Paleoecological response of ostracods to early Late Pleistocene lake-level changes in Lake Malawi, East Africa

Lisa E. Park, Andrew Cohen

Research output: Contribution to journalArticle

12 Citations (Scopus)

Abstract

Ostracod species from at least seven genera were recovered from drill cores recently collected at Lake Malawi, a large (29,500km2) and deep (706m) African rift valley lake located in the southern African tropics (9-14° S). These genera include Limnocythere, Candonopsis, Ilyocypris, Sclerocypris, Gomphocythere, possible Allocypria? and an unknown Cypridosine. Taphonomic variables such as the percentage of valve breakage, adult individuals, carbonate and oxidized coatings as well as associated mineralogy, can be used to delineate lake-level low and highstands. This record of lake-level fluctuations is correlated with paleoecological changes in ostracod communities throughout the core record of the past ~145ka. Two major assemblages found within the Lake Malawi cores include a Limnocythere-dominated shallow, saline/alkaline assemblage that occurred between 133 and 130ka and between 118 and 90ka and a deeper water Cypridopsine assemblage that lived in waters 10s to 100s of meters in depth and dominated the ostracod assemblage during intervals of lake-level transitions (136-133ka, 129-128ka and 86-63ka), between the occurrence of the littoral assemblage and the appearance of indicators of bottom water anoxia. Changes in occurrences and abundances indicate variations in paleoecological affinities related to lake chemistry and oxygenation of bottom waters. The characteristics of the different lineages influence how that lineage is likely to respond to environmental variability such as lake-level fluctuations. Clades that include large numbers of endemic species in Lake Malawi tend to be specialists and thus more susceptible to environmental perturbations. On the other hand, cosmopolitan species within the lake all appear to be generalists, suggesting that they have high tolerances to environmental variability and therefore, these genera tend to be monospecific within the lake and are less likely to have radiated within the basin. The distribution of these ostracods can be used to evaluate hypotheses about the environmental history at the landscape-scale and their potential influence on species' distribution and diversification histories.

Original languageEnglish (US)
Pages (from-to)71-80
Number of pages10
JournalPalaeogeography, Palaeoclimatology, Palaeoecology
Volume303
Issue number1-4
DOIs
StatePublished - Apr 1 2011

Fingerprint

Lake Malawi
lake level
Eastern Africa
ostracod
Pleistocene
lakes
lake
bottom water
environmental history
oxygenation
anoxia
history
highstand
breakage
East Africa
rift zone
endemic species
generalist
mineralogy
coating

Keywords

  • Climate change
  • Lake levels
  • Lake Malawi
  • Ostracoda

ASJC Scopus subject areas

  • Ecology, Evolution, Behavior and Systematics
  • Palaeontology
  • Earth-Surface Processes
  • Oceanography

