Evolutionary rigidity of thermal physiology: The case of the cool temperate lizard Lacerta vivipara

R Van Damme; Dirk Bauwens; R. F Verheyen

doi:10.2307/3565737

Evolutionary rigidity of thermal physiology: The case of the cool temperate lizard Lacerta vivipara

R Van Damme, Dirk Bauwens, R. F Verheyen

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We compared the thermal dependence of sprint speed in two populations of the common lizard, Lacerta vivipara , from different altitudes. Although field body temperatures in the montane population were consistently 3-5 degree C below those of the lowland population, we found no parallel shift in the optimal temperatures for sprint speed. Lizards from both populations also selected similar temperatures in the laboratory. In the field, lizards from the montane population were frequently active at body temperatures the seriously impair locomotion. These observation give support to the static view of thermal physiology, which claims that thermal physiology is evolutionary, stationary and resistant to directional selection.

Oorspronkelijke taal	Engels
Tijdschrift	Oikos (København)
Volume	57
Pagina's (van-tot)	61-67
Aantal pagina’s	7
DOI's	https://doi.org/10.2307/3565737
Publicatiestatus	Gepubliceerd - 1990

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title = "Evolutionary rigidity of thermal physiology: The case of the cool temperate lizard Lacerta vivipara",

abstract = "We compared the thermal dependence of sprint speed in two populations of the common lizard, Lacerta vivipara , from different altitudes. Although field body temperatures in the montane population were consistently 3-5 degree C below those of the lowland population, we found no parallel shift in the optimal temperatures for sprint speed. Lizards from both populations also selected similar temperatures in the laboratory. In the field, lizards from the montane population were frequently active at body temperatures the seriously impair locomotion. These observation give support to the static view of thermal physiology, which claims that thermal physiology is evolutionary, stationary and resistant to directional selection.",

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T1 - Evolutionary rigidity of thermal physiology

T2 - The case of the cool temperate lizard Lacerta vivipara

AU - Van Damme, R

AU - Bauwens, Dirk

AU - Verheyen, R. F

N1 - Publication Authorstring : Van Damme, R.; Bauwens, D.; Verheyen, R.F. Publication RefStringPartII : <i>Oikos (København) 57(1)</i>: 61-67

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N2 - We compared the thermal dependence of sprint speed in two populations of the common lizard, Lacerta vivipara , from different altitudes. Although field body temperatures in the montane population were consistently 3-5 degree C below those of the lowland population, we found no parallel shift in the optimal temperatures for sprint speed. Lizards from both populations also selected similar temperatures in the laboratory. In the field, lizards from the montane population were frequently active at body temperatures the seriously impair locomotion. These observation give support to the static view of thermal physiology, which claims that thermal physiology is evolutionary, stationary and resistant to directional selection.

AB - We compared the thermal dependence of sprint speed in two populations of the common lizard, Lacerta vivipara , from different altitudes. Although field body temperatures in the montane population were consistently 3-5 degree C below those of the lowland population, we found no parallel shift in the optimal temperatures for sprint speed. Lizards from both populations also selected similar temperatures in the laboratory. In the field, lizards from the montane population were frequently active at body temperatures the seriously impair locomotion. These observation give support to the static view of thermal physiology, which claims that thermal physiology is evolutionary, stationary and resistant to directional selection.

U2 - 10.2307/3565737

DO - 10.2307/3565737

M3 - A1: Web of Science-article

VL - 57

SP - 61

EP - 67

JO - Oikos (København)

JF - Oikos (København)

SN - 0030-1299

ER -

Evolutionary rigidity of thermal physiology: The case of the cool temperate lizard Lacerta vivipara

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