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1.
Application of meteorological and vegetation indices for evaluation of drought impact: a case study for Rajasthan, India 总被引:3,自引:1,他引:2
Drought is a serious climatic condition that affects nearly all climatic zones worldwide, with semi-arid regions being especially
susceptible to drought conditions because of their low annual precipitation and sensitivity to climate changes. Drought indices
such as the standardized precipitation index (SPI) using meteorological data and vegetation indices from satellite data were
developed for quantifying drought conditions. Remote sensing of semi-arid vegetation can provide vegetation indices which
can be used to link drought conditions when correlated with various meteorological data based drought indices. The present
study was carried out for drought monitoring for three districts namely Bhilwara, Kota and Udaipur of Rajasthan state in India
using SPI, normalized difference vegetation index (NDVI), water supply vegetation index (WSVI) and vegetation condition index
(VCI) derived from the Advanced Very High resolution Radiometer (AVHRR). The SPI was computed at different time scales of
1, 2, 3, 6, 9 and 12 months using monthly rainfall data. The NDVI and WSVI were correlated to the SPI and it was observed
that for the three stations, the correlation coefficient was high for different time scales. Bhilwara district having the
best correlation for the 9-month time scale shows late response while Kota district having the best correlation for 1-month
shows fast response. On the basis of the SPI analysis, it was found that the area was worst affected by drought in the year
2002. This was validated on the basis of NDVI, WSVI and VCI. The study clearly shows that integrated analysis of ground measured
data and satellite data has a great potential in drought monitoring. 相似文献
2.
藏西北地区生态环境脆弱,由于地形复杂、气候独特,该区的观测资料非常缺乏。利用遥感技术开展藏西北地区的干旱监测,能获取在空间上连续变化的地表干旱情况,对于指导该区农牧业生产具有重要的意义。基于FY-3A/VIRR的一级数据和标准旬产品(地表温度、植被指数),采用温度植被干旱指数(TVDI)进行藏西北地区的干旱监测研究,并将监测结果分别与基于EOS/MODIS数据监测的结果、同期的野外实测土壤水分数据以及气象站点的降水量数据进行了对比分析。结果表明:利用FY-3A/VIRR数据的TVDI遥感监测结果与实测土壤水分、气象站累计降水量数据均呈显著的负相关关系,通过了0.01水平的显著性检验;利用FY-3A/VIRR数据与EOS/MODIS数据估算的TVDI干旱等级空间分布特征基本一致,FY-3A/VIRR数据可以代替EOS/MODIS数据在藏西北地区开展干旱遥感监测,可为指导藏西北地区农牧业生产提供数据支持。 相似文献
3.
Remote sensing is a cost-effective tool for assessing vegetation damage by typhoon events at various scales. Taking Xiamen Island, southeastern China, as a study case, this paper aimed to assess and analyze the vegetation damage caused by Typhoon Meranti landfalling on September 15, 2016, using two high spatial resolution remote sensing images before and after the typhoon event. Seven severely damaged vegetation regions were selected based on the classification of vegetation types and visual interpretation of the images. Regression analysis was used to correct seasonal variation of the two high-solution images before and after typhoon. The vegetation area of the whole of Xiamen Island and the selected seven regions before and after typhoon were then calculated, respectively. Two spectral vegetation indicators, normalized difference vegetation index (NDVI) and fractional vegetation coverage (FVC), were also retrieved for the whole island and the seven regions. By comparing the difference in NDVI values before and after the typhoon of the two high spatial resolution images, we analyzed the most affected vegetation areas, as well as the most seriously damaged vegetation species. The typhoon has caused a decrease in vegetation area by 95.1 ha across the whole Xiamen Island. The mean NDVI and FVC decreased by 0.209 and 13 percentage points, respectively. While, in the seven selected severely damaged areas, the mean NDVI decreased by 0.356–0.444 and FVC decreased by 27–42 percentage points. The visual inspection showed that the tone of typhoon-damaged vegetation became darker, the patches of damaged vegetation became smaller and more fragmented, and the gap between vegetation canopies became larger. The most affected vegetation areas occurred in the southeastern hilly area, Jinshang and Hubin South Roads, as well as the Wuyuan Bay area. The most seriously damaged vegetation type is broad-leaved trees, especially the species, Acacia confusa, Delonix regia, Bauhinia variegata, Chorisia speciosa, Ficus benjamina and F. Concinna. 相似文献
4.
