Differential soil fungus accumulation and density dependence of trees in a subtropical forest

Chen, Lei; Swenson, Nathan G.; Ji, Niu‐Niu; Mi, Xiangcheng; Ren, Haiyun; Guo, Liang; Ma, Keping

doi:10.1126/science.aau1361

Cited by 194 publications

(169 citation statements)

References 71 publications

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“…Early arriving pathogens can reduce susceptibility to subsequent infections by inducing defenses 91,92 . Microbial mutualists, such as mycorrhizae, can also protect plants from pathogens, 93–95 as well as influence feedbacks 23,96 . In feedback models and experiments to date, immunological aspects of feedbacks are typically subsumed in the fitness effects that the microbiome has on its host 90 .…”

Section: Dilution Effect: Aligning Epidemiological and Feedback Framementioning

confidence: 99%

Community context for mechanisms of disease dilution: insights from linking epidemiology and plant–soil feedback theory

Collins

Bever

Hersh

2020

Annals of the New York Academy of Sciences

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In many natural systems, diverse host communities can reduce disease risk, though less is known about the mechanisms driving this “dilution effect.” We relate feedback theory, which focuses on pathogen‐mediated coexistence, to mechanisms of dilution derived from epidemiological models, with the central goal of gaining insights into host–pathogen interactions in a community context. We first compare the origin, structure, and application of epidemiological and feedback models. We then explore the mechanisms of dilution, which are grounded in single‐pathogen, single‐host epidemiological models, from the perspective of feedback theory. We also draw on feedback theory to examine how coinfecting pathogens, and pathogens that vary along a host specialist–generalist continuum, apply to dilution theory. By identifying synergies among the feedback and epidemiological approaches, we reveal ways in which organisms occupying different trophic levels contribute to diversity–disease relationships. Additionally, using feedbacks to distinguish dilution in disease incidence from dilution in the net effect of disease on host fitness allows us to articulate conditions under which definitions of dilution may not align. After ascribing dilution mechanisms to macro‐ or microorganisms, we propose ways in which each contributes to diversity–disease and productivity–diversity relationships. Our analyses lead to predictions that can guide future research efforts.

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Section: Dilution Effect: Aligning Epidemiological and Feedback Framementioning

confidence: 99%

Community context for mechanisms of disease dilution: insights from linking epidemiology and plant–soil feedback theory

Collins

Bever

Hersh

2020

Annals of the New York Academy of Sciences

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“…A growing number of studies have employed approaches that provide direct or indirect evidence for the role of insect herbivores and microbial pathogens as drivers of CNDD. These approaches include measurement of detectable herbivore or pathogen damage on plants (e.g., Gilbert et al, 1994;Norghauer et al, 2006), plant-soil feedback experiments (e.g., Mangan et al, 2010), use of genetic methods to identify soil pathogens (e.g., Chen et al, 2019), quantifying neighborhood similarity in plant defenses (e.g., Forrister et al, 2019), and in situ manipulation of enemies using mesh exclosures, fungicides, and/or insecticides (e.g., Bell et al, 2006;Swamy & Terborgh, 2010;Bagchi et al, 2014). Studies using these approaches have demonstrated that natural enemies play an important role in driving tropical tree recruitment and potentially contributing to tropical tree diversity.…”

Section: Effectsmentioning

confidence: 99%

Natural Enemies and the Maintenance of Tropical Tree Diversity: Recent Insights and Implications for the Future of Biodiversity in a Changing World

Comita

Stump

2020

annals

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Over the past five decades, many studies have examined the Janzen-Connell hypothesis, which posits that host-specific natural enemies, such as insect herbivores and fungal pathogens, promote plant species coexistence by providing a recruitment advantage to rare plant species. Recently, researchers have been exploring new and exciting angles on plant-enemy interactions that have yielded novel insights into this long-standing hypothesis. Here, we highlight some empirical advances in our understanding of plant-enemy interactions in tropical forests, including improved understanding of variation in plant species’ susceptibility to enemy effects, as well as insect and pathogen host ranges. We then review recent advances in related ecological theory. These theoretical studies have confirmed that specialist natural enemies can promote tree diversity. However, they have also shown that the impact of natural enemies may be weakened, or that natural enemies could even cause species exclusion, depending on enemy host range, the spatial extent of enemy effects, and variation among plant species in seed dispersal or enemy susceptibility. Finally, we end by discussing how human impacts on tropical forests, such as fragmentation, hunting, and climate change, may alter the plant-enemy interactions that contribute to tropical forest diversity.

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“…密度制约强度随生境和季节的变化而变化, 在某些森林中甚至比生境过滤的作用更强 [3] . 亚热带森林病原菌积累率高的树种对同种植物密度的依赖性较强, 而同种密度依赖性低的树种对外生菌根真菌的积累率较高 [7] . 温带森林中同种幼苗的存活和更新与真菌和植食昆虫密切相关 [8] .…”

Section: 中国森林生物多样性监测网络有力支撑生物群落维持机制研究unclassified

中国森林生物多样性监测网络有力支撑生物群落维持机制研究

Ma¹,

Xu²

2020

Sci. Sin.-Vitae

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Differential soil fungus accumulation and density dependence of trees in a subtropical forest

Cited by 194 publications

References 71 publications

Community context for mechanisms of disease dilution: insights from linking epidemiology and plant–soil feedback theory

Community context for mechanisms of disease dilution: insights from linking epidemiology and plant–soil feedback theory

Natural Enemies and the Maintenance of Tropical Tree Diversity: Recent Insights and Implications for the Future of Biodiversity in a Changing World

中国森林生物多样性监测网络有力支撑生物群落维持机制研究

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