Ecological niche modelling for color morphs in Sand lizards
(Lacerta agilis)

SAU, Shubhra, Radovan SMOLINSKÝ, Zuzana HIADLOVSKÁ, Karel RIEBEL and Natália MARTÍNKOVÁ. Ecological niche modelling for color morphs in Sand lizards (Lacerta agilis). 2020.

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TY  - CONF
ID  - 2233932
AU  - Sau, Shubhra - Smolinský, Radovan - Hiadlovská, Zuzana - Riebel, Karel - Martínková, Natália
PY  - 2020
TI  - Ecological niche modelling for color morphs in Sand lizards (Lacerta agilis)
KW  - lacerta agilis, niche modeling
UR  - https://www.seh-congress-belgrade2022.com/program
N2  - Color polymorphism refers to the presence of two or more genetically inherited color phenotypes in a same breeding population. Color has an impact on organism behavior and survival, and can serve as warning signals, sex-specific recognition, enhances thermoregulations, or communicates about the behavioral state of the particular organism. While sexual selection is frequently used to explain the persistence of polymorphisms, the role of environmental factors has received little attention. Sand lizards (Lacerta agilis, Linnaeus 1758) are small lacertid lizards, sexually dimorphic, with sympatric color morphs found throughout temperate Palearctic. The sand lizard distribution is one of the largest ranges of reptiles’ species, and it could help to understand how reptiles persist in ecosystems with anthropogenic influences. We hypothesized that different color morphs of sand lizards are distributed throughout the Palearctic realm depending on different environmental conditions. The goal of this study was to see how much morph composition in a color polymorphic lizard is explained by geographical and climate variation. We used publicly available data on sand lizard occurrence in Global Biodiversity Information Facility and environmental variables from WORLDCLIM and SEDAC databases. We categorized the sand lizard photos to ten distinct color morphs resulting in 1256 data points after thinning. We predicted the color morph ecological niches using maximum entropy models. We identified a striking link between environmental conditions and color morph distribution, implying that environmental selection acts differently on color morphs, most likely in conjunction with sexual selection.
ER  -

Basic information
Original name	Ecological niche modelling for color morphs in Sand lizards (Lacerta agilis)
Authors	SAU, Shubhra, Radovan SMOLINSKÝ, Zuzana HIADLOVSKÁ, Karel RIEBEL and Natália MARTÍNKOVÁ.
Edition	2020.

Other information
Type of outcome	Conference abstract
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
Keywords (in Czech)	lacerta agilis, niche modeling
Keywords in English	lacerta agilis, niche modeling
Changed by	Changed by: Ing. Radovan Smolinský, Ph.D., PhD., učo 328872. Changed: 24/11/2022 15:38.

Abstract

Color polymorphism refers to the presence of two or more genetically inherited color phenotypes in a same breeding population. Color has an impact on organism behavior and survival, and can serve as warning signals, sex-specific recognition, enhances thermoregulations, or communicates about the behavioral state of the particular organism. While sexual selection is frequently used to explain the persistence of polymorphisms, the role of environmental factors has received little attention. Sand lizards (Lacerta agilis, Linnaeus 1758) are small lacertid lizards, sexually dimorphic, with sympatric color morphs found throughout temperate Palearctic. The sand lizard distribution is one of the largest ranges of reptiles’ species, and it could help to understand how reptiles persist in ecosystems with anthropogenic influences. We hypothesized that different color morphs of sand lizards are distributed throughout the Palearctic realm depending on different environmental conditions. The goal of this study was to see how much morph composition in a color polymorphic lizard is explained by geographical and climate variation. We used publicly available data on sand lizard occurrence in Global Biodiversity Information Facility and environmental variables from WORLDCLIM and SEDAC databases. We categorized the sand lizard photos to ten distinct color morphs resulting in 1256 data points after thinning. We predicted the color morph ecological niches using maximum entropy models. We identified a striking link between environmental conditions and color morph distribution, implying that environmental selection acts differently on color morphs, most likely in conjunction with sexual selection.

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Ecological niche modelling for color morphs in Sand lizards (Lacerta agilis)

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