山东半岛2000~2014年蒸散发时空分异特征 总被引:1,自引:0,他引:1
蒸散发的时空格局分析对于合理利用水资源、水资源短缺问题的解决以及旱涝灾害预警和监测具有重要意义。基于山东半岛区域气象资料、MOD16遥感影像数据集及GIS背景信息,分析了山东半岛20002014年地表蒸散量的时空变化特征及趋势,并在年时间尺度上通过基于像元的相关分析法分析了蒸散量与降水和气温的相关性。研究结果表明:在研究时段内平均蒸散量年际波动较大,波动范围为397.9479.8mm,多年蒸散平均值为440.78mm;其中2003年和2008年蒸散量最大,分别超出平均值77.3mm和81.9mm。除水体、滨海湿地外,ET年平均值有明显的由东南向西北递减的特征,降水量和地表植被覆盖度的差异是其空间变异的主要因素。蒸散量与气象因素的相关分析表明,年平均降水量与蒸散量变化呈现明显的正相关关系(0.663),温度与蒸散量呈显著负相关关系(-0.143),NDVI与蒸散量相关性较弱(0.33)。 相似文献
5.
The relationship between drought activity and vegetation cover in Northwest China from 1982 to 2013 总被引:1,自引:0,他引:1
Yelin Jiang Ranghui Wang Qing Peng Xiaoquan Wu Husen Ning Cheng Li 《Natural Hazards》2018,92(1):145-163
We investigated drought activity and the relationship between drought and vegetation in Northwest China over the period 1982–2013 using the standardized precipitation evapotranspiration index (SPEI) and the normalized difference vegetation index (NDVI). The indexes were, respectively, calculated from ground-based meteorological data and from remotely sensed satellite data. The spatial and temporal distributions of drought (SPEI) and of vegetation cover (NDVI) were compared using annual trends, and the relationships between these trends were analyzed. The results are: (1) Overall, Northwest China had a drought trend during the study period, although some a few regions show a significant wetness trend; (2) the mean annual NDVI fluctuates, but overall shows an increasing trend, particularly in some mountainous areas that have at least adequate water and vegetation cover, while unused land becomes degraded; (3) most regions show a positive correlation between SPEI and NDVI, although the western parts of the Tarim basin, Qaidam basin, and some regions in the southeastern part of study area show a negative correlation; and (4) the various regions respond differently to global climate change, but in general regions with more vegetation cover show increased vegetation growth, while regions with less vegetation cover are becoming degraded and thus more vulnerable to the adverse effects of climate change. 相似文献
6.
植被状况指数的改进及在西北干旱监测中的应用 总被引:8,自引:0,他引:8
干旱是全球分布最广、发生频率最高、持续时间最长、影响范围最大、造成的经济损失最为严重的一种自然灾害,干旱也是所有自然灾害中影响因子最为复杂、人类了解最少、监测最为困难的一种自然灾害,干旱监测是世界性的难题。干旱可以发生在任何气候带上,但干旱、半干旱地区是全球干旱灾害发生最频繁的地区。干旱发生特征和规律因地区的不同会有很大的差异,不同地区对干旱监测方法不同。目前,世界各国干旱监测主要利用基于气象、水文、农业和卫星遥感等观测资料建立的各种干旱指数开展,已经有150多种干旱指数。植被状况指数VCI是应用最为广泛的一种卫星监测干旱的指数,研究和业务应用结果表明,VCI对全球各地的干旱均有较好的反映,已经应用在美国国家大气海洋局(NOAA)日常干旱监测业务中,中国国家卫星气象中心干旱卫星遥感监测服务产品也是以VCI为基础。
我国干旱半干旱地区主要分布在新疆、甘肃、青海、陕西、宁夏以及内蒙古自治区的中西部,这里降水少且不稳定,降水变率大,是中国干旱发生频率最高的地区。干旱严重制约着当地经济发展和人类生活质量的提高,使本身非常脆弱的生态环境趋于恶化。为了了解条件植被指数VCI对西北地区不同气候区干旱的监测能力,以上述6省(区)为研究区,利用1982—2003年22年NDVI数据,计算了研究区域22年来逐月的VCI,对比分析了不同气候区VCI与降水距平的关系。结果表明,VCI在空间和时间上较好地反映了西北大部分气候干旱发生、发展和空间分布,是干旱监测的较好指标,但在干旱和极端干旱地区,VCI经常出现异常偏高现象,不能反映干旱气候区常年干旱的基本特点。通过对西北不同生态系统之间NDVI特点和各生态系统间NDVI年变化及其年际变化规律的研究,设计了VCI改进方案,提出了改进的条件植被指数RVCI。通过对22年来逐月RVCI与VCI的对比,RVCI客观地反映了干旱气候区常年干旱特点,较VCI有显著改进。
相似文献
7.
