Add to ORKGThe effect of soil-borne pathogens depends on the abundance of host tree species Yu Liu1,2, Suqin Fang1,2, Peter Chesson3,4 & Fangliang He1,5 The overarching issue for understanding biodiversity maintenance is how fitness advantages accrue to a species as it becomes rare, as this is the defining feature of stable coexistence mechanisms. Without these fitness advantages, average fitness differences between species will lead to exclusion. However, empirical evidence is lacking, especially for forests, due to the difficulty of manipulating density on a large-enough scale. Here we took advantage of naturally occurring contrasts in abundance between sites of a subtropical tree species, Ormosia glaberrima, to demonstrate how low-density fitne...
The Janzen-Connell hypothesis is a leading explanation for plant-species diversity in tropical fores...
Why are there so many different tree species in most tropical rainforests? Ecologists have increasin...
Identifying the mechanisms that prevent competitive exclusion in tropical forests is a key goal of t...
1. In forest communities, the Janzen–Connell (J-C) hypothesis proposes that species diversity is mai...
Plant species vary greatly in their responsiveness to nutritional soil mutualists, such as my-corrhi...
Many hypotheses address the associations of plant community composition with natural en-emies, inclu...
The processes that determine the structure of plant communities are of considerable practical and th...
Abstract Evidence suggests that impacts of fungal pathogens on tree recruitment tend to be greater i...
Tropical forests are important reservoirs of biodiversity, but the processes that maintain this dive...
Fungal pathogens are implicated in driving tropical plant diversity by facilitating strong, negative...
Soilborne pathogens can contribute to the maintenance of local plant diversity by reducing differenc...
1. The enemies-induced Janzen-Connell (JC) effect, a classic model invoking conspecific negative den...
Plant enemies (pathogens and herbivores) have been hypothesized to maintain plant species diversity ...
1. Organisms are adapted to particular habitats; consequently, community composition changes across ...
Host size and distance from an infected plant have been previously found to affect mistletoe occurre...
The Janzen-Connell hypothesis is a leading explanation for plant-species diversity in tropical fores...
Why are there so many different tree species in most tropical rainforests? Ecologists have increasin...
Identifying the mechanisms that prevent competitive exclusion in tropical forests is a key goal of t...
1. In forest communities, the Janzen–Connell (J-C) hypothesis proposes that species diversity is mai...
Plant species vary greatly in their responsiveness to nutritional soil mutualists, such as my-corrhi...
Many hypotheses address the associations of plant community composition with natural en-emies, inclu...
The processes that determine the structure of plant communities are of considerable practical and th...
Abstract Evidence suggests that impacts of fungal pathogens on tree recruitment tend to be greater i...
Tropical forests are important reservoirs of biodiversity, but the processes that maintain this dive...
Fungal pathogens are implicated in driving tropical plant diversity by facilitating strong, negative...
Soilborne pathogens can contribute to the maintenance of local plant diversity by reducing differenc...
1. The enemies-induced Janzen-Connell (JC) effect, a classic model invoking conspecific negative den...
Plant enemies (pathogens and herbivores) have been hypothesized to maintain plant species diversity ...
1. Organisms are adapted to particular habitats; consequently, community composition changes across ...
Host size and distance from an infected plant have been previously found to affect mistletoe occurre...
The Janzen-Connell hypothesis is a leading explanation for plant-species diversity in tropical fores...
Why are there so many different tree species in most tropical rainforests? Ecologists have increasin...
Identifying the mechanisms that prevent competitive exclusion in tropical forests is a key goal of t...