4.7 Article

Soil Respiration Variation among Four Tree Species at Young Afforested Sites under the Influence of Frequent Typhoon Occurrences

Journal

FORESTS
Volume 12, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/f12060787

Keywords

afforestation; Asian monsoon; litterfall; soil respiration; temperature sensitivity; typhoon disturbance

Categories

Funding

  1. Ministry of Science Technology [MOST 107-2313-B-002-035, MOST 109-2313-B-002-038]

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This study analyzed the soil respiration at four afforested sites in southern Taiwan with different tree species and examined the influence of seasonal variation and typhoon disturbances on carbon release. Results showed that different tree species led to variations in soil respiration, and severe typhoon impacts increased soil respiration levels.
Afforestation is an effective solution for restoring forest ecosystems and mitigating climate change in the tropics. In this study, we analyzed the soil respiration (Rs) at four afforested sites with different tree species exposed to a monsoon climate with frequent typhoon occurrences in southern Taiwan. The aim of this study is to examine (1) the distinct seasonal variation that strongly affects the Rs among four tree species at afforested sites, (2) the patterns of Rs that differ among the four species at the afforested sites, and (3) the influence of typhoons on forest structure and consequently the degree of Rs. The annual mean Rs among the four tree species at the afforested sites in the pretyphoon disturbance year was approximately 7.65 t C ha(-1), with the post-typhoon year having an annual mean Rs of approximately 9.13 t C ha(-1). Our results clearly show Rs variations in the four tree species at the young afforested sites under the influence of typhoon disturbances. The high seasonal variations in Rs were controlled by soil temperature and soil moisture. The different tree species also led to variations in litterfall production and consequently influenced Rs variation. Forest structures, such as aboveground biomass and consequently the degree of Rs, were disturbed by severe typhoon impacts in 2016, resulting in high aboveground biomass with tree height losses and litterfall accumulation. Furthermore, Rs increased immediately after litterfall input to the soil, and the addition effect of litter and the soil C release occurred throughout the year after typhoon disturbances. Our results contribute to understanding impact of typhoon disturbances on the degree of Rs at tropical afforested sites.

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