Related references
Note: Only part of the references are listed.A comparison of the trophic transfer of fatty acids in freshwater plankton by cladocerans and calanoid copepods
Carolyn W. Burns et al.
FRESHWATER BIOLOGY (2011)
The effects of seston lipids on zooplankton fatty acid composition in Lake Washington, Washington, USA
Joseph L. Ravet et al.
ECOLOGY (2010)
Seasonal shifts in the diet of lake zooplankton revealed by phospholipid fatty acid analysis
Sami Taipale et al.
FRESHWATER BIOLOGY (2009)
Phytoplankton, not allochthonous carbon, sustains herbivorous zooplankton production
Michael T. Brett et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2009)
Taxonomic differences in the essential fatty acid composition of groups of freshwater zooplankton relate to reproductive demands and generation time
Peter M. Smyntek et al.
FRESHWATER BIOLOGY (2008)
Trophic ecology of dominant zooplankton and macrofauna in a temperate, oligotrophic South African estuary: a fatty acid approach
Nicole B. Richoux et al.
MARINE ECOLOGY PROGRESS SERIES (2008)
Phytoplankton food quality control of planktonic food web processes
Marta G. Danielsdottir et al.
HYDROBIOLOGIA (2007)
Is omega 6 docosapentaenoic acid an essential fatty acid during early ontogeny in marine fauna?
Christopher C. Parrish et al.
LIMNOLOGY AND OCEANOGRAPHY (2007)
Daphnia fatty acid composition reflects that of their diet
Michael T. Brett et al.
LIMNOLOGY AND OCEANOGRAPHY (2006)
Fatty acid composition of flora and fauna associated with Sargassum mats in the Gulf of Mexico
J. P. Turner et al.
MARINE BIOLOGY (2006)
Polyunsaturated fatty acids in zooplankton: variation due to taxonomy and trophic position
J Persson et al.
FRESHWATER BIOLOGY (2006)
Effect of temperature on the fatty acid composition and temporal trajectories of fatty acids in fasting Daphnia pulex (crustacea, cladocera)
Christian Schlechtriem et al.
LIPIDS (2006)
Lipid storage in marine zooplankton
RF Lee et al.
MARINE ECOLOGY PROGRESS SERIES (2006)
Assimilation and biosynthesis of lipids in Arctic Calanus species based on feeding experiments with a 13C labelled diatom
M Graeve et al.
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY (2005)
Effect of algal and bacterial diet on methyl mercury concentrations in zooplankton
M Kainz et al.
ENVIRONMENTAL SCIENCE & TECHNOLOGY (2005)
Quantitative fatty acid signature analysis: A new method of estimating predator diets
SJ Iverson et al.
ECOLOGICAL MONOGRAPHS (2004)
Whole-lake carbon-13 additions reveal terrestrial support of aquatic food webs
ML Pace et al.
NATURE (2004)
Essential fatty acids in the planktonic food web and their ecological role for higher trophic levels
M Kainz et al.
LIMNOLOGY AND OCEANOGRAPHY (2004)
A test of the role of polyunsaturated fatty acids in phytoplankton food quality for Daphnia using liposome supplementation
JL Ravet et al.
LIMNOLOGY AND OCEANOGRAPHY (2003)
Species differences, origins and functions of fatty alcohols and fatty acids in the wax esters and phospholipids of Calanus hyperboreus, C-glacialis and C-finmarchicus from Arctic waters
CL Scott et al.
MARINE ECOLOGY PROGRESS SERIES (2002)
A vertebrate fatty acid desaturase with Δ5 and Δ6 activities
N Hastings et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2001)
A highly unsaturated fatty acid predicts carbon transfer between primary producers and consumers
DC Müller-Navarra et al.
NATURE (2000)