2009-王义东-APJAS.pdf Title:Contribution of aboveground litter decomposition to soil respiration in a subtropical coniferous plantation in southern China Authors: Wang Yidong, Wang Huimin, Ma Zeqing, Wen Xuefa, Li Qingkang, Liu Yunfen, Sun Xiaomin, Yu Guirui. Journal: Asia-Pacific Journal of Atmospheric Sciences Abstract: Soil CO 2 efflux (R S ) was monitored in a 23-year-old subtropical coniferous plantation in southern China from January 2004 to December 2006. Field measurements of R S with litterfall (CK) and without litterfall (NL) were conducted to evaluate the contribution of aboveground litter decomposition to RS. The results indicated that annual RS from CK ranged from 11.5 mg (C) m -2 h -1 in 2004 to 186.2 mg (C) m -2 h -1 in 2006. The RS of NL was significantly lower than the R S of CK. RS was mainly determined by soil temperature (T S ), but it was also affected by soil moisture. Together, both factors explained 70% of the observed variations in R S . The temperature sensitivity (Q 10 ) of R S from NLwas lower than that from CK by considering the soil moisture effect. On average, the annual RS of the coniferous plantation was estimated to be 669 g (C)m -2 yr -1 over the study period. The litterfall greatly enhanced the RS, and the respiration from aboveground litter accounted for about 33% of the total RS, in which the fresh litterfall decomposition accounted for a large proportion.The carbon pool of aboveground litter in this young conifer forest is expected to increase continuously.
箱式法目前是观测土壤呼吸的最主要方法,有人工操控的也有全自动的。但由于受到经费等条件的限制,以及开展较大空间尺度上多点观测的需求,高分辨率的连续自动观测系统很难获得,而分辨率较低的人工操控的观测法则 是目前土壤呼吸测定的主要方法 。研究表明,土壤呼吸在日、周、月和年尺度上均波动很大。中亚热带地区,由于温度和降雨的季节波动,导致森林土壤呼吸随时间显著变化 ,这给准确捕捉波动规律和正确估算年土壤呼吸量带来了很大不确定性。而对于多大观测频度才能满足不同的观测要求却又缺乏统一的标准,因此,探讨监测频率与模式对精确估算年土壤呼吸的影响显得极为必要。 为此,我们利用监测步长为每周 2 次的长期定位土壤呼吸观测数据,根据时间序列,抽出每周 1 次、每两周 1 次、每月 1 次的观测数据序列,根据这些不同频度观测的数据序列,利用方程( 4 )建立相应的土壤呼吸与环境条件的关系式,基于连续的自动监测环境要素,估算年土壤呼吸量,并以每周 2 次观测频度得到的年土壤呼吸结果为标准进行对比。结果显示,只要以每 2 周 1 次均衡的监测频率(即大约每年 24 次)便可以得到可靠的年土壤呼吸估算量(与对照相比偏差 5% ),如果监测频率低到每月 1 次,那么就难以获得稳定精确的年土壤呼吸值。但如果想获得多年的土壤呼吸平均值,那么每月 1 次的监测频率便足以满足 。然而,如果采用不均衡的监测模式,比如旱季少于 2 周 1 次、雨季增加频度的监测模式等,那么即使是每年监测达到 24 次,也难以满足年土壤呼吸估算精度的要求 。 综上,每两周一次测定就可以满足年土壤呼吸精确测定的要求,每月一次就可以满足多年平均土壤呼吸测定的需求,这个结果为准确测定土壤呼吸并减少工作量提供了方法依据 。 该成果已发表在:EUROPEAN JOURNAL OF SOIL BIOLOGY, 52, 41-47 . http://www.sciencedirect.com/science/article/pii/S1164556312000635 题目:Optimizing manual sampling schedule for estimating annual soil CO2 efflux in a young exotic pine plantation in subtropical China 作者:Wang Yidong; Wang Huimin;Wang Zhong-Liang; Zhang Wenjiang; Guo Changcheng; Wen Xuefa; Liu Yunfen 期刊:EUROPEAN JOURNAL OF SOIL BIOLOGY 摘要: Optimizing a manual measurement schedule (both frequency and pattern) for estimating annual soil respiration (R-S) is an important but unresolved issue. We hypothesized that (i) an optimal sampling setup can be found to obtain a reliable annual R-S, and (ii) if the desired outcome is a multi-year mean annual R-S, a lower sampling frequency might be adequate. Here we explored these issues using a three-year chamber-based dataset, with a sampling frequency of twice per week (defined as control), in an exotic slash pine (Pinus elliottii Englem.) plantation in subtropical China. The results showed that R-S during 9:00 -11:00 a.m. represented diurnal mean R-S well. In order to obtain an annual R-S as reliable as the control (deviation within +/- 5%), the optimal measurement strategy is a biweekly sampling across a year and not a trade-off sampling pattern (monthly sampling combined with weekly sampling depending on the seasons). Furthermore, despite an obvious inter-annual variability in R-S (548.4-757.5 g C m(-2) year(-1), CV = 16.3%), a monthly sampling was sufficient to obtain an unbiased multi-year mean annual R-S (deviation within +/- 5%). Such findings are useful when easy looking for estimates of annual ecosystem carbon budgets. However, the generality needs to be examined in other ecosystems. 2012-王义东-EJSOBI2599.pdf
