Strategic review of the fishery situation in Thailand

Fisheries are an important source of animal protein for most of ThailandÆs population, particularly in provinces on or near the coast. Between 1978 and 1997 the per capita consumption of fish averaged 24 kg╖capita-1 annually. In 1995, about 535 210 people were involved in the fisheries sector and 44% of these were engaged in small scale marine capture fisheries. Since 1982, Thailand has faced problems with the development of marine capture fisheries and their over-exploitation which has increased fishery conflicts and disputes with neighboring countries. The Gulf of Thailand is the major fishing area of Thailand and in 1996, it contributed approximately 70% of the total marine catch in the country. The catch in the Gulf consisted of pelagic fish (33%), trash fish (32%), demersal fish (12%), squid and cuttlefish (6%), shrimps (5%), crabs (2%) and other fish (10%). However, demersal fish and some pelagic fish in the Gulf of Thailand have been over-exploited. This is due to a combination of factors including; increasing human population, increased pressure from Thai trawlers which have lost access to foreign fishing grounds after neighboring countries declared EEZs, development in fish processing techniques and increasing demand from animal feed producers that utilize trash fish. This paper provides a broad view of the fisheries situation in Thailand, focused mainly on the Gulf of Thailand. It covers aspects of the environment, the status of resources available, the socioeconomic situation, the existing framework for management and development, and also makes recommendations for government action to develop sustainable fisheries management. The main objectives proposed for improving fishery management are: (1) promote fishersÆ and fisher organizationsÆ participation in fishery development; (2) optimize fishery resources and their environment so as to be sustainable and equitable; (3) increase fishery products and stabilize fishersÆ and processorsÆ incomes; (4) progressively develop deep sea fisheries; (5) improve export competitiveness.Fishery resources, Catch/effort, Population characteristics, Coastal fisheries, Marine fisheries, Ecosystems, Economic benefits, Fishery industry, Capture fishery economics, Fish consumption, Fishery policy, Legislation, Fishery management, Demersal fisheries, Pelagic fisheries, Cephalopod fisheries, Socioeconomic aspects, Surveys, Marketing, Fishery organizations, Fishing gear, Cephalopod fisheries, Trade, ISEW, Thailand,

Trophic model of the coastal fisheries ecosystem in the Gulf of Thailand

The biomass of 40 ecological groups, the diet composition of prey and predators, production/biomass (P/B) and consumption/biomass (Q/B) ratios, and catches were used as basic input to parameterize an Ecopath model of the Gulf of Thailand. Following construction of a mass-balance ecosystem model, a time-dynamic simulation model (Ecosim) was used to simulate the impact of change in fishing effort. This was done using time series data to validate the historic fisheries development in the Gulf of Thailand prior to using the model for forward-looking simulations. The time series data used in the analyses were catch and effort data from research vessel trawl surveys and landings data for six groups of fishing gear operating in the Gulf during the period 1973 to 1993. The fish market price and fixed and variable costs of each fleet (as well as profit) were also used as input for the time-series simulations using Ecosim. The results depict changes in biomass and trophic interactions in time (Ecosim) and space (Ecospace). The model was also used to investigate management options or measures for the fisheries of the Gulf of Thailand. Recommendations for future studies using Ecopath with Ecosim are also presented.Fishery resources, Fishery surveys, Biomass, Population density, Shrimp fisheries, Catch/effort, Trawling, Mathematical models, Coastal fisheries, Marine fisheries, Ecosystems, ISEW, Thailand Gulf,

Assessment, Management and Future Directions for Coastal Fisheries in Asian Countries

Abstract The biomass of 40 ecological groups, the diet composition of prey and predators, production/biomass (P/B) and consumption/biomass (Q/B) ratios, and catches were used as basic input to parameterize an Ecopath model of the Gulf of Thailand. Following construction of a mass-balance ecosystem model, a time-dynamic simulation model (Ecosim) was used to simulate the impact of change in fishing effort. This was done using time series data to validate the historic fisheries development in the Gulf of Thailand prior to using the model for forward-looking simulations. The time series data used in the analyses were catch and effort data from research vessel trawl surveys and landings data for six groups of fishing gear operating in the Gulf during the period 1973 to 1993. The fish market price and fixed and variable costs of each fleet (as well as profit) were also used as input for the time-series simulations using Ecosim. The results depict changes in biomass and trophic interactions in time (Ecosim) and space (Ecospace). The model was also used to investigate management options or measures for the fisheries of the Gulf of Thailand. Recommendations for future studies using Ecopath with Ecosim are also presented