ENSO Drives interannual variation of forest woody growth across the tropics

Rifai, Sami W.; Girardin, Cécile; Berenguer, Erika; Águila-Pasquel, Jhon del; Dahlsjö, Cecilia A. L.; Doughty, Christopher E.; Jeffery, Kathryn J.; Moore, Sam; Oliveras, Imma; Riutta, Terhi; Rowland, Lucy; Murakami, Alejandro Araujo; Addo-Danso, Shalom Daniel; Brando, Paulo M.; Burton, Chad; Ondo, Fidèle Evouna; Duah-Gyamfi, Akwasi; Amézquita, Filio Farfán; Freitag, Renata; Pacha, Fernando Hancco; Huasco, Walter Huaraca; Ibrahim, Forzia; M’Bou, Armel Thongo; Mihindou, Vianet; Peixoto, Karine Silva; Rocha, Wellington Willian; Rossi, Liana Chesini; Seixas, Marina Maria Moraes de; Silva‐Espejo, Javier E.; Abernethy, Katharine; Adu‐Bredu, Stephen; Barlow, Jos; Costa, Antonio; Marimon, Beatriz Schwantes; Meir, Patrick; Metcalfe, Daniel B.; Phillips, Oliver L.; White, Lee; Malhi, Yadvinder

doi:10.1098/rstb.2017.0410

Cited by 54 publications

(72 citation statements)

References 71 publications

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“…) and El Niño impacts (e.g., Rifai et al . ) than other tropical forests, and may thus respond to environmental changes in unforeseen manner. These characteristics highlight the need of more research efforts focused in the African tropical forests.…”

Section: Discussionmentioning

confidence: 99%

“…However, these forests have received less research attention in regard to environmental change effects on their structure, composition and function than their Amazon and SE Asian counterparts (but see Lewis et al 2009Lewis et al , 2013. African tropical forests are in general different in diversity (Richards 1973;Parmentier et al 2007), soil (Moore et al 2018), baseline climate conditions (Malhi et al 2013) and El Niño impacts (e.g., Rifai et al 2018) than other tropical forests, and may thus respond to environmental changes in unforeseen manner. These characteristics highlight the need of more research efforts focused in the African tropical forests.…”

Section: Climate and Phenology As Predictors Of Community Trait Shiftsmentioning

confidence: 99%

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Drier tropical forests are susceptible to functional changes in response to a long‐term drought

et al. 2019

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Climatic changes have profound effects on the distribution of biodiversity, but untangling the links between climatic change and ecosystem functioning is challenging, particularly in high diversity systems such as tropical forests. Tropical forests may also show different responses to a changing climate, with baseline climatic conditions potentially inducing differences in the strength and timing of responses to droughts. Trait‐based approaches provide an opportunity to link functional composition, ecosystem function and environmental changes. We demonstrate the power of such approaches by presenting a novel analysis of long‐term responses of different tropical forest to climatic changes along a rainfall gradient. We explore how key ecosystem's biogeochemical properties have shifted over time as a consequence of multi‐decadal drying. Notably, we find that drier tropical forests have increased their deciduous species abundance and generally changed more functionally than forests growing in wetter conditions, suggesting an enhanced ability to adapt ecologically to a drying environment.

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Section: Discussionmentioning

confidence: 99%

Section: Climate and Phenology As Predictors Of Community Trait Shiftsmentioning

confidence: 99%

Drier tropical forests are susceptible to functional changes in response to a long‐term drought

et al. 2019

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“…Furthermore, there are signs that extreme episodic droughts are intensifying because of stronger Atlantic north‐south sea surface temperature gradients (Cox et al, ; Erfanian, Wang, & Fomenko, ). Episodic droughts, most notably in 2005, 2010, and 2015 have resulted in reduced tree growth and increased mortality in neotropical forests, specifically in the ever wet forest of the Amazon Basin (Feldpausch et al, ; Phillips et al, ; Rifai et al, ). Furthermore, increased drought and heat have been identified as possible drivers of a long‐term trend of increasing tree mortality in the Amazon Basin resulting in a reduction of the Amazon forest carbon sink strength (Brienen et al, ; McDowell et al, ).…”

