基于MODIS的神东矿区植被动态监测与趋势分析

以神府-东胜矿区(简称神东矿区)为研究对象,利用2000―2015年获取的250 m分辨率MODIS NDVI数据,采用像元二分法提取矿区植被覆盖度(fractional vegetation coverage,FVC)的基础上,利用一元线性回归方法和重标极差分析法分析矿区植被空间格局变化并预测其未来发展趋势。结果表明:16 a来神东矿区的年均植被指数(NDVI)呈上升趋势,增加速率为8.9%/10 a;矿区大部分地区地表植被覆盖得到改善,其中明显改善面积占比为50.43%,分布趋向为矿区东南方向;而退化面积仅为4.90%,分布在乌兰木伦河、窟野河两侧以及西部和北部沟壑区;65.03%的矿区区域Hurst指数值在0.35~0.45之间,具有较弱的反持续性;矿区中部Hurst指数较高,而西部Hurst指数偏低;结合FVC来看,矿区地表植被未来仅有较弱的退化趋势。综合遥感分析结果,神东矿区植被改善的主要原因在于神东矿区对环保的重视和投入的增加,以及科学和高效的生态环境综合防治技术体系的建立与实施。     

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。     

基于ＴＶＤＩ的天山新疆段土壤湿度时空分布及影响因素分析

利用遥感数据反演土壤湿度对农作物干旱、生态系统保护及能量循环有重要的指导作用。文中以天山新疆 段为研究区,利用ＭＯＤＩＳ地表温度（Ｔｓ）数据和归一化植被指数（ＮＤＶＩ）数据构建Ｔｓ－ＮＤＶＩ特征空间,并建立温度 植被干旱指数（ＴＶＤＩ）模型,探究天山新疆段土壤湿度的时空分布格局,进一步分析土地利用类型和高程对ＴＶＤＩ的 影响。结果表明,构建的Ｔｓ－ＮＤＶＩ特征空间,其散点符合三角形关系,ＴＶＤＩ与土壤相对湿度数据呈负相关关系,该 地区,除了水体外,永久性冰川雪地土壤湿度最高,沙地最低;高程越高ＴＶＤＩ越小,土壤湿度越高。总体而言,ＴＶＤＩ 应用在天山新疆段可以较好地反映该区域的土壤湿度状况,研究结果可为天山新疆段土壤湿度动态监测和水资源 提供理论依据和实践参考。     

六盘山贫困区生长季植被覆盖变化及其对水热条件的响应

利用MODIS13,MODIS11和国家气象站点监测数据,以六盘山集中连片贫困区为研究区,采用最大值合成法、像元二分模型和偏相关分析等方法,分析了该区域生长季植被覆盖时空变化趋势,以及对地表温度和土壤湿度对植被生长的交互作用。结果表明:2001—2018年间,六盘山贫困区生长季植被覆盖度由0.28提升到0.45,且呈现出由东南向西北递减的格局;研究时段内表现为整体改善、局部退化的态势。其中,改善区占51.91%,无显著变化区占44.22%,退化区占3.87%;植被生长与地表温度和土壤湿度的年内变化紧密相关,空间上呈现出协同正相关、协同负相关、反向相关3大类型,但以协同正相关占主导地位;交互作用分析表明,土壤湿度对该区域植被生长的影响大于地表温度的影响,土壤水分条件是影响该区域植被生长的主导因子,土壤水分条件的改善对研究区生态环境建设与修复至关重要。     

黑龙江省干旱及植被分布的时空变化分析

干旱是影响社会经济系统和自然生态系统的重要气象灾害.本研究基于多时间序列的SPEI和NDVI栅格数据,利用GIS空间分析方法和统计分析方法,对比分析了2000—2018年黑龙江省干旱和植被分布的时空变化特征,从而揭示了干旱对植被分布的影响.研究表明:1)干旱具有明显的年际和季节特征,以及干湿变化的阶段性和趋势性,呈东—西干湿反向变化空间分布;2)植被分布具有明显季节特征,但年际特征不明显,呈西北、北部和东南部高,东北、西南部低的空间分布;3)干旱对植被分布影响具有复杂性.研究结果可为干旱防灾减灾和影响评估以及区域生态恢复提供参考依据.     

