基于温度植被干旱指数的电网输电线路走廊干旱分析

以湖北省输电线路走廊地区作为研究区,利用2013年1~9月MODIS卫星影像数据,处理得到月尺度的归一化植被指数(Normalized Differential Vegetation Index,NDVI)与地表温度(Land Surface Temperature,LST)数据,构建NDVI-Ts特征空间,计算得到温度植被干旱指数(Temperature Vegetation Dryness Index,TVDI),用TVDI监测结果分析湖北省输电线路走廊区域2013年干旱时空分布情况。结果表明,湖北省输电线路走廊地区TVDI和土壤含水量之间存在显著的负相关,相关系数达到0.525(p0.05),由MODIS卫星影像计算得到TVDI影像可以有效表明湖北省输电线路走廊地区的土壤含水情况。     

基于温度植被干旱指数的河南省旱情演化分析

2014年河南省遭遇自1951年来最严重干旱。针对这一现象,在对目前的干旱监测类型进行简要对比分析的基础上,着重阐述了温度植被干旱指数(TVDI)的基本原理;结合MODIS数据,通过数据处理提取地表温度(LST)和归一化植被指数(NDVI),从而建立NDVI-Ts特征空间。根据干边和湿边的散点图,对特征空间中最低温度和最高温度进行线性拟合,计算出TVDI,最后以TVDI为分级指标进行干旱等级划分,对河南省2014年7月下旬到9月上旬的旱情演化趋势进行分析。     

基于遥感技术的运城盆地干旱监测应用研究

选取TVDI作为对运城地区三个县进行干旱监测的模型,然后重点对其中涉及的地表温度(Ts)和植被指数(NDVI)等参数做详细描述,最后,经过与实测墒情的对比,证明此方法是完全可行的,得出的实际旱情等级分布图可用于农业生产中.     

微波植被指数在干旱监测中的应用

在植被覆盖区域,归一化植被指数(NDVI)被广泛地应用于干旱遥感监测。和基于光学遥感的植被指数相比,Shi等提出的微波植被指数MVI(Microwave Vegetation Index)被证实能够反映更多的植被生长信息。本文以MVI为基础,利用MVI代替目前比较成熟的温度植被指数TVDI(Temperature Vegetation Index)中的NDVI,构建温度微波植被干旱指数TMVDI(Temperature Microwave Vegetation Index),发展了一种新的干旱监测方法。本文以2006年夏季四川省发生的百年难遇的干旱为研究对象,将基于TMVDI与TVDI的干旱监测结果进行了对比分析。最后,为评估监测结果的准确性,将遥感监测的结果与基于气象站点降雨观测数据构建的标准降雨指数SPI(Standardized Precipitation Index)的计算结果进行了对比分析。结果表明,利用低频降轨微波辐射计数据计算的T MVDI最适合于进行植被覆盖区域的干旱监测。     

土壤湿度信息遥感研究

土壤湿度是农业生产与应用过程中非常重要的因素,决定农作物的水分供应状况.本文利用MODIS产品数据获取的归一化植被指数(NDVI)和陆面地表温度(Ts)构建Ts-NDVI特征空间,根据温度植被干旱指数(TVDI)的研究原理与方法,对研究区2010年5～8月份土壤湿度分布情况进行遥感监测.结合气象数据与土壤墒情资料对局部...     

基于TVDI的湖南省干旱监测分析

利用归一化植被指数(NDVI)与地表温度(LST)构建温度植被干旱指数(TVDI)。结合湖南省地形特征对TVDI拟合结果进行高程订正,能较好地反映旱情演变规律。将处理结果划分为5个等级,湖南省存在不同程度的干旱问题,直到8月份旱情开始有缓解趋势,但干旱问题一直存在。通过插值得到的同一时期标准化降水指数对结果进行验证发现,该模型具有一定的可靠性,对于湖南省干旱监测和趋势演变具有较好的指示作用,可为湖南省旱情的预警监测提供参考。     

基于MODIS数据的河南省干旱程度反演研究

干旱是一种普遍发生的灾害现象,其严重影响作物、水源等人类赖以生存的资源,本文以中国重要粮产区河南省为例,采用河南省2010年至2012年6-8月的MOD11A2和MOD13A2数据,分别提取出该省的地表温度数据和植被指数数据,构建LST-EVI特征空间,并求解干湿边拟合方程,基于干湿边拟合方程计算温度植被干旱指数TVDI,对TVDI进行重分类,得出河南省的干旱程度及其空间分布及变化情况.     

