干旱区生态环境知识资源中心(Arid): 基于Hyperion的锡林郭勒草原光合植被、非光合植被覆盖度估算

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	基于Hyperion的锡林郭勒草原光合植被、非光合植被覆盖度估算
其他题名	Estimating fractional cover of photosynthetic vegetation and non-photosynthetic vegetation in the Xilingol steppe region with EO-1 hyperion data
	李涛; 李晓松; 李飞
来源期刊	生态学报
ISSN	1000-0933
出版年	2015
卷号	35 期号:11 页码:3643-3652
中文摘要	掌握草原生态系统光合植被覆盖度(f_(PV))与非光合植被覆盖度(f_(NPV))时空动态对了解干旱半干旱草原生态系统特征(覆盖状况、火灾负载、载畜量、干扰及恢复等)及进行科学、有效地草地资源管理具有重要的意义。选取锡林郭勒典型草原为试验区,以Hypeiron高光谱数据为数据源,利用NDVI-CAI三元线性混合模型对试验区f_(PV)和f_(NPV)的时空动态分布进行了估算,并对不同端元选择方法(最小包含端元特征法、纯净象元指数法和实测法)对估算结果的影响进行了比较分析。研究结果表明,NDVI-CAI三元线性混合模型是同时估测锡林郭勒草原f_(PV)和f_(NPV)的有效方法,且估算的f_(PV)和f_(NPV)的季节变化与牧草的物候发育特征相吻合。不同端元选择方法对估算精度具有一定的影响,其中基于最小包含端元特征法提取端元进行估算的精度最高,f_(PV)估算的均方根误差RMSE = 4.57,估算精度EA = 91.2%;f_(NPV)估算的RMSE = 5.90,EA = 67.91%(样本数N=52)。
英文摘要	Quantitative estimation of the spatial and temporal dynamics of the fractional cover of photosynthetic vegetation (f_(PV)) and non-photosynthetic vegetation (f_(NPV)) in semi-arid grasslands is critical for understanding grassland conditions such as vegetation abundance,drought severity,fire fuel load,stocking rate,and disturbance events and recovery. It is also important for scientific grassland resource management. Over the past several decades,remote sensing has become an important tool for estimating the fractional cover of vegetation, which is a key descriptor of ecosystem function. However, most efforts have been devoted to the estimation of f_(PV) rather than f_(NPV), although the latter is equally important,especially in arid and semi-arid ecosystems. This study describes a linear unmixing approach for estimating f_(PV) and f_(NPV) in the Xilingol steppe region with hyperspectral and field investigation data. Five Hyperion images acquired on April 4,May 20,July 27, August 30,and November 15 in 2012 and a field-measured spectral library were utilized to explore the spectral feature space of f_(PV) and f_(NPV) in order to validate the feasibility of a linear unmixing model. This model is based on two complementary spectral indices of vegetation that have been used in remote sensing analyses to discriminate green and dry vegetation from soils: the Normalized Difference Vegetation Index (NDVI) and the Cellulose Absorption Index (CAI). Different end-member extraction methods,including the Minimum-Volume Enclosing (MVE) method,the Pixel Purity Index (PPI) method, and a field measurement method, were adopted to retrieve the end-member values of photosynthetic vegetation, non-photosynthetic vegetation, and bare soil, respectively, from NDVI and CAI. Then, the influence of end-member extraction on the accuracy of the f_(PV) and f_(NPV) estimation was evaluated through comparison with field-measured f_(PV) and f_(NPV) values acquired from classifications performed on fisheye photos (N=52). Subsequently, the optimum unmixing strategy was utilized to retrieve the temporal dynamics of f_(PV) and f_(NPV) in a fenced area,where the grassland was not influenced by human activities,so that the usefulness of these fractional coverage indices could be validated by checking their consistency with the phenology of natural grassland. The result shows that the linear unmixing model based on NDVI and CAI was effective for estimating f_(PV) and f_(NPV) in the Xilingol steppe region. The NDVI-CAI feature space follows a triangular distribution, where the three vertexes represent photosynthetic vegetation, non-photosynthetic vegetation, and bare soil, meeting the essential requirements of the linear unmixing model. The estimation accuracy was different for the different end-member extraction methods. The MVE-based estimation had the highest accuracy, with estimated accuracy of 91.2% and 67.91% for f_(PV) and f_(NPV), respectively, followed by the PPI-based estimation (91.0% and 59.5% for f_(PV) and f_(NPV), respectively) and the field-measurement-based estimation (86.2% and 56.7% for f_(PV) and f_(NPV), respectively). In general,the estimation accuracy was higher for f_(PV) than f_(NPV), and the field-measured end-member performed worse than the image end-member, which was probably due to the inconsistency between the field-measured spec and the Hyperion spec. Additionally, the temporal dynamics of f_(PV) and f_(NPV) were confirmed to be consistent with the phenological seasonal change in natural grasslands. Therefore, the method proposed here can be used to monitor the temporal and spatial variations of f_(PV) and f_(NPV) in semi-arid grasslands.
中文关键词	NDVI-CAI模型 ; 光合植被 ; 非光合植被 ; 端元选择
英文关键词	Hyperion Hyperion NDVI-CAI model photosynthetic vegetation (PV) non-photosynthetic vegetation (NPV) end-member selection
语种	中文
国家	中国
收录类别	CSCD
WOS类目	BIOLOGY
WOS研究方向	Life Sciences & Biomedicine - Other Topics
CSCD记录号	CSCD:5446441
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/233176
作者单位	中国科学院遥感与数字地球研究所, 中国科学院数字地球重点实验室, 北京 100094, 中国
推荐引用方式 GB/T 7714	李涛,李晓松,李飞. 基于Hyperion的锡林郭勒草原光合植被、非光合植被覆盖度估算[J],2015,35(11):3643-3652.
APA	李涛,李晓松,&李飞.(2015).基于Hyperion的锡林郭勒草原光合植被、非光合植被覆盖度估算.生态学报,35(11),3643-3652.
MLA	李涛,et al."基于Hyperion的锡林郭勒草原光合植被、非光合植被覆盖度估算".生态学报 35.11(2015):3643-3652.