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2000-2010年黄河源玛曲高寒湿地生态格局变化
Changes in ecological patterns of Maqu alpine wetland in Yellow River Source Area during 2000-2010

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文摘 玛曲湿地作为黄河上游重要的水源涵养以及补给区之一,对于调节黄河水量与泥沙量、维持生物多样性和区域生态平衡以及实现社会经济的可持续发展具有重要意义。为揭示和分析近10年来玛曲高寒湿地系统动态变化特征及其区域差异性,应用2000年、2010年两期Landsat TM卫星影像提取玛曲景观类型信息,对玛曲湿地分布格局变化进行分析;利用S-G滤波以及最大值合成法处理后的2000-2010年MODIS归一化植被指数(NDVI)数据,进行一元线性回归分析,模拟湿地生态系统的空间演变趋势;运用长期气候观测数据,采用最小二乘法对玛曲湿地变化与气候之间的相关关系进行分析与探讨。结果表明:近10年来玛曲夏季年际NDVI值呈现波动减小的趋势,“黄河第一弯”玛曲腹地的阿万仓处NDVI减少明显,且存在沼泽草甸向亚高山草甸类型转化趋势。另外,玛曲高寒湿地变化与降水量及温度的年际变化均有关系,但与降水量的相关关系更强。
其他语种文摘 Wetland as a unique ecosystem has important environment regulating functions and irreplaceable role in maintaining regional ecological balance, conserving biodiversity, and providing food, materials and water resources to humans. The Maqu alpine wetland located in the northeast of the Tibetan Plateau is an important water conserving and supplying area to the upper reach of the Yellow River. In the past 30 years, global warming has led to significant vegetation changes on the Tibetan Plateau. The Maqu alpine wetland is undergoing a process of prominent warming and drying, and degradation of its water conservation function is very significant in recent years. Wetland vegetation dynamics, regional differentiation and causes of degradation of the alpine wetland ecosystem were investigated using multi-source remote sensing data in this study. Land use information and ecological patterns of Maqu were extracted via analyzing Landsat-5/TM and Landsat-7/ETM+ satellite images of 2000 and 2010, through visual interpretation and supervised classification using GIS techniques. NDVI (Normalized Difference Vegetation Index) was used as an indicator in monitoring vegetation changes. MODIS NDVI time series data of 2000-2010(after applying the S-G filtering method and MVC) were used to detect temporal and spatial variations and evolution trend of wetland ecosystems. Point data from weather stations was interpolated using Kriging interpolation method. Based on long-term observations from weather stations,the relationship between Maqu wetland changes and climatic factors(temperature and precipitation) was examined using the least squares method. The results show that areas of rivers, inland beaches, ponds, and swamp meadows were decreasing. Summer NDVI of 2000-2010 in the study area also decreased. Areas with significant decline in NDVI are located in Cairima, Manrima and Hequmachang. Changes in vegetation type also occurred, as signified by swamp meadows shifting to subalpine meadows. The warming and dry climate appears to be a critical factor contributing to the degradation of the Maqu alpine wetland. The changes of the Maqu alpine wetland are related to the inter-annual variability of precipitation and temperature, with 61% and 51% of the total area showing a positive correlation between NDVI and annual precipitation as well as between NDVI and mean temperature respectively. A stronger correlation exists between NDVI and annual precipitation, indicating that the vegetation growth is more sensitive to the inter-annual variability of precipitation.
来源 地理科学进展 ,2014,33(3):326-335 【核心库】
关键词 高寒湿地 ; 生态格局 ; NDVI ; 黄河源区 ; 玛曲
地址

中国科学院地理科学与资源研究所, 资源与环境信息系统国家重点实验室, 北京, 100101

语种 中文
文献类型 研究性论文
ISSN 1007-6301
学科 自然地理学
基金 国家自然科学基金项目
文献收藏号 CSCD:5106150

参考文献 共 25 共2页

1.  蔡迪花. 1990-2001年黄河玛曲高寒沼泽湿地遥感动态监测. 冰川冻土,2007,29(6):874-881 被引 16    
2.  陈世强. 黄河上游玛曲县植被指数与气候变化研究. 冰川冻土,2007,29(1):131-136 被引 13    
3.  褚琳. 黄河源玛曲高寒湿地生态退化与修复适宜性评价研究,2012 被引 5    
4.  郭芬芬. 基于MODIS NDVI时间序列数据的藏北草地类型识别. 遥感技术与应用,2011,26(6):821-826 被引 14    
5.  侯光雷. 长白山区植被生长季NDVI时空变化及其对气候因子敏感性. 地理科学进展,2012,31(3):285-292 被引 39    
6.  朴世龙. 最近18年来中国植被覆盖的动态变化. 第四纪研究,2001,21(4):294-302 被引 168    
7.  戚登臣. 黄河上游玛曲湿地退化现状、成因及保护对策. 湿地科学,2007,5(4):341-347 被引 19    
8.  邱海军. 基于SPOT VEGETATION数据的中国植被覆盖时空变化分析. 资源科学,2011,33(2):335-340 被引 33    
9.  王立新. 毛乌素沙地气候变化及其对植被覆盖的影响. 自然资源学报,2010,25(12):2030-2039 被引 16    
10.  王情. 基于SPOT-VGT数据的流域植被覆盖动态变化及空间格局特征--以淮河流域为例. 地理科学进展,2013,32(2):270-277 被引 26    
11.  王蕊. 2001-2010年蒙古国MODIS-NDVI时空变化监测分析. 地球信息科学学报,2011,13(5):665-671 被引 9    
12.  徐建华. 现代地理学中的数学方法,2002 被引 380    
13.  杨建平. 长江黄河源区高寒植被变化的NDVI记录. 地理学报,2005,60(3):467-478 被引 77    
14.  杨永兴. 国际湿地科学研究的主要特点、进展与展望. 地理科学进展,2002,21(2):111-120 被引 149    
15.  殷贺. 基于时间序列植被特征的内蒙古荒漠化评价. 地理学报,2011,66(5):653-661 被引 49    
16.  张学珍. 1982-2006年中国东部春季植被变化的区域差异. 地理学报,2012,67(1):53-61 被引 37    
17.  Cao M K. Dynamic responses of terrestrial ecosystem carbon cycling to global climate change. Nature,1998,393:249-252 被引 135    
18.  Fang J Y. Increasing terrestrial vegetation activity in China, 1982-1999. Science in China: Ser. C,2004,47(3):229-240 被引 63    
19.  Gao Q Z. Dynamics of alpine grassland NPP and its response to climate change in northern Tibet. Climatic Change,2009,97(3/4):515-528 被引 29    
20.  Goetz S J. Multi-sensor analysis of NDVI, surface temperature and biophysical variables at a mixed grassland site. International Journal of Remote Sensing,1997,18(1):71-94 被引 100    
引证文献 13

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