Cap No. 236, 1957) and various regulations
The Litter Act (No. 7 of 1983)
The Litter (Fixed Penalty Procedure) Regulations (SRO No. 41, 1984) (and
Ammendment Regulations of 1985)
The Soil and Water Conservation Unit has responsibility for the soil conservation programme activity
within the Ministry. It also assists farmers with development of irrigation systems, primarily in the area
of mini-dam cleaning, repair and construction and in improving drainage. The two, well qualified,
professional staff have only a small budget and workforce, so soil conservation programmes are very
limited.
The Plant Protection Unit has responsibility for plant protection recommendations and provides pest
scouting in the field for crops such as cotton. The Plant Protection Unit also has responsibilities for
Plant Quarantine functions at the Ports of Entry.
The Veterinary and Livestock Division is headed by the Chief Veterinary Officer whose staff are
concerned with both animal health and animal production issues. Animal quarantine matters are also
the responsibility of the Chief Veterinary Officer. Animal production concerns include assistance with
pasture improvement activities.
The Pesticides Control Board has responsibility for approving the importation, use and disposal of all
pesticides used in domestic, animal and plant protection. The Board is composed of professionals in the
Ministries of Agriculture and Health, including the Director of Agriculture and the Chief Medical
Officer and representatives of the agrochemicals importers. Despite its existence since 1978, the Board
has not been very effective and farmers and others have until recently imported whatever chemicals they
thought effective. Recently, there has been a renewed attempt to work with Customs officials to be
more alert to the requirements of the Pesticides Control Act. In addition, a new Act is in the final stages
of preparation, which would reconstitute the Board as a Pesticides and Toxic chemicals Board with
wider responsibilities including non-agriculture related chemicals and powers to licence and regulate
commercial activity in this area.
The Lands Division is responsible for the management and control of all Government lands, including
land reclamation, land use and the sub-division of land. Since a little less than half of the land is
government owned, this Division has a key role in determining the conversion of land to non-
agricultural uses. The Division is responsible directly to the Permanent Secretary.
The Extension Division has the major responsibility for farmer training and assistance and is also
involved with allocation of state lands to farmers for agricultural purposes. Plots of up to 2 hectares
(5acres) can be leased out under the authority of the Chief Extension Officer. The Extension Division
is also responsible for control of stray cattle and provides land tillage services.
39
The Development Control Authority has responsibility for regulating the use and development of
land for urban, economic and infrastructural development. The DCA currently is administered out of
the Prime Ministers office, where a junior minister has responsibility for the DCA, Urban Renewal and
public information. The DCA is currently in the final stages of developing a physical development plan
for the country, which, if adopted and followed, could have significant implications for the management
of both watersheds and the coastal zone.
The DCA is in the process of developing a GIS database of maps for the country and has been
collaborating with the Environment Division and other Ministries regarding inclusion of environmental
information. Limited resources to input digitized information has restricted the use of this system.
The Ministry of Tourism and the Environment was reorganized after the elections of 1999 when the
Environment Unit was upgraded to a full Division of the Ministry and the number of trained staff has
been significantly increased. It is evident that under the new arrangements, the Environment Division is
going to play a more significant role in dealing with matters affecting the environment. This is being
assisted by the resources being made available through the several environment related international
conventions, which are now actively preparing studies and action plans. (See this section). There is
increasing recognition of the role that the environment can play in developing the tourism product and
the need to consider the natural heritage as a tourism resource.
Ministry of Planning, Implementation and Public Service Affairs This Ministry was also largely
reorganized after the 1999 election and its role is now evolving. It is expected that the Ministry will
provide the lead in integration of planning activities and will hopefully provide one mechanism to deal
with overlapping responsibilities of different ministries. The Ministry is currently conducting a sectoral
planning exercise with the objective of developing a national sustainable development plan. The
Ministry also houses the Statistics Division, which is responsible for gathering and developing national
statistical information.
Ministry of Public Utilities: This Ministry has responsibility for the Antigua Public Utilities Authority,
a statutory body consisting of Electricity, Water and Telephones Divisions, which was set up under the
Public Utilities Act in 1973. The Water Division has legal control over all water resources in the
country and is mandated to provide supplies of water to meet the municipal needs of the country.
However, agricultural needs are not dealt with under the Act and are therefore not officially part of its
remit. The Water Division has made some concessions to agricultural water needs but there has been
no active development of water supplies specifically for agriculture by the Authority. At times of
drought, wells and reservoirs have been utilized for municipal supplies to the detriment of agricultural
needs.
As mentioned in Section 3.1.3., there has been considerable expansion of water production in recent
years with the commissioning of the desalination plants at Crabbs, which has eased the critical state of
water supply in times of drought. However, little or no development of freshwater storage has been
undertaken since the opening of Potworks Reservoir in 1969. A number of new wells have been dug in
various aquifers, usually as a response to a drought situation. There is a Planning and Development
40
section of the Division which is responsible for hydrological studies, planning and digging of wells and
building of dams. A water development plan that encompasses both municipal and agricultural needs
does not appear to exist. Furthermore, the Water Division has no mandate or resources to manage the
watersheds which supply the water it depends on. APUA does not operate any meteorological or
gauging stations to collect data on rainfall, evaporation or streamflow at times of flood.
The Water Division is responsible for water quality testing and routinely tests water for residual chlorine
levels and sediment.
The APUA operates a GIS facility and has a detailed set of digitised maps of Antigua and Barbuda
Ministry of Public Works and Communications: Public Works is a Department of this Ministry and is
responsible for roads and drainage structures throughout the country. As such, the Department can have
considerable influence on sedimentation management as part of road construction and maintenance and
the management of flood waters. The Director of Public Works is also responsible for the enforcement
of the Beach Protection Act, which is supposed to prevent the unauthorized removal of material from
beaches or foreshores and for granting permits where permission is approved.
Other Ministries A number of other ministries are also involved to some extent in development,
training or regulation of environment related matters that affect watershed or coastal regions. In fact, in
such small land masses, almost any land based activity has the potential to affect one facet or the other.
The Ministry of Health and Social Improvement The Central Board of Health (CBH) falls under the
administration of this ministry and is responsible, among other things, for enforcement of the
environmental sanitation regulations, preventing the spread of infectious diseases, operating a mosquito
control programme and for the handling of liquid and solid waste. The practical aspects of solid waste
management have recently been transferred to the National Solid Waste Management Authority
(NSWMA). The NSWMA was set up as part of a sub-regional programme to improve management of
solid waste in the OECS and to provide facilities for the disposal on-shore of the growing amount of
cruise ship generated waste as required under the MARPOL agreement. Theoretically, this leaves the
CBH free to provide the regulatory role more effectively.
