Soil Microbial Community Structure and Metabolic Activity of Pinus elliottii Plantations across Different Stand Ages in a Subtropical Area
Zeyan Wu, Stacey Elizabeth Haack, Wenxiong Lin, Bailian Li, Linkun Wu, Changxun Fang, Zhixing Zhang

TL;DR
This study shows how soil microbes in pine plantations change as the trees age, leading to reduced microbial diversity and activity.
Contribution
The study reveals how long-term pine plantations affect soil microbial communities and metabolism across different tree ages.
Findings
Bacterial biomass decreased while fungal biomass increased with stand age in pine plantations.
Soil microbial diversity and metabolic activity declined as the plantations aged.
Soil nutrients and C/N ratio were key factors influencing microbial community changes.
Abstract
Soil microbes play an essential role in the forest ecosystem as an active component. This study examined the hypothesis that soil microbial community structure and metabolic activity would vary with the increasing stand ages in long-term pure plantations of Pinus elliottii. The phospholipid fatty acids (PLFA) combined with community level physiological profiles (CLPP) method was used to assess these characteristics in the rhizospheric soils of P. elliottii. We found that the soil microbial communities were significantly different among different stand ages of P. elliottii plantations. The PLFA analysis indicated that the bacterial biomass was higher than the actinomycic and fungal biomass in all stand ages. However, the bacterial biomass decreased with the increasing stand ages, while the fungal biomass increased. The four maximum biomarker concentrations in rhizospheric soils of P.…
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Taxonomy
TopicsRheology and Fluid Dynamics Studies · Injection Molding Process and Properties · Polymer crystallization and properties
