4.7 Article

Thinning promotes the nitrogen and phosphorous cycling in forest soils

Journal

AGRICULTURAL AND FOREST METEOROLOGY
Volume 311, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.agrformet.2021.108665

Keywords

Forest management; Forest thinning; Nitrogen cycling; Phosphorus cycling; Soil N2O flux

Funding

  1. National Natural Science Foundation of China [31901293]
  2. National Key Research and Development Program of China [2016YFD0600201]
  3. Young Elite Scientists Sponsorship Program by CAST [2018QNRC001]
  4. Program for Changjiang Scholars and Innovative Research Team in University [IRT_15R09]

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Thinning in even-aged forest management has been shown to increase concentrations of soil nitrate, total P, and available P, without affecting soil total N and ammonium. Thinning stimulates soil microbial activities, enhances N and P cycling, and varies in its effects depending on climates and forest biomes. Overall, thinning promotes forest soil N and P cycling, contributing to improved soil fertility.
Thinning, a major practice of even-aged forest management, notably affects the stand structure and microclimates and thus in turn soil nitrogen (N) and phosphorous (P) cycling. However, the magnitude and direction of these effects remain uncertain. We performed a meta-analysis of 1228 observations from 115 studies worldwide to explore the effects of thinning on forest soil N and P processes. The results showed that thinning increased the concentrations of soil nitrate, total P, and available P by 11.7%, 6.1%, and 11.4%, respectively, but had no effect on the concentrations of soil total N and ammonium. Thinning stimulated soil microbial activities regulating soil N and P cycling, evidenced by the increased microbial biomass N and the activities of N- and P-acquiring extracellular enzymes. Thinning also increased net N mineralization and nitrification rates, but did not significantly affect N2O emission. However, these thinning effects varied with climates and forest biomes. The effect sizes of N-cycling processes were significantly correlated with mean annual precipitation or mean annual temperature, implying that these N fluxes are more sensitive to thinning in warm and humid regions. Collectively, our meta-analysis indicates that thinning promotes forest soil N and P cycling and increases the soil fertility, which are conducive to improving forest ecosystem functions.

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