Section: Introductionmentioning

confidence: 99%

Wood allocation trade‐offs between fiber wall, fiber lumen, and axial parenchyma drive drought resistance in neotropical trees

Janßen

Hölttä

Fleischer

et al. 2020

Plant Cell & Environment

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Functional relationships between wood density and measures of xylem hydraulic safety and efficiency are ambiguous, especially in wet tropical forests. In this meta‐analysis, we move beyond wood density per se and identify relationships between xylem allocated to fibers, parenchyma, and vessels and measures of hydraulic safety and efficiency. We analyzed published data of xylem traits, hydraulic properties and measures of drought resistance from neotropical tree species retrieved from 346 sources. We found that xylem volume allocation to fiber walls increases embolism resistance, but at the expense of specific conductivity and sapwood capacitance. Xylem volume investment in fiber lumen increases capacitance, while investment in axial parenchyma is associated with higher specific conductivity. Dominant tree taxa from wet forests prioritize xylem allocation to axial parenchyma at the expense of fiber walls, resulting in a low embolism resistance for a given wood density and a high vulnerability to drought‐induced mortality. We conclude that strong trade‐offs between xylem allocation to fiber walls, fiber lumen, and axial parenchyma drive drought resistance in neotropical trees. Moreover, the benefits of xylem allocation to axial parenchyma in wet tropical trees might not outweigh the consequential low embolism resistance under more frequent and severe droughts in a changing climate.

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“…In tropical forests, seasonality in tree phenology (and thus food resource availability for primary consumers) is largely mediated by meteorological variation, pollinators and seed dispersers (Rifai et al, ; van Schaik, Terborgh, & Wright, ). Animals that rely on vegetative foods are often subjected to seasonal variation in food abundance (Grueter et al, ; Janson & Chapman, ; Terborgh, ).…”

Section: Introductionmentioning

confidence: 99%

Chimpanzee feeding ecology and fallback food use in the montane forest of Nyungwe National Park, Rwanda

Matthews

Ridley

Niyigaba

et al. 2019

American J Primatol

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Almost all primates experience seasonal fluctuations in the availability of key food sources.However, the degree to which this fluctuation impacts foraging behavior varies considerably. Eastern chimpanzees (Pan troglodytes schweinfurthii) in Nyungwe National Park, Rwanda, live in a montane forest environment characterized by lower primary productivity and resource diversity than low-elevation forests. Little is known about chimpanzee feeding ecology in montane forests, and research to date predominantly relies on indirect methods such as fecal analyses. This study is the first to use mostly observational data to examine how seasonal food availability impacts the feeding ecology of montane forest chimpanzees. We examine seasonal changes in chimpanzee diet and fallback foods (FBFs) using instantaneous scan samples and fecal analyses, supported by inspection of feeding remains. Chimpanzee fruit abundance peaked during the major dry season, with a consequent change in chimpanzee diet reflecting the abundance and diversity of key fruit species. Terrestrial herbaceous vegetation was consumed throughout the year and is defined as a "filler" FBF. In contrast to studies conducted in lower-elevation chimpanzee sites, figs (especially Ficus lutea) were preferred resources, flowers were consumed at seasonally high rates and the proportion of non-fig fruits in the diet were relatively low in the current study. These divergences likely result from the comparatively low environmental diversity and productivity in higher-elevation environments. K E Y W O R D Sdiet, eastern chimpanzee, high-elevation forest, seasonality

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ENSO Drives interannual variation of forest woody growth across the tropics

Cited by 54 publications

References 71 publications

Drier tropical forests are susceptible to functional changes in response to a long‐term drought

Drier tropical forests are susceptible to functional changes in response to a long‐term drought

Wood allocation trade‐offs between fiber wall, fiber lumen, and axial parenchyma drive drought resistance in neotropical trees

Chimpanzee feeding ecology and fallback food use in the montane forest of Nyungwe National Park, Rwanda

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