Effekter av inkuberingstemperatur på kroppsform och fenstorlek hos juvenil atlantlax (Salmo salar L.)

Global warming, a consequence of the ongoing climate change, is expected to increase the mean global temperature by up to 5°C this century. This is predicted to have various impacts on the earth's ecosystems and especially on ectotherms which cannot regulate body temperature by endogenous heat...

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Bibliographic Details
Main Author: Flytström, Annika
Format: Bachelor Thesis
Language:Swedish
Published: Karlstads universitet 2017
Subjects:
egg
Lax
rom
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-65117
Description
Summary:Global warming, a consequence of the ongoing climate change, is expected to increase the mean global temperature by up to 5°C this century. This is predicted to have various impacts on the earth's ecosystems and especially on ectotherms which cannot regulate body temperature by endogenous heat production. There is an intensified interest in investigating the outcomes of climate change and the role of developmental phenotypic plasticity in relation to environmental conditions experienced early in life. Here I compare the body shape and fin size of juvenile Atlantic salmon that had been incubated at two different temperature regimes during embryogenesis. Morphometric methods were used to compare body size through a box-truss network of Euclidean distances and the data were then analyzed using discriminant analysis. Fin size was analyzed by comparing fin area using analysis of covariance with body size as the covariate. The fish incubated in ambient (cold) temperatures differed from the fish incubated in ca. 4°C warmer temperatures by having a deeper body shape and bigger pectoral fin area. There was no significant difference for dorsal fin area. My findings support the notion that Atlantic salmon are morphologically plastic when exposed to different temperature regimes during embryogenesis, but additional studies are needed to determine the ecological consequences of these changes. Global uppvärmning, en konsekvens av pågående klimatförändringar, förväntas öka den globala medeltemperaturen med upp till 5°C det här århundradet. Det här förväntas ha stor påverkan på jordens ekosystem och speciellt ektotermer som inte kan reglera sin kroppstemperatur genom endogen värmeproduktion. Intresset har intensifierats för att undersöka klimatförändringarnas utfall och rollen som fenotypisk plasticitet har som svar på tidiga miljöförhållanden. Kroppsform och fenstorlek jämfördes hos juvenil atlantlax som inkuberats i två olika temperaturbehandlingar under embryogenesen. Morfometri användes för ...