不同植被指数在基于TVDI方法反演土壤水分中的应用

研究增强型植被指数基于Landsat-8数据反演土壤水分的可行性及适用性,分析研究区土壤水分总体分布,提高该地区应对干旱灾害的能力。基于温度植被干旱指数方法,以淮河流域上游地区作为研究区,基于2017年2月的Landsat-8影像,分别计算了地表温度、归一化植被指数、增强型植被指数,基于TVDI构建了两种土壤水分反演模型。研究比较了:1) EVI在TM数据中的应用特点;2)研究区土壤含水率的空间分布特征;3)两种模型反演结果的差异。结果表明:1)基于TM数据计算的EVI总体明显低于NDVI,但不同时间段的结果并不总是低于NDVI;2)基于EVI的模型结果精度低于基于NDVI模型结果。3)两种模型结果与植被覆盖度、地表温度的关系均为负相关,其中,基于EVI的模型结果与地表温度的负相关程度极高,即基于EVI的模型结果受植被影响较小,受温度影响程度高。     

遥感干旱指数在金沙江流域干旱监测中的适用性研究

利用2015—2020年金沙江流域MODIS数据和流域内29个气象站1991—2020年月降水、气温资料,研究不同遥感干旱指数在金沙江流域的适用性,这些指数包括温度状态指数(temperature condition index, TCI)、温度植被干旱指数(temperature vegetation dryness index, TVDI)、植被状态指数(vegetation condition index, VCI)、植被供水指数(vegetation supply water index, VSWI)和标准化降水蒸散指数(standardized precipitation evapotranspiration index, SPEI)。结果表明：TCI与TVDI、VSWI与TCI、VSWI与TVDI、VSWI与VCI各月的相关性均较为显著。TVDI与SPEI和TCI与SPEI全年相关性较好。SPEI与VSWI相关性在1月、10月较低,其余月份均相关性较好。SPEI与VCI在1—3月相关性较低,其余月份均相关性较好。根据4种遥感干旱指数与SPEI的相关性分析,建议金沙江上游地区...     

基于多种植被指数TVDI京津冀地区干旱监测

以京津冀为研究区,基于MODIS数据产品获取NDVI、EVI、MSAVI及LST,利用DEM对LST进行修正,建立不同植被指数的Ⅵ-Ts特征空间,选取干湿边拟合效果好的植被指数建立TVDI,获取研究区2018年植被生长季(4—10月)干旱情况,利用同步气象站点降水数据进行相关性分析,使用同期气象公报进行结果验证。结果表明：1)利用MSAVI构建的特征空间总体拟合效果优于其他两种植被;TVDI_M与同期气象站点降水数据呈显著负相关,均通过P<0.05显著检验。2)空间上,旱情主要发生在张家口和东南平原地区;时间上,旱情表现为先加剧后缓解。综上,TVDI_M模型可靠性及精度较高,可用于京津冀地区干旱监测预警。     

阜新地区干旱监测研究

选定温度植被干旱指数法建立阜新地区干旱监测模型。通过参数的确定,得到温度植被干旱指数,再通过阜新地区的气象站点地面实测土壤含水量数据,建立温度植被干旱指数-土壤含水量（ TVDI-SWC ）经验模型。通过回归分析以及2007年预测分析的实验数据表明, TVDI-SWC模型适用于阜新地区早春的干旱监测,可以使用该方法来实现对阜新地区的整体旱情状况快速,准确的评估。     

Integrating temperature vegetation dryness index (TVDI) and regional water stress index (RWSI) for drought assessment with the aid of LANDSAT TM/ETM+ images

This paper presents a new drought assessment method by spatially and temporally integrating temperature vegetation dryness index (TVDI) with regional water stress index (RWSI) based on a synergistic approach. With the aid of LANDSAT TM/ETM data, we were able to retrieve the land-use and land-cover (LULC), vegetation indices (VIs), and land surface temperature (LST), leading to the derivation of three types of modified TVDI, including TVDI_SAVI, TVDI_ANDVI and TVDI_MSAVI, for drought assessment in a fast growing coastal area, Northern China. The categorical classification of four drought impact levels associated with the RWSI values enables us to refine the spatiotemporal relationship between the LST and the VIs. Holistic drought impact assessment between 1987 and 2000 was carried out by linking RWSI with TVDIs group wise. Research findings indicate that: (1) LST and VIs were negatively correlated in most cases of low, medium, and high vegetation cover except the case of high density vegetation cover in 2000 due to the effect of urban heat island (UHI) effect; (2) the shortage of water in 1987 was more salient than that that in 2000 based on all indices of TVDI and RWSI; and (3) TVDIs are more suitable for monitoring mild drought, normal and wet conditions when RWSI is smaller than 0.752; but they are not suitable for monitoring moderate and severe drought conditions.     

基于温度供水干旱指数的京津冀春旱监测及时空分布分析

为提高农业干旱监测效果和精度,在对传统干旱监测模型对比分析基础上,本文提出将温度植被干旱指数(TVDI)和植被供水指数(VSWI)加权联合构建温度供水干旱指数(TSWDI)的研究思路。以京津冀2006—2012年5月份数据作为实验统计数据,以京津冀2006—2016年3—5月份春旱监测为例进行了模型实验。实验结果证实,TSWDI指数相对其他两个指数与10、20和50 cm深处的土壤水分相关性更高,能够更精准地反映农业干旱状况。TSWDI计算结果显示,京津冀干旱分布具有如下特征:从时间角度看,2006—2016年整体干旱状况逐渐缓解,特别是自2010年至今,研究区域干旱程度逐步减轻;从空间角度看,京津冀区域整体干旱面积逐步减少。     