The CBH has also undertaken a programme of monitoring water quality at several of the main beaches
around the island. Details of analyses are not published but do provide the possibility to the authorities
to detect problems of water pollution at an early stage.
The Ministry of Education, Culture and Technology has the primary responsibility for education and
training of children and young persons in basic and technical courses. As such, it plays a major role in
influencing the knowledge and attitudes of persons in their formative years. There has been
considerable effort to strengthen the curriculum in its treatment of the environment as a result of the
growing recognition of its importance to the sustainable development of the country. This has also been
evident in the focus of science fairs, essay competitions and other school based activity. More recently,
the need for more direct training of primary school teachers during their teacher training has been
recognised. Many of these needs were recognised over ten years ago (Hill, 1988)
Environment Related International Conventions
41
Since the Rio Convention on the Environment in 1992, which resulted in the adoption of several
International Conventions on aspects of the Environment, there has been a steady growth of planning
and enabling activities required by these conventions, which have broadened and strengthened the
discussion and thought on environmental matters. Most of the conventions have concerns and plans of
action, which have significance for watershed and coastal zone management.
Convention on Biological Diversity (CBD)
The CBD enabling activities are managed out of the Prime Minister's office. The major initial activity
has been the production of a draft Plan of Action. The plan has highlighted the biological diversity that
is currently existing in the Country and has proposed a programme of action to study, protect and
conserve this biodiversity, while at the same time identifying opportunities to exploit such diversity in a
sustainable way. Antigua's forests, wetlands and reefs form a dynamic repository of this resource.
Framework Convention on Climate Change
The Convention on Climate Change seeks to inform and prepare signatory countries for the likely
consequences of global warming and sea level rise, so that, as far as possible, countries can prepare for it
and take it into account in their planning. The worst effects are expected in coastal areas, where both
sea level rise and the damaging effects of more frequent and more intense storms will be experienced.
Watersheds and water resources are likely also to be affected by the more intense rains and droughts,
causing accelerated erosion, flooding and species loss due to the more severe droughts which are
expected. Management systems will need to be improved in order to prepare better for these
eventualities.
Convention to Combat Desertification and Land Degradation
This convention focuses on the reversal of processes which, in many parts of the world, are leading to
the creation of desert where there was none before. While desertification is an extreme scenario for
Caribbean countries, many have experienced extensive land degradation due to deforestation of
mountain slopes, leading to accelerated erosion and severe topsoil loss. This convention is coordinated
within the Ministry of Agriculture, where experience with soil conservation and land management
resides.
It is important that the several action plans being made under these various conventions be properly
coordinated, so that best use of limited resources can be effected.
Non Governmental and Community Based Organizations
Non-Governmental Organizations (NGOs) have played an important role in the last ten years or so in
drawing public attention to a number of important environmental issues, such as sand mining, solid
waste management and the destruction of wetlands. The Environmental Awareness Group (EAG) has
consistently raised issues of sustainable natural resource management. Many civic and community
groups have participated in tree planting and beach clean up activities.
42
More recently the EAG has become involved in efforts to improve community management of coastal
natural resources, providing training to stakeholders in practices that conserve reefs, off-shore island
ecosystems and mangrove wetlands.
NGOs have also been active in improving education of teachers and students with respect to
environmental matters including coastal issues. In general, the management and protection of
watersheds has not been much emphasised. The Gilbert Agricultural and Rural Development Centre
(GARDC) has also conducted courses in agriculture and rural crafts that emphasize the need for
sustainable practices and effects of polluting chemicals.
3.4.2.1.
Inter-agency Collaboration
Given the large number of institutions involved in some way or another in watersheds and coastal zones,
collaboration among these organizations and institutions is necessary and important, if conflict and
competition is to be minimised. At the moment there are very few formal attempts to provide this
collaboration, most of which takes place either informally at a personal level or ad hoc through special
meetings or workshops dealing with specific problems. More recently, activities associated with the
various environment related conventions, such as biodiversity and climate change have provided
opportunities and resources for inter-ministerial and inter-agency discussions surrounding their proposed
plans of action and the government has set up a coordinating committee of these conventions which
meets every few months.
With respect to the management of watersheds, a properly constituted Water Resources Board could
provide a considerable degree of coordination among agencies such as APUA, Forestry and Soil and
Water Divisions, as well as other stakeholders. The Fisheries Advisory Committee, established under
the Fisheries Act, was intended to provide coordination and a broader input into the programme of the
Fisheries Division, but it is not presently functioning and Fisheries staff are equivocal about its ability to
function effectively. They prefer to see these aspects of collaboration and coordination tackled on a
issue or problem basis, as this seems to provide a better chance for effective discussion and decision
making to take place. At the moment, both Forestry and Fisheries Divisions seem to have a relatively
good record of working with other government agencies, NGOs and community groups.
Nevertheless, weaknesses are apparent with respect to inter-ministerial collaboration. The involvement
of the DCA, Ministry of Public Works and Communications, Ministry of Public Utilities/APUA and
Ministry of Planning in discussions about water and coastal zone resources management issues has, in
general, not been very consistent or effective.
3.4.2.2.
Stakeholder Participation, Training and Awareness
It is now recognised that the active participation of all stakeholders is needed in planning and decision
making activities dealing with natural resources. This has been emphasised by the planning activities of
the environment related conventions referred to above. Difficulties are encountered, however, in many
areas of natural resources management due to the absence of strong or effective commodity or
community organizations, who can represent the views and concerns of farmers, livestock owners,
fisherfolk and other users of forest or marine resources.
This weakness is recognised by both the Fisheries Department and institutions such as the Extension
Division of the Ministry of Agriculture. Resources are now being directed more actively towards
43
encouraging formation of cooperatives or even informal groupings of farmers and fisherfolk at the
community level or around a particular commodity. Certain NGO's such as the Environmental
Awareness Group have also been active in this regard.
Such associations are also helpful in managing training activities amongst farmers and fisherfolk. The
Ministry of Agriculture has active training programmes for farmers through the Extension Division and
this training has covered topics of importance to watershed management, such as pesticide use and
handling as well as safer pest management methods based on integrated pest management principles.
Training in soil and water conservation as well as in use of drip irrigation techniques which conserve
water, has also been provided. The Fisheries Division is also involved in training fisherfolk about better
and more effective fishing techniques, navigation and outboard engine maintenance.
Given the large number of individuals involved in farming and fishing, it is a difficult task to provide
adequate training to all who need it. It is important therefore to make the best use of limited resources
and to find ways and utilize modern technology to reach as many persons as possible with the limited
resources available.
3.4.2.3.
