基于MODIS TVDI和模糊数学方法的藏北地区旱情等级遥感监测

为了实现对藏北区域范围内春夏旱情的动态连续监测,基于温度植被干旱指数(TVDI)和模糊数学方法建立了遥感干旱的划分标准,研究时段为1980-2017年。首先利用MODIS产品数据计算TVDI,然后根据气象干旱等级监测结果,采用模糊数学法建立基于MODIS TVDI的干旱等级划分标准,并对监测结果进行精度验证,最后分析了近年来藏北地区旱情的时空变化特征。得到的主要结论:①基于归一化植被指数(NDVI)和增强植被指数(EVI)计算得到的温度植被干旱指数TVDIN和TVDIE,均与20 cm实测土壤水分含量在0.05的水平达到显著相关,TVDIE的决定系数更高;②基于TVDIE将旱情划分为无旱、轻旱、中旱、重旱、特旱5个等级,其中,据此标准获得的藏北地区旱情等级与气象干旱等级监测结果大体一致;③近年来藏北地区旱情整体不太严重,且总体趋缓,其中,2009年最严重,发生中旱及以上旱情的区域面积达24%,年内旱情在6月最严重。就旱情的空间分布特征而言,研究区西南部和中部干旱比较严重,北部和东南部相对较轻。研究成果可为藏北地区干旱监测提供数据支撑,遥感干旱等级的划分方法可为其他地区的干旱研究提供参考。     

基于MODIS数据的河套灌区遥感干旱监测

基于MODIS数据,以河套灌区为研究对象,计算灌区2000—2018年作物主要生育期内(5—8月)4种遥感干旱指数、温度植被干旱指数(TVDI)、植被供水指数(VSWI)、植被状态指数(VCI)、温度状态指数(TCI),并分析了4种干旱指数与0～20cm土壤相对含水量、降水量、灌区引水量相关性以及4种干旱指数之间的相互关系。结果表明:经过相关分析,TVDI与土壤相对含水量的相关性优于其他3种遥感干旱指数;在灌溉水量较多的灌区,遥感干旱指数与降雨量相关性较小而与灌区引水量呈现一定的相关关系。本研究发现TVDI在河套灌区有着良好的适用性。此外,在干旱监测中综合利用多种干旱指数进行分析对提高监测精度,科学合理地预报旱情具有重要意义。     

基于Landsat和MODIS数据融合的农牧区NPP模拟

天山北坡是中国重要的农牧业发展基地,利用遥感数据准确获取植被净初级生产力(Net primary productivity,NPP)的时空信息,对于合理分配农牧业草地资源具有重要意义。由于受到天气影响及卫星传感器受到时间分辨率和空间分辨率的限制,获取既具有中空间分辨率、又具有高时间分辨率的遥感数据比较困难。本文基于中空间分辨率Landsat 8 OLI数据与高时间分辨率MODIS数据,采用遥感数据时空融合STARFM算法,获取中空间分辨率和高时间分辨率序列的遥感数据,以天山北坡中段区域为实验区,结合CASA模型,对区域内植被NPP进行模拟。结果表明,2016年内8个时期,融合后的NDVI数据与对应时刻的Landsat 8 OLI NDVI数据的相关系数不小于0.759,偏差在0.006 2～0.009 4之间,均方根误差在0.074～0.135之间;利用融合数据与CASA模型协同模拟的NPP具有良好的空间细节信息,NPP模拟值与野外实测值决定系数R~2为0.860 1,表明两者具有较好的相关性。本研究为多源遥感影像融合技术与光能利用率模型协同模拟NPP提供了新的思路。     

Monitoring desertification processes in Mongolian Plateau using MODIS tasseled cap transformation and TGSI time series

Most remote sensing studies assess the desertification using vegetation monitoring method. But it has the insufficient precision of vegetation monitoring for the limited vegetation cover of the desertification region. Therefore, it offers an alternative approach for the desertification research to assess sand dune and sandy land change using remote sensing in the desertification region. In this study, the indices derived from the well-known tasseled cap transformation(TCT), tasseled cap angle(TCA),disturbance index(DI), process indicator(PI), and topsoil grain size index(TGSI) were integrated to monitor and assess the desertification at the thirteen study sites including sand dunes and sandy lands distributed in the Mongolian Plateau(MP) from 2000 to 2015. A decision tree was used to classify the desertification on a regional scale. The average overall accuracy of 2000, 2005, 2010 and 2015 desertification classification was higher than 90%. Results from this study indicated that integration of the advantages of TCA, DI and TGSI could better assess the desertification. During the last 16 years, Badain Jaran Desert, Tengger Desert, and Ulan Buh Desert showed a relative stabilization. Otindag Sandy Land and the deserts of Khar Nuur, Ereen Nuur, Tsagan Nuur, Khongoryn Els, Hobq, and Mu Us showed a slow increasing of desertification, whereas Bayan Gobi, Horqin and Hulun Buir sandy lands showed a slow decreasing of desertification. Compared with the other 11 sites, the fine sand dunes occupied the majority of the Tengger Desert, and the coarse sandy land occupied the majority of the Horqin Sandy Land. Our findings on a three or four years' periodical fluctuated changes in the desertification may possibly reflect changing precipitation and soil moisture in the MP. Further work to link the TCA, DI,TGSI, and PI values with the desertification characteristics is recommended to set the thresholds and improve the assessment accuracy with field investigation.     

