Jordan Grigor
YOU?
Author Swipe
Revealing the profound influence of diapause on gene expression: Insights from the annual transcriptome of the copepod <i>Calanus finmarchicus</i> Open
Annual rhythms are observed in living organisms with numerous ecological implications. In the zooplanktonic copepod Calanus finmarchicus , such rhythms are crucial regarding its phenology, body lipid accumulation, and global carbon storage…
Swimming Activity as an Indicator of Seasonal Diapause in the Copepod Calanus finmarchicus Open
Copepods dominate zooplankton biomass of the upper ocean, especially in the highly seasonal boreal and polar regions, for which specific life-cycle traits such as the accumulation of lipid reserves, migration into deep water and diapause a…
Annual transcriptome of a key zooplankton species, the copepod <i>Calanus finmarchicus</i> Open
The copepod Calanus finmarchicus (Crustacea, Copepoda) is a key zooplanktonic species with a crucial position in the North Atlantic food web and significant contributor to ocean carbon flux. Like many other high latitude animals, it has ev…
The Bottom of the Arctic’s Food Web Is of Top Importance Open
As our planet’s climate warms, its most rapidly changing region is the Arctic Ocean and surrounding seas. Warming causes many changes, including the melting of sea ice and a decline in the amount of water that is covered by ice. These chan…
Lipid and fatty acid data Open
Raw data for Progress in Oceanography submission. Grigor et al. "Non-carnivorous feeding in Arctic chaetognaths".Chaetognath lipid and fatty acid data.
Abundance data Open
Raw data for Progress in Oceanography submission. Grigor et al. "Non-carnivorous feeding in Arctic chaetognaths".Chaetognath abundance data.
Gut content data Open
Raw data for Progress in Oceanography submission. Grigor et al. "Non-carnivorous feeding in Arctic chaetognaths".Chaetognath gut content presence and colour data.
Stable isotope data Open
Raw data for Progress in Oceanography submission. Grigor et al. "Non-carnivorous feeding in Arctic chaetognaths".Chaetognath stable isotope data.
Growth and reproduction of the chaetognaths Eukrohnia hamata and Parasagitta elegans in the Canadian Arctic Ocean: capital breeding versus income breeding Open
In Arctic seas, primary production and the availability of food for zooplankton are strongly pulsed over the short productive summer. We tested the hypothesis that Eukrohnia hamata and Parasagitta elegans, two similar and sympatric arctic …
Ecology and physiology of chaetognaths (semi-gelatinous zooplankton) in Arctic waters Open
Les chaetognathes sont d’importants membres des communautés mésozooplanctoniques de l’Arctique en ce qui a trait à l'abondance et à la biomasse. Les chaetognathes de l’Arctique se répartissent en trois espèces principales qui sont considér…