Community Management of Natural Resources
It is also becoming recognised that communities of farmers or fisherfolk have a key role to play in the
management of the natural resources that they depend on for their livelihood. The role of government
agencies then needs to be redefined more towards providing these communities with the resources and
training in management skills as well as the monitoring role to make sure that the management is
effective and abiding by the pertinent regulations and laws. This will not happen quickly, but the
intention needs to be taken into account in setting up management structures.
3.5. Climate Change and Natural Disasters
While the debate still continues as to how much the global climate has actually changed already, the
Caribbean has certainly seen many of the predictions about global warming taking place. In particular,
the predictions relating to increased numbers and severity of tropical storms has been very vividly
experienced over the last ten years with the passage of five hurricanes and several tropical storms.
While the majority of hurricanes, especially Hurricane Luis in 1995, which caused major damage to
homes and the country's infrastructure, have emphasised the need for better designed and constructed
buildings and other infrastructure, the damage to land and coastal ecosystems was more evident with the
torrential rains and heavy swells associated with Hurricane Lenny, where coastal roads were breached,
roads were blocked with landslides and ghauts became raging torrents of water and sediment sufficient
to completely change the land form in some valleys.
Antigua experienced over 250 landslides during the passage of Hurricane Lenny, most of these started
on the steepest slopes and carried soil, rocks and vegetation with them. They emphasised the
importance of good vegetative cover in controlling land slippage, as in most cases slides occurred where
vegetation was sparse or scrubby.
More intense rainfall will lead to soil loss in sheet and gully erosion especially on the upper watershed
regions. This effect will be exacerbated by severe droughts, which lead to loss of vegetative cover prior
44
to intense rains. The resulting silt load will reduce reservoir capacity and when flood waters reach the
coast, if the wetland systems are inadequate to cope with the load, the silt will be washed into the sea
and cause damage to sea grass and coral formations. These coastal systems will already have been
stressed by the violent seas associated with these storms. The damaging effects are thus compounded.
Hurricanes also cause extensive damage to the plant and animal life and respective ecosystems of
watersheds and in the costal zone. Aside from the direct damage caused by high winds and flooding, the
storm surges associated with hurricanes cause extensive damage to fishing ports and facilities and to
resort or other facilities situated near beaches. Excessive beach erosion caused by these storms would
seriously affect all associated ecosystems. Drought also damages the mangroves and makes them less
able to cope with these other stresses.
Development practices have also contributed to threats to life and property by ignoring the official
setbacks for construction and building solid structures within the active beach zone, which accelerates
coastal erosion and the damage to property in times of heavy seas. It has also lead to the construction of
protective structures, which often accelerate the erosive forces. The indiscriminate mining of beach
sand for the construction industry has resulted in severe beach erosion and in loss of protective
vegetation. Dredging in some areas to provide access to shore facilities has led to coastal erosion in
nearby areas during tropical storms
Sea level rise, outside of surges associated with tropical storms, has not yet been a significant factor in
the coastal zone. However, all the problems discussed above will be made worse by any increase in sea
level. It will also threaten the extensive tourism, energy, transport and communication infrastructure
and human settlements, which are concentrated in the coastal zone.
Water resources may also be affected if rising sea levels cause significant intrusion of sea water behind
current shore lines as this is likely to increase salinity problems in the groundwater supplies close to the
coast. These effects may be particularly severe in Barbuda, where the major fresh water resources are
very low lying and close to the coast.
Antigua and Barbuda are also subject to regular drought years when the already deficient rainfall may be
further reduced to as low as 60% of the annual average. Apart from some predictive capability now
available due to a better understanding of the El Nino weather phenomenon with which our drought
periods are associated, little can be done until the natural water resources are better developed and
managed.
Oil spills and other forms of pollution are also a threat, primarily to the coastal zone. Apart from the
regional response mechanism, there are no contingency plans or equipment available. A recent incident
with a super tanker, which ran aground off Antigua's west coast, has also revealed the need for adequate
legislation to cover such kinds of damage.
Because of the frequency of major tropical weather systems (hurricane and tropical storms) over the past
ten years, of necessity, the National Office of Disaster Services has had to concentrate on post disaster
response to hurricane victims, and reduction of the impact of these events on human settlement. Until
recently it had not addressed prevention of the secondary impacts resulting from compromised natural
resources, such as landslides, on human settlements. Consequently, it has not been charged with any role
that relates to prediction and early warning systems as mitigation measures. Because of the close
proximity of some urban developments to threatened coastal sites, disaster preparedness measures for
these areas will become more important in the future.
45
3.6. Data, Information Support and Research
Many of the issues and problems raised in preceding sections have been described in generalities as
there is a lack of accurate and detailed information about the status of many aspects of both watershed
and coastal zones in Antigua and Barbuda.
For the watersheds, baseline data regarding vegetative cover and land use or extraction of forest
products, behaviour of water on the major watersheds, streams flows during periods of precipitation, the
exact location and extent of ground water resources and their quality, is minimal or non-existent.
Official precipitation information is now collected only at the Meteorological Services station at the
V.C. Bird Airport. APUA does not collect any information on rainfall at any of its installations. The
Ministry of Agriculture collects data from one or two additional locations and there are one or two
private weather stations that supply information. This is totally inadequate for gaining proper
information about watershed behaviour or for predictive purposes.
Accurate information regarding pesticide levels present in vegetation and soils or groundwaters in the
major watersheds is also unknown. If incidents occur where toxic substances are suspected to be
responsible, no baseline data for water, vegetation or marine life is available to compare with any
samples taken at the site of the incident. Domestic water is not regularly monitored for chemical toxins
or contaminants.
A similar situation exists for management of coastal areas. Besides the monitoring of waters close to six
of the main tourist beaches by the CBH, for fecal contamination, there is no routine testing of marine or
wetlands waters for pollution monitoring. Neither is the output of hotel sewage systems routinely
checked.
Within the Ministry of Agriculture there is limited computerised mapping capability. The Fisheries
Division operates a GIS system and has GPS equipment for its own use, but Forestry and Soil and Water
do not have working systems yet. The Lands and Extension Divisions are still completely manual.
Elsewhere, both DCA and APUA have their own GIS capability, including soils and land use
information, but resources for printing maps are restricted. An attempt by the Environment Division to
provide computing hardware, software and training in database management so that environmental
information could be mapped and archived resulted in the distribution of a number of computers, but the
training and database aspects have not yet been provided. Apart from this attempt to make data more
accessible between ministries, there has been very little attention to the need for exchange of even the
limited existing information.
The environment conventions, particularly the biodiversity and climate change conventions have
resulted in some useful data collection and collation of information from many disaggregated sources
into single documents.
Research capability in the Ministry of Agriculture is limited more by lack of resources for equipment
and supplies than by manpower. For the most part, well trained staff are available, although, often, their
diverse responsibilities and frequent need to travel out of the country on official business, make
supervision of some types of research project difficult. Generally there is access to reasonable library
resources and access to the internet has improved considerably in the last couple of years. Many staff
members have their own computers and personal internet access, which they use for work related
information access.
