Cranial size has increased over 133 years in a common bat, Pipistrellus kuhlii: a response to changing climate or urbanization?. Tomassini, A., Colangelo, P., Agnelli, P., Jones, G., & Russo, D. Journal of Biogeography, 41(5):944–953, 2014.
Cranial size has increased over 133 years in a common bat, Pipistrellus kuhlii: a response to changing climate or urbanization? [link]Paper  doi  abstract   bibtex   
Aim Bats are promising candidates for studying morphometric responses to anthropogenic climate or land-use changes. We assessed whether the cranial size of a common bat (Pipistrellus kuhlii) had changed between 1875 and 2007. We formulated the following hypotheses: (1) if heat loss is an important reaction to climate change, body size will have decreased in response to the increased temperatures, because small bats have a larger surface-to-volume ratio and dissipate heat more effectively; (2) if water loss is the main driver, body size will have increased in response to the temperature increase, because larger bats will lose water more slowly through a reduced surface-to-volume ratio; (3) the energetic benefits provided by urbanization (food concentration at street lamps, warmer maternity roosts in buildings) will lead to a general body size increase in P. kuhlii; and (4) because street lamps impair moth antipredatory manoeuvres, cranial size may have selectively increased as an adaptive response to handle larger prey (moths) in artificially illuminated sites. Ours is the first study to assess temporal trends in bat body size over more than a century and to relate them to urbanization. Location Mainland Italy. Methods We used traditional morphometrics to compare seven variables of skull size in 117 museum specimens (75 female, 42 male). Results Cranial size increased after 1950, but this change was not paralleled by an increase in body size, measured as forearm length. This selective increase matched a rapid increase in electric public illumination in Italy. Main conclusions Street lights are crucial foraging sites for P. kuhlii. The directional change that we found in cranial size might represent microevolutionary adaptive tracking of a sudden shift in food size, making more profitable prey available.
@article{tomassini_cranial_2014,
	title = {Cranial size has increased over 133 years in a common bat, {Pipistrellus} kuhlii: a response to changing climate or urbanization?},
	volume = {41},
	issn = {1365-2699},
	shorttitle = {Cranial size has increased over 133 years in a common bat, {Pipistrellus} kuhlii},
	url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/jbi.12248},
	doi = {10.1111/jbi.12248},
	abstract = {Aim Bats are promising candidates for studying morphometric responses to anthropogenic climate or land-use changes. We assessed whether the cranial size of a common bat (Pipistrellus kuhlii) had changed between 1875 and 2007. We formulated the following hypotheses: (1) if heat loss is an important reaction to climate change, body size will have decreased in response to the increased temperatures, because small bats have a larger surface-to-volume ratio and dissipate heat more effectively; (2) if water loss is the main driver, body size will have increased in response to the temperature increase, because larger bats will lose water more slowly through a reduced surface-to-volume ratio; (3) the energetic benefits provided by urbanization (food concentration at street lamps, warmer maternity roosts in buildings) will lead to a general body size increase in P. kuhlii; and (4) because street lamps impair moth antipredatory manoeuvres, cranial size may have selectively increased as an adaptive response to handle larger prey (moths) in artificially illuminated sites. Ours is the first study to assess temporal trends in bat body size over more than a century and to relate them to urbanization. Location Mainland Italy. Methods We used traditional morphometrics to compare seven variables of skull size in 117 museum specimens (75 female, 42 male). Results Cranial size increased after 1950, but this change was not paralleled by an increase in body size, measured as forearm length. This selective increase matched a rapid increase in electric public illumination in Italy. Main conclusions Street lights are crucial foraging sites for P. kuhlii. The directional change that we found in cranial size might represent microevolutionary adaptive tracking of a sudden shift in food size, making more profitable prey available.},
	language = {en},
	number = {5},
	urldate = {2022-06-28},
	journal = {Journal of Biogeography},
	author = {Tomassini, Alessandra and Colangelo, Paolo and Agnelli, Paolo and Jones, Gareth and Russo, Danilo},
	year = {2014},
	keywords = {Bergmann's rule, Italy, Mediterranean, body size, climate change, historical ecological factors, microevolutionary change, pipistrelle, skull morphometrics},
	pages = {944--953},
}
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