基于Google Earth Engine平台的关中冬小麦面积时空变化监测

以关中地区为研究区,基于Google Earth Engine(GEE)平台,根据冬小麦生育期内归一化植被指数(NDVI)时序曲线和物候特征,采用NDVI重构增幅算法和光谱突变斜率,构建了关中地区冬小麦提取模型并实现了冬小麦种植面积的提取。用农业统计面积验证提取结果表明:在市级和县级尺度上,决定系数R~2分别为0.82和0.62,一致性指标d分别为0.95和0.84,提取结果与实地调查数据的空间一致性精度为93.4%。结果显示:关中地区冬小麦主要分布在中部关中平原,冬小麦种植面积在2011—2017年呈下降趋势,减少了83.22×10~3 hm~2(8.47%)。综合考虑冬小麦NDVI时序曲线的"峰""谷"特征,具有一定的普适性,可为大面积连续年份冬小麦种植面积时空监测提供参考。     

新巴尔虎右旗植被覆盖变化研究

利用ArcGIS和ENVI的栅格空间分析工具,采用叠置分析、线性趋势分析法、均值法等分析方法,选用2001~2016年每年5~9月MODIS NDVI数据和该研究区域行政区划矢量数据来研究新巴尔虎右旗16年间的植被覆盖变化,为该地区植被趋势研究和生态建设提供一定的科学依据。结果表明:2001~2016年间新巴尔虎右旗生长季NDVI值呈增长趋势,但存在空间差异性,并且在不同时间段的具体表现不同;新巴尔虎右旗植被覆盖度呈增长趋势的面积占比,远大于植被覆盖度呈减小趋势的面积占比。     

基于改进端元提纯模型的MODIS森林类型识别研究

MODIS遥感数据具有很高的光谱辐射精度,以及成本低、覆盖面积广、获取容易、周期短等数据特征,可以实现全覆盖大尺度区域森林类型信息快速提取,但由于其空间分辨率较低,遥感数据中存在混合像元。利用混合像元分解模型进行分解可得到较好的分类结果,但混合像元分解的端元组分直接影响分类的精度。利用决策树分类模型改进端元提纯,分析各地物的MODIS时间序列植被指数变化规律及物候变化规律,利用决策树模型分类的结果进行端元组分的提纯,最后进行混合像元分解。研究结果表明:分类精度最高的是线性混合像元分解,其次是最大似然分类,最差的是非线性混合像元分解,其中带约束和不带约束的线性分解模型的精度相差不大。     

基于时间序列MODIS的农作物类型空间制图方法

为快速获取大范围种植结构复杂区域的作物种植面积,以MODIS数据为数据源,选择归一化植被指数(Normalized difference vegetation index,NDVI)、增强植被指数(Enhanced vegetation index,EVI)、宽动态植被指数(Wide dynamic range vegetation index,WDRVI)、地表水分指数(Land surface water index,LSWI)、归一化雪被指数(Normalized difference snow index,NDSI)5种特征,结合同步的实地调查样本点,采用支持向量机算法(Support vector machines,SVM)提取黑龙江省主要农作物的种植面积。研究表明,在待选特征中NDVI、EVI与LSWI指数组合取得了最高的分类精度,总体分类精度为74.18%,Kappa系数为0.60;支持向量机算法与最大似然算法、随机森林算法相比,分类精度更优。该方法为在大区域中提取农作物种植面积提供了参考价值。     

基于温度植被干旱指数的曲靖市干旱监测研究

本研究利用MODIS归一化植被指数(NDVI)和地表温度(Ts)产品数据,构建Ts-NDVI特征空间,计算温度植被干旱指数(TVDI),分析评价云南曲靖市2010—2012年的干旱时空分布状况。结果表明,2010年曲靖市遭遇了非常严重的干旱灾害,受灾面积高达研究区总面积的80%以上,基于TVDI指数的旱情动态监测方法适合云南省曲靖干旱监测。本研究建立的温度植被干旱指数模型提高了干旱监测的实用性,在曲靖市干旱监测上具有很好的适应性,可以广泛应用到该地区干旱监测研究中,为曲靖的农业防灾减灾能力和可持续发展提供科学保障。     

Developing the framework for a risk map for mite vectored viruses in wheat resulting from pre-harvest hail damage

There is a strong economic incentive to reduce mite-vectored virus outbreaks. Most outbreaks in the central High Plains of the United States occur in the presence of volunteer wheat that emerges before harvest as a result of hail storms. This study provides a conceptual framework for developing a risk map for wheat diseases caused by mite-vectored viruses based on pre-harvest hail events. Traditional methods that use NDVI were found to be unsuitable due to low chlorophyll content in wheat at harvest. Site-level hyperspectral reflectance from mechanically hailed wheat showed increased canopy albedo. Therefore, any increase in NIR combined with large increases in red reflectance near harvest can be used to assign some level of risk. The regional model presented in this study utilized Landsat TM/ETM+ data and MODIS imagery to help gap-fill missing data. NOAA hail maps that estimate hail size were used to refine the area most likely at risk. The date range for each year was shifted to account for annual variations in crop phenology based on USDA Agriculture statistics for percent harvest of wheat. Between 2003 and 2013, there was a moderate trend (R² = 0.72) between the county-level insurance claims for Cheyenne County, Nebraska and the area determined to be at risk by the model (excluding the NOAA hail size product due to limited availability) when years with low hail claims (<400 ha) were excluded. These results demonstrate the potential of an operational risk map for mite-vectored viruses due to pre-season hail events.