Grazing rates of the copepods Calanus glacialis and C. finmarchicus in arctic waters of the Barents Sea (original) (raw)
Respiration and excretion rates of Calanus glacialis in arctic waters of the Barents Sea
Ulf Båmstedt
Marine Biology, 1985
View PDFchevron_right
Ingestion rates and grazing impacts of Arctic and Pacific copepods in the western Arctic Ocean during autumn
Kohei Matsuno
2019
View PDFchevron_right
Copepod nutritional condition and pelagic production during autumn in Kosterfjorden, western Sweden
Ulf Båmstedt
Marine Biology, 1990
View PDFchevron_right
Non-consumptive mortality in copepods: occurrence of Calanus spp. carcasses in the Arctic Ocean during winter
Stig Falk-petersen
Journal of Plankton Research, 2014
View PDFchevron_right
Feeding, metabolism and body composition of the Antarctic copepod Calanus propinquus Brady with special reference to its life cycle
Ksenia Kosobokova
Polar Biology, 1993
View PDFchevron_right
Reproductive success of Pacific copepods in the Arctic Ocean and the possibility of changes in the Arctic ecosystem
Atsushi Yamaguchi
Polar Biology, 2015
View PDFchevron_right
Copepod grazing potential in late winter in the Norwegian Sea - a factor in the control of spring phytoplankton growth?
Thomas Noji
Marine Ecology Progress Series, 1990
View PDFchevron_right
Effects of suspended sediments on copepods feeding in a glacial influenced sub-Arctic fjord
Sigrún Jónasdóttir, Kristine Arendt
Journal of Plankton Research
View PDFchevron_right
Feeding rates and selectivity among nauplii, copepodites and adult females of Calanus finmarchicus and Calanus helgolandicus
Martin Graeve
Helgoland Marine Research, 2002
View PDFchevron_right
Selective feeding on natural phytoplankton by Calanus finmarchicus before, during, and after the 1997 spring bloom in the Norwegian Sea
B. Meyer-harms
Limnology and Oceanography, 1999
View PDFchevron_right
Advanced recruitment and accelerated population development in Arctic calanoid copepods of the North Water
Jan Weslawski
2002
View PDFchevron_right
Can a key boreal Calanus copepod species now complete its life-cycle in the Arctic? Evidence and implications for Arctic food-webs
Anna Belcher
Ambio
View PDFchevron_right
Respiration of adult female Calanus hyperboreus (Copepoda) during spring in the North Water Polynya
Norio Nagao
2002
View PDFchevron_right
Effect of light and food on the metabolism of the Arctic copepod Calanus glacialis
Janne Søreide
Polar Biology, 2013
View PDFchevron_right
Mortality rates of epipelagic copepods in the post-spring bloom period in Disko Bay, western Greenland
Peter Thor
Marine Ecology Progress Series, 2008
View PDFchevron_right
A year-round study on digestive enzymes in the Arctic copepod Calanus glacialis: implications for its capability to adjust to changing environmental conditions
Janne Søreide
Polar Biology, 2016
View PDFchevron_right
Copepod herbivory rate in a large arctic polynya and its relationship to seasonal and spatial variation in copepod and phytoplankton biomass
Bert Klein
Marine Ecology Progress Series, 2003
View PDFchevron_right
Copepod grazing and its potential impact on the phytoplankton development in the Barents Sea
Dag Slagstad
Polar Research, 1991
View PDFchevron_right
Feeding and respiration rates of a planktonic copepod (Calanus sinicus) oversummering in Yellow Sea Cold Bottom Waters
Sun Song
Marine Biology, 2004
View PDFchevron_right
Calanus spp. grazing affects egg production and vertical carbon flux (the marginal ice zone and open Barents Sea)
Paul Wassmann
Journal of Marine Systems, 2002
View PDFchevron_right
Life-Cycle Strategies and Impact of Cannibalism in Calanoid North Sea Copepods
Anne Wesche
2007
View PDFchevron_right
Interannual and seasonal variation of the population structure, abundance, and biomass of the arctic copepod Calanus glacialis in the White Sea
Ksenia Kosobokova
Oceanology, 2010
View PDFchevron_right
Grazing by the calanoid copepod Neocalanus cristatus on the microbial food web in the coastal Gulf of Alaska
Hongbin Liu
Journal of Plankton Research, 2005
View PDFchevron_right
Copepod omnivory in the North Water Polynya (Baffin Bay) during autumn: spatial patterns in lipid composition
Christopher Parrish
Deep Sea Research Part I: Oceanographic Research Papers, 2004
View PDFchevron_right
Supplementary data - Effects of a future warmer ocean on the coexisting copepods Calanus finmarchicus and C-glacialis in Disko Bay, western Greenland
Stiig Markager
View PDFchevron_right
A year-round study on metabolic enzymes and body composition of the Arctic copepod Calanus glacialis: implications for the timing and intensity of diapause
Janne Søreide
Marine Biology, 2016
View PDFchevron_right
Species-specific differences in lipid composition and omnivory indices in Arctic copepods collected in deep water during autumn (North Water Polynya)
Christopher Parrish
Marine Biology, 2004
View PDFchevron_right
Stable isotopic compositions of overwintering copepods in the arctic and subarctic waters and implications to the feeding history
Mitsuo Fukuchi
Journal of Marine Systems, 2002
View PDFchevron_right
Dietary Change during Development in the Freshwater Calanoid Copepod Epischura lacustris Forbes
Patricia Chow-Fraser
Canadian Journal of Fisheries and Aquatic Sciences, 1986
View PDFchevron_right
Seasonal feeding strategies of Calanus in the high-Arctic Svalbard region
janne soreide
Deep-sea Research Part Ii-topical Studies in Oceanography, 2008
View PDFchevron_right
Life history and biogeography of Calanus copepods in the Arctic Ocean: An individual-based modeling study
Changsheng Chen
Progress in Oceanography, 2012
View PDFchevron_right
Life cycles and seasonal vertical distributions of copepods in the Iceland Sea
Astthor Gislason
Polar Biology, 2018
View PDFchevron_right
Export or retention? Copepod abundance, faecal pellet production and vertical flux in the marginal ice zone through snap shots from the northern Barents Sea
Marit Reigstad
Polar Biology, 2007
View PDFchevron_right
Carbon and nitrogen content of copepod faecal pellets: effect of food concentration and feeding behavior
Carmen E. Morales
Marine Ecology Progress Series, 1987
View PDFchevron_right