基于MODIS时序数据的黑龙江流域火烧迹地提取  被引量：22

作　　者：杨伟[1] 张树文[2] 姜晓丽[3] 

机构地区：[1]太原师范学院地理科学学院,晋中030619 [2]中国科学院东北地理与农业生态研究所,长春130102 [3]太原师范学院城镇与区域发展研究所,晋中030619

出　　处：《生态学报》2015年第17期5866-5873,共8页Acta Ecologica Sinica

基　　金：中国科学院战略性先导科技专项(XDA05090310)

摘　　要：火烧迹地信息是研究火灾的重要参数和基础数据,也是研究全球生态系统和碳循环扰动的重要依据之一。以受森林火灾影响较为严重的黑龙江流域为研究区,以MODIS时间序列数据为数据源建立了一个分为两阶段的火烧基地提取算法(即首先设定较为严格的提取条件对最有可能发生火灾的像元——核心像元进行提取,然后设定较为宽松的阈值提取距离核心像元一定范围内的火烧像元),对2000—2011年的火烧迹地信息进行了提取,生成了研究区长时间序列火烧迹地分布图,并对其时空分布特征进行了分析。选择黑龙江省为典型验证区对算法精度进行了验证,结果显示算法的整体精度较之以往的算法有了一定程度的提高。Fire is an important natural disturbance that affects several ecosystems and is also one of the main factors of the terrestrial carbon cycle. As fire modifies the structure and composition of vegetation, it is considered to be an important land management tool. Burned area mapping is an essential step in forest fire research to investigate the relationship between forest fire and climate change and the effect of forest fire on carbon budgets. Traditional data collection of forest fires in field- which are statistically recorded are difficult to manipulate over a large area. The development of the remote sensing technique provides a labor-efficient method for research of land surface processes. At the regional or global scale, in order to obtain a long-time series of burned area maps, a moderate spatial resolution with high temporal resolution remote sensing data is considered as the best alternative. Currently, the most widely used remote sensing data are Advanced Very High Resolution Radiometer （AVHRR） images and Moderate-Resolution Imaging Spectroradiometer （MODIS） images. Although the AVHRR provides continuous observations for burned area analyses, some studies have identified several sources of potential errors in burned area discrimination from this sensor, mainly due to its radiometric instability, cloud obscuration, and transmission problems. Most of these problems have been notably reduced in the MODIS sensor, which offers greater spectral, spatial, and radiometric resolution than the AVHRR. This study proposes an algorithm to map areas burned by forest fire using MODIS time series data in Heilongjiang Valley, China. The algorithm is divided into two steps： First, the ＂core＂ pixels were extracted to represent the most possible burned pixels based on a comparison of the temporal change of the Global Environmental Monitoring Index （GEMI）, the Burned Area Index （BAI）, and the MODIS active fire products between pre- and post-fire spatial patterns. Second, a 15-km distance was set to extr

关 键 词：火烧迹地 MODIS GEMI BAI 

分 类 号：S762[农业科学—森林保护学]