2012
DOI: 10.1111/j.1365-2427.2012.02828.x
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Does the decline of gastropods in deep water herald ecosystem change in Lakes Malawi and Tanganyika?

Abstract: Summary 1. Ancient, deep lakes have traditionally been considered as stable, ecological islands, well buffered from environmental change because of their great depth. However, they are not immune to anthropogenic and climatic stress. Ecosystems of the permanently stratified warm Lakes Malawi and Tanganyika in the Great East African Rift are particularly delicate. Their stratification regime has historically limited the distribution of benthic biota to a ‘bathtub ring of biodiversity’, namely substrata in the u… Show more

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Cited by 24 publications
(20 citation statements)
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References 73 publications
(188 reference statements)
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“…B. ecclesi currently occurs in our sampling area but is adapted to a habitat that is markedly dissimilar from those occupied by shallow-water species (18). Because this habitat did not exist in the Malawi Basin during the Late Pleistocene megadroughts (19), nor perhaps at the last glacial maximum, it is unlikely that lineage splitting and the divergence toward B. ecclesi started considerably earlier than that in the shallow-water community.…”
Section: Resultsmentioning
confidence: 95%
See 1 more Smart Citation
“…B. ecclesi currently occurs in our sampling area but is adapted to a habitat that is markedly dissimilar from those occupied by shallow-water species (18). Because this habitat did not exist in the Malawi Basin during the Late Pleistocene megadroughts (19), nor perhaps at the last glacial maximum, it is unlikely that lineage splitting and the divergence toward B. ecclesi started considerably earlier than that in the shallow-water community.…”
Section: Resultsmentioning
confidence: 95%
“…Four taxonomically valid Bellamya species currently occur in Lake Malawi (16,17): three inhabit shallow water environments (Bellamya capillata, Bellamya jeffreysi, and Bellamya robertsoni), whereas the fourth (Bellamya ecclesi) is rare and occupies substrates below the euphotic zone (16,18). Molecular analysis using three gene fragments [mitochondrial cytochrome oxidase subunit I (COI), the mitochondrial large subunit of rRNA and the nuclear large subunit of rRNA] indicates that all Bellamya from the Malawi Basin form a monophyletic clade endemic to the basin, and although the species are young, great and highly significant genetic differentiation (F ST = 0.234) exists among the three shallow-water species (14).…”
Section: Study Systemmentioning
confidence: 99%
“…This may ultimately provide a positive feedback for lake warming [11] and result in a longer stratified period with shorter ice cover periods. A longer stratification period each year will exacerbate the extent and duration of hypolimnetic hypoxic or anoxic conditions [21,36,83]. In many lakes, changes in the amount of vertical mixing can also contribute to changes in nutrient dynamics and ultimately lake productivity [84,85] and changing fisheries [86].…”
Section: Ecological Implicationsmentioning
confidence: 99%
“…In each case, we quantified geochemical proxies for temperature and algal production as well as the abundance of fossils from pelagic fishes and benthic invertebrates (ostracodes and molluscs). Benthic animals are of special concern because stronger stratification reduces oxygenated habitat in Lake Tanganyika (16,17). In modern sediments, benthic invertebrates are generally absent from sediments deposited under anoxic conditions, although some ostracodes tolerate low oxygen (as low as 1 mg·L ) (17)(18)(19)(20).…”
Section: Significancementioning
confidence: 99%
“…Benthic animals are of special concern because stronger stratification reduces oxygenated habitat in Lake Tanganyika (16,17). In modern sediments, benthic invertebrates are generally absent from sediments deposited under anoxic conditions, although some ostracodes tolerate low oxygen (as low as 1 mg·L ) (17)(18)(19)(20). We quantified trends, correlations, break points in temporal patterns, and cross-factor correlations for temperature, algal production, and fossils to understand the respective roles of lake warming and fishing pressure in the recent history of the remarkable biota of Lake Tanganyika.…”
Section: Significancementioning
confidence: 99%