Short‐term responses in a secondary tropical forest after a severe windstorm event

Yee, Alex T. K.; Lai, Hao Ran; Chong, Kwek Yan; Neo, Louise; Koh, C.Y.; Tan, Si-Hui; Seah, W.W.; Loh, Jolyn Weiting; Lim, Reuben C. J.; Breugel, Michiel van; Tan, Hugh Tiang Wah

doi:10.1111/jvs.12753

Cited by 8 publications

(26 citation statements)

References 72 publications

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“…On 11 February 2011, strong winds of >60 km/hr damaged an estimated forest area of 40 ha, causing high levels of tree fall, canopy openings, and increased fluxes in coarse woody debris (CWD), leaf litter and soil nutrients (Yee et al, 2019). Within 3 months following the windstorm, we established twenty eight 10 × 10 m plots that were randomly located in blowdown areas delimited by the National Parks Board from an aerial survey ( Figure S1; Yee et al, 2019). The minimum distance between plots was 40 m. Five annual censuses were carried out between April and August in 2011-2015.…”

Section: Study System and Plot Inventoriesmentioning

confidence: 99%

“…Canopy gaps and debris deposition following the wind disturbance generated high spatial and temporal heterogeneity in light and edaphic resources, which allowed the rapid seedling and sapling recruitment from a diverse number of species (Yee et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…We specifically focus on recruitment instead of total abundance because abundance changes in a longitudinal study also includes mortality, which may be moderated by a different set of traits than recruitment. In addition, during the first 5 years of succession post-disturbance, recruitment was the main driver of abundance (Yee et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

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Functional traits that moderate tropical tree recruitment during post‐windstorm secondary succession

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Section: Study System and Plot Inventoriesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Functional traits that moderate tropical tree recruitment during post‐windstorm secondary succession

et al. 2020

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“…We assumed all recruits to begin at DBH = 1 cm and then calculated both A j and A k as the initial neighbourhood densities. We then used parameters inferred from both the 'direct-interaction-only' model (Equation 5) and the 'HOI-inclusive' model (Equation 6) to simulate individual diameter growth of focal species under the three recruitment scenarios at daily timesteps over two years-the time taken for canopy closure in our study site (Yee et al 2019).…”

Section: Simulationmentioning

confidence: 99%

“…Tropical tree communities naturally meet these conditions under which HOIs are predicted to prevail, yet studies that test for HOIs remain scarce in this system. Tropical forests are known for their high primary productivity (Gillman et al 2015) and biomass accumulation rate during succession (Poorter et al 2016), which lead to rapid canopy closure that imposes strong light limitation to the understorey (van Breugel et al 2013;Yee et al 2019). While HOIs can already arise from the nonlinear size-growth response of tree individuals to light extinction due to increasing neighbour densities, the fact that size itself also determines how much light is depleted through shading allows even more room for intermediary species to modify pairwise interactions and give rise to HOIs.…”

Section: Introductionmentioning

confidence: 99%

Non-additive biotic interactions improve predictions of tropical tree growth and impact community size structure

Lai

Chong

Yee

et al. 2020

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Growth in individual size or biomass is a key demographic component in population models, with wide-ranging applications from quantifying species performance across abiotic or biotic conditions to assessing landscape-level dynamics under global change. In forest ecology, the responses of tree growth to biotic interactions are widely held to be crucial for understanding forest diversity, function, and structure. To date, most studies on plant–plant interaction only examine the direct competitive or facilitative interactions between species pairs; however, there is increasing evidence of indirect, higher-order interactions (HOIs) impacting species demographic rates. When HOIs are present, the dynamics of a multi-species community cannot be fully understood or accurately predicted solely from pairwise outcomes because of how additional species “interfere” with the direct, pairwise interactions. Such HOIs should be particularly prevalent where species show nonlinear functional responses to resource availability and resource-acquisition traits themselves are density dependent. With this in mind, we used data from a tropical secondary forest—a system that fulfills both of these conditions—to build a ontogenetic diameter-growth model for individuals across ten woody-plant species. We allowed both direct and indirect interactions within communities to influence the species-specific growth parameters in a generalized Lotka–Volterra model. Specifically, indirect interactions entered the model as higher-order quadratic terms, i.e. non-additive effects of conspecific and heterospecific neighbour size on the focal individual’s growth. For the whole community and for four out of ten focal species, the model that included HOIs had more statistical support than the model that included only direct interactions, despite the former containing a far greater number of parameters. HOIs had comparable effect sizes to direct interactions, and tend to further reduce the diameter growth rates of most species beyond what direct interactions had already reduced. In a simulation of successional stand dynamics, we show that such a further reduction in diameter growth by HOIs is important in reducing size asymmetry—and potentially less competitive exclusion due to shading—in a highly light-competitive forest. Our study highlights the potential role of higher-order interactions in stabilising communities in diverse forests.

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Site‐specific impacts of a major hurricane on alpha and beta diversity in tropical forest seedling communities

et al. 2021

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Short‐term responses in a secondary tropical forest after a severe windstorm event

Cited by 8 publications

References 72 publications

Functional traits that moderate tropical tree recruitment during post‐windstorm secondary succession

Functional traits that moderate tropical tree recruitment during post‐windstorm secondary succession

Non-additive biotic interactions improve predictions of tropical tree growth and impact community size structure

Site‐specific impacts of a major hurricane on alpha and beta diversity in tropical forest seedling communities

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