46
4. Integrating Watershed and Coastal Zone Management
4.1. Problem Description
Integrating the management of watersheds and coastal areas is considered necessary in small island
developing states such as those of the Eastern Caribbean, because the small geographical scale of the
islands makes both areas very interdependent. In particular, activities carried out in the watersheds are
likely to affect the wetlands and reef systems downstream, because of their close proximity to each
other. If lands are allowed to degrade through fires or overgrazing, the resulting erosion of exposed soil
will inevitably add to the silt load being carried out to sea at times of flood, reducing coral growth and
reef health. Similarly, pesticides or toxic waste, used or dumped on the land, may be washed into the
streams and carried to the sea, where marine organisms may be affected. Many other examples of this
linkage could be cited.
Despite the critical importance of water and the coastal resources to the economy of the country, very
little attention has been paid, or resources devoted to managing either of these resources. This situation
probably results from a number of different factors, which are outlined below.
4.1.1. Lack of Awareness
Most people do not have much understanding about watersheds and how they function. The effects of
deforestation or burning of vegetation on water supply are not immediate and obvious for everyone to
see. When floods occur, it is not possible for most people to connect this event with land clearing that is
separated both in time and distance from the result. The difference in behaviour of a forest covered
hillside and one covered only in scrub or grass may be noticeable if the clearing takes place over a short
period of time and is promptly followed by heavy rain, however, if, as is more often the case, the
degradation is gradual, the connection between cause and effect is obscured.
Similarly, the connection between a forest covered hillside and the recharge of groundwater supplies is
very difficult to make, especially when adequate data to measure rainfall and groundwater resources is
not available.
Effects on the marine environment are often more difficult to observe. Unless a person is a diver, who
visits a particular reef regularly over a period of time, gradual changes are difficult to detect. Even then,
the connection with events occurring in the hillsides, several kilometres away will not be obvious.
Sudden changes, such as damage following tropical storms are more dramatic and immediate, so the
connection is easy to make.
While these observations may apply to the general public and even to many stakeholders, they may well
be true for some non-technical decision makers in ministries and government agencies, who often are
not familiar with either forest areas or the marine environment. Low levels of awareness will result in
low priority being attached to such matters, even where the end result, such as water shortages and
declining fisheries resources are quite important to the economy of the country.
47
4.1.2. Weak Policy Framework
Discussion in previous sections has alluded to the absence or weakness of policies to guide development
and management of water resources, watersheds and the coastal zone. It is difficult to manage a
resource effectively in the absence of a clearly defined policy, especially where the resource is used by a
large number of different stakeholders, whose needs must all be taken into account. A long term
approach is also necessary in managing natural resources, as biological processes take some time to take
effect. A reforestation programme, for instance, will take almost a decade before its effects will begin to
be significant.
Weaknesses in this area are not confined to natural resources management and are to be found in other
sectors of the economy. They have more to do with the general approach to management and style of
government. However, in the case of natural resources, lack of action usually results in changes that can
not be reversed, or only at great expense.
4.1.3. Division of Responsibilities
The management of Antigua's coastal areas involves a large number of government departments and
agencies as well as different groups of stakeholders. When watersheds are included, the list is even
larger. Figure 4.1 attempts to identify the interrelationships of the stakeholders and institutions that need
to cooperate to varying degrees in the management of watersheds and coastal areas. It is evident that a
great deal of inter-ministerial and inter-agency cooperation is needed. At present, this is mostly informal
and takes place on a personal basis rather than through committees or inter-agency institutions. This can
lead to difficulties when there are personnel changes, but the lack of adequate resources frequently
necessitates collaboration, as between the Fisheries Division and the Coast Guard, which facilitates their
sea transport. Given the relatively small number of persons in each institution, such informal
collaboration may well be more efficient than forming committees, provided the necessary legal
authority is present for the responsible agency to act.
4.1.4. Fragmented Legal Support
There is legislation pending in a number of areas, which need urgently to be finalized and enacted. The
Forestry and Wildlife Act has been in preparation for nearly ten years and is probably already outdated.
It would however provide the Forestry Division considerably greater powers to declare and manage
forest reserves. The Pesticides and Toxic Substances Act has also been sometime in the preparation
stages. This Act would strengthen the powers of the Pesticides Control Board to limit importation,
require training of pesticide operators, and generally regulate the way pesticides and toxic substances are
traded and used.
As described in Section 3.4.2., the legislation governing use and management of coastal resources has
developed piecemeal and is scattered through at least eleven separate pieces of legislation. Even if the
laws were consolidated, a considerable degree of amendment would be needed to make the legislation
comprehensive. There have, however, been several improvements to the legislation in recent years, but
there are still weaknesses in several areas. The scattered nature of the legislation makes it more difficult
to work with.
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Figure 4.1
Interrelationships among stakeholders and management agencies dealing with
watersheds and coastal areas.
See file: (figure4_1.pdf)
49
The situation with the legal framework covering watersheds is even more sketchy. There is no
legislation dealing specifically with watersheds. The new legislation under consideration for Forestry
and Wildlife management does refer to the declaration of forest reserves for conservation of soil and
water and would give the Forestry Division better authority to manage government lands that serve as
watersheds. However, this legislation has been under review for ten years and is yet to be adopted.
4.1.5. Weak Financial Support
By and large, national budgetary support for natural resources activities within the country is minimal
and until recently, when environmental matters have been receiving the attention of developed countries
following the Earth Summit in 1992, were also not high priotities of the international donor agencies.
The Forestry Division, for instance, has remained very under staffed and poorly equipped and has been
unable to carry out any meaningful reforestation programme.
This situation may stem from the lack of awareness and interest alluded to above, but may also be
contributed to by the difficulty of quantifying the benefits of natural resource activity. The contribution
of forests or coral reefs is much less clear than a new school or hospital because of conventional
accounting systems. The reverse side is also true, that is, that the cost of damage to natural resources is
also difficult to quantify. Who pays, for instance, for the damage done to roads or property when
beaches, denuded of sand through sand mining, are unable to protect the shore line in times of storm.
The resources now being provided through the programmes of the various environment conventions
must somehow be made to improve the willingness of decision makers to invest in natural resources.
One avenue towards this objective may be to develop the linkage between tourism and the natural
resources sector as much as possible, since the value of providing an attractive tourism product is readily
understood and accepted.
4.2. Goals of Integrated Management
The above discussion has attempted to describe the major problems that prevent better and more
integrated management practices being adopted for the management of watersheds and coastal areas.
