Extreme variations in spring temperature affect ecosystem regulating services provided by birds during migration

Wood, Eric M.; Pidgeon, Anna M.

doi:10.1890/es15-00397.1

Cited by 23 publications

(16 citation statements)

References 44 publications

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“…Nevertheless, if such an evolutionary gap exists, the plastic nature of bird migration (Able & Belthoff, 1998;Alerstam et al, 2003;Pulido & Berthold, 2010) is expected to lead to a decrease in long-distance migratory behaviour, as has been reported extensively in recent years (Ambrosini et al, 2016;Gordo et al, 2007;Newton, 2008;Pav on-Jord an et al, 2015;Ramo et al, 2015). Migratory shift, unless mitigated by density-dependent effects (Musilov a, Musil, Zouhar, & Romportl, 2015), may have a profound impact on migrants' population ecology with implications for abandoned and newly utilized ecosystems (Uno & Power, 2015;Wood & Pidgeon, 2015). However, caution should be taken when drawing such conclusions based on our case study as the results deal only with first-year juveniles and the data, despite their high quality and resolution, came from a rather modest number of individuals (especially for EUW storks).…”

Section: Discussionmentioning

confidence: 98%

Wintering in Europe instead of Africa enhances juvenile survival in a long-distance migrant

Rotics

Turjeman

Kaatz³

et al. 2017

Animal Behaviour

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Section: Discussionmentioning

confidence: 98%

Wintering in Europe instead of Africa enhances juvenile survival in a long-distance migrant

Rotics

Turjeman

Kaatz³

et al. 2017

Animal Behaviour

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“…We predict the magnitude of phenological change increases with increasing latitude across North America during spring movements. Yet, while adjustments to stopover duration can be made, the growing divide between resource availability and migration initiation may stretch the limit of this phenotypic plasticity (Schmaljohann & Both, 2017), resulting in insufficient adjustments and possibly trophic mismatches (Strode, 2015;Wood & Pidgeon, 2015). Numerous studies of plot-level phenology demonstrate that variation in phenology of individual plant species is impactful for migrant phenology (Strode, 2009;Wood, Pidgeon, Liu, & Mladenoff, 2012).…”

Section: Discussionmentioning

confidence: 99%

Holding steady: Little change in intensity or timing of bird migration over the Gulf of Mexico

Horton

Doren

Sorte

et al. 2019

Global Change Biology

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Quantifying the timing and intensity of migratory movements is imperative for understanding impacts of changing landscapes and climates on migratory bird populations. Billions of birds migrate in the Western Hemisphere, but accurately estimating the population size of one migratory species, let alone hundreds, presents numerous obstacles. Here, we quantify the timing, intensity, and distribution of bird migration through one of the largest migration corridors in the Western Hemisphere, the Gulf of Mexico (the Gulf). We further assess whether there have been changes in migration timing or intensity through the Gulf. To achieve this, we integrate citizen science (eBird) observations with 21 years of weather surveillance radar data (1995–2015). We predicted no change in migration timing and a decline in migration intensity across the time series. We estimate that an average of 2.1 billion birds pass through this region each spring en route to Nearctic breeding grounds. Annually, half of these individuals pass through the region in just 18 days, between April 19 and May 7. The western region of the Gulf showed a mean rate of passage 5.4 times higher than the central and eastern regions. We did not detect an overall change in the annual numbers of migrants (2007–2015) or the annual timing of peak migration (1995–2015). However, we found that the earliest seasonal movements through the region occurred significantly earlier over time (1.6 days decade−1). Additionally, body mass and migration distance explained the magnitude of phenological changes, with the most rapid advances occurring with an assemblage of larger‐bodied shorter‐distance migrants. Our results provide baseline information that can be used to advance our understanding of the developing implications of climate change, urbanization, and energy development for migratory bird populations in North America.

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“…Migration is still the least studied period of the annual cycle of most migratory birds despite accumulating evidence suggesting that it is a critical period that can impact population dynamics 5, 48, 69, 76 (but see ref. 77).…”

Section: Discussionmentioning

confidence: 99%

Fuel loads acquired at a stopover site influence the pace of intercontinental migration in a boreal songbird

Gómez

Bayly

Norris

et al. 2017

Sci Rep

106

111

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Long-distance migratory organisms are under strong selection to migrate quickly. Stopovers demand more time than flying and are used by individuals to refuel during migration, but the effect of fuel loads (fat) acquired at stopover sites on the subsequent pace of migration has not been quantified. We studied stopover behaviour of Grey-cheeked Thrush (Catharus minimus) at a site in northern Colombia and then tracked their migration using an intercontinental radio-telemetry array. Tracking confirmed long-distance flights of more than 3000 km, highlighting the key importance of a single stopover site to the migration strategy of this species. Our results suggest that these songbirds behave as time-minimizers as predicted by optimal migration theory, and that fuel loads acquired at this South American stopover site, together with departure date, carry-over to influence the pace of migration, contributing to differences in travel time of up to 30 days in birds subsequently detected in the U. S. and Canada. Such variation in the pace of migration arising from a single stopover site, likely has important fitness consequences and suggests that identifying important fuelling sites will be essential to effectively conserve migratory species.

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Extreme variations in spring temperature affect ecosystem regulating services provided by birds during migration

Cited by 23 publications

References 44 publications

Wintering in Europe instead of Africa enhances juvenile survival in a long-distance migrant

Wintering in Europe instead of Africa enhances juvenile survival in a long-distance migrant

Holding steady: Little change in intensity or timing of bird migration over the Gulf of Mexico

Fuel loads acquired at a stopover site influence the pace of intercontinental migration in a boreal songbird

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