MushtakTalibJabbar 《中国地质大学学报(英文版)》2002,13(1):58-66,94
In this study,the remote sensing is applied to the examination of the relationship between desertification and normalized difference vegetation index(NDVI) in the context of northern Shaanxi Province.This relationship is also examined using spatial analysis methods.A strong negative correlation is found in the largest area desert,indicating that the relationship between desert and NDVI is not a sim-ple linear one and that the correlation coefficient between NDVI and vegetation abundance is significant.The normalized difference vegetation index(NDVI) was compared with other vegetation index-based methodologies.NDVI is a valuable first-cut indicator for such systems, although the analysis and inter-pretation of its relationship to desertification are complex and also based on the detailed analysis of its re-lationship to ecological zone,vegetation type and season.Conclusions thus made would help to upgrade the methodology as an effective tool for early-warning desertification in the northern Shaanxi Province where a drought is a recurring threat.This methodology includes the integration of NDVI with other socio-economic and bio-physical indicators in GIS ,the complementation of desert area data with satellite data,and the analysis of the relationship between NDVI and specific climatic zones,for each season and vegetation type. 相似文献
8.
基于植被指数和土地表面温度的干旱监测模型 总被引:79,自引:4,他引:79
干旱是一种周期性发生的自然现象,其发生过程中有关参数如地表覆盖度、温度和土壤表层含水量等可以通过遥感的途径进行定量反演,而这些参数客观地反映了地表的综合特征。综述了运用遥感反演产品---土地表面温度和归一化植被指数在干旱监测中的应用前景和进展,分析了距平植被指数、条件植被指数、条件温度指数和归一化温度指数等干旱监测方法的优缺点,在前人研究的基础上,提出了条件植被温度指数的干旱监测模型,探讨了其应用前景。 相似文献
9.
周智勇 《水文地质工程地质》2020,47(6):81-90
基于Google Earth Engine遥感云平台收集1987—2016年Landsat系列遥感卫星影像,采用像元二分模型对承德市围场满族蒙古族自治县植被覆盖度进行估算,结合气象数据和地形信息,分析近30年来研究区植被覆盖动态变化规律。结果表明:围场县1987—2016年的归一化植被指数(NDVI)值总体上呈上升趋势,全县NDVI平均值从0.63提高到了0.78,植被覆盖状况不断改善。研究区植被改善情况中,1987—2016年NDVI大于0.15的面积比例占到全县植被面积的49.28%,占比最大。1987—2016年NDVI小于等于-0.15的植被面积比例仅为0.82%。1987—2016年,各级植被覆盖度的转移矩阵体现出2016年的植被状况明显好于1987年,极高覆盖度植被转入面积高达7 991.84 km2。1987—2016年植被覆盖景观破碎程度不断降低,平均斑块面积指数从13.147 8扩大到31.703 4,植被覆盖类型趋于集中分布,连通性好。研究区总体气候变化趋势对植被生长具有不利影响,不同坡度和坡向的植被覆盖状况不同,人类活动和社会经济因素的影响为研究区植被改善情况发挥着重要作用。 相似文献
10.