2000—2010年神东矿区植被NPP的变化特征及影响因素分析

基于EOS/MODIS NPP数据集,对神东矿区植被净初级生产力(NPP)变化的时空特征及主要影响因素进行分析。研究表明,2000—2010年,神东矿区植被年NPP主要介于(98~160)g C/(m2·a)区间,11 a平均值为139.80 g C/(m2·a),低于同期全国植被年平均NPP值360.97 g C/(m2·a)约61.3%,低于同期矿区10 km缓冲区年平均NPP值142.49 g C/(m2·a)约2%,同时也低于同纬度对比区域年均NPP值161.97 g C/(m2·a)约13.7%。11 a NPP值一元线性回归分析表明,3个区域2000—2010年平均NPP变化趋势及斜率特征大致相符,相关系数均达到0.94以上;植被NPP与同期气候因子的相关性分析表明,神东矿区植被年NPP与年降水量相关系数较大,为0.716。     

国产HJ-1B卫星数据的地表温度及湿度反演方法——以呼伦贝尔草原伊敏露天煤矿区为例

草原露天煤矿的土壤湿度遥感监测可以反映露天开采活动对生态环境的扰动程度。选择国产环境卫星(HJ-1B)多光谱及热红外光谱数据,探讨HJ-1B数据在中国北部呼伦贝尔草原伊敏露天煤矿区地表温度及湿度的反演模型及适宜性,对比分析JMS,Qin和Artis算法在研究区温度反演中的精度及适用性;进一步利用归一化植被指数和地表温度(NDVI-LST)的特征空间反演温度植被干旱指数(temperature vegetation dryness index,TVDI);通过野外实测土壤湿度数据对NDVI–LST特征空间中的干边模型进行修正。结果表明:基于Qin算法反演的温度数据精度最高;干边纠正系数为0.3时,TVDI与实测土壤含水量相关性最高,"湿边"呈现剖物线特征,"干边"呈现线性规律。反演结果能够很好地反映露天煤矿区内不同地物的地表干旱状况及空间异质性,可为草原露天煤矿区的长周期陆面演变监测提供基础数据。     

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...     

胜利矿区植被覆盖度时序变化的空间异质性监测

通过对胜利矿区的地理位置、气候条件等背景的分析，本文为实现获取时序性植被覆盖度的空间异质性的目的，使用ENVI、GIS、Matlab等软件，基于胜利矿区1985—2017年的Landsat TM/ETM+/OLI遥感数据计算NDVI，利用像元二分模型计算植被覆盖度，得到研究区植被覆盖度均值的时序变化情况。采用转移矩阵法和Sen+Mann-Kendall法对研究区域内不同等级的植被覆盖转移情况及变化趋势情况进行分析。研究表明：胜利矿区植被覆盖度均值波动较大，呈轻微下降趋势。在监测时段内68.36%的高植被覆盖区域植被发生了退化，只有3.2%左右的极低植被覆盖区域得到了良好的改善。此外，研究区植被覆盖度受到结构性因子和随机性因子的影响，空间异质性明显，灌溉区由于人为干涉，植被生长良好，极低植被覆盖面积维持在3%以下，植被覆盖显著下降区域主要集中在露天采坑、排土场等矿业景观区。     

中国北方地区植被覆盖度遥感估算及其变化分析

为了分析中国北方地区2000年之后植被覆盖度的时空分布及其变化,利用MODIS光谱反射率数据计算归一化植被指数,采用像元二分模型对中国北方地区2000—2012年植被覆盖度进行定量估算,分析研究区13 a间植被覆盖度的时空变化特征。研究结果表明:植被覆盖度年内变化特征体现在最大植被覆盖度一般出现在7和8月份,与中国北方地区植被的生长季相一致;整个中国北方地区年最大植被覆盖度呈现缓慢增长的趋势,其增长速率为每年0.2%;年最大植被覆盖度变化的空间分布具有较大差异,其中东北、华北和黄土高原等三北防护林工程建设区的年最大植被覆盖度有较明显的增长。     

GF-2支持下的干旱区稀疏植被区植被覆盖度估算

现有像元二分模型MODIS植被覆盖度模型因其形式简单、适用性较强的特点被广泛应用于区域植被覆盖度（FVC）的估算。然而，研究表明在沙漠和低植被覆盖的西部干旱区，从250 m的影像上很难精准地获取NDVI_veg（全植被覆盖植被指数）和NDVI_soil（全裸土区植被指数）参数。利用常用的直方图累计法获取模型所需参数NDVI_veg和NDVI_soil，估算结果存在普遍高估现象。为此，本文首先引入同期获取的GF-2号卫星数据，从GF-2号影像上提取植被覆盖像元；然后，利用Pixel Aggregate方法重采样至250 m分辨率，获取250 m空间分辨率下纯植被和纯裸土像元；最后，将纯植被和纯裸土像元各自空间位置相对应的MODIS NDVI数据最大值作为模型所需NDVI_veg和NDVI_soil参数，实现研究区内植被覆盖度的估算。试验通过与线性回归法、多项式回归法和直方图累计像元二分模型法估算结果进行精度对比，结果表明：利用GF-2影像辅助的像元二分模型，精准地获取了低植被覆盖区NDVI_veg和NDVI_soil模型参数，提高了干旱区植被覆盖度的估算精度，并有效地抑制了受稀疏植被影响NDVI在干旱区普遍偏高问题导致的FVC高估的现象。     

