Born to cope with climate change? Experimentally manipulated hatching time does not affect duckling survival in the mallard Anas platyrhynchos

Sjöberg, Kjell; Gunnarsson, Gunnar; Pöysä, Hannu; Elmberg, Johan; Nummi, Petri

doi:10.1007/s10344-010-0459-9

Cited by 11 publications

(12 citation statements)

References 79 publications

(105 reference statements)

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“…On the other hand, ectothermic organisms, like insects, are able to rapidly adjust their development and emergence to the prevailing temperatures, whereas homoeothermic organisms, such as waterfowl, are less likely to evolutionary respond to such changes (Buse et al 1999, Winkler et al 2002. However, some waterfowl, e.g., mallard, are often considered to be relatively flexible in their breeding time (Sjoberg et al 2011, Drever et al 2012. We show here that this is, at least partly, true since both mallard and coot seem to delay their breeding during very cold winters, but, in contrast, show negligible adjustments at temperatures above 78C (Fig.…”

Section: Discussionmentioning

confidence: 99%

Experimental evidence for a mismatch between insect emergence and waterfowl hatching under increased spring temperatures

Hansson

Ekvall

et al. 2014

Ecosphere

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Experimental evidence for a mismatch between insect emergence and waterfowl hatching under increased spring temperatures. Ecosphere 5(9):120. http://dx.doi.org/10.1890/ES14-00133.1Abstract. By combining a large-scale experimental assessment on timing of insect emergence with longterm monitoring of waterfowl hatching date, we here show that insect emergence is mainly driven by temperature, whereas there is only a weak effect of increasing spring temperatures on inter-annual variability in observations of waterfowl chicks. Hence, a change in timing of the mass-emergence of insects from lakes and wetlands, which is the crucial food source for waterfowl chicks, will likely result in a consumer/resource mismatch in a future climate change perspective. Specifically, we experimentally show that a moderate increase in temperature of 38C above ambient, expected to occur within 25-75 years, leads to a considerably (2 weeks) earlier, and more pronounced, peak in insect emergence (Chironomus sp). Moreover, by utilizing long-term Citizen Science databases, ranging over several decades, we also show that common waterfowl species are unable to significantly adjust their reproduction to fit future temperature increase. Hence, based on our data we predict a future mismatch between insect emergence and waterfowl species basing their reproduction on temperature. This will have a profound impact on reproductive success and population dynamics of many aquatic birds, as well as on freshwater biodiversity.

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Section: Discussionmentioning

confidence: 99%

Experimental evidence for a mismatch between insect emergence and waterfowl hatching under increased spring temperatures

Hansson

Ekvall

et al. 2014

Ecosphere

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“…In brief, behavioral traits can be an area for exploring adaptation strategies. Sjöberg et al (2011) [25] examined CC impacts on wild mallard ducks in northern Sweden. They found that moderate CC had minor effects on duckling survival and this could be due to a trait that copes with CC.…”

Section: Non-ruminantsmentioning

confidence: 99%

An Overview of Mitigation and Adaptation Needs and Strategies for the Livestock Sector

Zhang

McCarl

Jones

2017

Climate

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Abstract:The livestock sector is vulnerable to climate change and related policy in two ways. First, livestock production and performance are directly impacted by climate with many projected effects being negative. Second, the sector may need to alter operations to limit the effects of climate change through adaptation and mitigation. Potential adaptation strategies involve land use decisions, animal feeding changes, genetic manipulation and alterations in species and/or breeds. In terms of mitigation, livestock is a substantial contributor to global non-CO 2 greenhouse gas emissions. Mitigation opportunities involve altered land use for grazing and feed production, feeding practices, manure treatment and herd size reduction. In addition, strengthening institutions that promote markets and trade, as well as local support programs can help both mitigation and adaptation. Previous literature has summarized the options available to individual producers. This overview extends the literature by including sector-level response as well as the relationships between adaptation and mitigation activities.

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“…Drever and Clark's () results and ours together suggest that breeding ducks have considerable flexibility to tolerate variation in spring earliness (see also Sjöberg et al . ). This is also consistent with findings by Oja and Pöysä () for Mallard in two study areas in Finland.…”

Section: Discussionmentioning

confidence: 97%

“…Finally, a decrease in brood size with the length of the interval from ice break‐up to hatching may mirror the general pattern found in birds (including many duck species) of a seasonal decline in reproductive performance (for hypotheses and examples see Sjöberg et al . ). If the timing of breeding does not affect duckling survival, as was experimentally demonstrated in Mallard (Sjöberg et al .…”

Section: Discussionmentioning

confidence: 97%

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Early springs and breeding performance in two sympatric duck species with different migration strategies

Arzel

Dessborn

Pöysä³

et al. 2014

Ibis

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The capacity of migratory species to adapt to climate change may depend on their migratory and reproductive strategies. For example, reproductive output is likely to be influenced by how well migration and nesting are timed to temporal patterns of food abundance, or by temperature variations during the brood rearing phase. Based on two decades (1988–2009) of waterfowl counts from a boreal catchment in southern Finland we assessed how variation in ice break‐up date affected nesting phenology and breeding success in two sympatric duck species, Mallard Anas platyrhynchos and Eurasian Teal Anas crecca. In Fennoscandia these species have similar breeding habitat requirements but differ in migration distance; Teal migrate roughly seven times as far as do Mallard. Annual ice break‐up date was used as a proxy of spring ‘earliness’ to test the potential effect of climate change on hatching timing and breeding performance. Both species were capable of adapting their nesting phenology, and bred earlier in years when spring was early. However, the interval from ice break‐up to hatching tended to be longer in early springs in both species, so that broods hatched relatively later than in late springs. Ice break‐up date did not appear to influence annual number of broods per pair or annual mean brood size in either species. Our study therefore does not suggest that breeding performance in Teal and Mallard is negatively affected by advancement of ice break‐up at the population level. However, both species showed a within‐season decline in brood size with increasing interval between ice break‐up and hatching. Our study therefore highlights a disparity between individuals in their capacity to adjust to ice break‐up date, late breeders having a lower breeding success than early breeders. We speculate that breeding success of both species may therefore decline should a consistent trend towards earlier springs occur.

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Born to cope with climate change? Experimentally manipulated hatching time does not affect duckling survival in the mallard Anas platyrhynchos

Cited by 11 publications

References 79 publications

Experimental evidence for a mismatch between insect emergence and waterfowl hatching under increased spring temperatures

Experimental evidence for a mismatch between insect emergence and waterfowl hatching under increased spring temperatures

An Overview of Mitigation and Adaptation Needs and Strategies for the Livestock Sector

Early springs and breeding performance in two sympatric duck species with different migration strategies

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