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西双版纳地区森林变化碳效应与生态效益评估
引用本文:刘桂芳,关瑞敏,夏梦琳,卢鹤立,徐明,郑辉. 西双版纳地区森林变化碳效应与生态效益评估[J]. 生态学报, 2022, 42(3): 1118-1129
作者姓名:刘桂芳  关瑞敏  夏梦琳  卢鹤立  徐明  郑辉
作者单位:河南大学地理与环境学院/河南大学黄河文明与可持续发展研究中心暨黄河文明省部共建协同创新中心, 开封 475004;黄河中下游数字地理技术教育部重点实验室(河南大学)/河南大学环境与规划国家级实验教学示范中心, 开封 475004;河南大学地理与环境学院/河南大学黄河文明与可持续发展研究中心暨黄河文明省部共建协同创新中心, 开封 475004;黄河中下游数字地理技术教育部重点实验室(河南大学)/河南大学环境与规划国家级实验教学示范中心, 开封 475004;河南省地球系统观测与模拟重点实验室, 开封 475004;河南大别山森林生态系统国家野外科学观测研究站, 开封 475004
基金项目:国家自然科学基金项目(42071267,41371525);河南省高校科技创新团队支持计划(21IRTSTHN008)
摘    要:减少发展中国家因森林砍伐与森林退化导致的碳排放和保持碳储量(REDD+),不仅能减少因森林砍伐和森林退化造成的碳排放,而且还可以带来其它生态效益,如减缓森林破碎化、保护生物多样性和增强水土保持功能等。以中国的西双版纳地区为研究区域,以毁林最严重的1976—2007年为REDD+基线,基于卫星影像,并结合植被指数,提取了研究区的土地利用变化信息。基于IPCC温室气体清单方法,计算了研究区的森林碳储量变化。在此基础上,对REDD+的碳汇效益和生态效益进行了系统综合评估。结果显示:(1)1976—2007年间天然林碳储量从占总碳储量的78.24%减少至50.52%,这是造成西双版纳地区碳储量减少的主要原因。(2)1976—2007年,天然林的斑块数量和平均最近邻距离分别增加了120.00%和25.21%,平均斑块面积下降了71.98%,说明天然林的破碎化程度加剧。从研究区整体景观格局来看,斑块数量、Shannon多样性指数和Shannon均一性指数分别增加了8.16%、51.39%和34.07%;与此同时,平均斑块面积和景观内聚力指数分别下降了26.26%和2.13%,表明研究区整体景观格局...

关 键 词:REDD+效益  毁林  碳排放  西双版纳
收稿时间:2020-03-29
修稿时间:2021-08-08

Comprehensive assessment on both carbon and ecosystem-based benefits from Xishuangbanna's tropical forests changes
LIU Guifang,GUAN Ruimin,XIA Menglin,LU Heli,XU Ming,ZHENG Hui. Comprehensive assessment on both carbon and ecosystem-based benefits from Xishuangbanna's tropical forests changes[J]. Acta Ecologica Sinica, 2022, 42(3): 1118-1129
Authors:LIU Guifang  GUAN Ruimin  XIA Menglin  LU Heli  XU Ming  ZHENG Hui
Affiliation:College of Geography and Environmental Science/Collaborative Innovation Center on Yellow River Civilization & Key Research Institute of Yellow River Civilization and Sustainable Development, Henan University, Kaifeng 475004, China;Key Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions (Henan University), Ministry of Education/National Demonstration Center for Environment and Planning, Henan University, Kaifeng 475004, China;College of Geography and Environmental Science/Collaborative Innovation Center on Yellow River Civilization & Key Research Institute of Yellow River Civilization and Sustainable Development, Henan University, Kaifeng 475004, China;Key Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions (Henan University), Ministry of Education/National Demonstration Center for Environment and Planning, Henan University, Kaifeng 475004, China;Henan Key Laboratory of Earth System Observation and Modeling, Henan University, Kaifeng 475004, China;Henan Dabieshan National Field Observation and Research Station of Forest Ecosystem, Henan University, Kaifeng 475004, China
Abstract:The REDD+partnership works to promote the reduction of greenhouse gas(GHG)emissions by reducing emissions from deforestation and forest degradation in the developing countries through positive incentives and conversation of forest carbon stocks.It is regarded as an essential component of the post-2012 climate regime to stabilize GHG emissions and engage the developing countries in worldwide mitigation endeavors.If cost-efficient carbon benefits can be achieved through REDD+,increases in atmospheric CO;concentrations could be slowed,effectively buying much needed time for countries to move to lower emissions technologies.We chose tropical forests in Xishuangbanna of China as our study area and took the most severe deforestation from 1976 to 2007 as the baseline of REDD+.Land use information was obtained through the combination of Landsat TM images and Normalized Difference Vegetation Index masks.Forest carbon storage change in the study area was firstly calculated based on IPCC methodology.Secondly ecosystem-based benefits from REDD+were assessed systematically.Our results showed that from 1976 to 2007,the natural forest carbon storage decreased from 78.24%to 50.52%of total carbon storage,which was the main reason for the reduction of carbon storage in Xishuangbanna.At the meantime,significant degradation of ecosystem services emerged.This was demonstrated by two important indicators:forest fragmentation and soil erosion.For example,from 1976 to 2007 the percentage change in the carbon stocks was 1.4%,accompanying with increasing 8.16%in number of patches,51.39%in Shannon′s diversity index and 34.07%in shannon′s evenness index.Meanwhile,mean path area and patch cohesion index decreased by 26.26%and 2.13%,respectively.It suggested that the forest ecosystem was changing in both carbon storage and forest landscape structure.The number of patches and average nearest neighbor distance of natural forest increased by 120.00%and 25.21%,respectively,and the average patch area decreased by 71.98%,indicating the degree of exacerbated fragmentation in natural forest.In this sense,carbon emission and forest fragmentation were well integrated.Furthermore,we investigated relationship between carbon emission and soil erosion and high correlation was found.For example,carbon emissions which accounted for 45%of the total located in the high erosion area,which is 18%of the whole study area.As a result,when forests that would have been lost or degraded are retained or restored through REDD+,they deliver‘multiple benefits’in addition to protecting or enhancing carbon stocks.These ecosystem-based benefits may include conservation of forest biodiversity,water regulation,soil conservation,timber,forest foods and other non-timber forest products,most of which have been demonstrated or proved in this study.By securing benefits beyond carbon,REDD+has the potential to encourage countries to realize a broader range of values.
Keywords:REDD+ benefits  deforestation  carbon emissions  Xishuangbanna
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