Body size and substrate use affect ventral, but not dorsal, brightness evolution in lizards
(2023) In Evolution; international journal of organic evolution 77(6). p.1341-1353- Abstract
Substrate properties can affect the thermal balance of organisms, and the colored integument, alongside other factors, may influence heat transfer via differential absorption and reflection. Dark coloration may lead to higher heat absorption and could be advantageous when substrates are cool (and vice versa for bright coloration), but these effects are rarely investigated. Here, we examined the effect of substrate reflectance, specific heat capacity (cp), and body size on the dorso-ventral brightness using 276 samples from 12 species of cordylid lizards distributed across 26 sites in South Africa. We predicted, and found, that bright ventral colors occur more frequently in low cp (i.e., drier, with little energy needed for temperature... (More)
Substrate properties can affect the thermal balance of organisms, and the colored integument, alongside other factors, may influence heat transfer via differential absorption and reflection. Dark coloration may lead to higher heat absorption and could be advantageous when substrates are cool (and vice versa for bright coloration), but these effects are rarely investigated. Here, we examined the effect of substrate reflectance, specific heat capacity (cp), and body size on the dorso-ventral brightness using 276 samples from 12 species of cordylid lizards distributed across 26 sites in South Africa. We predicted, and found, that bright ventral colors occur more frequently in low cp (i.e., drier, with little energy needed for temperature change) substrates, especially in larger body-sized individuals, possibly to better modulate heat transfer with the surrounding environment. By contrast, dorsal brightness was not associated with body size nor any substrate thermal property, suggesting selection pressures other than thermoregulation. Ancestral estimation and evolutionary rate analyses suggest that ventral brightness rapidly differentiated within the Cordylinae starting 25 Mya, coinciding with an aridification period, further hinting at a thermoregulatory role for ventral colors. Our study indicates that substrate properties can have a direct role in shaping the evolution of ventral brightness in ectotherms.
(Less)
- author
- Goldenberg, Jonathan LU ; Massetti, Federico ; D'Alba, Liliana and Shawkey, Matthew D.
- organization
- publishing date
- 2023
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- body structure, color evolution, Cordylidae, melanism, substrate-specific heat capacity, thermoregulation
- in
- Evolution; international journal of organic evolution
- volume
- 77
- issue
- 6
- pages
- 1341 - 1353
- publisher
- Wiley-Blackwell
- external identifiers
-
- pmid:37075174
- scopus:85160968798
- ISSN
- 1558-5646
- DOI
- 10.1093/evolut/qpad065
- language
- English
- LU publication?
- yes
- id
- b3219c1b-7a99-48af-a3d7-fa5d628e8d48
- date added to LUP
- 2023-08-21 13:20:54
- date last changed
- 2024-04-20 01:07:28
@article{b3219c1b-7a99-48af-a3d7-fa5d628e8d48, abstract = {{<p>Substrate properties can affect the thermal balance of organisms, and the colored integument, alongside other factors, may influence heat transfer via differential absorption and reflection. Dark coloration may lead to higher heat absorption and could be advantageous when substrates are cool (and vice versa for bright coloration), but these effects are rarely investigated. Here, we examined the effect of substrate reflectance, specific heat capacity (cp), and body size on the dorso-ventral brightness using 276 samples from 12 species of cordylid lizards distributed across 26 sites in South Africa. We predicted, and found, that bright ventral colors occur more frequently in low cp (i.e., drier, with little energy needed for temperature change) substrates, especially in larger body-sized individuals, possibly to better modulate heat transfer with the surrounding environment. By contrast, dorsal brightness was not associated with body size nor any substrate thermal property, suggesting selection pressures other than thermoregulation. Ancestral estimation and evolutionary rate analyses suggest that ventral brightness rapidly differentiated within the Cordylinae starting 25 Mya, coinciding with an aridification period, further hinting at a thermoregulatory role for ventral colors. Our study indicates that substrate properties can have a direct role in shaping the evolution of ventral brightness in ectotherms.</p>}}, author = {{Goldenberg, Jonathan and Massetti, Federico and D'Alba, Liliana and Shawkey, Matthew D.}}, issn = {{1558-5646}}, keywords = {{body structure; color evolution; Cordylidae; melanism; substrate-specific heat capacity; thermoregulation}}, language = {{eng}}, number = {{6}}, pages = {{1341--1353}}, publisher = {{Wiley-Blackwell}}, series = {{Evolution; international journal of organic evolution}}, title = {{Body size and substrate use affect ventral, but not dorsal, brightness evolution in lizards}}, url = {{http://dx.doi.org/10.1093/evolut/qpad065}}, doi = {{10.1093/evolut/qpad065}}, volume = {{77}}, year = {{2023}}, }