Multitemporal Landsat-MODIS fusion for cropland drought monitoring in El Salvador

Abstract

This study aims to develop an approach to characterize cropland drought conditions in El Salvador, Central America. The data were processed for 2016–2017 through three main steps: (1) reconstructing MODIS land-surface temperature (LST), (2) Landsat-MODIS data fusion and (3) drought delineation using the temperature vegetation dryness index (TVDI). The results of LST reconstruction using the random forests (RF) indicated the median RMSE value of 0.5?°C. The fusion results achieved from the STARFM compared with the reference Landsat data revealed close agreement with the correlation coefficient (r) values higher than 0.84. The TVDI results verified with that from the reference Landsat data indicated r values of 0.85 and 0.75 for 2016 and 2017, respectively. The larger very dry area was observed for the 2016 primera season due to prolonged droughts. Approximately 11.5% and 10.7% of croplands were, respectively, associated with very dry moisture condition in the 2016 and 2017 primera seasons.     

新疆焉耆盆地土壤湿度时空分布特征

本文以新疆焉耆盆地为研究区,首先利用实测数据和Landsat 8 OLI遥感数据获取土壤调查植被指数（MSAVI）和地表温度（Ts）,构建Ts-MSAVI特征空间,拟合特征空间的干湿方程;然后利用该特征空间计算温度植被干旱指数（TVDIm）,反演9-11月的土壤湿度,探讨土壤湿度时空分布特征。试验结果表明：①遥感影像反演的TVDI与实地考察的土壤湿度显著相关（a=0.05）;不同土层中,TVDIm与10~20 cm土层湿度相关性最高（R=0.588）;②焉耆盆地湿度总体以半干旱为主（0.60.8）;土壤湿度空间分布上,焉耆盆地南侧为干旱区,西部和北部地区偏干旱,中部为湿润区域,对于该地区滨湖湿地和博斯腾湖附近小湖土壤湿度最高,博斯腾湖南部的沙地区土壤湿度最低,Ts与土壤湿度呈负相关;③10月湿地的TVDIm值最低,9月沙地的TVDIm值最高。TVDI模型应用于焉耆盆地取得较好的结果,可用于正确地估算土壤湿度,研究结果可为焉耆盆地生态环境和水资源提供重要的参数。     

Comparison of three remotely sensed drought indices for assessing the impact of drought on winter wheat yield

ABSTRACT

Agricultural drought threatens food security. Numerous remote-sensing drought indices have been developed, but their different principles, assumptions and physical quantities make it necessary to compare their suitability for drought monitoring over large areas. Here, we analyzed the performance of three typical remote sensing-based drought indices for monitoring agricultural drought in two major agricultural production regions in Shaanxi and Henan provinces, northern China (predominantly rain-fed and irrigated agriculture, respectively): vegetation health index (VHI), temperature vegetation dryness index (TVDI) and drought severity index (DSI). We compared the agreement between these indices and the standardized precipitation index (SPI), soil moisture, winter wheat yield and National Meteorological Drought Monitoring (NMDM) maps. On average, DSI outperformed the other indices, with stronger correlations with SPI and soil moisture. DSI also corresponded better with soil moisture and NMDM maps. The jointing and grain-filling stages of winter wheat are more sensitive to water stress, indicating that winter wheat required more water during these stages. Moreover, the correlations between the drought indices and SPI, soil moisture, and winter wheat yield were generally stronger in Shaanxi province than in Henan province, suggesting that remote-sensing drought indices provide more accurate predictions of the impacts of drought in predominantly rain-fed agricultural areas.     

Relationship between oriental migratory locust plague and soil moisture extracted from MODIS data

Locust plagues have been the source of some of the most severe natural disasters in human history. Soil moisture content is among the most important of the numerous factors influencing plague onset and severity. This paper describes a study initiated in three pilot locust plague monitoring regions, i.e., Huangzao, Yangguanzhuang, and Tengnan in Huanghua county, Hebei province, China, to examine the impact of soil moisture status on oriental migratory locust [Locusta migratoria manilensis (L.) Meyen] plague breakout as related to the life cycle, oviposition in autumn, survival in winter, and incubation in summer. Thirty-nine temperature vegetation dryness index (TVDI) data sets, which represent soil moisture content, were extracted from MODIS remote sensing images for two representative time periods: a severe locust plague breakout year (2001–2002) and a slight plague year (2003–2004). TVDI values demonstrated distinctive soil moisture status differences between the 2 years concerned. Soil moisture conditions in the severe plague year were shown to be lower than those in slight plague year. In all three pilot regions, average TVDI value in the severe plague year was 0.07 higher than that in slight plague year, and monthly TVDI values in locust oviposition period (September and October) and incubation period (March, April and May) were higher than their corresponding monthly figures in slight plague year. No remarkable TVDI differences were found in other months during the locust life cycle between the 2 years. TVDI values for September and October (2001), March, April and May (2002) were 0.11, 0.08, 0.16, 0.11 and 0.16 higher than their corresponding monthly figures in 2003–2004 period, respectively.