Vegetation indexes were the most common and the most important parameters to characterizing large-scale terrestrial ecosystems. It is vital to get precise vegetation indexes for running land surface process models and computation of NPP change, moisture and heat fluxes over surface Biological soil crusts (BSC) are widely distributed in arid and semi-arid, polar and sub-polar regions. The spectral characteristics of dry and wet BSCs were quite different, which could produce much higher vegetation indexes value for the wet BSC than for the dry BSC as reported. But no research was reported about whether the BSC would impact on regional vegetation indexes and how much dry and wet BSC had impact on regional vegetation indexes. In the present paper, the most common vegetation index NDVI were used to analyze how the moss soil crusts (MSC) dry and wet changes affect regional NDVI values. It was showed that 100% coverage of the wet MSC have a much higher NDVI value (0. 657) than the dry MSC NDVI value (0. 320), with increased 0. 337. Dry and wet MSC NDVI value reached significant difference between the levels of 0. 000. In the study area, MSC, which had the average coverage of 12.25%, would have a great contribution to the composition of vegetation index. Linear mixed model was employed to analyze how the NDVI would change in regional scale as wet MSC become dry MSC inversion. The impact of wet moss crust than the dry moss crust in the study area can make the regional NDVI increasing by 0. 04 (14. 3%). Due to the MSC existence and rainfall variation in arid and semi-arid zones, it was bound to result in NDVI change instability in a short time in the region. For the wet MSC's spectral reflectance curve is similar to those of the higher plants, misinterpretation of the vegetation dynamics could be more severe due to the “maximum value composite” (MVC) technique used to compose the global vegetation maps in the study of vegetation dynamics. The researches would be useful for detecting and mapping MSC from remote sensing imagery. It also is to the advantage to employing vegetation index wisely.%植被指数是表征大尺度下陆地生态系统的最常用的,也是最前要的参数,所以得到准确的植被指数就显得至关重要.苔鲜结皮在干旱半干旱区、极地和亚极地Ⅸ分布广泛,且干、湿苔鲜结皮光谱差异较大,这种差异在十湿交替频繁的干旱与半干旱区是否对区域植被指数产乍影响?能产生多大的影响?国内外未见研究报道.该文以最常用的植被指数NDVI为例,重点分析了苔藓结皮干、湿变化能在多大程度上影响区域NDVI值.研究得出,100%盖度的湿苔藓结皮NDVI值(0.657)较于苔鲜结皮NDVI值(0.320)提高0.337,比干苔藓结皮高1倍多,干、湿苔藓结皮NDVI值达到0.000水平差异显著;研究区苔藓结皮的平均盖度为12.25%,线性混合光谱模型分析得出,湿苔藓结皮较干苔鲜结皮可以使研究区区域NDVI提高0.04(14·3%);由于苔鲜结皮的存在和干旱半干旱区降雨的不稳定性,必然造成该区域短时间内NDVI变化的不稳定.
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