As drought occurs in different climates, assessment of drought impacts on parameters such as vegetation cover is of utmost importance. Satellite remote sensing images with various spectral and spatial resolutions represent information about different land covers such as vegetation cover. Hence, the purpose of this study was to investigate the performance of satellite vegetation indices to monitor the agricultural drought on a local scale. In this regard, satellite images including Moderate Resolution Imaging Spectroradiometer (MODIS) and Advanced Very High Resolution Radiometer (AVHRR) data were used to evaluate vegetation cover and their gradual changes effects on agricultural drought. Fars province in Iran with relatively low precipitation values was selected as the study area. Modified Perpendicular Drought Index (MPDI), MPDI1, Vegetation Condition Index (VCI), Normalized Difference Vegetation Index Anomalies (NDVIA), and Standardized Vegetation Index (SVI), were evaluated to select the remote sensing based index with the best performance in drought monitoring. The performance of such indices were investigated during 13 years (2000–2013) for MODIS and 29 years (1985–2013) for AVHRR. To assess the efficiency of the satellite indices in drought investigation, Standardized Precipitation Index (SPI) data of five selected stations were used for 3, 6, and 9 month periods on August. The results showed that NDVI-based vegetation indices had the highest correlation with SPI in cold climate and long-term timescale (6 and 9 month). The highest correlation values between remote sensing based indices and SPI were acquired, respectively, in 9-month and 6-month time-scales, with the values of 43.5% and 40%. Moreover, VCI showed the highest capability for agricultural drought investigating in different climate regions of the study area. Overall, the results proved that NDVI-based indices can be used for drought monitoring and assessment in a long-term timescale on a local time-scale.
相似文献11.
12.
利用1982-2015年高时空分辨率地面气象再分析数据,识别以降水和大气饱和水气压差(VPD)为指标的极端干旱(Dry-VPD和Dry-PRE)和极端湿润(Wet-VPD和Wet-PRE)事件,分析其年际变化趋势;结合归一化植被指数(NDVI),探讨植被与不同极端事件发生频数的相关关系与差异。结果表明:除Wet-VPD外,Dry-VPD、Wet-PRE和Dry-PRE总体呈上升趋势,特别是1998年以后Dry-VPD在长江上、下游流域显著增加;长江流域植被对极端干旱事件的敏感性(以负相关为主)高于极端湿润事件,且长江上游植被对Dry-VPD敏感,而中下游植被对Dry-PRE敏感。综上,长江流域极端干旱事件日趋严重,相较于降水干旱限制植被生长的传统认识,本研究指出在长江上游地区大气干旱对植被的负效应更加明显。 相似文献
13.
NDVI dynamic changes and their relationship with meteorological factors and soil moisture 总被引:1,自引:0,他引:1
Hongxue Zhang Jianxia Chang Lianpeng Zhang Yimin Wang Yunyun Li Xiaoyu Wang 《Environmental Earth Sciences》2018,77(16):582
Normalized difference vegetation index (NDVI) is an important indicator for measuring vegetation coverage, which is of great significance for evaluating vegetation dynamics and vegetation restoration. It can clearly analyze the suitable growth condition of vegetation by studying the relationship between meteorological factors, soil moisture and NDVI. Based on MODIS/NDVI data, the spatio-temporal characteristics of vegetation coverage in the Weihe River Basin (WRB) were analyzed by the trend analysis method. The relationship of NDVI with meteorological factors and NDVI with soil moisture simulated by the soil and water assessment tool (SWAT) model was analyzed in this paper. The results show that NDVI values gradually change with an increase from north to south in the WRB. The maximum of the average monthly NDVI is 0.702 (August) and the minimum is 0.288 in February from 2000 to 2015. The results of the seven grades of NDVI trend line slope indicate that the improvement area of vegetation coverage accounts for 30.93% of the total basin, and the degradation area and basically unchanged area account for 23% and 42.9%, respectively. The annual mean soil moisture is 19.37% in the WRB. There was a strong correlation between NDVI and precipitation, temperature, evaporation and soil moisture, and the correlation coefficients were 0.78, 0.89, 0.71 and 0.65, respectively. The ranges of the most suitable growth conditions for vegetation are 80–145 mm (precipitation), 13–23 °C (temperature), 94–144 mm (evaporation) and 25–33% (soil moisture), respectively. 相似文献
14.
