Testing for effects of climate change on competitive relationships and coexistence between two bird species

Stenseth, Nils Chr.; Durant, Joël M.; Fowler, Mike S.; Matthysen, Erik; Jonzén, Niclas; Chan, Kung‐Sik; Hai, Liu; Laet, Jenny De; Sheldon, Ben C.; Visser, Marcel E.; Dhondt, André A.

doi:10.1098/rspb.2014.1958

Cited by 47 publications

(57 citation statements)

References 46 publications

(66 reference statements)

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“…The present study was based on nest boxes, and the population density of the number of occupied boxes per unit area does not apply to the fraction of the population breeding in natural holes. This situation does not differ from analyses of other nest box populations (e.g., Dhondt, ; Dhondt et al., ; Gustafsson, ; Minot, , ; Siriwardena et al., ; Stenseth et al., ; Török & Tóth, ).…”

Section: Discussionmentioning

confidence: 54%

“…Both great and blue tits have a large distribution, and, therefore, they are ideal for addressing questions about competition at large spatial and temporal scales. The large temporal and spatial variation in the resources subject to competition is a source of variance that can readily be implemented into the study of competition, but has only been so to a very limited and, so far, unplanned extent (Stenseth et al., ). We suggest that deliberate comparison between sympatric populations of congeners inhabiting spatially and temporally variable environments will allow for much more powerful statistical tests.…”

Section: Introductionmentioning

confidence: 99%

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Effects of interspecific coexistence on laying date and clutch size in two closely related species of hole‐nesting birds

Møller

Balbontı́n

Dhondt

et al. 2018

Journal of Animal Ecology

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Coexistence between great tits Parus major and blue tits Cyanistes caeruleus, but also other hole-nesting taxa, constitutes a classic example of species co-occurrence resulting in potential interference and exploitation competition for food and for breeding and roosting sites. However, the spatial and temporal variations in coexistence and its consequences for competition remain poorly understood. We used an extensive database on reproduction in nest boxes by great and blue tits based on 87 study plots across Europe and Northern Africa during 1957-2012 for a total of 19,075 great tit and 16,729 blue tit clutches to assess correlative evidence for a relationship between laying date and clutch size, respectively, and density consistent with effects of intraspecific and interspecific competition. In an initial set of analyses, we statistically controlled for a suite of site-specific variables. We found evidence for an effect of intraspecific competition on blue tit laying date (later laying at higher density) and clutch size (smaller clutch size at higher density), but no evidence of significant effects of intraspecific competition in great tits, nor effects of interspecific competition for either species. To further control for site-specific variation caused by a range of potentially confounding variables, we compared means and variances in laying date and clutch size of great and blue tits among three categories of difference in density between the two species. We exploited the fact that means and variances are generally positively correlated. If interspecific competition occurs, we predicted a reduction in mean and an increase in variance in clutch size in great tit and blue tit when density of heterospecifics is higher than the density of conspecifics, and for intraspecific competition, this reduction would occur when density of conspecifics is higher than the density of heterospecifics. Such comparisons of temporal patterns of means and variances revealed evidence, for both species, consistent with intraspecific competition and to a smaller extent with interspecific competition. These findings suggest that competition associated with reproductive behaviour between blue and great tits is widespread, but also varies across large spatial and temporal scales.

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Section: Discussionmentioning

confidence: 54%

Section: Introductionmentioning

confidence: 99%

Effects of interspecific coexistence on laying date and clutch size in two closely related species of hole‐nesting birds

Møller

Balbontı́n

Dhondt

et al. 2018

Journal of Animal Ecology

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“…Impacts of contemporary climate change on interspecific interactions remain an understudied research frontier (Stenseth et al. ).…”