2012-王义东-CJFR.pdf http://www.nrcresearchpress.com/doi/abs/10.1139/x2012-017 Title: Rainfall pulse primarily drives litterfall respiration and its contribution to soil respiration in a young exotic pine plantation in subtropical China Authors: Yidong Wang, Zhong-Liang Wang, Huimin Wang, Changcheng Guo, and Wankui Bao Journal: Canadian Journal of Forest Research Abstract: Although litterfall respiration (R L ) is a key process of soil carbon dynamics in forests, factors that drive RL and its contribution to soil respiration (R S ) have not been sufficiently studied. Using a litter removal method, we researched RL and the ratio of RL:RS in a 20-year-old exotic slash pine ( Pinus elliottii Englem.) plantation in subtropical China. Soil temperature explained 67%, 78%, and 25% of variation in RS, mineral soil respiration (RS-L), and RL, respectively, but had little impact on R L :R S . To study influences besides temperature, measured RS and RS-L were normalized using the Arrhenius equation. Even though this subtropical plantation was characterized by a humid climate with abundant precipitation, a rainfall pulse induced increase in soil moisture primarily drove RL and its contribution to RS but depressed RS-L. The response of RL to rainfall and soil moisture was significantly more sensitive than that of RS-L. Furthermore, the effects of rainfall and soil moisture on RS, RL, and RL:RS were higher during the dry season (July–December) than during the wet season (January–June). In the context of climate change, RL and its contribution to RS are expected to decrease because of the predicted decrease in rainfall amount and frequency in subtropical regions.
http://www.nrcresearchpress.com/doi/abs/10.1139/x11-105 Title: Precipitation frequency controls interannual variation of soil respiration by affecting soil moisture in a subtropical forest plantation Authors: Yidong Wang, Qingkang Li, Huimin Wang, Xuefa Wen, Fengting Yang, Zeqing Ma, Yunfen Liu, Xiaomin Sun, and Guirui Yu Journal: Canadian Journal of Forest Research Abstract: Despite the significance of interannual variation of soil respiration (R S ) for understanding long-term soil carbon dynamics, factors that control the interannual variation of R S have not been sufficiently investigated. Interannual variation of RS was studied using a 6-year data set collected in a subtropical plantation dominated by an exotic species, slash pine (Pinus elliottii Engelm.), in China. The results showed that seasonal variation of RS was significantly affected by soil temperature and soil water content (SWC). RS in the dry season (July–October) was constrained by seasonal drought. Mean annual RS was estimated to be 736 ± 30 g C·m–2·year–1, with a range of 706–790 g C·m–2·year–1. Although this forest was characterized by a humid climate with high precipitation (1469 mm·year–1), the interannual variation of RS was attributed to the changes of annual mean SWC (R2 = 0.66, P = 0.03), which was affected by annual rainfall frequency (R2 = 0.80, P 0.01) and not rainfall amount (P = 0.84). Consequently, precipitation pattern indirectly controlled the interannual variation of RS by affecting soil moisture in this subtropical forest. In the context of climate change, interannual variation of RS in subtropical ecosystems is expected to increase because of the predicted changes of precipitation regime.
标签: 土壤呼吸
