Temperature‐associated decreases in demographic rates of Afrotropical bird species over 30 years

Neate‐Clegg, Montague H. C.; Stanley, Thomas R.; Şekercioğlu, Çağan H.; Newmark, William D.

doi:10.1111/gcb.15567

Cited by 28 publications

(28 citation statements)

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“…Furthermore, long-term monitoring of understory bird species in the East and West Usambara Mountains has indicated very limited dispersal ability for most species [21,63]. At the 1020 and 1310 m study sites, understory bird species have been surveyed annually over 34 years across a network of 14 forest fragments [21,51]. Over this time period and based on >31,500 captures and 4.43 × 10 6 m-mistnet-hrs, 21% of all understory bird species have never been recorded within a study fragment other than where they were originally banded [17].…”

Section: Plos Onementioning

confidence: 99%

Afrotropical montane birds experience upslope shifts and range contractions along a fragmented elevational gradient in response to global warming

et al. 2021

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Global warming is predicted to result in upslope shifts in the elevational ranges of bird species in montane habitats. Yet few studies have examined changes over time in the elevational distribution of species along fragmented gradients in response to global warming. Here, we report on a resurvey of an understory bird community in the Usambara Mountains in Tanzania, along a forested elevational gradient that has been fragmented over the last 200 years. In 2019, we resurveyed seven sites, ranging in elevation from 360 m to 2110 m, that were originally surveyed between 1979 and 1981. We calculated differences in mean elevation and lower and upper range limits for 29 species between the two time periods and corrected for possible differences in elevation due to chance. Over four decades, we documented a significant mean upslope shift across species of 93 m. This shift was smaller than the 125 m expected shift due to local climate warming. Of the 29 focal species, 19 shifted upslope, eight downslope, and two remained unchanged. Mean upslope shifts in species were driven largely by contracting lower range limits which moved significantly upslope on average across species by 183 m, while upper range limits shifted non-significantly upslope by 72 m, leading to a mean range contraction of 114 m across species. Community composition of understory bird species also shifted over time, with current communities resembling communities found historically at lower elevations. Past forest fragmentation in combination with the limited gap-crossing ability of many tropical understory bird species are very likely important contributory factors to the observed asymmetrical shifts in lower and upper elevational range limits. Re-establishing forested linkages among the largest and closest forest fragments in the Eastern Arc Mountains are critical to permitting species to shift upslope and to reduce further elevational range contractions over time.

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Section: Plos Onementioning

confidence: 99%

Afrotropical montane birds experience upslope shifts and range contractions along a fragmented elevational gradient in response to global warming

et al. 2021

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“…The proximate physiological mechanisms linking tropical climate variation to avian reproductive activity remain unclear. Given that arthropod abundance in tropical forests is seasonally correlated with rainfall (Wolda 1978, Boinski and Fowler 1989, Valtonen et al 2013), and may have been negatively affected by increasingly frequent high temperatures over recent decades (Lister and Garcia 2018), it is possible that prey scarcity is the primary factor limiting reproduction in dry years (Dowsett‐Lemaire 1985, Frith and Frith 2001, Neate‐Clegg et al 2021). Adults experiencing nutritional stress might lack the energetic resources to initiate reproduction in such years, or drought could affect reproductive physiology indirectly through endocrine or metabolic pathways (Goutte et al 2010, Martin and Mouton 2020).…”

Section: Discussionmentioning

confidence: 99%

“…However, the ecological pathways by which climate affects the demography of tropical forest birds are currently unresolved. Reports of ongoing enigmatic declines in tropical bird populations, even in relatively undisturbed areas of intact habitat, highlight the need to understand the mechanisms responsible for demographic variation (Blake and Loiselle 2015, Stouffer et al 2021, Neate‐Clegg et al 2021).…”

Section: Introductionmentioning

confidence: 99%

“…While some tropical studies have reported effects of El Niño conditions on adult survival, the magnitude and direction of putative effects differ widely, occasionally even within the same study area (negative: Stiles 1992, Woodworth et al 2018; positive: Ryder and Sillett 2016; inconclusive: Greenberg and Gradwohl 1986; opposing: Shogren et al 2019). Brawn et al (2017) and Neate‐Clegg et al (2021) found that apparent survival rates of adult birds were neither highly variable nor strongly correlated with climatic variation (but see Martin and Mouton 2020). Rather, both studies found that annual variation in population growth rates was driven primarily by strong reductions in recruitment (associated with longer dry seasons in Panama; Brawn et al 2017, and with higher mean temperatures in Tanzania; Neate‐Clegg et al 2021).…”