The goal of revising and integrating the management structures is to enable the land and marine areas to
provide the optimum level of resources on a sustainable basis. Without a high level of management, the
water, forest and marine resources of the country will not reach their optimum potential.
4.3. Key Issues in Developing an Integrated Plan
4.3.1. Land Use Policy
A key element in the integrated management of watersheds and coastal zones is the need for a clear
policy and plan for the development of the land resources of Antigua and Barbuda. At present, there is
no clear policy for the development of the country's land resources and decisions about siting and
50
approval of development proposals are made on an ad hoc basis. This has far reaching implications for
recognition and management of watersheds, designation of forest and marine reserves as well as the
conservation of wetlands and management of coastal development. All of these issues can have knock
on effects on the health and management of the marine resources as well as disaster management
strategies. However, this situation may improve if the draft land use plan for Antigua and Barbuda
currently under discussion, is adopted.
The National Physical Development Plan now under discussion lays out a fairly clear policy for the
development of the land resources of the country. Adoption of this plan by the government after the
necessary public discussion and amendment will assist considerably in the development of an integrated
approach to land use.
The plan proposes to place much of the upper watersheds in conservation areas, which should assist in
retaining these areas as forest and would facilitate the Forestry Division in its ability to create new
watershed reserves. The plan also recognises the importance of the remaining wetlands and proposes to
conserve these as much as possible. Soils rated as class 2 or 3 (there are no class 1 soils) will be
retained, in general, for agricultural use. The plan does not appear to provide any reservations of land
for increased water storage, so this may need to be addressed.
In order for the plan to function, there will have to be general recognition of the need for such an
approach to the country's development and the function of the Development Control Authority will need
to be strengthened to make sure the plan is adhered to. The relationship of the DCA with the Ministry
of Planning may also need to be reviewed with a view to improving the liaison between these two
agencies integrally involved in national planning. Other agencies involved in land use such as the
Central Housing and Planning Authority, Public Works Department, Ministry of Agriculture (Lands
Division, Extension Division etc.) will need to be thoroughly appraised of the plan and brought on
board, if the plan is to be implemented without major difficulties.
Public awareness of the plan and discussion about its provisions will be important in obtaining general
acceptance of its provisions.
As part of the land use plan, policies on adequate setbacks for beach front development need to be
adopted and decisions regarding measures to mitigate further damage where existing buildings are
causing problems will also need to be taken.
4.3.2. Watershed Development
It is likely that the Forestry Division will continue to be the major organization responsible for
watershed management. It is therefore important that the Forestry and Wildlife Act, which has been
under discussion for several years is finalized and adopted without delay. This will give the Forestry
Division some of the authority it needs to carry out programmes, which can improve the functioning of
the major watersheds. There is little public appreciation of watersheds and how they affect both water
resources and flooding as well as the linkage between degraded watersheds and damage to reefs and
fisheries. There is a need therefore for increased public awareness about the effects of burning,
overgrazing and forest destruction on water supply for the nation as well as on the health of our beaches,
coral reefs and the livelihoods of our fisherfolk.
The draft Pesticides and Toxic Chemicals Act should also be finalized and adopted into law. This will
provide additional support for the Pesticides Board and the Ministry of Agriculture to improve
51
regulation of the use of these substances and to monitor their use and possibly assist in setting up
periodic monitoring of such chemicals in the environment. This could have important implications for
both watershed and coastal zone management.
4.3.3. Water Resources
The difficult question of water resources management needs to be resolved without further delay, since
some options for development of these resources may not remain open much longer. The need for a
Water Resources Board has been discussed already (Section 2.1.6.3). It will probably be a matter that
the Ministry of Agriculture will have to raise for discussion at Cabinet level, since agreement with other
Ministries, in particular the Ministry of Public Utilities, will be needed and new legislation will be
required.
A Water Resources Board composed of representatives of the various stakeholders, as well as the Public
Utilities Authority, should be able to bring a much broader perspective to the development and
conservation of water resources. Currently, the Water Division's responsibility is defined by the Public
Utilities Act, as to provide water for the domestic needs of the nation. The Division's main interest is the
sale of water to consumers. It therefore has a restricted focus and its concern with issues such as
development and conservation of water resources is not likely to receive a high priority. In the absence
of a more sustainable government policy regarding water resources, this situation is likely to lead to
further reliance on desalinated water, at high cost to government or the consumer and under-
development of water resources for agriculture.
4.3.4. Coastal Areas
Weaknesses in the existing legislation with respect to liabilities for damage to coral reefs by non-tourist
activities, were discovered recently when a super tanker ran aground and did extensive damage to an
off-shore reef. The fisheries legislation needs to be up dated to accommodate this type of threat and
provide suitable penalties for such damage.
An additional marine reserve is planned for the north east coast and off shore islands. This needs to be
declared as soon as possible as the area is under considerable tourist pressure.
Workable policies regarding provision of sand for the construction industry need to be developed. Until
this is done, no matter what legislation is adopted, it will likely remain unenforced because the
underlying need has not been met. Consideration of the feasibility of the importation of sand from
sources such as Guyana should be made and if necessary, a proper study of the risks and feasibility of
mining sand from deposits far off shore. The laws regarding permission for beach mining should be
reviewed and adequate provisions for consultation before granting the licence and regulating the conduct
of the extraction should be made.
The DCA should be required to consult with the Fisheries and Environment Divisions when considering
proposals for development of shore line properties, to make sure that protection of the marine
environment is given sufficient consideration. The DCA should require independent environmental
impact assessment studies for any development proposal that involves extensive land clearing or
movement especially in areas close to the coast or to inland water resources and likewise for any
52
development that involves use of any toxic substances. Similar requirements should be considered for
activities of the Public Works Department.
4.3.5. Public Awareness
As has been alluded to previously, there is need to raise public awareness regarding the importance of
watersheds and the role they play in providing water resources. The relationship between degraded
watersheds and damage to coral reefs and beaches also needs to be stressed. There has been a good deal
of public education about mangrove wetlands, but the role of watersheds has not received the attention it
deserves in a country critically short of water resources. Land degradation and forest resources are of
basic importance to concerns about biodiversity, climate change mitigation, and desertification and
should also be linked to potential for eco-tourism development.
An awareness programme needs to be targeted to several different groups and should include the general
public, schools and other educational institutions, specific stakeholders, especially watershed users,
decision makers and possibly the media itself, so that they themselves have a better understanding of the
issues and relationships.
