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Food Limitation in a Wild Cyclopoid Copepod Population: Direct and Indirect Life History Responses
by
Hansen, Anne-Mette
, Hairston, Nelson G.
in
Algae
/ Animal and plant ecology
/ Animal, plant and microbial ecology
/ Animals
/ Biological and medical sciences
/ Daphnia
/ Demecology
/ Diacyclops thomasi
/ Diapause
/ Ecophysiology
/ Euglena
/ Food
/ Food availability
/ Freshwater
/ Fundamental and applied biological sciences. Psychology
/ Lake water
/ Lakes
/ Plankton
/ Protozoa. Invertebrata
/ Sediments
/ Zooplankton
1998
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Food Limitation in a Wild Cyclopoid Copepod Population: Direct and Indirect Life History Responses
by
Hansen, Anne-Mette
, Hairston, Nelson G.
in
Algae
/ Animal and plant ecology
/ Animal, plant and microbial ecology
/ Animals
/ Biological and medical sciences
/ Daphnia
/ Demecology
/ Diacyclops thomasi
/ Diapause
/ Ecophysiology
/ Euglena
/ Food
/ Food availability
/ Freshwater
/ Fundamental and applied biological sciences. Psychology
/ Lake water
/ Lakes
/ Plankton
/ Protozoa. Invertebrata
/ Sediments
/ Zooplankton
1998
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Do you wish to request the book?
Food Limitation in a Wild Cyclopoid Copepod Population: Direct and Indirect Life History Responses
by
Hansen, Anne-Mette
, Hairston, Nelson G.
in
Algae
/ Animal and plant ecology
/ Animal, plant and microbial ecology
/ Animals
/ Biological and medical sciences
/ Daphnia
/ Demecology
/ Diacyclops thomasi
/ Diapause
/ Ecophysiology
/ Euglena
/ Food
/ Food availability
/ Freshwater
/ Fundamental and applied biological sciences. Psychology
/ Lake water
/ Lakes
/ Plankton
/ Protozoa. Invertebrata
/ Sediments
/ Zooplankton
1998
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Food Limitation in a Wild Cyclopoid Copepod Population: Direct and Indirect Life History Responses
Journal Article
Food Limitation in a Wild Cyclopoid Copepod Population: Direct and Indirect Life History Responses
1998
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Overview
We studied the effects of food limitation on the population dynamics of the freshwater cyclopoid copepod Diacyclops thomasi in Oneida Lake, New York. In the field population, maximum juvenile abundance coincided seasonally with high phytoflagellate concentration. During the clear-water phase (a seasonal period of low algal density), D. thomasi disappeared from the water column, but fourth-instar copepodids (CIV) were found encysted in developmental arrest in the sediment. Laboratory assays of the effect of the density of two types of food on copepod life history parameters showed that temporal variation in the concentration of relatively small phytoflagellates significantly affected stage-specific development times. This food limitation was most pronounced during the clear-water phase, and supplementation of the diet with a laboratory-cultured phytoflagellate, Chlamydomonas, prevented food limitation. Although developmental arrest appears to be controlled primarily by photoperiod, availability of the larger, more mobile food, Euglena, also influenced the percentage of individuals entering developmental arrest in the laboratory. An investigation of the spatial and temporal emergence pattern in the field revealed that CIV copepodids started to emerge in late autumn and that emergence rates were significantly greater at deep-water locations (9-12 m water depth) compared with shallow-water locations (5-7 m). The clear-water phase in Oneida Lake is an annual event, probably produced by intense grazing by Daphnia pulicaria and Daphnia galeata. Food limitation is thus very likely a recurrent phenomenon for D. thomasi. This apparent seasonal competitive impact of Daphnia on Diacyclops affects both nauplii and immature copepodids. Diacyclops shows two types of responses to the food limitation: (1) the physiological response of slowed active development, and (2) the adaptive response of developmental arrest.
Publisher
Springer-Verlag,Springer
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