Above-and Below-ground Biodiversity Differently Mediate the Effects of Selective Logging on Temperate Forest Multifunctionality, Study Finds----Institute of Applied Ecology, Chinese Academy of Sciences

Research

Above-and Below-ground Biodiversity Differently Mediate the Effects of Selective Logging on Temperate Forest Multifunctionality, Study Finds

Release Time：2021-04-25 【Big】【Small】【 Print】【Close】

Selective logging is one of the most important measures to manage forest ecosystems, and its impacts on forest structure, function and biodiversity have long been hotspots of forestry and ecology. The broad-leaved Korean pine (Pinus koraiensis) mixed forest is a typical zonal forest type in Northeast China. The selective logging of this type of forest aims at felling mature trees regularly without affecting main functions of the forest ecosystem, so as to ensure the maximum benefits of forest management. The restoration of the disturbed forests is crucial to the assessment of the forest management measures and the sustainable utilisation of forest resources.

A new study published in Global Change Biology recently confirmed that selective logging in a reasonable way may make better use of abiotic resources in the forests, promote the growth of preserved trees, improve the overall functionality of the ecosystem, and increase tree species diversity and soil microbial diversity. The researchers (Prof. Yuan Zuoqiang, Prof. Hao Zhanqing, Prof. Wang Xugao, etc.) from the Natural Forest Ecology Group of the Institute of Applied Ecology, Chinese Academy of Sciences, measured a series of ecosystem function parameters (e.g., community productivity, soil carbon storage, and soil/litter water holding capacity) in the broad-leaved Korean pine (Pinus koraiensis) mixed forests in the Changbai Mountain where different selective logging intensities occurred (medium logging intensity: 20-30%; low intensity: 10-20%; no logging: undisturbed old forest).

By calculating ecosystem multifunctionality and analysing the relative contribution of its drivers (e.g., climate factors, disturbance intensity, plant and soil microbial attributes), the researchers found that there was no significant difference in community productivity, litter biomass and litter water holding capacity in the three forest categories, but the soil organic carbon density, soil water holding capacity, and soil available nitrogen, phosphorus and potassium contents in the forests that were subject to selective logging have exceeded that in the old forests, indicating that the secondary forests that suffered from selective logging disturbance has strong self-restoration capacity. Although the moderately disturbed forest stands have lower functional trait diversity and stand structure diversity, it has higher plant species diversity, phylogenetic diversity and soil microbial diversity than the old forest stands. Plant attributes such as plant taxonomic diversity, phylogenetic diversity, functional trait diversity and stand structure diversity have positive or negative effects on ecosystem multifunctionality indices, while soil bacteria diversity and stand structure diversity have stronger predictive validity for ecosystem multifunctionality, and the contribution of climate factors to ecosystem multifunctionality is relatively small. Above-and below-ground biodiversity show opposite pathways in the regulation of the ecosystem multifunctionality.

The study confirms that selective logging is an effective means to regulate forest biodiversity and ecosystem functions.

The results were published in Global Change Biology, entitled "Divergent above-and below-ground biodiversity pathways mediate disturbance impacts on temperate forest multifunctionality."

This study was funded by the Chinese Academy of Sciences and the National Natural Science Foundation of China.

Contact

YUE Qian

Institute of Applied Ecology, Chinese Academy of Sciences

Tel: 86-24-83970324

E-mail: yueqian@iae.ac.cn

Web: http://english.iae.cas.cn