4.3.6. Inter-Institutional Cooperation and Liaison
The need for increasing inter-institutional cooperation and liaison among agencies with management
responsibilities has been raised in several sections of this report. Discussions with key persons involved
with management of watersheds and coastal areas have made differing responses to this issue. While all
acknowledge the need for high levels of collaboration, there is no agreed approach on the best way to
achieve this. Some have favoured the establishment of "super committees" being set up to coordinate
management, while others have questioned the effectiveness of this approach, suggesting that these
types of committee, with a very broad focus frequently become little more than talk shops and actually
accomplish little. It has been suggested that the Fisheries Advisory Committee is an example of this and
its non-functioning in the recent past is attributed to its poor record of achievement.
The alternative suggestion has been to retain the present system of informal linkages, especially where
these are working reasonably well, but to support them with activities, such as workshops and seminars,
which focus on the solution of specific problems. It is felt that these activities are more likely to achieve
more practical cooperation.
However, there are situations, particularly where demarcation of legal responsibility or conflicting
approaches by separate institutions are concerned, where there is need for an "official" body to broker
agreements and adjudicate disputes. A particular case which might fall under this description is the
issue of water resources management, where the establishment of a Water Resources Board would seem
to be the best way to enable all sides to develop agreement on an equal footing.
The main agencies responsible for management of watersheds and coastal resources are the Forestry and
Fisheries Divisions and Soil and Water Conservation Division in the Ministry of Agriculture, Lands and
Fisheries. There has been a suggestion that it could assist the management of watershed and coastal
resources if these three agencies were more closely tied together organizationally in a Natural Resources
Division or even as a separate ministry. The implications of this are not clear, but since one positive
53
result could be a better base for attracting funds from natural resource orientated funding organizations,
the suggestion merits further discussion.
In summary, it is suggested that the approach to this issue should be taken on a case by case basis, taking
into account all the factors involved, rather than to make a general prescription.
4.3.7. Stakeholder Involvement and Community Management
The complexities of stakeholder involvement are clear from the relationships shown in Figure 4.1.
Nevertheless, it is important that management decision making systems promote the development of
stakeholder involvement and recognise the expansion of stakeholder ability to manage natural resources
as an ultimate goal, since it is clear that the State does not have the resources, either financial or human,
to do all that needs to be done. Stakeholder consultation and involvement is being promoted by several
factors. At a government level, there is increasing recognition that stakeholder involvement is a positive
part of development planning. Some recent examples of this recognition are the development of the
National Physical Development Plan by the DCA and the efforts of the Ministry of Planning to prepare a
national strategic development plan. In both cases, besides extensive consultation among other
government ministries, there were public seminars and the plans were taken to the communities for
discussion and input at the community level. The NPDP was also made available on a web site.
There has been renewed interest and a more positive attitude towards promoting producer, commodity
and community groups in the last few years. Perhaps this is more evident among farmers than among
fisherfolk, but there is a new spirit to try again to persuade producers that the practice of relying on
government to supply all their needs and make all their decisions is no longer tenable, even if it once
was. Producer cooperatives have not had a very successful history in Antigua, but the new approach is
somewhat more flexible and is more willing to let the form of organization develop with the group.
Further, it is recognised that extensive training and guidance is required to help the proto-organizations
develop a supportive foundation. The emphasis has shifted to the practicalities of cooperative action
rather than focussing on setting up formal structures where position and authority can become dominant
objectives at the expense of group improvement.
International donor agencies have contributed to this movement by providing resources to help such
groups to develop, making opportunities for them to contribute to discussions and decision making in
natural resources management and environment related projects which they fund. Conventional
management agencies in government have not always welcomed this development, seeing such groups
as a challenge to their agency's authority. However, there have also been some successes where
producer groups, NGOs and community groups have developed good working relationships with
government agencies and have made significant contributions to the management of natural resources.
This process needs to be supported as much as possible, for the long term good of both the producers
and the natural resource.
Attention to gender issues within the area of natural resources management has largely centered on
providing training to women in rural enterprise development. This has included courses in agricultural
business development and various craft enterprises using local natural products. These courses have
been provided by the Gilbert Centre for Agricultural and Rural Development. The Ministry of
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Agriculture, Extension Division has also supported the Women's Farmer group, which functions as a
loose cooperative of women farmers. While this does not necessarily guarantee that women's concerns
are adequately addressed, it is a fact that many technical staff including heads of divisions in the
Ministry of Agriculture, Lands and Fisheries, and the Environment Division, are women.
4.3.8. Capacity Building
Many references have been made to the lack of physical and material resources in the various
government agencies responsible for watershed and coastal area management. In general, it would seem
that these are more lacking than human resources, where on the whole there is a reasonable pool of quite
well trained professional staff. The productivity and effectiveness of these staff is frequently limited by
either the lack of facilities, or in some cases, well trained support staff or labour; and not infrequently by
organizational structures within the Ministries which restrict their ability to function.
Ministry of Finance officials have taken the view that the programmes of the various ministries need to
be projectized and that much of the resources for equipment and supplies should be sought from
externally funded projects, because the government simply does not have the resources to provide all
that is needed. While there may have been some reluctance to accept this policy among some
professional staff, a major problem has been the lack of skills and experience with project development.
The Ministry of Agriculture, for example, does not have a planning unit or even an individual with the
sole responsibility of assisting staff with the development of projects. Project financing requires
considerable knowledge about funding sources and skills in budgeting and project writing, given the
often complex procedures of many donor agencies. The Global Environment Facility has been unusual
in providing considerable resources to assist in the development of projects for funding in its
programmes. The Natural Resources Unit of the OECS has made considerable efforts to improve
planning capabilities with respect to natural resource management, but more needs to be done.
Further attention should be given to improving the planning capabilities in those Ministries involved
with watersheds and coastal areas, especially in the areas of project preparation and management.
There would appear to be weaknesses in the technical skills and environmental training of professional
staff in agencies such as the Development Control Authority as well as the Public Works Department
and this is an area in which the Environmental Division could perhaps become involved. Their work
with the legal and protective services has been mentioned already. Architects and developers also are
not very technically aware of the possibilities for waste water treatment and utilization.
4.3.9. Research, Data management and Decision Support Systems
Information is a basic weakness in the whole management system. Many management decisions are
made on the basis of casual observations, extrapolation and educated guesswork. Hard information to
support technical advice to government decision makers is frequently not available.
This is a result of inadequate research and data collection and sometimes the fact that the limited amount
of information gathered is not processed or made easily available or accessible, even within the same
Department or Ministry, much less among different ministries. Computers are now much more
common than even two or three years ago, but data handling and processing procedures have not
changed sufficiently so as to make full use of the data handling and storage capacity of the computers
55
available. The Ministry of Agriculture is currently considering the establishment of an information unit,
which, if implemented, should improve information resources and use.
Much of the data relating to natural resource management has a strong spatial component and GIS
capabilities are important in managing and utilizing this information. As discussed in Section 3.4.4.,
some advances have been made in the acquisition of GIS capability but the information now available in
these GIS systems is not as easily available to those who need to use it, as is required for efficient
management. Training in GIS is also needed to enable more staff to access and use this kind of data. In
addition, more persons need training in operating and managing geographical information database
systems.
