Behavioral and physiological traits of ectotherms are especially sensitive to fluctuations of environmental temperature.In particular,niche-specialist lizards are dependent on their physiological plasticity to adjust ...Behavioral and physiological traits of ectotherms are especially sensitive to fluctuations of environmental temperature.In particular,niche-specialist lizards are dependent on their physiological plasticity to adjust to changing environmental conditions.Lizards of the genus Phymaturus are viviparous,mainly herbivorous,and inhabit only rock promontories in the steppe environments of Patagonia and the Andes.Herein,we examine the vulnerability of the southernmost Phymaturus species to global warming:the endemic Phymaturus calcogaster,which lives in a mesic environment in eastern Patagonia.We studied body temperatures in the field(T_(b)),preferred body temperatures in a thermogradient(T_(pref)),the operative(T_(e))and environmental temperatures,and the dependence of running performance on body temperature.P.calcogaster had a mean T_(b)(27.04℃)and a mean Te(31.15℃)both lower than their preferred temperature(T_(pref)=36.61℃)and the optimal temperature for running performance(T_(o)=37.13℃).Lizard activity seems to be restraint during the early afternoon due high environmental temperatures.However,both,the high safety margin and warming tolerance suggest that the expected increase in environmental temperatures due to global warming(IPCC report in 2018)would not threaten,but indeed enhance locomotor performance in this population.展开更多
Reproductive and life history patterns in reptiles are tightly related to the environmental conditions,so male reproductive cycles have been historically characterized as continuous,for tropical lizards,or seasonal,fo...Reproductive and life history patterns in reptiles are tightly related to the environmental conditions,so male reproductive cycles have been historically characterized as continuous,for tropical lizards,or seasonal,for temperate lizards.However,males of Liolaemus and Phymaturus lizards(Liolaemidae),from cold temperate climates of high altitudes or latitudes in Argentina and Chile,have developed a variety of reproductive cycles to coordinate with the short female reproductive season and to deal with the low frequency of reproductive females in the population.Using gonadal histology and morphological analysis,we describe the male reproductive biology,fat storage and sexual dimorphism of the viviparous lizards Liolaemus sarmientoi and Liolaemus magellanicus that inhabit an austral grass steppe at 51°S,in the southern limit of the American continent.Males of L.sarmientoi and L.magellanicus are reproductively available during the entire activity season of approximately 5 months.In addition,males of both species exhibit greater body sizes than females in morphological variables relevant in sexual selection.Meanwhile,females of both species exhibit larger inter-limb length than conspecific males,which suggests fecundity selection to increase space for a larger litter size.The continuous sperm production throughout the activity season allows these liolaemids to mate at any time when females ovulate,representing a selective advantage to deal with the short activity season and the adversities of the cold environment they inhabit.展开更多
基金supported by Universidad Nacional de la Patagonia San Juan Bosco PI 1123,Universidad Nacional del Comahue(CRUB UNComahue 04/B196)the Argentinean Consejo Nacional de Investigaciones Científicas y Técnicas(CONICET,PIP 100271)Fondo para la Investigación Científica y Tecnológica(FONCyT)PICT-2014-3100.
文摘Behavioral and physiological traits of ectotherms are especially sensitive to fluctuations of environmental temperature.In particular,niche-specialist lizards are dependent on their physiological plasticity to adjust to changing environmental conditions.Lizards of the genus Phymaturus are viviparous,mainly herbivorous,and inhabit only rock promontories in the steppe environments of Patagonia and the Andes.Herein,we examine the vulnerability of the southernmost Phymaturus species to global warming:the endemic Phymaturus calcogaster,which lives in a mesic environment in eastern Patagonia.We studied body temperatures in the field(T_(b)),preferred body temperatures in a thermogradient(T_(pref)),the operative(T_(e))and environmental temperatures,and the dependence of running performance on body temperature.P.calcogaster had a mean T_(b)(27.04℃)and a mean Te(31.15℃)both lower than their preferred temperature(T_(pref)=36.61℃)and the optimal temperature for running performance(T_(o)=37.13℃).Lizard activity seems to be restraint during the early afternoon due high environmental temperatures.However,both,the high safety margin and warming tolerance suggest that the expected increase in environmental temperatures due to global warming(IPCC report in 2018)would not threaten,but indeed enhance locomotor performance in this population.
基金supported by the Universidad Nacional del Comahue(CRUB),Consejo Nacional de Investigaciones Científicas y Técnicas(CONICET,PIP 100271)by the Agencia de Investigación Científica(FONCyT,PICT 1086).
文摘Reproductive and life history patterns in reptiles are tightly related to the environmental conditions,so male reproductive cycles have been historically characterized as continuous,for tropical lizards,or seasonal,for temperate lizards.However,males of Liolaemus and Phymaturus lizards(Liolaemidae),from cold temperate climates of high altitudes or latitudes in Argentina and Chile,have developed a variety of reproductive cycles to coordinate with the short female reproductive season and to deal with the low frequency of reproductive females in the population.Using gonadal histology and morphological analysis,we describe the male reproductive biology,fat storage and sexual dimorphism of the viviparous lizards Liolaemus sarmientoi and Liolaemus magellanicus that inhabit an austral grass steppe at 51°S,in the southern limit of the American continent.Males of L.sarmientoi and L.magellanicus are reproductively available during the entire activity season of approximately 5 months.In addition,males of both species exhibit greater body sizes than females in morphological variables relevant in sexual selection.Meanwhile,females of both species exhibit larger inter-limb length than conspecific males,which suggests fecundity selection to increase space for a larger litter size.The continuous sperm production throughout the activity season allows these liolaemids to mate at any time when females ovulate,representing a selective advantage to deal with the short activity season and the adversities of the cold environment they inhabit.