The Effects of Supplementary Food on the Breeding Performance of Eurasian Reed Warblers Acrocephalus scirpaceus; Implications for Climate Change Impacts.

James O Vafidis,Rob Parry,T Hefin Jones,Ian P Vaughan,Richard J Facey,Robert J Thomas

doi:10.1371/journal.pone.0159933

James O Vafidis, Rob Parry + Show 4 more

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https://doi.org/10.1371/journal.pone.0159933

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Journal: PloS one	Publication Date: Jul 28, 2016
Citations: 25	License type: CC BY 4.0

Affiliation: Cardiff University

Abstract

Understanding the mechanisms by which climate variation can drive population changes requires information linking climate, local conditions, trophic resources, behaviour and demography. Climate change alters the seasonal pattern of emergence and abundance of invertebrate populations, which may have important consequences for the breeding performance and population change of insectivorous birds. In this study, we examine the role of food availability in driving behavioural changes in an insectivorous migratory songbird; the Eurasian reed warbler Acrocephalus scirpaceus. We use a feeding experiment to examine the effect of increased food supply on different components of breeding behaviour and first-brood productivity, over three breeding seasons (2012–2014). Reed warblers respond to food-supplementation by advancing their laying date by up to 5.6 days. Incubation periods are shorter in supplemented groups during the warmest mean spring temperatures. Nestling growth rates are increased in nests provisioned by supplemented parents. In addition, nest predation is reduced, possibly because supplemented adults spend more time at the nest and faster nestling growth reduces the period of vulnerability of eggs and nestlings to predators (and brood parasites). The net effect of these changes is to advance the fledging completion date and to increase the overall productivity of the first brood for supplemented birds. European populations of reed warblers are currently increasing; our results suggest that advancing spring phenology, leading to increased food availability early in the breeding season, could account for this change by facilitating higher productivity. Furthermore, the earlier brood completion potentially allows multiple breeding attempts. This study identifies the likely trophic and behavioural mechanisms by which climate-driven changes in invertebrate phenology and abundance may lead to changes in breeding phenology, nest survival and net reproductive performance of insectivorous birds.

Highlights

A central task for ecologists is to understand the drivers of population change and community structure
The breeding season is a period when birds are strongly affected by changes in food abundance, and in the timing of food availability
Between 2012 and 2014, 200 breeding adult reed warblers, 102 nests, 416 eggs and 324 nestlings were monitored in Cardiff Bay Wetland Reserve (CBWR) and CLCP

Summary

Introduction

A central task for ecologists is to understand the drivers of population change and community structure. Food availability is a central consideration and understanding food limitation in natural populations helps to inform the impacts of environmental change on animal populations. We investigate the mechanisms linking changes in food availability with changes in the breeding behaviour and productivity of a bird population. In temperate regions, climate change is advancing the emergence dates of invertebrates in spring, so that food for many breeding insectivorous songbirds peaks earlier in the breeding season [2,3,4,5]. The breeding season is a period when birds are strongly affected by changes in food abundance, and in the timing of food availability

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