Thomas Anderson
Cited by
Cited by
CO2, the greenhouse effect and global warming: from the pioneering work of Arrhenius and Callendar to today's Earth System Models
TR Anderson, E Hawkins, PD Jones
Endeavour 40 (3), 178-187, 2016
Carbon sequestration in ecosystems: the role of stoichiometry
DO Hessen, GI Ågren, TR Anderson, JJ Elser, PC De Ruiter
Ecology 85 (5), 1179-1192, 2004
Plankton functional type modelling: running before we can walk?
TR Anderson
Journal of plankton research 27 (11), 1073-1081, 2005
Reconciliation of the carbon budget in the ocean’s twilight zone
SLC Giering, R Sanders, RS Lampitt, TR Anderson, C Tamburini, ...
Nature 507 (7493), 480-483, 2014
Mesopelagic zone ecology and biogeochemistry–a synthesis
C Robinson, DK Steinberg, TR Anderson, J Arístegui, CA Carlson, ...
Deep Sea Research Part II: Topical Studies in Oceanography 57 (16), 1504-1518, 2010
Assessing the apparent imbalance between geochemical and biochemical indicators of meso-and bathypelagic biological activity: What the@ $♯! is wrong with present calculations …
AB Burd, DA Hansell, DK Steinberg, TR Anderson, J Arístegui, F Baltar, ...
Deep Sea Research Part II: Topical Studies in Oceanography 57 (16), 1557-1571, 2010
Metabolic stoichiometry and the fate of excess carbon and nutrients in consumers
TR Anderson, DO Hessen, JJ Elser, J Urabe
The American Naturalist 165 (1), 1-15, 2005
MEDUSA-2.0: an intermediate complexity biogeochemical model of the marine carbon cycle for climate change and ocean acidification studies
A Yool, EE Popova, TR Anderson
Geoscientific Model Development 6 (5), 1767-1811, 2013
Ocean fertilization: a potential means of geoengineering?
RS Lampitt, EP Achterberg, TR Anderson, JA Hughes, ...
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2008
Beyond the Durfee square: Enhancing the h-index to score total publication output
T Anderson, R Hankin, P Killworth
Scientometrics 76 (3), 577-588, 2008
Excess carbon in aquatic organisms and ecosystems: physiological, ecological, and evolutionary implications
DO Hessen, TR Anderson
Limnology and Oceanography 53 (4), 1685-1696, 2008
Stoichiometry: linking elements to biochemicals
TR Anderson, M Boersma, D Raubenheimer
Ecology 85 (5), 1193-1202, 2004
Control of primary production in the Arctic by nutrients and light: insights from a high resolution ocean general circulation model
EE Popova, A Yool, AC Coward, YK Aksenov, SG Alderson, ...
Biogeosciences 7 (11), 3569-3591, 2010
Modelling the influence of food C: N ratio, and respiration on growth and nitrogen excretion in marine zooplankton and bacteria
TR Anderson
Journal of Plankton Research 14 (12), 1645-1671, 1992
Microbial loop carbon cycling in ocean environments studied using a simple steady-state model
TR Anderson, HW Ducklow
Aquatic Microbial Ecology 26 (1), 37-49, 2001
Modelling the seasonal cycle of dissolved organic carbon at Station E1in the English Channel
TR Anderson, PJB Williams
Estuarine, Coastal and Shelf Science 46 (1), 93-109, 1998
Stoichiometric theory extended to micronutrients: comparison of the roles of essential fatty acids, carbon, and nitrogen in the nutrition of marine copepods
TR Anderson, DW Pond
Limnology and Oceanography 45 (5), 1162-1167, 2000
Parameter optimisation techniques and the problem of underdetermination in marine biogeochemical models
BA Ward, MAM Friedrichs, TR Anderson, A Oschlies
Journal of Marine Systems 81 (1-2), 34-43, 2010
Effect of food quality on carbon and nitrogen growth efficiency in the copepod Acartia tonsa
RH Jones, KJ Flynn, TR Anderson
Marine Ecology Progress Series 235, 147-156, 2002
Non-redfield carbon and nitrogen cycling in the Sargasso Sea: pelagic imbalances and export flux
TR Anderson, P Pondaven
Deep Sea Research Part I: Oceanographic Research Papers 50 (5), 573-591, 2003
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