B. (2016). Plant-soil feedbacks: Role of plant functional group and plant traits. Journal of Ecology, 104, 1608-1617.Cortois R, Schroder-Georgi T, Weigel A, van der Putten WH, De Deyn GB (2016) Plant-soil feedbacks: role of plant function- al group and plant traits. J Ecol 104:...
Plant interactions with soil biota result in plant–soil feedbacks (PSFs), which have consequences for individual plant growth and survival as well as broader community﹍evel processes, such as species diversity and coexistence. Because of their importance, species reintroduction should consider these ...
Understanding which types of plant鈥搒oil feedbacks (PSFs) operate in these communities and how such PSFs could be altered by severe summer droughts is needed in the face of current climate change.We conducted a fully reciprocal PSF experiment using eight Mediterranean pine and oak species. ...
Eco-evolutionary dynamics in plant-soil feedbacks. In the past decade, ecologists have begun to more fully appreciate the role of evolution in explaining contemporary ecological processes. Evolution is most... terHorst,Casey,P.,... - 《Functional Ecology》 被引量: 51发表: 2016年 Community-aggre...
Abstract Plant–soil feedbacks (PSF) are important interactions that may influence range dynamics in a changing world. What remains largely unknown is the generality of plant–soil biotic interactions across populations and the potential role of specific soil biota, both of which are key for understa...
Plant-soil feedbacks is becoming an important concept for explaining vegetation dynamics, the invasiveness of introduced exotic species in new habitats and how terrestrial ecosystems respond to global land use and climate change. Using a new conceptual model, we show how critical alterations in plant-...
Plant-soil feedbacks (PSFs) contain two steps: (a) different plant species must create different soils and (b) these different soils must alter subsequent plant growth. Two-phase experiments are used to demonstrate PSF. In Phase I, soils are cultivated by known plants. In Phase II, plants ...
Our results (1) suggest that the phylogenetic distance between plant families cannot predict plant-soil feedbacks across multiple life stages, and (2) highlight the need to consider changes in soil chemistry as an important driver of population responses. The contrasting responses at plant life ...
Intraspecific negative feedback effects, where performance is reduced on soils conditioned by conspecifics, are widely documented in plant communities. However, interspecific feedbacks are less well studied, and their direction, strength, causes, and consequences are poorly understood. If more closely rela...
We investigated consequences of plant-soil feedbacks (PSFs) in a tropical montane forest on Mt. Kinabalu in Borneo by measurements of light and soil conditions, ecophysiological analyses of tree seedlings, a long-term adult and seedling census and a simple simulation model. The study plot (2.74...