Hypoxic zones as habitat for zooplankton in Lake Erie: Refuges from predation or exclusion zones?
Bottom hypoxia has reemerged as a prominent feature of Lake Erie's central basin during late summer. Similar to coastal marine systems, the impacts of hypoxia on pelagic organisms in Lake Erie remain largely enigmatic. During summer 2005 and 2007, we used pump sampling for mesozooplankton and f...
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Published in | Journal of experimental marine biology and ecology Vol. 381; pp. S108 - S120 |
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Main Authors | , , , , , , , |
Format | Journal Article Conference Proceeding |
Language | English |
Published |
Kidlington
Elsevier B.V
01.12.2009
Elsevier |
Subjects | |
Online Access | Get full text |
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Summary: | Bottom hypoxia has reemerged as a prominent feature of Lake Erie's central basin during late summer. Similar to coastal marine systems, the impacts of hypoxia on pelagic organisms in Lake Erie remain largely enigmatic. During summer 2005 and 2007, we used pump sampling for mesozooplankton and fish acoustics to test the hypothesis that mesozooplankton use hypoxia as a refuge from predation. We explored species-specific diel vertical migration (DVM) of mesozooplankton and spatial overlap with planktivorous fishes at several offshore stations in the central basin of Lake Erie with similar thermal structure, but varying hypolimnetic dissolved oxygen (DO) concentrations (range: 0.3 to 4.6
mg l
−
1). The tendency of a zooplankter to use the hypolimnion under normoxic conditions and its sensitivity to DO defined its DVM and overlap with fish, which were generally more sensitive to hypoxia than mesozooplankton. The diaptomids (calanoid copepods) and the predatory cladoceran
Leptodora kindtii were largely unaffected by hypoxia, using the epilimnion during both day and night.
Daphnia mendotae and the predatory cladoceran
Bythotrephes longimanus, both of which migrated from the metalimnion and epilimnion to the hypolimnion during the day under normoxic conditions, avoided the hypolimnion at DO levels ≤
2.0
mg l
−
1
. Dissolved oxygen levels between 1.0 and 1.2
mg l
−
1
were critical avoidance thresholds for most other mesozooplankton species, with the copepod
Mesocyclops edax, a migrator between the epilimnion and hypolimnion, avoiding DO ≤
1.2
mg l
−
1
. By contrast the cool water, hypolimnetic copepod
Diacyclops thomasi and
Daphnia longiremis continued to use the hypolimnion during the day until DO became ≤
1.0
mg l
−
1
. These species aggregated in the metalimnion (primarily) and epilimnion (secondarily) at night. Only
Bosmina was found in abundance in the hypolimnion at DO levels equal to 0.3
mg l
−
1
. Hypoxia-intolerant species (e.g.,
D. mendotae,
B. longimanus) that were compressed into the thin metalimnion during day likely faced high predation pressure from visual-feeding planktivorous fishes (e.g., rainbow smelt
Osmerus mordax, emerald shiners
Notropis atherinoides) as well as the predatory cladoceran,
B. longimanus. By contrast, hypoxia-tolerant species (e.g.,
D. thomasi,
D. longiremis, and
B. longirostris) that remained in the hypolimnion may have found refuge in hypoxic areas with DO >
1.0
mg l
−
1
, although fish were occasionally observed making feeding excursions into hypoxic waters. |
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Bibliography: | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
ISSN: | 0022-0981 1879-1697 |
DOI: | 10.1016/j.jembe.2009.07.015 |