1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can influence local decomposition processes. For example, decomposer communities may become specialized in breaking down litter of plant species that they are associated with, resulting in accelerated decomposition, known as ‘home-field advantage’ (HFA). Also, soils can vary inherently in their capacity to degrade organic compounds, known as ‘ability’. However, we have a poor understanding how environmental conditions drive the occurrence of HFA and ability. 2. Here, we studied how HFA and ability change across three types of successional gradients: coastal sand dunes (primary succession), inland drift sands (primary succession), and ex-arable fi...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
It is increasingly recognized that interactions between plants and soil (a)biotic conditions can inf...
It is increasingly recognized that interactions between plants and soil (a)biotic conditions can inf...
The ‘home-field advantage’ (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
The ‘home-field advantage’ (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
The 'home-field advantage' (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
1. It is increasingly recognized that interactions between plants and soil (a)biotic conditions can ...
It is increasingly recognized that interactions between plants and soil (a)biotic conditions can inf...
It is increasingly recognized that interactions between plants and soil (a)biotic conditions can inf...
The ‘home-field advantage’ (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
The ‘home-field advantage’ (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
The 'home-field advantage' (HFA) hypothesis predicts that plant litter is decomposed faster than exp...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
1. Differences in litter quality and in soil microbial community composition can influence the litte...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...
Increasing evidence suggests that specific interactions between microbial decomposers and plant litt...