Congeneric amphipods show differing abilities to maintain metabolic rates with latitude.

https://arctichealth.org/en/permalink/ahliterature101757
Source
Physiol Biochem Zool. 2011 Mar-Apr;84(2):154-65
Publication Type
Article
Author
S P S Rastrick
N M Whiteley
Author Affiliation
College of Natural Sciences, Bangor University, Bangor, Gwynedd LL57 2UW, UK.
Source
Physiol Biochem Zool. 2011 Mar-Apr;84(2):154-65
Language
English
Publication Type
Article
Keywords
Acclimatization
Amphipoda - genetics - physiology
Animals
Demography
Ecosystem
Energy Metabolism - physiology
Oxygen - metabolism
Species Specificity
Temperature
Abstract
Metabolic variability across latitudinal populations of gammarid amphipods was examined in the summer by determining whole-animal rates of oxygen uptake ([Formula: see text]) in four species with overlapping distribution patterns in the northeast Atlantic and Arctic oceans. Comparisons were made between an arctic/boreal species, Gammarus setosus, a subarctic/boreal species, Gammarus oceanicus, a boreal/temperate species, Gammarus duebeni duebeni, and a temperate species, Gammarus locusta. Measurements included acclimatized [Formula: see text] in all four species and [Formula: see text] after acclimation to 10°C in two populations of G. oceanicus and G. locusta. In G. oceanicus, acclimatized [Formula: see text] declined with latitude (13° to 5°C) so that metabolic rates were lower in subarctic (79°N) relative to temperate (58°N) populations and similar to the values in G. setosus at 79°N. Consequently, there was no evidence for metabolic rate compensation in the colder-water, high-latitude populations in the summer. Further examination of the specific effects of temperature revealed similarities in [Formula: see text] between populations of G. oceanicus acclimated at 10°C and similarities in thermal sensitivity (Q(10)) and activation energies (E(a)) on exposure to acute temperature change. In sharp contrast, there was no variation in summer acclimatized [Formula: see text] with latitude in either G. d. duebeni between 48° and 70°N or G. locusta between 38° and 53°N. Instead, the two species maintained relatively high metabolic rates across latitudes, which were associated in G. locusta with differences in [Formula: see text] and with Q(10) and E(a) values in amphipods acclimated at 10°C. The ability to compensate metabolic rate with latitude in the summer suggests greater metabolic flexibility, which predicts a greater capacity for survival during climate change of the temperate/boreal over the subarctic and arctic gammarid species.
PubMed ID
21460526 View in PubMed
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