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dc.creatorDarwall, W.R.T.
dc.creatorAllison, E.H.
dc.creatorTurner, G.F.
dc.creatorIrvine, K.
dc.date.accessioned2018-10-12T09:11:51Z
dc.date.available2018-10-12T09:11:51Z
dc.date.issued2010
dc.identifierhttp://www.sciencedirect.com/science/article/pii/S0304380009007479
dc.identifier.citationEcological Modelling 221: 713-727
dc.identifier.issn0304-3800
dc.identifier.urihttps://hdl.handle.net/20.500.12348/1316
dc.description.abstractEcosystem-focused models have, for the first time, become available for the combined demersal and pelagic components of a large tropical lake ecosystem, Lake Malawi. These provide the opportunity to explore continuing controversies over the production efficiencies and ecological functioning of large tropical lakes. In Lake Malawi these models can provide important insight to the effect of fishing on fish composition, and the potential competition that the lakefly Chaoborus edulis may have with fisheries production. A mass-balanced trophic model developed for the demersal fish community of the southern and western areas of Lake Malawi was integrated with an existing trophic model developed for the open-water pelagic. Input parameters for the demersal model were obtained from a survey of fish distributions, fish food consumption studies, and from additional published quantitative and qualitative information on the various biotic components of the community. The model was constructed using the Ecopath approach and software. The graphically presented demersal food web spanned four trophic levels and was based primarily on consumption of detritus, zooplankton and sedimented diatoms. Zooplankton was imported into the system at trophic levels three and four through fish predation on carnivorous and herbivorous copepods and Chaoborus larvae. It is proposed that the primary consumption of copepods was by fish migrating into the pelagic zone. Chaoborus larvae in the demersal were probably consumed near the lakebed as they conducted a daily migration from the pelagic to seek refuge in the sediments. This evidence for strong benthic-pelagic coupling provided the opportunity for linking the demersal model to the existing model for the pelagic community so producing the first model for the complete ecosystem. Energy fluxes through the resulting combined model demonstrated that the primary import of biomass to the demersal system was detritus of pelagic origin (72.1%) and pelagic zooplankton (10.6%). Only 15.8% of the biomass consumed within the demersal system was of demersal origin. Lakefly production is efficiently utilised by the lake fish community, and any attempt to improve fishery production through introduction of a non-native plantivorous fish species would have a negative impact on the stability and productivity of the lake ecosystem.
dc.formatapplication/pdf
dc.languageEn
dc.publisherElsevier
dc.sourceEcological Modelling
dc.titleLake of flies, or lake of fish? A tropic model of Lake Malawi
dc.typeJournal Article
dcterms.bibliographicCitationDarwall, W.R.T. et al. (2010). Lake of flies, or lake of fish? A tropic model of Lake Malawi. Ecological Modelling 221: 713-727
dc.description.versionPeer Review
cg.coverage.countryMalawi
cg.coverage.regionAfrica
cg.identifier.worldfish2570
cg.subject.agrovocecology
cg.subject.agrovocsurveys
cg.subject.worldfishfish food system
cg.subject.worldfishpelagic
cg.contributor.affiliationIUCN Species Programme
cg.contributor.affiliationWorldFish
cg.contributor.affiliationBangor University
cg.contributor.affiliationSchool of Natural Sciences
cg.identifier.statusLimited access
cg.identifier.ISIindexedISI indexed
cg.contribution.worldfishauthorAllison, E.H.
cg.description.themeSustainable aquaculture
dc.identifier.doihttps://doi.org/10.1016/j.ecolmodel.2009.11.001en_US
cg.identifier.urlhttp://www.sciencedirect.com/science/article/pii/S0304380009007479


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