Paulina Artacho scite author profile

Phenotypic selection is widely recognized as the primary cause of adaptive evolution in natural populations, a fact that has been documented frequently over the last few decades, mainly in morphological and life-history traits. The energetic definition of fitness predicts that natural selection will maximize the residual energy available for growth and reproduction, suggesting that energy metabolism could be a target of selection. To address this problem, we chose the garden snail, Helix aspersa (Cornu aspersum).We performed a seminatural experiment for measuring phenotypic selection on standard metabolic rate (SMR), the minimum cost of maintenance in ectotherm organisms. To discount selection on correlated traits, we included two additional whole-organism performance traits (mean speed and maximum force of dislodgement). We found a combination of linear (negative directional selection, β = −0.106 ± 0.06; P = 0.001) and quadratic (stabilizing selection, γ = −0.012 ± 0.033; P = 0.061) selection on SMR. Historically, natural selection has been recognized as the main mechanism explaining adaptive evolution (Endler 1986). This claim is supported by extensive empirical studies on morphological (e.g

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Interindividual Variation in Thermal Sensitivity of Maximal Sprint Speed, Thermal Behavior, and Resting Metabolic Rate in a Lizard

Artacho¹,

Jouanneau²,

Galliard³

2013

Physiological and Biochemical Zoology

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Using haematological parameters to infer the health and nutritional status of an endangered black-necked swan population

Artacho¹,

Soto‐Gamboa²,

Verdugo³

et al. 2007

Comparative Biochemistry and Physiology Part A: Molecular &

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Blood biochemistry reveals malnutrition in black-necked swans (Cygnus melanocoryphus) living in a conservation priority area

Artacho

Soto‐Gamboa

Verdugo

et al. 2007

Comparative Biochemistry and Physiology Part A: Molecular &

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Quantification of correlational selection on thermal physiology, thermoregulatory behavior, and energy metabolism in lizards

Artacho

Saravia

Ferrandière

et al. 2015

Ecology and Evolution

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Phenotypic selection is widely accepted as the primary cause of adaptive evolution in natural populations, but selection on complex functional properties linking physiology, behavior, and morphology has been rarely quantified. In ectotherms, correlational selection on thermal physiology, thermoregulatory behavior, and energy metabolism is of special interest because of their potential coadaptation. We quantified phenotypic selection on thermal sensitivity of locomotor performance (sprint speed), thermal preferences, and resting metabolic rate in captive populations of an ectothermic vertebrate, the common lizard, Zootoca vivipara. No correlational selection between thermal sensitivity of performance, thermoregulatory behavior, and energy metabolism was found. A combination of high body mass and resting metabolic rate was positively correlated with survival and negatively correlated with fecundity. Thus, different mechanisms underlie selection on metabolism in lizards with small body mass than in lizards with high body mass. In addition, lizards that selected the near average preferred body temperature grew faster that their congeners. This is one of the few studies that quantifies significant correlational selection on a proxy of energy expenditure and stabilizing selection on thermoregulatory behavior.

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Paulina Artacho

NATURAL SELECTION REDUCES ENERGY METABOLISM IN THE GARDEN SNAIL,HELIX ASPERSA(CORNU ASPERSUM)

Interindividual Variation in Thermal Sensitivity of Maximal Sprint Speed, Thermal Behavior, and Resting Metabolic Rate in a Lizard

Using haematological parameters to infer the health and nutritional status of an endangered black-necked swan population

Blood biochemistry reveals malnutrition in black-necked swans (Cygnus melanocoryphus) living in a conservation priority area

Quantification of correlational selection on thermal physiology, thermoregulatory behavior, and energy metabolism in lizards

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