Section: Discussionmentioning

confidence: 99%

Distribution of a climate‐sensitive species at an interior range margin

2016

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Advances in understanding the factors that limit a species’ range, particularly in the context of climate change, have come disproportionately through investigations at range edges or margins. The margins of a species’ range might often correspond with anomalous microclimates that confer habitat suitability where the species would otherwise fail to persist. We addressed this hypothesis using data from an interior, climatic range margin of the American pika (Ochotona princeps), an indicator of relatively cool, mesic climates in rocky habitats of western North America. Pikas in Lava Beds National Monument, northeastern California, USA, occur at elevations much lower than predicted by latitude and longitude. We hypothesized that pika occurrence within Lava Beds would be associated primarily with features such as “ice caves” in which sub‐surface ice persists outside the winter months. We used data loggers to monitor sub‐surface temperatures at cave entrances and at non‐cave sites, confirming that temperatures were cooler and more stable at cave entrances. We surveyed habitat characteristics and evidence of pika occupancy across a random sample of cave and non‐cave sites over a 2‐yr period. Pika detection probability was high (~0.97), and the combined occupancy of cave and non‐cave sites varied across the 2 yr from 27% to 69%. Contrary to our hypothesis, occupancy was not higher at cave sites. Vegetation metrics were the best predictors of site use by pikas, followed by an edge effect and elevation. The importance of vegetation as a predictor of pika distribution at this interior range margin is congruent with recent studies from other portions of the species’ range. However, we caution that vegetation composition depends on microclimate, which might be the proximal driver of pika distribution. The microclimates available in non‐cave crevices accessible to small animals have not been characterized adequately for lava landscapes. We advocate innovation in the acquisition and use of microclimatic data for understanding the distributions of many taxa. Appropriately scaled microclimatic data are increasingly available but rarely used in studies of range dynamics.

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“…The alteration of competitive interactions by climate change has received less attention, although a growing body evidence demonstrates that the presence of competitors may have substantial effects on the magnitude and form of a species’ response to climate change. Examples include barnacles (Poloczanska, Hawkins, Southward, & Burrows, ), insects (Bulgarella, Trewick, Minards, Jacobson, & Morgan‐Richards, ), fish (Helland, Finstad, Forseth, Hesthagen, & Ugedal, ; Milazzo, Mirto, Domenici, & Gristina, ) and birds (Sætre, Post, & Král, ; Stenseth et al., ). Ecologically similar species may alter their breeding phenology in response to warming at different rates (Chadwick, Slater, & Ormerod, ; Lynch, Fagan, Naveen, Trivelpiece, & Trivelpiece, ) and, where breeding cycles become more synchronised, increases in competitive interactions may arise (Ahola, Laaksonen, Eeva, & Lehikoinen, ), which we hereafter term as “competitor matching.”…”

Section: Introductionmentioning

confidence: 99%

Niche partitioning of sympatric penguins by leapfrog foraging appears to be resilient to climate change

Clewlow

Takahashi

Watanabe

et al. 2018

Journal of Animal Ecology

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Interspecific competition can drive niche partitioning along multidimensional axes, including allochrony. Competitor matching will arise where the phenology of sympatric species with similar ecological requirements responds to climate change at different rates such that allochrony is reduced. Our study quantifies the degree of niche segregation in foraging areas and depths that arises from allochrony in sympatric Adélie and chinstrap penguins and explores its resilience to climate change. Three‐dimensional tracking data were sampled during all stages of the breeding season and were used to parameterise a behaviour‐based model that quantified spatial overlap of foraging areas under different scenarios of allochrony. The foraging ranges of the two species were similar within breeding stages, but differences in their foraging ranges between stages, combined with the observed allochrony of 28 days, resulted in them leapfrogging each other through the breeding season such that they were exploiting different foraging locations on the same calendar dates. Allochrony reduced spatial overlap in the peripheral utilisation distribution of the two species by 54.0% over the entire breeding season, compared to a scenario where the two species bred synchronously. Analysis of long‐term phenology data revealed that both species advanced their laying dates in relation to October air temperatures at the same rate, preserving allochrony and niche partitioning. However, if allochrony is reduced by just a single day, the spatial overlap of the core utilisation distribution increased by an average of 2.1% over the entire breeding season. Niche partitioning between the two species by allochrony appears to be resilient to climate change and so competitor matching cannot be implicated in the observed population declines of the two penguin species across the Western Antarctic Peninsula.

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Testing for effects of climate change on competitive relationships and coexistence between two bird species

Cited by 47 publications

References 46 publications

Effects of interspecific coexistence on laying date and clutch size in two closely related species of hole‐nesting birds

Effects of interspecific coexistence on laying date and clutch size in two closely related species of hole‐nesting birds

Distribution of a climate‐sensitive species at an interior range margin

Niche partitioning of sympatric penguins by leapfrog foraging appears to be resilient to climate change

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