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Effects of grazing intensity on richness and composition of rhizosphere and non-rhizosphere microbial communities in a semiarid grassland
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1.Overgrazing-induced grassland degradation has become a severe
ecological problem worldwide. The diversity and composition of soil
microbial communities are responsive to grazing disturbance. Yet, our
understanding is limited with respect to the effects of grazing
intensity on bacterial and fungal communities, especially in plant
rhizosphere. 2.Using a long-term (15 years) grazing experiment, we
evaluated the richness and composition of microbial communities in both
rhizosphere and non-rhizosphere regions, under light, moderate, and
heavy intensities of grazing, in a semiarid grassland. We also examined
the relative roles of grazing-induced changes in some abiotic and biotic
factors in affecting the richness and composition of microbial
communities. 3.Our results showed that the responses of soil bacteria to
grazing intensity differed greatly between rhizosphere and
non-rhizosphere, and so did soil fungi. Specifically, the bacterial
richness decreased markedly under moderate and heavy grazing in
rhizosphere soil, whereas little impact on the fungal richness was
observed. For microbial composition, with the increase in grazing
intensity, an increase in dissimilarity among bacterial communities was
observed, and this trend also held true for the fungal communities.
Hierarchical partitioning analyses indicated that the bacterial
composition in rhizosphere was primarily driven by root nitrogen and
soil nitrogen concentrations while that in non-rhizosphere by soil
available phosphorus. In addition, soil available phosphorus played an
important role in affecting the fungal composition in both rhizosphere
and non-rhizosphere regions. 4.Synthesis: This study provides direct
experimental evidence that the richness and composition of microbial
communities were severely altered by heavy grazing in a semiarid
grassland. Thus, to restore the grazing-induced, degraded grasslands, we
should pay more attention to the conservation of soil microbe in
addition to vegetation recovery.
Title: Effects of grazing intensity on richness and composition of rhizosphere and non-rhizosphere microbial communities in a semiarid grassland
Description:
1.
Overgrazing-induced grassland degradation has become a severe
ecological problem worldwide.
The diversity and composition of soil
microbial communities are responsive to grazing disturbance.
Yet, our
understanding is limited with respect to the effects of grazing
intensity on bacterial and fungal communities, especially in plant
rhizosphere.
2.
Using a long-term (15 years) grazing experiment, we
evaluated the richness and composition of microbial communities in both
rhizosphere and non-rhizosphere regions, under light, moderate, and
heavy intensities of grazing, in a semiarid grassland.
We also examined
the relative roles of grazing-induced changes in some abiotic and biotic
factors in affecting the richness and composition of microbial
communities.
3.
Our results showed that the responses of soil bacteria to
grazing intensity differed greatly between rhizosphere and
non-rhizosphere, and so did soil fungi.
Specifically, the bacterial
richness decreased markedly under moderate and heavy grazing in
rhizosphere soil, whereas little impact on the fungal richness was
observed.
For microbial composition, with the increase in grazing
intensity, an increase in dissimilarity among bacterial communities was
observed, and this trend also held true for the fungal communities.
Hierarchical partitioning analyses indicated that the bacterial
composition in rhizosphere was primarily driven by root nitrogen and
soil nitrogen concentrations while that in non-rhizosphere by soil
available phosphorus.
In addition, soil available phosphorus played an
important role in affecting the fungal composition in both rhizosphere
and non-rhizosphere regions.
4.
Synthesis: This study provides direct
experimental evidence that the richness and composition of microbial
communities were severely altered by heavy grazing in a semiarid
grassland.
Thus, to restore the grazing-induced, degraded grasslands, we
should pay more attention to the conservation of soil microbe in
addition to vegetation recovery.
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