Soil salinity and vegetation cover change detection from multi-temporal remotely sensed imagery in Al Hassa Oasis in Saudi Arabia

Detecting soil salinity changes and its impact on vegetation cover are necessary to understand the relationships between these changes in vegetation cover. This study aims to determine the changes in soil salinity and vegetation cover in Al Hassa Oasis over the past 28 years and investigates whether the salinity change causing the change in vegetation cover. Landsat time series data of years 1985, 2000 and 2013 were used to generate Normalized Difference Vegetation Index (NDVI) and Soil Salinity Index (SI) images, which were then used in image differencing to identify vegetation and salinity change/no-change for two periods. Soil salinity during 2000–2013 exhibits much higher increase compared to 1985–2000, while the vegetation cover declined to 6.31% for the same period. Additionally, highly significant (p < 0.0001) negative relationships found between the NDVI and SI differencing images, confirmed the potential long-term linkage between the changes in soil salinity and vegetation cover.     

Drought mapping using Geoinformation technology for some sites in the Iraqi Kurdistan region

Abstract

Iraq has suffered severely from drought in recent years and the year 2008 was the driest, particularly in the Iraqi Kurdistan region. This study incorporated Geoinformation technology into mapping the drought that severely affected the Kurdistan region in the years 2007–2008. Geoinformation technology provides support in the theories, methods and techniques for building, and development of Digital Earth aspect. Five vegetation, soil, water, and land surface temperature (LST) indices were applied to two Landsat 7 ETM+ imageries of June 2007 and June 2008, to assess the drought impacts in Erbil governorate Kurdistan during the study period. The indices that were employed in this study were Normalized Difference Vegetation Index, Bare Soil Index, Normalized Differential Water Index, Tasseled Cap Transformation Wetness, and LST. The results revealed a significant decrease in the vegetative cover (56.7%) and a decline in soil/vegetation wetness (29.9%) of the total study area. Likewise, there was a significant reduction in the water bodies surface area in the region such as Dokan Lake, which lost 32.5% of its surface area in comparison with the previous year, 2007. The study results showed that the soil moisture content was the most effective actor on the vegetative cover, LST, and drought status in the study area.     

Vegetation recovery monitoring over the waste dump in Haizhou opencast coalmine area,China, during 1975–2000 using NDVI and VF index

Vegetation condition monitoring has been done from 1975 to 2000 in the waste dump of Haizhou opencast coalmine area, China, using remote sensing techniques with the objective of improving our understanding of the temporal and spatial variation of vegetation recovery in the mining dump. Four historical vegetation indexes (NDVI, VF, soil brightness and vegetation greenness) from two Landsat 2 MSS images and two Landsat 5 TM images are extracted and analyzed. For the purpose of comparison and analysis two improved techniques such as normalization grading of change slope and image segmentation were used in this study. Based on the results obtained through the above analysis two conclusions are derived: (1) vegetation recovery in the study area is in an improved condition, (2) two remote sensing based vegetation indexes such as VF and NDVI are the optimal parameters to monitor vegetation condition, which could be used as the indicators of land reclamation progress in the mining area.     

时序双极化SAR开采沉陷区土壤水分估计

开采沉陷地质灾害诱发矿区生态环境恶化的关键因子是土壤水分变化。研究提出了一种利用Sentinel-1A双极化SAR和OLI地表反射率数据联合反演土壤含水量的方法,即基于归一化水体指数(NDWI)反演植被含水量;采用Water-Cloud Model(WCM)模型消除植被对Sentinel-1A后向散射系数产生的影响,将其转化为裸土区的后向散射系数;利用基于AIEM模型和Oh模型建立的经验模型反演研究区地表参数,并用OLI光学反演结果进行验证;最后比较了开采沉陷区内外土壤水分含量。研究表明:(1)与基于OLI的土壤水分监测指数(SMMI)的土壤水分含量反演结果相比,两种极化方式中VH极化反演的水分结果具有更好的一致性,且两种极化方式反演结果也表明荒漠化草原区比黄土丘陵沟壑区反演效果更好,说明地形对后向散射的影响不可忽略。(2)在2016年内72期数据中,VH极化反演结果对比区土壤水分含量大于沉陷区的有41期,所占比例为57%;VV极化反演结果对比区土壤水分含量大于沉陷区的有36期,所占比例为50%,且不同矿区内的沉陷区受到的影响不同。说明开采沉陷造成的地表粗糙度的增加会对地表土壤水分产生负面影响,但不同矿区之间又有差异。     

