A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China

A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China

<p>Moso bamboo forest (Phyllostachys heterocycla [Carr.] Mitford cv. Pubescens) is an important forest type in subtropical China and comprises an important pool in the global carbon cycle. Understanding the effects of the stand management, such as understory removal, on soil respiration (RS) w...

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Main Authors: Xiaolu Tang, Shaohui Fan, Lianghua Qi, Fengying Guan, Wenhui Su, Manyi Du
Format: Article
Language:English
Published: ‘Marin Drăcea’ National Research-Development Institute in Forestry 2016-06-01
Series:Annals of Forest Research
Subjects:
soil respiration, carbon cycling, net ecosystem production, carbon use efficiency, moso bamboo forests
Online Access:https://www.afrjournal.org/index.php/afr/article/view/497
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spelling doaj-241989b6a61d4788aaf8e6f5b5451d932020-11-25T01:28:53Zeng‘Marin Drăcea’ National Research-Development Institute in ForestryAnnals of Forest Research1844-81352065-24452016-06-0159132010.15287/afr.2016.497250A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical ChinaXiaolu Tang0Shaohui Fan1Lianghua Qi2Fengying Guan3Wenhui Su4Manyi Du5Key Laboratory of Bamboo and Rattan Science, International Centre for Bamboo and Rattan, Wangjing, Chaoyang District, Beijing, 100102, China; Department of Forest Inventory and Remote Sensing, Burckhardt Institute, Georg-August-Universität Göttingen, 37077 Göttingen, GermanyKey Laboratory of Bamboo and Rattan Science, International Centre for Bamboo and Rattan, Wangjing, Chaoyang District, Beijing, 100102, ChinaKey Laboratory of Bamboo and Rattan Science, International Centre for Bamboo and Rattan, Wangjing, Chaoyang District, Beijing, 100102, ChinaKey Laboratory of Bamboo and Rattan Science, International Centre for Bamboo and Rattan, Wangjing, Chaoyang District, Beijing, 100102, ChinaKey Laboratory of Bamboo and Rattan Science, International Centre for Bamboo and Rattan, Wangjing, Chaoyang District, Beijing, 100102, ChinaExperimental Center of Forestry in North China, Chinese Academy of Forestry, Beijing 102300, China<p>Moso bamboo forest (Phyllostachys heterocycla [Carr.] Mitford cv. Pubescens) is an important forest type in subtropical China and comprises an important pool in the global carbon cycle. Understanding the effects of the stand management, such as understory removal, on soil respiration (RS) will help to provide a more accurate estimation of carbon cycling and predict future climate change. The study aimed to compare RS and net ecosystem production (NEP) in two Moso bamboo forests managed by the application of herbicide (AH) and conventional hand-weeded (HW) treatment, and further examine their root carbon use efficiency (RCUE). Trenching and litter removal were used to partition the source components of RS and one-year field measurement was conducted. Maximum-minimum approach was used to estimate fine root production. NEP was determined by the balance between NPP of vegetation and heterotrophic respiration (RH) of soil. RCUE was calculated using an indirect method. In both stands, soil temperature and soil moisture at 5 cm depth were the main driving forces to the seasonality of RS. Annual RS was 31.6 t CO2 ha-1 for the stand AH and 33.9 t CO2 ha-1 for the stand HW, while net ecosystem production (NEP) were 21.9 and 21.1 t CO2 ha-1, respectively, indicating that the both Moso bamboo stands acted as carbon sinks in the scenarios of current climate change. The RCUE was 30.6% for the stand AH, which was significantly lower than that for the stand HW (58.8%). This result indicates that different stand management practices can alter RCUE and the assumed constant universal carbon use efficiency (CUE) of 50% is not appropriate in Moso bamboo forests. This study highlight the importance of partition the source components of RS and accurate estimation of RCUE in modelling carbon cycling in Moso bamboo forests.</p>https://www.afrjournal.org/index.php/afr/article/view/497soil respiration, carbon cycling, net ecosystem production, carbon use efficiency, moso bamboo forests
collection DOAJ
language English
format Article
sources DOAJ
author Xiaolu Tang
Shaohui Fan
Lianghua Qi
Fengying Guan
Wenhui Su
Manyi Du
spellingShingle Xiaolu Tang
Shaohui Fan
Lianghua Qi
Fengying Guan
Wenhui Su
Manyi Du
A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
Annals of Forest Research
soil respiration, carbon cycling, net ecosystem production, carbon use efficiency, moso bamboo forests
author_facet Xiaolu Tang
Shaohui Fan
Lianghua Qi
Fengying Guan
Wenhui Su
Manyi Du
author_sort Xiaolu Tang
title A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
title_short A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
title_full A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
title_fullStr A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
title_full_unstemmed A comparison of soil respiration, carbon balance and root carbon use efficiency in two managed Moso bamboo forests in subtropical China
title_sort comparison of soil respiration, carbon balance and root carbon use efficiency in two managed moso bamboo forests in subtropical china
publisher ‘Marin Drăcea’ National Research-Development Institute in Forestry
series Annals of Forest Research
issn 1844-8135
2065-2445
publishDate 2016-06-01
description <p>Moso bamboo forest (Phyllostachys heterocycla [Carr.] Mitford cv. Pubescens) is an important forest type in subtropical China and comprises an important pool in the global carbon cycle. Understanding the effects of the stand management, such as understory removal, on soil respiration (RS) will help to provide a more accurate estimation of carbon cycling and predict future climate change. The study aimed to compare RS and net ecosystem production (NEP) in two Moso bamboo forests managed by the application of herbicide (AH) and conventional hand-weeded (HW) treatment, and further examine their root carbon use efficiency (RCUE). Trenching and litter removal were used to partition the source components of RS and one-year field measurement was conducted. Maximum-minimum approach was used to estimate fine root production. NEP was determined by the balance between NPP of vegetation and heterotrophic respiration (RH) of soil. RCUE was calculated using an indirect method. In both stands, soil temperature and soil moisture at 5 cm depth were the main driving forces to the seasonality of RS. Annual RS was 31.6 t CO2 ha-1 for the stand AH and 33.9 t CO2 ha-1 for the stand HW, while net ecosystem production (NEP) were 21.9 and 21.1 t CO2 ha-1, respectively, indicating that the both Moso bamboo stands acted as carbon sinks in the scenarios of current climate change. The RCUE was 30.6% for the stand AH, which was significantly lower than that for the stand HW (58.8%). This result indicates that different stand management practices can alter RCUE and the assumed constant universal carbon use efficiency (CUE) of 50% is not appropriate in Moso bamboo forests. This study highlight the importance of partition the source components of RS and accurate estimation of RCUE in modelling carbon cycling in Moso bamboo forests.</p>
topic soil respiration, carbon cycling, net ecosystem production, carbon use efficiency, moso bamboo forests
url https://www.afrjournal.org/index.php/afr/article/view/497
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