The need for much more comprehensive baseline data on levels of toxic chemicals in all parts of the
environment has been stressed already (Section 3.2.2.). Sound management of watersheds and coastal
areas can not continue to rely on assumptions about presence or absence of pesticides close to or in
ground water or in surface water catchments. Similarly, movement of toxic substances, if they are
present, along watercourses and to the coastal environment needs to be measured and understood.
Baseline levels of pesticides or heavy metals in fish or other aquatic organisms need to be established so
that any increase will indicate a new source of pollution. This kind of data is needed urgently and may
well be required by the new pesticides and toxic chemical legislation, when it is adopted. While the
Government Chemist's laboratory has equipment needed for some analyses, several key gaps in the
equipment or supplies remain. Facilities for preparing large numbers of routine samples for a baseline
monitoring programme are not available. Consequently, this would appear to be a good candidate for a
regional project in which, local laboratories are upgraded in equipment and training to pre-process
samples for safe shipment to a central laboratory, such as at CEHI, for the analyses requiring specialist
equipment or operating skills.
4.4. Financial Resources
4.4.1. Internal
At present, local financial support for natural resources programmes is very limited. Government
revenues derived from traditional sources such as import duties are likely to diminish substantially as the
requirements of membership in the WTO are implemented. Real revenues from tourism have suffered
from the move by several of the largest hotels to the "all inclusive" mode. Cruise ship tourism brings
large numbers of visitors but these only stay for a few hours before returning to their own "all inclusive"
ship. There is therefore little prospect in the short term for government revenues available for natural
resources management to increase significantly in the near future.
It would appear necessary to entice as many passengers as possible to leave their vessels, by offering a
wide range of different experiences, for which they are willing to pay. This suggests that, among other
things, many different forms of eco-tourism need to be experimented with and developed in a
sustainable way so that revenue generated by this means can be turned back into providing resources to
assist in the management of forest and watershed reserves and coastal zones. This could help
supplement the meagre resources that can be extracted from local use of these same resources through
user fees, licences and permits. If ten percent of the approximately 250,000 cruise ship passengers that
visit Antigua and Barbuda annually, contributed EC$ 10 by visiting a recreation site, that could provide
56
EC$ 250,000 towards natural resource management and development. This could be done at very little
development cost and could put a much larger sum into the local economy.
4.4.2. Regional and International Assistance
Donor funded projects offer sometimes the only avenue for projects which require a significant
expenditure on technical assistance or capital development. There is probably considerable potential for
funding of natural resources activities if the action programmes that are being proposed under the
various environment conventions, such as climate change, biodiversity and land degradation, can be
properly coordinated and designed. As these programmes are developed, the National Coordinating
Committee will have to play a major role in helping to see that this coordination takes place.
Considerable effort will be needed to reduce regional bottlenecks and delays in approval of proposals
and work plans.
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5. National Action Programme to improve integrated
management of Watersheds and Coastal Areas
5.1. Policy and Legislation
5.1.1. Action 1: Enact all pending legislation relating to watersheds and coastal
zones
The responsible ministries should make every effort to finalise versions of draft legislation now under
discussion or amendment and bring them to Legal Affairs for ratification and submission to Parliament.
The Ministries may need assistance from a qualified legal draughtsman, experienced in environmental
laws to assist in making the necessary amendments and preparing, in consultation with the relevant staff,
a brief for Cabinet concerning the need for, and benefits accruing from, the particular legislation.
Laws under consideration include:
Draft Law
Ministry/Agency Responsible
Comment
National Physical Development Development Control Authority
Final draft stage
Plan
Forestry and Wildlife Act
Forestry Division/MAL&F
Final draft stage
Fisheries Act
Fisheries Division
Under Discussion
Environmental Health Act
Central Board of Health
Final Draft stage
Solid Waste Management Act
Central Board of Health
Being reviewed
It is recognised that enactment of legislation is only part of the process. Compliance/ enforcement
issues are also critical for the legislation to make any difference to public behaviour. In this regard, it
is very important that the introduction of the legislation is accompanied by an education programme,
which focuses not only on the actual provisions of the new laws, but on the reasons for them. It is
anticipated that this should be tackled in two stages. The first stage would provide general
information about watershed and coastal area issues. This should be an important output of the
Demonstration Watershed Project articulated in Section 5.2.1. Information relating to the specific
legislation should be prepared at the time of enactment and could be provided as part of the services
of the legal drafting/promoting team proposed above. It will also be important for the responsible
agencies to address any changes to their human resource needs required by the enforcement aspects of
the legislation.
Another important factor impinging on the enforcement/compliance of environmental laws relates to
stakeholder participation in management of the resource. Where this participation is well informed
and adequately involved, the chances for community support of enforcement and a degree of self
58
policing are much improved. This has been demonstrated in several community based management
projects in the region.
Another aspect of enforcement relates to the specific role of the enforcement agencies and their own
level of understanding of the need for enforcement. This is often lacking and infringements are often
considered trivial in nature. To this end, education of the police and legal profession regarding
environmental issues is needed. The Environment Division has already held meetings with these
bodies to begin the process, but the process will need to be continued.
Harmonization of the many pieces of legislation dealing with watershed and coastal area management is
urgently needed. However, given the past history of environmental legislation in Antigua and Barbuda
and the slow pace with which it has been adopted, it is felt that the better strategy is to secure the
benefits of the legislation currently ready for adoption, rather than waiting for the development and
agreement on more comprehensive environmental laws.
5.1.2. Action 2: Policy Adoption - Water Resources Board
A proposal has been made in this report and in the draft Agriculture Sector Plan, for the establishment of
a Water Resources Board, which would assume some responsibility for functions now vested in the
Antigua Public Utilities Authority.
It is recommended that this proposed policy change be formally discussed and a recommendation be put
to Cabinet on the matter.
5.2. Public Awareness, Data Gathering, Training and Demonstration
5.2.1. Action 3: Demonstration Watershed
5.2.1.1.
Goal
The overall purpose of this action is to develop a model that can be used to optimise the management of
watersheds and associated coastal areas.
5.2.1.2.
Objectives
The specific objectives are listed below:
1) To develop a small, well demarcated watershed according to best practices available
2) To gather baseline data and monitor the changes taking place as a result of the development of the
improved management of the watershed.
3) To also gather base line data in the associated coastal zone and monitor changes with time
4) To use the model watershed as a demonstration to increase public awareness and understanding of
the consequences of land degradation and forest removal on water resources, biodiversity and
possibly on reef quality
5) To work with local stakeholders and user communities (farmers and livestock owners, charcoal
burners and other forest produce users) to develop management systems which can meet the needs
59
of all users as far as practicable and can arrive at an equitable allocation of forest/watershed
resources.
