His main research concerns Phytoplankton, Photosynthesis, Botany, Nutrient and Chlorophyll a. His Phytoplankton study combines topics from a wide range of disciplines, such as Environmental chemistry and Algae. His work deals with themes such as Nitrate and Animal science, which intersect with Algae.
The various areas that Richard J. Geider examines in his Photosynthesis study include Chlorophyll and Irradiance. His biological study spans a wide range of topics, including Cyanobacteria, Plankton, In situ and Analytical chemistry. His research in the fields of Iron fertilization overlaps with other disciplines such as Phosphorus.
Photosynthesis, Phytoplankton, Botany, Ecology and Chlorophyll a are his primary areas of study. His studies deal with areas such as Biophysics, Chlorophyll and Phaeodactylum tricornutum as well as Photosynthesis. His Phytoplankton research is included under the broader classification of Nutrient.
His Botany study integrates concerns from other disciplines, such as Emiliania huxleyi and Analytical chemistry. The study incorporates disciplines such as Absorption and Animal science in addition to Chlorophyll a. Richard J. Geider has researched Ecosystem in several fields, including Trophic level and Biogeochemistry.
His primary areas of investigation include Ecology, Photosynthesis, Phytoplankton, Environmental chemistry and Trichodesmium erythraeum. His work on Biogeochemistry, Environmental change, Ecosystem and Experimental evolution is typically connected to Organism as part of general Ecology study, connecting several disciplines of science. His Photosynthesis study is associated with Botany.
His study looks at the relationship between Botany and fields such as Biochemistry, as well as how they intersect with chemical problems. Nutrient covers Richard J. Geider research in Phytoplankton. His research integrates issues of Nitrogen fixation, Carbon fixation and Total inorganic carbon in his study of Environmental chemistry.
Phytoplankton, Ecology, Photosynthesis, Botany and Ecosystem are his primary areas of study. His Phytoplankton study is concerned with Nutrient in general. In the subject of general Ecology, his work in Salinity and Environmental change is often linked to Adaptive response, Genomics and Systems biology, thereby combining diverse domains of study.
His work in the fields of Photosynthesis, such as Photosystem II, intersects with other areas such as Chlorophyll Binding Proteins. When carried out as part of a general Botany research project, his work on Photosystem I and Acclimatization is frequently linked to work in Shotgun proteomics, therefore connecting diverse disciplines of study. His work on Carbon cycle and Marine ecosystem as part of his general Ecosystem study is frequently connected to Ecosystem health, thereby bridging the divide between different branches of science.
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Redfield revisited: variability of C:N:P in marine microalgae and its biochemical basis
Richard J. Geider.
European Journal of Phycology (2002)
Processes and patterns of oceanic nutrient limitation
C. M. Moore;M. M. Mills;K. R. Arrigo;I. Berman-Frank.
Nature Geoscience (2013)
Microphytobenthos: The ecological role of the “secret garden” of unvegetated, shallow-water marine habitats. I. Distribution, abundance and primary production
Hugh L. MacIntyre;Richard J. Geider;Douglas C. Miller.
Impacts of atmospheric anthropogenic nitrogen on the open ocean.
R. A. Duce;J. LaRoche;K. Altieri;K. R. Arrigo.
Iron and phosphorus co-limit nitrogen fixation in the eastern tropical North Atlantic
Matthew M. Mills;Celine Ridame;Margaret Davey;Margaret Davey.
A dynamic regulatory model of phytoplanktonic acclimation to light, nutrients, and temperature
Richard J. Geider;Hugh L. Maclntyre;Todd M. Kana.
Limnology and Oceanography (1998)
PHOTOACCLIMATION OF PHOTOSYNTHESIS IRRADIANCE RESPONSE CURVES AND PHOTOSYNTHETIC PIGMENTS IN MICROALGAE AND CYANOBACTERIA1
Hugh L. MacIntyre;Todd M. Kana;Tracy Anning;Richard J. Geider.
Journal of Phycology (2002)
Dynamic model of phytoplankton growth and acclimation: responses of the balanced growth rate and the chlorophyll a:carbon ratio to light, nutrient-limitation and temperature
Geider Rj;MacIntyre Hl;Kana Tm.
Marine Ecology Progress Series (1997)
Ecosystem dynamics based on plankton functional types for global ocean biogeochemistry models
Corinne Le Quéré;Sandy P Harrison;Sandy P Harrison;I Colin Prentice;I Colin Prentice;Erik Theodoor Buitenhuis.
Global Change Biology (2005)
LIGHT AND TEMPERATURE DEPENDENCE OF THE CARBON TO CHLOROPHYLL a RATIO IN MICROALGAE AND CYANOBACTERIA: IMPLICATIONS FOR PHYSIOLOGY AND GROWTH OF PHYTOPLANKTON
Richard J. Geider.
New Phytologist (1987)
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