Deng-Hua Yan Dong-Mei Han Gang Wang Yong Yuan Yong Hu Hong-yang Fang 《Natural Hazards》2014,73(2):849-858
Based on the daily precipitation data of 38 weather stations in the Huai River Basin from 1961 to 2010, this study used SPI index, P-III curve to determine the flood/drought years, under what situations for droughts and floods easily happen, and to analyze the evolution law of flood and drought during inter-annual and intra-annual based on the characteristic of monthly precipitation. The results showed that: (1) annual rainfall of the Huai River Basin presented decreasing trend, maximum rainfall appeared from June to August, and multi-year average precipitation increased gradually from north to south; (2) the variation of monthly precipitation during flood years was more severe than other typical years, and precipitation in drought years showed nearly 50 % decline compared with normal years; (3) high rainfall of flood years was mainly caused by the increase in rainfall in flood season, and the strategy of flood control and drought relief was “short-term flood prevention and long-term drought relief”; (4) while precipitation of most months in drought year was reduced, the relevant strategies “annual basin-wide of long-term drought prevention” should be carried out; (5) combination events of floods and droughts occurred frequently. Persistent drought dominated in spring and summer while droughts and floods that happened alternately were mainly in summer and autumn. 相似文献
15.
基于计算机模拟的植物返青期遥感监测方法比较研究 总被引:10,自引:0,他引:10
植物返青期变化与气象和气候因素密切相关,已成为研究全球变化对陆地生态系统影响和反馈机理的一个重要参数。利用遥感手段及时准确地监测区域及全球尺度植物返青期变化,是当前地学、生态学研究的一个前沿课题。但是目前国内外对植物返青期遥感监测方法缺乏有效比较,还没有形成统一认识。因此,在综述植物返青期传统测量方法和遥感监测方法最新研究进展的基础上,利用计算机模拟手段,对目前常用的4种遥感监测方法(滑动平均方法、NDVI比率阈值方法、最大变化斜率方法及Logistic函数拟合方法)进行了比较研究。模拟结果表明:4种方法的返青期计算值最大相差20天,突出反映了它们在构建原理方面的差别,即滑动平均方法将NDVI突增点对应的时期作为植物返青期;NDVI比率阈值方法将最大上升斜率点对应的时期作为植物返青期;最大变化斜率方法将NDVI数据斜率角变化最大的点对应的时期作为植物返青期;Logistic函数拟合方法则将拟合曲线上曲率变化最大的点对应的时期作为植物返青期;同时,4种方法所得返青期均满足一个共同的特点,即返青期之后NDVI曲线应保持最大持续增长。该研究也表明计算机模拟技术在帮助认识和理解植物返青期遥感监测方法中的巨大潜力。 相似文献
16.
内蒙古东部草原区某露天煤矿在长期疏排水条件下造成地下水位持续下降,为研究矿区周边植被生长是否受地下水位下降的影响,采用归一化植被指数法(NDVI)分析了研究区2013—2019年植被盖度变化趋势,选择气温、降水量和地下水位埋深3个气象水文要素,基于联合熵理论计算NDVI与不同要素之间的互信息,得出植被生长的主要影响因素。研究结果表明:研究区植被盖度呈逐年好转趋势,植被指数由2013年的0.10逐渐增加至2019年的0.33,年均增长约为0.03;植被生长与当地气温和降水量关系密切,与地下水位埋深相关性弱;研究区气候变暖和稳定的降水量造成植被返青期提前和生长期延长;在矿区目前疏排水强度下引起的地下水位下降不会造成周边草原植被干枯死亡。研究成果丰富了内蒙古东部草原区植被生长与地下水关系的研究内容,为类似分析评价工作提供技术支撑。 相似文献
17.
使用1982-2006年GIMMS AVHRR NDVI数据集与同期的CI、K、Pa、SPI、Z、PDSI等干旱指数做了对比分析, 讨论了河南省植被状态指数VCI对气象干旱的滞后效应及干旱监测能力. 结果表明: VCI指数与气象干旱指数的相关性受不同下垫面的影响较大, 农地的VCI与气象干旱指数相关性要明显高于林地, 农地VCI与气象干旱指数呈现正相关关系. 在河南省不同的作物生长阶段, VCI对气象干旱有着不同的滞后效应, 其中, 3-5月份冬小麦生长期VCI对气象条件的反应滞后1~3个月, 7、9月份夏玉米生长期VCI对气象条件的反应滞后1月. 总体上看, 结合前期的气象数据, VCI对河南省气象干旱有一定的指示作用和监测能力. 相似文献
18.