6) To work with the Public Utilities Authority (or Water Resources Board) to gather data (stream flow,
percolation, groundwater recharge, siltation etc.) on the effects of the improved watershed
management on water resources in the model watershed.
7) To involve all relevant institutions and agencies, including NGOs/CBOs, and to develop
appropriate mechanisms of cooperation and collaboration.
5.2.1.3.
Justification
The analysis of issues confronting the integration and optimization of management of watersheds and
coastal zones has highlighted many separate weaknesses, which are in many respects interrelated. They
start with poor public awareness and understanding, which leads to low priority and inadequate funding.
The resulting lack of resources make impossible any meaningful impact on the whole problem of
watershed management.
This project, however, proposes to focus on a small, well chosen watershed, preferably with its own exit
to the sea, or water storage facility, which can be managed with the resources provided by the project,
and which is chosen to respond quickly and significantly to the improved management practices.
The application of a set of "best practices" to this model watershed would provide the opportunity to do
research, gather data, develop data bases, work out management systems, educate and involve
stakeholders and at the end have a living demonstration of the positive effects of such "best management
practices". The impact of a well forested watershed, better stream flow and increased water resources
which is expected to result, could be worth a great deal more in persuasion and encouragement than
many reports or statistics.
The model will serve as a testing and learning tool for the development of a programme to tackle the
bigger job of managing the main watersheds. The model watershed, if suitably chosen, can also be used
for teaching and as a tourist attraction.
5.2.1.4.
Outputs
The model will provide a visual demonstration of what a well managed watershed is and the tangible
benefits that it can bring to an area.
The model will also provide some much needed data for improving the management of watersheds and
understanding the behavior of the watershed with respect to erosion control, water run-off and
infiltration for recharge of groundwater supplies.
The process will result in the reforestation of a small, but significant area of the main watersheds. In
addition, improvements in biodiversity, tourist amenity, and increased supply of forest produce from the
managed areas can also be anticipated.
The process of setting up the model will allow development of management strategies which take into
account the needs of all stakeholders, as well as strategies for dealing with the serious problems of
uncontrolled grazing and burning of watershed lands.
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5.2.1.5.
Time Frame
The project will require a long term investment of financial and human resources, but providing the area
is kept small, while encompassing the necessary features which will provide a suitable testing ground
and demonstration area, the cost need not be unmanageable. At least five years will be required to
establish new vegetation to the point where less intensive management is required. Full benefits will
probably not be observed in less than ten years. Careful consideration will have to be given to use of
quick growing species in the reforestation activities or to slower growing hardwood species more typical
of mature forest systems.
5.2.1.6.
Funding
Details of the inputs required for the project will need to be worked out, but it is hoped that a significant
proportion of the resources needed can be provide by donor organizations. It is quite possible that the
model watershed concept could fit into the work of other funded programmes such as the UN
Convention to Combat Desertification, which has important concerns about land degradation. The
Convention on Biological Diversity may also see opportunities to improve in situ conservation of certain
native species. The model watershed concept could provide a useful focus for coordinating the activities
of the various environment related programmes.
5.2.1.7.
Project Management
It would probably make best sense if the Forestry Division in the Ministry of Agriculture, Lands and
Fisheries were to provide the lead role. The Soil and Water Division, APUA and Fisheries would also
need to be involved. The Chemistry and Food Technology Division and Central Board of Health, might
also be required to assist in pesticide monitoring activities.
5.2.2. Action 4: Natural Resources Database
Frequent mention has been made of the poor quality of the data resources available to those making
resource management decisions. Either data is not available, or it is not in a form which allows it to be
readily available. Sometimes personnel have insufficient training to access or utilize it.
This element of the action plan would build on the start made earlier by the Environment Division to
provide computer capability, software and some training to start building a network of linked databases.
This would make accessible much of the information on land, soils, biodiversity, pollution, water
resources, and other environment related information, which is presently held in several different
ministries and is otherwise not easily accessed.
Establishment of such a database would encourage users to add additional information as it is produced,
so that with time a comprehensive collection of information would be available to all potential users.
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The original project did not accomplish its intentions because insufficient resources were devoted to
training staff in its use, sorting out the problems of linking together the separate databases each in
housed in individual computers and management of the data.
This can be seen as an institutional strengthening action as well as a program to improve the data
available for decision making through exchange and networking.
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6. Recommended Inputs to Regional Action Programme
6.1. Regional toxic substances monitoring programme
6.1.1. Goal
The goal of this programme is to obtain a thorough understanding of the levels and sources of pollution
by toxic chemicals such as pesticides and other persistent organic pollutants as well as inorganic toxins
such as heavy metals in watersheds, water resources and the coastal environment of the region or
specifically the OECS countries.
6.1.2. Objectives
The project would have several objectives, which are listed below:
1) To undertake a review of all studies monitoring levels of toxic substances in the environment,
including water resources, watersheds, and coastal marine areas, in order to assess the current state
of knowledge with respect to the fate of pesticides and other persistent pollutants.
2) To undertake a survey of current levels of pesticides and other toxic substances in the environment.
This should include studies of the soil, plants, water (both fresh and marine), fish and other marine
organisms as well as food, found in target areas of the participating countries. The information
would be used to form a set of base line data for soils, waters and organisms in the region. The
information would also provide a guide to the key pollutants which are likely to cause, or are already
causing, pollution problems in the region.
3) To develop a system of laboratories and protocols for handling a continuing programme of routine
monitoring of pollution levels in key environments throughout the region, as well as a system to
respond to specific incidents such as fish kills, where toxic substances are suspected. It is expected
that at least one laboratory in each country would be trained and equipped to handle a core of basic
tests and preparation of samples for further analysis requiring highly specialised equipment which it
would not be reasonable to have available in all countries. These specialised laboratories would be
equipped to carry out a full range of tests against a comprehensive range of pollutants.
4) To maintain common standards among laboratories in the region by providing a facility for
exchange of samples and subsequent analyses as a cross check on accuracy and proper functioning
of equipment.
6.1.3. Justification
Improved facilities are needed for regular monitoring and rapid analysis of both fresh and coastal waters
for chemical pollutants, which at the moment are not adequately monitored. Individual islands find
difficulties in providing adequate equipment, facilities and trained staff for the wide range of sensitive
analyses required to adequately monitor pesticides and other types of chemical pollution. A centralized
facility for the OECS region would make better use of scarce resources as long as proper arrangements
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and training were provided for individual countries to prepare samples for shipment. This would also be
necessary to reduce public health and plant/animal quarantine safety concerns.
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