Hans Poertner
Cited by
Cited by
Climate change 2014: synthesis report. Contribution of Working Groups I, II and III to the fifth assessment report of the Intergovernmental Panel on Climate Change
RK Pachauri, MR Allen, VR Barros, J Broome, W Cramer, R Christ, ...
Ipcc, 2014
Climate Change 2014-Impacts, Adaptation, and Vulnerability: Summary for Policymakers
IPCC Working Group II
Intergovernmental Panel on Climate Change, 2014
Physiology and climate change
HO Pörtner, AP Farrell
Science, 690-692, 2008
Climate change affects marine fishes through the oxygen limitation of thermal tolerance
HO Pörtner, R Knust
science 315 (5808), 95-97, 2007
Climate variations and the physiological basis of temperature dependent biogeography: systemic to molecular hierarchy of thermal tolerance in animals
HO Pörtner
Comparative Biochemistry and Physiology Part A: Molecular & Integrative …, 2002
Oxygen-and capacity-limitation of thermal tolerance: a matrix for integrating climate-related stressor effects in marine ecosystems
HO Pörtner
Journal of Experimental Biology 213 (6), 881-893, 2010
Climate change and temperature dependent biogeography: oxygen limitation of thermal tolerance in animals.
HO Pörtner
Naturwissenschaften 88, 137-146, 2001
Contrasting futures for ocean and society from different anthropogenic CO2 emissions scenarios
JP Gattuso, A Magnan, R Billé, WWL Cheung, EL Howes, F Joos, ...
Science 349 (6243), 2015
Ecosystem effects of ocean acidification in times of ocean warming: a physiologist’s view
HO Pörtner
Marine Ecology Progress Series 373, 203-217, 2008
Climate change effects on fishes and fisheries: towards a cause‐and‐effect understanding
HO Pörtner, MA Peck
Journal of fish biology 77 (8), 1745-1779, 2010
Biological impact of elevated ocean CO 2 concentrations: lessons from animal physiology and earth history
HO Pörtner, M Langenbuch, A Reipschläger
Journal of Oceanography 60 (4), 705-718, 2004
Mitigation pathways compatible with 1.5 C in the context of sustainable development
J Rogelj, D Shindell, K Jiang, S Fifita, P Forster, V Ginzburg, C Handa, ...
Global warming of 1.5° C, 93-174, 2018
Effects of long-term moderate hypercapnia on acid–base balance and growth rate in marine mussels Mytilus galloprovincialis
B Michaelidis, C Ouzounis, A Paleras, HO Pörtner
Marine Ecology Progress Series 293, 109-118, 2005
Physiological basis for high CO2 tolerance in marine ectothermic animals: pre-adaptation through lifestyle and ontogeny?
F Melzner, MA Gutowska, M Langenbuch, S Dupont, M Lucassen, ...
Biogeosciences 6 (10), 2313-2331, 2009
Impacts of ocean acidification on marine shelled molluscs
F Gazeau, LM Parker, S Comeau, JP Gattuso, WA O’Connor, S Martin, ...
Marine biology 160 (8), 2207-2245, 2013
Ocean systems
HO Pörtner, DM Karl, PW Boyd, W Cheung, SE Lluch-Cota, Y Nojiri, ...
Climate change 2014: impacts, adaptation, and vulnerability. Part A: global …, 2014
Synergistic effects of temperature extremes, hypoxia, and increases in CO2 on marine animals: From Earth history to global change
HO Pörtner, M Langenbuch, B Michaelidis
Journal of Geophysical Research: Oceans 110 (C9), 2005
Sensitivities of extant animal taxa to ocean acidification
AC Wittmann, HO Pörtner
Nature climate change 3 (11), 995-1001, 2013
Temperature-dependence of mitochondrial function and production of reactive oxygen species in the intertidal mud clam Mya arenaria
D Abele, K Heise, HO Portner, S Puntarulo
Journal of Experimental Biology 205 (13), 1831-1841, 2002
Oxygen limitation of thermal tolerance defined by cardiac and ventilatory performance in spider crab, Maja squinado
M Frederich, HO Pörtner
American Journal of Physiology-Regulatory, Integrative and Comparative …, 2000
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