Variation in bill surface area is associated with local climatic factors across populations of the plain laughingthrush

Author:

Liu Pengfei1ORCID,Lou Yingqiang2,Yao Jingxiao1,Wang Linghui1,Møller Anders Pape3,Sun Yuehua2

Affiliation:

1. School of Life Science and Technology Longdong University Qingyang China

2. Key Laboratory of Animal Ecology and Conservation Biology Institute of Zoology, Chinese Academy of Science Beijing China

3. Ecologie Systématique Evolution, Université Paris–Sud, CNRS, AgroParisTech Université Paris–Saclay Orsay Cedex France

Abstract

AbstractRecent studies have found that avian bill and tarsus morphology may have evolved in response to climatic conditions, and these organs play important roles in thermoregulation and water retention in extreme environments. Here, we examined whether bill surface area and tarsus length were associated with climatic conditions in the plain laughingthrush, Garrulax davidi, which mainly occurs in north China and occupies several climatic zones from east to west. We measured bill surface area and tarsus length in 321 adults from 11 populations, almost encompassing all habitat types of the species. We analyzed the relationships among these morphological traits and local climatic factors. Bill surface area was positively correlated with maximum temperature, indicating that bill surface area tended to be larger in hotter environments. Furthermore, we found a negative relationship among bill surface area and winter precipitation, indicating that bill surface area tended to be larger in arid areas. However, we did not find any relationships between tarsus length and climatic factors. These results suggest that local climates may shape the evolution of bill morphology divergence, and summer seems to be the critical season for thermoregulation in this temperate zone passerine.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Subject

Nature and Landscape Conservation,Ecology,Ecology, Evolution, Behavior and Systematics

Reference42 articles.

1. A global test of Allen’s rule in rodents

2. The influence of physical conditions in the genesis of species;Allen J. A.;Radical Review,1877

3. Introduction to Statistical Analysis Using R;Bates D.;R package, version,2014

4. The influence of spatially heterogeneous anthropogenic change on bill size evolution in a coastal songbird

5. Climate-related spatial and temporal variation in bill morphology over the past century in Australian parrots

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