Geoscience Reference
In-Depth Information
Pörtner, H.-O. (2008). Ecosystem effects of ocean acidii ca-
tion in times of ocean warming: a physiologist's view.
Marine Ecology Progress Series , 373 , 203-17.
Pörtner, H.-O. (2010). Oxygen and capacity limitation of
thermal tolerance: a matrix for integrating climate
related stressors in marine ecosystems. Journal of
Experimental Biology , 213 , 881-93.
Pörtner, H.-O. and Farrell, A.P. (2008). Physiology and
climate change. Science , 322 , 690-2.
Pörtner, H.-O. and Knust R. (2007). Climate change affects
marine i shes through the oxygen limitation of thermal
tolerance. Science , 315 , 95-7.
Pörtner, H.-O. and Reipschläger, A. (1996). Ocean disposal
of anthropogenic CO 2 : physiological effects on tolerant
and intolerant animals. In: B. Ormerod and M.V. Angel
(eds), Ocean storage of carbon dioxide, Workshop 2—Envi-
ronmental impact , pp. 57-81. IEA Greenhouse Gas R&D
Programme, Cheltenham, UK.
Pörtner, H.-O. and Zielinski, S. (1998). Environmental con-
straints and the physiology of performance in squids.
South African Journal of Marine Science , 20 , 207-21.
Pörtner, H.-O., Reipschläger, A., and Heisler, N. (1998).
Metabolism and acid-base regulation in Sipunculus
nudus as a function of ambient carbon dioxide. Journal of
Experimental Biology , 201 , 43-55.
Pörtner, H.-O., Bock, C., and Reipschläger, A. (2000).
Modulation of the cost of pH i regulation during meta-
bolic depression: a 31 P-NMR study in invertebrate
( Sipunculus nudus ) isolated muscle. Journal of Experimental
Biology , 203 , 2417-28.
Pörtner, H.-O., Langenbuch, M., and Reipschläger, A.
(2004). Biological impact of elevated ocean CO 2 concen-
trations: lessons from animal physiology and earth his-
tory. Journal of Oceanography , 60 , 705-18.
Pörtner, H.-O., Langenbuch, M., and Michaelidis, B.
(2005a). Synergistic effects of temperature extremes,
hypoxia, and increases in CO 2 on marine animals: from
Earth history to global change. Journal of Geophysical
Research , 110 , C09S10, doi: 10.1029/2004JC002561.
Pörtner, H.-O., Lucassen, M., and Storch, D. (2005b).
Metabolic biochemistry: its role in thermal tolerance
and in the capacities of physiological and ecological
function. In: A.P. Farrell and J.F. Steffensen (eds),
The physiology of polar i shes. Fish physiology Vol. 22,
pp. 79-154. Academic Press, New York.
Pörtner, H.-O., Bock, C., Knust, R. et al. (2008). Cod and cli-
mate in a latitudinal cline: physiological analyses of cli-
mate effects in marine i shes. Climate Research , 37 , 253-70.
Prince, E.D. and Goodyear, C.P. (2006). Hypoxia-based
habitat compression of tropical pelagic i shes. Fisheries
Oceanography , 15 , 451-64.
Ramnanan, C.J. and Storey, K.B. (2006). Suppression of
Na + /K + ATPase activity during estivation in the land
snail Otala lactea . Journal of Experimental Biology , 209 ,
677-88.
Reipschläger, A. and Pörtner, H.-O. (1996). Metabolic
depression during environmental stress: the role of
extra- versus intracellular pH in Sipunculus nudus .
Journal of Experimental Biology , 199 , 1801-7.
Reipschläger, A., Nilsson, G.E., and Pörtner, H.-O. (1997).
A role for adenosine in metabolic depression in the
marine invertebrate Sipunculus nudus . American Journal
of Physiology , 272 , R350-R356.
Rosa, R. and Seibel, B.A. (2008). Synergistic effect of cli-
mate-related variables suggests future physiological
impairment in a top oceanic predator. Proceedings of the
National Academy of Sciences USA , 52 , 20776-80.
Rosa, R. and Seibel, B.A. (2010). Metabolic physiology of
the Humboldt squid, Dosidicus gigas : implications for
vertical migration in a pronounced oxygen minimum
zone. Progress in Oceanography , 86 , 72-80.
Schipp, R., Mollenhauer, S., and Boletzky, S. (1979).
Electron microscopical and histochemical studies of dif-
ferentiation and function of the cephalopod gill ( Sepia
ofi cinalis L.). Zoomorphology , 93 , 193-207.
Seibel, B.A. (2007). On the depth and scale of metabolic
rate variation: scaling of oxygen consumption and enzy-
matic activity in the class Cephalopoda. Journal of
Experimental Biology , 210 , 1-11.
Seibel, B.A. (2011). Critical oxygen levels and metabolic
suppression in oceanic oxygen minimum zones. Journal
of Experimental Biology , 214 , 326-336.
Seibel, B.A. and Drazen, J. C. (2007). The rates of metabo-
lism in marine animals: environmental constraints, eco-
logical demands and energetic opportunities.
Philosophical Transactions of the Royal Society B: Biological
Sciences , 362 , 2061-78.
Seibel, B.A. and Fabry, V.J. (2003). Marine biotic response
to elevated carbon dioxide. Advances in Applied
Biodiversity Science , 4 , 59-67.
Seibel, B.A. and Walsh, P.J. (2001). Potential impacts of
CO 2 injection on deep-sea biota. Science , 294 , 319-20.
Seibel, B.A. and Walsh, P.J. (2003). Biological impacts of
deep-sea carbon dioxide injection inferred from indices
of physiological performance. Journal of Experimental
Biology , 206 , 641-50.
Seibel B.A., Girguis P.R., and Childress J.J. (2009). Critique
of the respiration index. Science E-letter , 13. November
2009.
Seidelin, M., Brauner, C.J., Jensen, F.B., and Madsen, S.S.
(2001). Vacuolar-type H + -ATPase and Na + , K + -ATPase
expression in gills of Atlantic salmon ( Salmo salar )
Search WWH ::




Custom Search