Andrew G. Hirst
Andrew G. Hirst
Adjunct Professor, DTU, Copenhagen
Nicio adresă de e-mail confirmată - Pagina de pornire
Citat de
Citat de
Warming-induced reductions in body size are greater in aquatic than terrestrial species
J Forster, AG Hirst, D Atkinson
Proceedings of the National Academy of Sciences 109 (47), 19310-19314, 2012
Spatial and temporal operation of the Scotia Sea ecosystem: a review of large-scale links in a krill centred food web
EJ Murphy, JL Watkins, PN Trathan, K Reid, MP Meredith, SE Thorpe, ...
Philosophical Transactions of the Royal Society B: Biological Sciences 362 …, 2007
Growth of marine planktonic copepods: Global rates and patterns in relation to chlorophyll a, temperature, and body weight
AG Hirst, AJ Bunker
Limnology and Oceanography 48 (5), 1988-2010, 2003
Mortality of marine planktonic copepods: global rates and patterns
AG Hirst, T Kiørboe
Marine Ecology Progress Series 230, 195-209, 2002
Temperature‐size responses match latitudinal‐size clines in arthropods, revealing critical differences between aquatic and terrestrial species
CR Horne, AG Hirst, D Atkinson
Ecology letters 18 (4), 327-335, 2015
Towards a global model of in situ weight-specific growth in marine planktonic copepods
AG Hirst, RS Lampitt
Marine Biology 132, 247-257, 1998
An overview of Calanus helgolandicus ecology in European waters
D Bonnet, A Richardson, R Harris, A Hirst, G Beaugrand, M Edwards, ...
Progress in Oceanography 65 (1), 1-53, 2005
Natural growth rates in Antarctic krill (Euphausia superba): II. Predictive models based on food, temperature, body length, sex, and maturity stage
A Atkinson, RS Shreeve, AG Hirst, P Rothery, GA Tarling, DW Pond, ...
Limnol. Oceanogr 51, 973-987, 2006
Body size: the structure and function of aquatic ecosystems
AG Hildrew, DG Raffaelli, R Edmonds-Brown
Cambridge University Press, 2007
Shrinking body sizes in response to warming: explanations for the temperature–size rule with special emphasis on the role of oxygen
WCEP Verberk, D Atkinson, KN Hoefnagel, AG Hirst, CR Horne, H Siepel
Biological Reviews 96 (1), 247-268, 2021
Biogeochemical fluxes through mesozooplankton
E Buitenhuis, C Le Quéré, O Aumont, G Beaugrand, A Bunker, A Hirst, ...
Global biogeochemical cycles 20 (2), 2006
Shifts in mass scaling of respiration, feeding, and growth rates across life-form transitions in marine pelagic organisms
T Kiørboe, AG Hirst
The American Naturalist 183 (4), E118-E130, 2014
Growth and development rates have different thermal responses
J Forster, AG Hirst, G Woodward
The American Naturalist 178 (5), 668-678, 2011
The temperature‐size rule emerges from ontogenetic differences between growth and development rates
J Forster, AG Hirst
Functional Ecology 26 (2), 483-492, 2012
Fecundity of marine planktonic copepods: global rates and patterns in relation to chlorophyll a, temperature and body weight
AJ Bunker, AG Hirst
Marine Ecology Progress Series 279, 161-181, 2004
Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
C Le Quéré, ET Buitenhuis, R Moriarty, S Alvain, O Aumont, L Bopp, ...
Biogeosciences 13 (14), 4111-4133, 2016
Are in situ weight-specific growth rates body-size independent in marine planktonic copepods? A re-analysis of the global syntheses and a new empirical model
AG Hirst, M Sheader
Marine Ecology Progress Series 154, 155-165, 1997
Pelagic production at the Celtic Sea shelf break
I Joint, R Wollast, L Chou, S Batten, M Elskens, E Edwards, A Hirst, ...
Deep Sea Research Part II: Topical Studies in Oceanography 48 (14-15), 3049-3081, 2001
A synthesis of growth rates in marine epipelagic invertebrate zooplankton
AG Hirst, JC Roff, RS Lampitt
Advances in marine biology 44, 1-142, 2003
Body shape shifting during growth permits tests that distinguish between competing geometric theories of metabolic scaling
AG Hirst, DS Glazier, D Atkinson
Ecology Letters 17 (10), 1274-1281, 2014
Sistemul nu poate realiza operația în acest moment. Încercați din nou mai târziu.
Articole 1–20