Cite this

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title = "Paleoecological response of ostracods to early Late Pleistocene lake-level changes in Lake Malawi, East Africa",
abstract = "Ostracod species from at least seven genera were recovered from drill cores recently collected at Lake Malawi, a large (29,500km2) and deep (706m) African rift valley lake located in the southern African tropics (9-14° S). These genera include Limnocythere, Candonopsis, Ilyocypris, Sclerocypris, Gomphocythere, possible Allocypria? and an unknown Cypridosine. Taphonomic variables such as the percentage of valve breakage, adult individuals, carbonate and oxidized coatings as well as associated mineralogy, can be used to delineate lake-level low and highstands. This record of lake-level fluctuations is correlated with paleoecological changes in ostracod communities throughout the core record of the past ~145ka. Two major assemblages found within the Lake Malawi cores include a Limnocythere-dominated shallow, saline/alkaline assemblage that occurred between 133 and 130ka and between 118 and 90ka and a deeper water Cypridopsine assemblage that lived in waters 10s to 100s of meters in depth and dominated the ostracod assemblage during intervals of lake-level transitions (136-133ka, 129-128ka and 86-63ka), between the occurrence of the littoral assemblage and the appearance of indicators of bottom water anoxia. Changes in occurrences and abundances indicate variations in paleoecological affinities related to lake chemistry and oxygenation of bottom waters. The characteristics of the different lineages influence how that lineage is likely to respond to environmental variability such as lake-level fluctuations. Clades that include large numbers of endemic species in Lake Malawi tend to be specialists and thus more susceptible to environmental perturbations. On the other hand, cosmopolitan species within the lake all appear to be generalists, suggesting that they have high tolerances to environmental variability and therefore, these genera tend to be monospecific within the lake and are less likely to have radiated within the basin. The distribution of these ostracods can be used to evaluate hypotheses about the environmental history at the landscape-scale and their potential influence on species' distribution and diversification histories.",
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N2 - Ostracod species from at least seven genera were recovered from drill cores recently collected at Lake Malawi, a large (29,500km2) and deep (706m) African rift valley lake located in the southern African tropics (9-14° S). These genera include Limnocythere, Candonopsis, Ilyocypris, Sclerocypris, Gomphocythere, possible Allocypria? and an unknown Cypridosine. Taphonomic variables such as the percentage of valve breakage, adult individuals, carbonate and oxidized coatings as well as associated mineralogy, can be used to delineate lake-level low and highstands. This record of lake-level fluctuations is correlated with paleoecological changes in ostracod communities throughout the core record of the past ~145ka. Two major assemblages found within the Lake Malawi cores include a Limnocythere-dominated shallow, saline/alkaline assemblage that occurred between 133 and 130ka and between 118 and 90ka and a deeper water Cypridopsine assemblage that lived in waters 10s to 100s of meters in depth and dominated the ostracod assemblage during intervals of lake-level transitions (136-133ka, 129-128ka and 86-63ka), between the occurrence of the littoral assemblage and the appearance of indicators of bottom water anoxia. Changes in occurrences and abundances indicate variations in paleoecological affinities related to lake chemistry and oxygenation of bottom waters. The characteristics of the different lineages influence how that lineage is likely to respond to environmental variability such as lake-level fluctuations. Clades that include large numbers of endemic species in Lake Malawi tend to be specialists and thus more susceptible to environmental perturbations. On the other hand, cosmopolitan species within the lake all appear to be generalists, suggesting that they have high tolerances to environmental variability and therefore, these genera tend to be monospecific within the lake and are less likely to have radiated within the basin. The distribution of these ostracods can be used to evaluate hypotheses about the environmental history at the landscape-scale and their potential influence on species' distribution and diversification histories.

AB - Ostracod species from at least seven genera were recovered from drill cores recently collected at Lake Malawi, a large (29,500km2) and deep (706m) African rift valley lake located in the southern African tropics (9-14° S). These genera include Limnocythere, Candonopsis, Ilyocypris, Sclerocypris, Gomphocythere, possible Allocypria? and an unknown Cypridosine. Taphonomic variables such as the percentage of valve breakage, adult individuals, carbonate and oxidized coatings as well as associated mineralogy, can be used to delineate lake-level low and highstands. This record of lake-level fluctuations is correlated with paleoecological changes in ostracod communities throughout the core record of the past ~145ka. Two major assemblages found within the Lake Malawi cores include a Limnocythere-dominated shallow, saline/alkaline assemblage that occurred between 133 and 130ka and between 118 and 90ka and a deeper water Cypridopsine assemblage that lived in waters 10s to 100s of meters in depth and dominated the ostracod assemblage during intervals of lake-level transitions (136-133ka, 129-128ka and 86-63ka), between the occurrence of the littoral assemblage and the appearance of indicators of bottom water anoxia. Changes in occurrences and abundances indicate variations in paleoecological affinities related to lake chemistry and oxygenation of bottom waters. The characteristics of the different lineages influence how that lineage is likely to respond to environmental variability such as lake-level fluctuations. Clades that include large numbers of endemic species in Lake Malawi tend to be specialists and thus more susceptible to environmental perturbations. On the other hand, cosmopolitan species within the lake all appear to be generalists, suggesting that they have high tolerances to environmental variability and therefore, these genera tend to be monospecific within the lake and are less likely to have radiated within the basin. The distribution of these ostracods can be used to evaluate hypotheses about the environmental history at the landscape-scale and their potential influence on species' distribution and diversification histories.

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