Abstract
The optimum body mass of passerine birds typically represents a trade‐off between starvation risk, which promotes fat gain, and predation pressure, which promotes fat loss to maintain maneuvrability. Changes in ecological factors that affect either of these variables will therefore change the optimum body masses of populations of passerine birds. This study sought to identify and quantify the effects of changing temperatures and predation pressures on the body masses and wing lengths of populations of passerine birds throughout Britain and Ireland over the last 50 years. We analyzed over 900,000 individual measurements of body mass and wing length of blue tits Cyanistes caeruleus, coal tits Periparus ater, and great tits Parus major collected by licenced bird ringers throughout Britain and Ireland from 1965 to 2017 and correlated these with publicly available temperature data and published, UK‐wide data on the abundance of a key predator, the sparrowhawk Accipiter nisus. We found highly significant, long‐term, UK‐wide decreases in winter body masses of adults and juveniles of all three species. We also found highly significant negative correlations between winter body mass and winter temperature, and between winter body mass and sparrowhawk abundance. Independent of these effects, body mass further correlated negatively with calendar year, suggesting that less well understood dynamic factors, such as supplementary feeding levels, may play a major role in determining population optimum body masses. Wing lengths of these birds also decreased, suggesting a hitherto unobserved large‐scale evolutionary adjustment of wing loading to the lower body mass. These findings provide crucial evidence of the ways in which species are adapting to climate change and other anthropogenic factors throughout Britain and Ireland. Such processes are likely to have widespread implications as the equilibria controlling evolutionary optima in species worldwide are upset by rapid, anthropogenic ecological changes.
Highlights
There is strong evidence indicating that the mean body mass of bird populations can change over periods of a few years (Gosler, 2002; Gosler, Greenwood, & Perrins, 1995; Price, Grant, Gibbs, & Boag, 1984), as well as fluctuating from day to day (Broggi, Koivula, Hohtela, & Orell, 2017; Newton, 1969)
Climate change associated with increasing winter temperatures (Jenkins, Perry, & Prior, 2008) may be expected to lead to a reduction in body mass in small birds, because the trade‐ off between higher body mass to compensate for cold‐weather‐in‐ duced starvation and lower body mass to reduce predation risk will shift away from starvation
We examined long‐term variations in the wing lengths of these birds to test the hypothesis that changes in body mass may be accompanied by compensatory changes in wing length
Summary
There is strong evidence indicating that the mean body mass of bird populations can change over periods of a few years (Gosler, 2002; Gosler, Greenwood, & Perrins, 1995; Price, Grant, Gibbs, & Boag, 1984), as well as fluctuating from day to day (Broggi, Koivula, Hohtela, & Orell, 2017; Newton, 1969). Sparrowhawk abundance in Britain was severely reduced by organochlorine pesticide poisoning in the 1960s (Newton, 1986); the population recovered rapidly after the regulation of these pesticides and has since plateaued (Robinson et al, 2016) This recovery coincided with a significant drop in body mass among great tits, which occurred in specific regions at the same time as sparrow‐ hawk populations recovered in those regions (Gosler et al, 1995). The results confirm that phenotypes of bird populations can be affected by anthropogenic factors over a relatively short time pe‐ riod, with potentially important ecological implications in light of predicted climatic change These results demonstrate the value of citizen science in generating such large datasets for analzsing long‐term population changes
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