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Contribution of ecosystem analysis to investigating the effects of changes in fishing strategies in the South Brazil Bight coastal ecosystem
Gasalla, M.A.; Rossi-Wongtschowski, C.L.D.B. (2004). Contribution of ecosystem analysis to investigating the effects of changes in fishing strategies in the South Brazil Bight coastal ecosystem. Ecol. Model. 172(2-4): 283-306
In: Ecological Modelling. Elsevier: Amsterdam; Lausanne; New York; Oxford; Shannon; Tokyo. ISSN 0304-3800; e-ISSN 1872-7026, more
Also appears in:
Christensen, V.; Maclean, J.L. (Ed.) (2004). Placing fisheries in their ecosystem context. Ecological Modelling, 172(2-4). Elsevier: Amsterdam. 103-440 pp., more
Peer reviewed article  

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Keywords
    Management > Ecosystem management
    Management > Resource management > Fishery management
    Modelling
    ASW, Brazil [Marine Regions]
    Marine/Coastal

Authors  Top 
  • Gasalla, M.A.
  • Rossi-Wongtschowski, C.L.D.B.

Abstract
    Ecosystem effects of recent changes in fishing strategies in the South Brazil Bight (SBB) area, including increasing squidcatches by shrimp bottom trawlers and fishing for young sardines as bait, for the skipjack tuna pole-and-line fishery wereinvestigated by modelling the SBB coastal ecosystem for the 1998-1999 fisheries period, using the mass-balance modellingsoftware, Ecopath with Ecosim. Based on fisheries information and on previous models, 25 species groups were defined. Themean trophic level of all fisheries was 2.99 with small trawlers and the live baitfish fleet occupying the lowest trophic levels.The change in squid fishing rate and the most important squid predators fishing rate were simulated by increasing fishingmortality (F) from 0 to 1 per year, while maintaining F constant for other exploited groups. Also, the impact of fishing pressureby trawlers on squids and by the live baitfish fleet on young sardines were simulated. Different hypotheses of flow control weretested by setting the maximum instantaneous mortality rate that consumers could exert on food resources by (a) “top-down”control by predators (predator control); (b) all interactions of mixed control type; and (c) “bottom-up” control of predatorsby their prey (donor control). For squid, predicted biomass changes were more pronounced under top-down control that underbottom-up. Biomass of the weakfish, which are important squid predators, were the most affected under all hypotheses. A similarpattern of decrease in other squid predators was seen. The ecosystem consequence of overexploiting weakfish and large pelagicfish biomass was speculated regarding the increasing squid catches.Simulations of increasing live-baitfish fleet did not show prominent impact in the inner shelf, where present F values arelow. Given young sardines concentrate in shallow waters, where the conflicts converge, a complementary model of the adjacentcoastal system and artisanal fisheries could better address fleet’s impact. Nevertheless, it was noted a decrease of sharks and raysreflecting their vulnerability in the system.A precautionary measure for fisheries management in the region would be to assume that top-down control is a dominantforce in energy flows, differing from the custom emphasis placed only in environmental forces and productivity. The ecosystemapproach will require the integration of information from a wide range of disciplines, levels of ecological organization andtemporal and spatial scales, as well as concrete management measures.

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