Temperature and rainfall anomalies in Africa predict timing of spring migration in trans-Saharan migratory birds

Saino, Nicola; Rubolini, Diego; Jonzén, Niclas; Ergon, Torbjørn; Montemaggiori, Alessandro; Stenseth, Nils Chr.; Spina, Fernando

doi:10.3354/cr00719

Cited by 86 publications

(113 citation statements)

References 57 publications

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“…Although Sahelian rainfall affects the timing of migrant arrival in Europe [6,7], our result suggests that this is not the main determinant of breeding phenology. Migrants nest earlier in warmer springs, although it remains unclear whether this advance is sufficient to avoid negative population consequences of warming.…”

Section: Discussionmentioning

confidence: 62%

Climatic effects on breeding grounds are more important drivers of breeding phenology in migrant birds than carry-over effects from wintering grounds

Ockendon

Leech²,

Pearce‐Higgins³

2013

Biol. Lett.

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Population ecologyClimatic effects on breeding grounds are more important drivers of breeding phenology in migrant birds than carryover effects from wintering grounds Nancy Ockendon, Dave Leech and James W. Pearce-Higgins British Trust for Ornithology, The Nunnery, Thetford, Norfolk IP24 2PU, UK Long-distance migrants may be particularly vulnerable to climate change on both wintering and breeding grounds. However, the relative importance of climatic variables at different stages of the annual cycle is poorly understood, even in well-studied Palaearctic migrant species. Using a national dataset spanning 46 years, we investigate the impact of wintering ground precipitation and breeding ground temperature on breeding phenology and clutch size of 19 UK migrants. Although both spring temperature and arid zone precipitation were significantly correlated with laying date, the former accounted for 3.5 times more inter-annual variation. Neither climate variable strongly affected clutch size. Thus, although carry-over effects had some impact, they were weaker drivers of reproductive traits than conditions on the breeding grounds.

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Section: Discussionmentioning

confidence: 62%

Climatic effects on breeding grounds are more important drivers of breeding phenology in migrant birds than carry-over effects from wintering grounds

Ockendon

Leech²,

Pearce‐Higgins³

2013

Biol. Lett.

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“…This fact prevented us from quantifying change in migration phenology in relation to local climate, because climate during any part of the migratory path could potentially affect change in phenology (44,45). Therefore, we analyzed change in phenology over time, assuming that such change was due to change in climate, as has been done in other studies (8,9,21,35,46,47). Changes in migration dates were the slope of the simple linear regression of migration date on year, expressed as days/year.…”

Section: Methodsmentioning

confidence: 99%

Populations of migratory bird species that did not show a phenological response to climate change are declining

Møller

Rubolini

Lehikoinen

2008

Proc. Natl. Acad. Sci. U.S.A.

624

668

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“…Increasing migration speed under high temperatures (Cochran & Wikelski 2005, Marra et al 2005, Saino et al 2007, Sparks & Tryjanowksi 2007 may seem an important adaptation to track climatic variability, because it allows birds to arrive and breed earlier in warm years. However, if the temperatures en route do not have high predictive power for the circumstances at the breeding grounds, this strategy fails, and may even lead to individuals arriving too early if they do not halt their migration when encountering adverse circumstances (Brown & Brown 1998).…”

Section: Temperatures Trends During Migrationmentioning

confidence: 99%

“…Furthermore, there may even be increased selection for later, instead of earlier, arrival at more northern sites. We know that migration speed is strongly related to climatic effects at the wintering grounds and en route (Cotton 2003, Ahola et al 2004, Cochran & Wikelski 2005, Marra et al 2005, Hüppop & Winkel 2006, Gordo 2007, and the advanced progress made at the midway point during the migratory route from the African wintering grounds to the European breeding grounds is most likely a phenotypic response to changed environmental conditions, although an advance was still found after including African climatic variables (Saino et al 2007). …”

Section: Evolution Of Migration and Breeding Datesmentioning

confidence: 99%

Climate change and timing of avian breeding and migration throughout Europe

Both¹,

Marvelde²

2007

Clim. Res.

137

139

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Bird breeding and spring migration phenology have advanced in response to climate change, but the effects differ between sites. Here, we examine the geographical variation in layingdate trends in a short-distance migrant, the European starling Sturnus vulgaris, and a long-distance migrant, the pied flycatcher Ficedula hypoleuca. We model the trend in laying date for these 2 species -between 1980 and 2004 for most of their European breeding areas -by combining geographical variation in mean laying date, the effect of temperature on laying date, and spatial variation in temperature change. Starlings are predicted to have advanced breeding over most of their range, with the greatest advance in north-eastern Europe. In contrast, pied flycatchers have delayed their laying in northern Europe, but have advanced their laying in western and central Europe. The species differ because pied flycatchers lay their eggs 25 d later at each site than starlings, and temperatures during these 2 periods show different trends. Temperatures during migration have also changed differently for populations heading to different breeding areas. This was most pronounced for pied flycatchers; northern populations experience an increase in temperatures during migration, while more southern populations presently still migrate at temperatures similar to those experienced 25 yr ago. As a consequence the southern population may be constrained in adapting to climate change by low temperatures during migration. There is a large contrast in how circumstances during migration and at the breeding grounds have changed: populations that advanced breeding most were subjected to the lowest temperature increases during migration. The temporal and spatial variation in temperature change has important consequences on how migrants adapt to ongoing climate change.

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Temperature and rainfall anomalies in Africa predict timing of spring migration in trans-Saharan migratory birds

Cited by 86 publications

References 57 publications

Climatic effects on breeding grounds are more important drivers of breeding phenology in migrant birds than carry-over effects from wintering grounds

Climatic effects on breeding grounds are more important drivers of breeding phenology in migrant birds than carry-over effects from wintering grounds

Populations of migratory bird species that did not show a phenological response to climate change are declining

Climate change and timing of avian breeding and migration throughout Europe

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