Section: Introductionmentioning

confidence: 99%

“…Brawn et al (2017) and Neate‐Clegg et al (2021) found that apparent survival rates of adult birds were neither highly variable nor strongly correlated with climatic variation (but see Martin and Mouton 2020). Rather, both studies found that annual variation in population growth rates was driven primarily by strong reductions in recruitment (associated with longer dry seasons in Panama; Brawn et al 2017, and with higher mean temperatures in Tanzania; Neate‐Clegg et al 2021). However, since neither study followed the fate of individual reproductive attempts, the mechanisms underlying reduced recruitment are not known.…”

Section: Introductionmentioning

confidence: 99%

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The El Niño – Southern Oscillation dramatically influences the probability of reproduction and reproductive rate of a tropical forest bird

Smart

Smith

Riehl

2021

Journal of Avian Biology

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Although climate change has been implicated in population declines of tropical forest birds, there is a critical lack of data on the mechanisms underlying these declines. Attempts to link climatic factors to variation in adult survival, fecundity or nest success have been largely inconclusive. Recent community‐scale analyses have suggested that tropical birds may be less likely to breed under adverse conditions, but long‐term data on individual reproduction are needed to test this hypothesis. Here we leverage 12 years of data on a lowland forest bird, the greater ani Crotophaga major, to investigate how demographic parameters vary with phase of the El Niño – Southern Oscillation (ENSO), a major driver of climatic conditions in tropical wet forest. The likelihood of breeding and annual reproductive rate both decreased dramatically in El Niño‐like years, with only 37.5% of adults attempting breeding in 2015 (a strong El Niño year). For birds that did breed, however, clutch size and daily nest predation rate were unaffected by climate. Of the local climate variables investigated, dry season length and the frequency of high temperatures were most closely associated with reproductive failure. These results indicate that El Niño conditions alter the demography of greater anis by reducing the likelihood of reproduction, a response that may be more widespread than currently recognized. We suggest that reduced reproduction under adverse conditions represents an important and understudied aspect of the life histories of tropical forest birds.

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Patterns and processes underlying understory songbird communities in southern China

Liu,

Yu,

Che

et al. 2024

Ecology and Evolution

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Understory bird communities, especially those comprising insectivores, are highly sensitive to forest loss and fragmentation. Currently, there is little knowledge regarding the large‐scale diversity patterns of understory bird communities, particularly in Eastern Asia. Consequently, we aimed to identify the distribution patterns of understory birds in southern China and the factors underlying these patterns. We analysed the diversity distribution patterns of taxonomic and functional α and β diversity for understory Passeriformes birds in southern China utilising cluster and ordination analyses. Subsequently, we analysed the effects of geographic distance, annual mean temperature, annual temperature range, annual mean precipitation, and annual precipitation range on diversity distribution patterns. In total, 9282 individuals belonging to 11 orders, 48 families, and 297 species were captured over 98,544 net hours, with Alcippeidae being the most abundant family in southern China. The understory bird communities of the 25 sites were categorised into six sub‐regions of the Oriental Realm (Indo‐Malayan Realm). The pattern in the distribution of taxonomic and functional β‐diversity of understory birds in southern China was consistent with zoogeographical regionalisation. Three distinct geographical groups were identified: Group 1 was located in the Min‐Guang Coast and Hainan sub‐regions; Group 2 was located in the East Hilly Plain, Southwest Mountains, and Western Mountains and Plateaus sub‐regions; and Group 3 was located in the Southern Yunnan Mountain subregion. The most critical factors related to the distribution patterns of β‐diversity were geographical distance, annual mean temperature, and annual temperature range. Our results showed that the understory bird communities of the Southwest Mountain, East Hilly Plain, and Western Mountains, and Plateaus sub‐regions were similar, as were those of the Min‐Guang Coast and Hainan sub‐regions. Our results underscore the joint roles of distance, temperature, and historical evolution in understory bird communities.

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Temperature‐associated decreases in demographic rates of Afrotropical bird species over 30 years

Cited by 28 publications

References 94 publications

Afrotropical montane birds experience upslope shifts and range contractions along a fragmented elevational gradient in response to global warming

Afrotropical montane birds experience upslope shifts and range contractions along a fragmented elevational gradient in response to global warming

The El Niño – Southern Oscillation dramatically influences the probability of reproduction and reproductive rate of a tropical forest bird

Patterns and processes underlying understory songbird communities in southern China

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