Sajad Zareie Kazem Rangzan Hassan Khosravi Vladimir Modestovich Sherbakov 《Arabian Journal of Geosciences》2018,11(14):391
Remote sensing data can be used as the basis for meteorological data. Due to the limitations of meteorological stations on the Earth, derivation of land surface temperature is one of the most important aspects of the remote sensing application in climatology studies. In the present study, Landsat-8 thermal infrared sensor data of the scene located over Khuzestan province with row/path of 165/38 were used to derive land surface temperature (LST). Normalized difference vegetation index (NDVI), fraction of vegetation cover, satellite brightness temperature, and land surface emissivity were calculated as the vital criteria to derive LSTs using the split window algorithms. LST determination was performed by nine different split window algorithms. Eventually, LST products were evaluated using ground-based measurements at the meteorological stations of the study area. The results showed that algorithm of Coll and Casselles had a highest accuracy with RMSE 1.97 °C, and Vidal’s method presented the lowest accuracy to derive LST with RMSE 4.11 °C. According to the results, regions with high density of vegetation and water resources have lowest diurnal temperature and regions with bare soils and low density of vegetation have a highest diurnal temperature. Results of the study indicated that LST algorithm accuracy is an important factor in the environmental and climate change studies. 相似文献
19.
X. M. Jin R. H. Guo Q. Zhang Y. X. Zhou D. R. Zhang Z. Yang 《Environmental Earth Sciences》2014,71(11):4889-4898
The spatial distribution of vegetation pattern and vegetation cover fraction (VCF) was quantified with remote sensing data in the Hailiutu River basin, a semiarid area in North China. The moderate resolution imaging spectroradiometer normalized different vegetation index (NDVI) values for 4 years from 2008 to 2011 and field observation data were used to assess the impact of climate factors, landform and depth to water table on vegetation distribution at large scale. In the VCF map, 74 % of the study area is covered with low and low–medium density vegetation, 24 % of the catchment is occupied by medium–high and high-density vegetation, and 2 % of area is bare soil. The relationship between NDVI and climate factors indicated that NDVI is correlated with relative humidity and precipitation. In the river catchment, NDVI increases gradually from landform of sand dune, eolian sand soil to river valley; 92.4 % of low NDVI from 0.15 to 0.3 is mostly distributed in sand dunes and the vegetation type is shrubs. Crops, shrubs and some dry willows dominate in eolian sand soil and 82.5 % of the NDVI varies between 0.2 and 0.35. In the river valley, 70.4 % of NDVI ranges between 0.25 and 0.4, and grass, dry willow and some crops are the main plants. Shrubs development of Korshinsk peashrub and Salix psammophila are dependent on groundwater by analyzing NDVI response to groundwater depth. However, NDVI of Artemisia desertorum had little sensitivity to groundwater. 相似文献
20.
格尔木河流域植被指数时空分布及其影响因素研究 总被引:2,自引:0,他引:2
格尔木河流域气候干旱少雨,生态环境较脆弱,植被动态对其生态环境保护具有重要意义。基于连续序列的MODIS NDVI数据,分析了格尔木河流域植被指数时空分布及其影响因素。结果表明:研究区NDVI平均值总体较小,主要在0.10~0.12间波动,但呈增大趋势。区内植被改善区分布在格尔木市东、西两侧,基本不变区为荒漠地区,植被退化区分布在北部盐湖区。区内裸土的面积逐渐减小,低覆盖率和高覆盖率植被的面积逐渐增加。研究区植被生长与气象、土壤水分和地下水位埋深都有关系。气温与植被指数相关关系较好,相关系数为0.822,而降水对植被的生长也有一定的作用。植被指数与表观热惯量是正相关关系,相关系数为0.979。区内植被的地下水位埋深范围为0~12 m,在水位埋深约为6.5 m的地方,植被长势最好。 相似文献