Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
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Does oxygen limit thermal tolerance in arthropods? A critical review of current evidenceConservation physiology of marine fishes: state of the art and prospects for policyThermal Preference Ranges Correlate with Stable Signals of Universal Stress Markers in Lake Baikal Endemic and Holarctic AmphipodsPartitioning the metabolic scope: the importance of anaerobic metabolism and implications for the oxygen- and capacity-limited thermal tolerance (OCLTT) hypothesis.High thermal tolerance of a rainbow trout population near its southern range limit suggests local thermal adjustment.Oceans. Invisible barriers to dispersal.Can respiratory physiology predict thermal niches?Climate change and marine vertebrates.A conceptual framework for understanding thermal constraints on ectotherm activity with implications for predicting responses to global change.Energy storage and fecundity explain deviations from ecological stoichiometry predictions under global warming and size-selective predation.Mechanistic species distribution modelling as a link between physiology and conservationThermal growth potential of Atlantic cod by the end of the 21st century.Organism activity levels predict marine invertebrate survival during ancient global change extinctions.Global patterns in lake ecosystem responses to warming based on the temperature dependence of metabolism.Can we predict ectotherm responses to climate change using thermal performance curves and body temperatures?Adaptation to climate change: trade-offs among responses to multiple stressors in an intertidal crustacean.Effects of ocean acidification increase embryonic sensitivity to thermal extremes in Atlantic cod, Gadus morhua.The broad footprint of climate change from genes to biomes to people.Reconciling fisheries catch and ocean productivity.Transcriptomic responses to seawater acidification among sea urchin populations inhabiting a natural pH mosaic.Life on the edge: O2 binding in Atlantic cod red blood cells near their southern distribution limit is not sensitive to temperature or haemoglobin genotype.Response of Atlantic salmon Salmo salar to temperature and dissolved oxygen extremes established using animal-borne environmental sensors.Thermal biases and vulnerability to warming in the world's marine fauna.Putting Temperature and Oxygen Thresholds of Marine Animals in Context of Environmental Change: A Regional Perspective for the Scotian Shelf and Gulf of St. Lawrence.Symbiodinium mitigate the combined effects of hypoxia and acidification on a noncalcifying cnidarian.At the edge of the thermal window: effects of elevated temperature on the resting metabolism, hypoxia tolerance and upper critical thermal limit of a widespread African cichlidThermal biology of the sub-polar-temperate estuarine crab Hemigrapsus crenulatus (Crustacea: Decapoda: Varunidae).Elevated CO2 increases energetic cost and ion movement in the marine fish intestinePhysiological and ecological implications of ocean deoxygenation for vision in marine organisms.Cephalopod Susceptibility to Asphyxiation via Ocean Incalescence, Deoxygenation, and Acidification.The effect of hypoxia on fish schooling.Salinity modulates thermotolerance, energy metabolism and stress response in amphipods Gammarus lacustris.Sea level rise may increase extinction risk of a saltmarsh ontogenetic habitat specialist.Estimating future temperature maxima in lakes across the United States using a surrogate modeling approach.Hypoxia Tolerance and Metabolic Suppression in Oxygen Minimum Zone Euphausiids: Implications for Ocean Deoxygenation and Biogeochemical Cycles.Intraspecific variation and plasticity in mitochondrial oxygen binding affinity as a response to environmental temperature.Predicting ecological responses in a changing ocean: the effects of future climate uncertainty.Testing hypoxia: physiological effects of long-term exposure in two freshwater fishes.Oxygen- and capacity-limited thermal tolerance: bridging ecology and physiology.Phenomenological vs. biophysical models of thermal stress in aquatic eggs.
P2860
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P2860
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
description
2015 nî lūn-bûn
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2015 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2015年の論文
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2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@ast
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@en
type
label
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@ast
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@en
prefLabel
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@ast
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@en
P2093
P2860
P356
P1433
P1476
Ecophysiology. Climate change tightens a metabolic constraint on marine habitats.
@en
P2093
Aaron Ferrel
Brad Seibel
Curtis Deutsch
P2860
P304
P356
10.1126/SCIENCE.AAA1605
P407
P577
2015-06-01T00:00:00Z