Plant–rodent interactions after a heavy snowfall decrease plant regeneration and soil carbon emission in an old-growth forest

Background Climate extremes are likely to become more common in the future and are expected to change ecosystem processes and functions. As important consumers of seeds in forests, rodents are likely to affect forest regeneration following an extreme weather event. In April 2015, we began a field ex...

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Bibliographic Details
Published in:Forest ecosystems 2021-05, Vol.8 (1), p.1-10, Article 30
Main Authors: Zhou, Qingqiu, Li, Debao, Xia, Shangwen, Chen, Zhe, Wang, Bo, Wu, Jianping
Format: Article
Language:English
Subjects:
Abundance
Biomass
Biomedical and Life Sciences
Carbon
Climate extreme
Community composition
Composition
Ecology
Ecosystems
Environmental changes
Enzyme activity
Extreme weather
Forest ecosystem
Forestry
Forests
Life Sciences
Microorganisms
Plant diversity
Plant species
PLFAs
Regeneration
Respiration
Rodents
Seeds
Snow
Snowfall
Soil microorganisms
Soil properties
Soil respiration
Soils
Species richness
Substrates
Urease
Weather
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Summary:Background Climate extremes are likely to become more common in the future and are expected to change ecosystem processes and functions. As important consumers of seeds in forests, rodents are likely to affect forest regeneration following an extreme weather event. In April 2015, we began a field experiment after an extreme snowfall event in January 2015 in a primary forest that was > 300 years old. The heavy snow broke many tree limbs, which presumably reduced the numbers of seeds produced. Two treatments (rodent exclusion and rodent access) were established in the forest, in which rodent exclusion were achieved by placing stainlessness nets around the plot borders. Plant abundance, plant species richness, soil properties, soil microbial community composition, basal and substrate-induced respiration were determined in December 2017. Results Plant abundance and species richness significantly increased, but soil microbial biomass decreased with rodent exclusion. Urease activity and soil basal respiration also significantly decreased with rodent exclusion. Most other soil properties, however, were unaffected by rodent exclusion. The relative effects of multiple predictors of basal respiration were mainly explained by the composition of the soil microbial community. Conclusions After a heavy snowfall in an old-growth forest, exclusion of rodents increased plant regeneration and reduced microbial biomass and soil basal respiration. The main factor associated with the reduction in soil basal respiration was the change in the composition of the soil microbial community. These findings suggest that after a heavy snowfall, rodents may interfere with forest regeneration by directly reducing plant diversity and abundance but may enhance carbon retention by indirectly altering the soil microbial community.
ISSN:2197-5620
2095-6355
2197-5620
DOI:10.1186/s40663-021-00310-2