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iForest - Biogeosciences and Forestry

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Damage assessment to subtropical forests following the 2008 Chinese ice storm

Benzhi Zhou (1-2)   , Xiaoming Wang (1-2), Yonghui Cao (1-2), Xiaogai Ge (1-2), Lianhong Gu (3), Jinliu Meng (1-2)

iForest - Biogeosciences and Forestry, Volume 10, Issue 2, Pages 406-415 (2017)
doi: https://doi.org/10.3832/ifor1619-009
Published: Mar 24, 2017 - Copyright © 2017 SISEF

Research Articles


Ice storm is a major form of extreme climatic event and may occur more frequently in the future under a changing climate. The 2008 Chinese ice storm provided a natural laboratory to study ecosystem responses and feedbacks to climate variability and extreme events. Four typical subtropical forests (Chinese fir plantation, pine plantation, moso bamboo plantation, and secondary mixed broadleaved forest) were selected to assess the damage caused by the ice storm. The ice damage rate of typical subtropical forests varied between 25% and 81%. The secondary broadleaved forest had most extensive damage while the Chinese fir plantation experienced the most severe damage. Exotic pine species (Pinus elliottii Engelm. and Pinus taeda Linn.) were more severely damaged than the native species, Pinus massoniana Lamb. Ice damage was also affected by tree/culm size, age, stand density, site altitude, and management practices. Large-sized trees/culms were more vulnerable to stem breakage, decapitation, and uprooting, while small-sized trees/culms were more vulnerable to bending and leaning. Younger trees/culms had the highest damage rate, and were more susceptible to bending damage. Ice damage rate increased linearly with the stand density, and higher altitude led to a significant increase of stem breakage. Oleoresin tapping aggravated the damage to pine trees. Resistance of trees to ice damage is an emergent consequence of tree attributes, species origin, site conditions, and human disturbance. Forest silviculture and management practices can play significant roles in controlling forest susceptibility to extreme events. Inappropriate utilization of non-timber forest products can reduce trees’ resistance to extreme events. For sustainable forest development, balance needs to be achieved between the high productivity of introduced exotic tree species and the resistance of native species to extreme climatic events.

  Keywords


Ice Damage, Secondary Mixed Broadleaved Forest, Chinese Fir, Moso Bamboo, Pine, Forest Management

Authors’ address

(1)
Benzhi Zhou
Xiaoming Wang
Yonghui Cao
Xiaogai Ge
Jinliu Meng
Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, Zhejiang (China)
(2)
Benzhi Zhou
Xiaoming Wang
Yonghui Cao
Xiaogai Ge
Jinliu Meng
Qianjiangyuan Forest Ecosystem Research Station, State Forestry Administration, Hangzhou, Zhejiang (China)
(3)
Lianhong Gu
Environmental Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee (USA)

Corresponding author

 
Benzhi Zhou
boozex@gmail.com

Citation

Zhou B, Wang X, Cao Y, Ge X, Gu L, Meng J (2017). Damage assessment to subtropical forests following the 2008 Chinese ice storm. iForest 10: 406-415. - doi: 10.3832/ifor1619-009

Academic Editor

Paola Mairota

Paper history

Received: Feb 25, 2015
Accepted: Dec 08, 2016

First online: Mar 24, 2017
Publication Date: Apr 30, 2017
Publication Time: 3.53 months

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