资源型城市长时间序列土壤含水量变化分析——以锡林浩特市为例

大规模的煤炭开采活动将对生态环境产生扰动,而土壤含水量是受扰动的生态参数之一,且具有重要意义。现有的土壤含水量产品分辨率较低,不适用于区域尺度的研究,而高精度的微波反演由于数据的局限性无法进行长时间序列的研究。本文以我国的重要产煤基地锡林浩特市为研究区,以2004—2020年的AMSR-E与AMSR-2土壤含水量产品及同期的Landsat遥感影像为主要数据源,采用随机森林方法对AMSR-E/2土壤含水量产品进行降尺度处理,通过标准差椭圆等方法对研究区土壤含水量的变化特征进行分析。结果表明：①被动微波土壤含水量降尺度方法可实现对资源型城市的土壤含水量进行长时间序列、高空间分辨率的监测;②无论在矿区还是非矿区,降水均是影响土壤含水量变化的主导因素;③研究区土壤含水量的整体分布在空间上由西北向东南呈现逐渐升高的变化特征,且此分布格局在长时间尺度上保持稳定;④煤炭开采活动对土壤含水量产生扰动,且不同开采阶段的影响具有不同特征。研究结果可为资源型城市生态环境的评价与保护提供科学依据。     

Temporal and spatial relationships between soil erosion and ecological restoration in semi-arid regions: a case study in northern Shaanxi,China

ABSTRACT

To assess the effects of the Grain for Green Program (GGP) on soil erosion is essential to support better land management policies in the Chinese Loess Plateau. Studies on the evaluation of the effects of the GGP on soil erosion have garnered heightened attention. However, few studies examined the efficiency of GGP on soil erosion control through spatial relationship analysis. Thus, this study focuses on analyzing the spatial variation relationship between soil erosion and GGP in northern Shaanxi, Chinese Loess Plateau, from 1988 to 2015. The Universal Soil Loss Equation was used to quantify changes in soil erosion at the regional and watershed scales, and the Geographically Weighted Regression model was used to analyze the spatial relationships between land use and land cover (LULC) and soil erosion. Our results indicated that the major characteristic of LULC change during the GGP was a rapid increase of vegetation area and a rapid decrease of cropland. Bare lands contributed to the most serious soil loss, followed by croplands and sparse grasslands. The GGP had a globally positive influence on the decrease in soil erosion over the study area, but the amount of soil erosion in western and northern regions maintained a severe level. Spatial heterogeneity in the nature of the relationships among different vegetation, croplands, and soil erosion was also observed. The change rate of wood and the change rate of soil erosion in northern sub-watershed represented a negative relationship, while the change rate of sparse grassland was negatively correlated to the change rate of soil erosion in 21 sub-watersheds, account for 72% of the study area. The GGP implemented in northern sub-watersheds were more effective for soil erosion control than southern sub-watersheds. We propose that current areas of vegetation can support soil erosion control in the whole northern Shaanxi, but local-scale ecological restoration can be considered in northern sub-watersheds.     

Soil moisture retrieval from airborne L-band passive microwave using high resolution multispectral data

For the soil moisture retrieval from passive microwave sensors, such as ESA’s Soil Moisture and Ocean Salinity (SMOS) and the NASA Soil Moisture Active and Passive (SMAP) mission, a good knowledge about the vegetation characteristics is indispensable. Vegetation cover is a principal factor in the attenuation, scattering and absorption of the microwave emissions from the soil; and has a direct impact on the brightness temperature by way of its canopy emissions. Here, brightness temperatures were measured at three altitudes across the TERENO (Terrestrial Environmental Observatories) Rur catchment site in Germany to achieve a range of spatial resolutions using the airborne Polarimetric L-band Multibeam Radiometer 2 (PLMR2). The L-band Microwave Emission of the Biosphere (L-MEB) model which simulates microwave emissions from the soil–vegetation layer at L-band was used to retrieve surface soil moisture for all resolutions. A Monte Carlo approach was developed to simultaneously estimate soil moisture and the vegetation parameter b’ describing the relationship between the optical thickness τ and the Leaf Area Index (LAI). LAI was retrieved from multispectral RapidEye imagery and the plant specific vegetation parameter b′ was estimated from the lowest flight altitude data for crop, grass, coniferous forest, and deciduous forest. Mean values of b’ were found to be 0.18, 0.07, 0.26 and 0.23, respectively. By assigning the estimated b′ to higher flight altitude data sets, a high accuracy soil moisture retrieval was achieved with a Root Mean Square Difference (RMSD) of 0.035 m³ m⁻³ when compared to ground-based measurements.     

南水北调中线水源区植被覆盖度遥感监测分析

南水北调中线工程是我国大规模跨流域调水工程的一部分,开展该区域植被覆盖度变化的研究与分析,对于保护该区域的生态环境及水质具有重要意义。该文以2000年和2009年两期遥感图像为本底数据,利用基于NDVI的像元二分模型对南水北调中线水源区的植被覆盖度进行了估算,并分析了该区植被覆盖度的时空变化特征。结果表明:2000年该水源区植被覆盖度的平均值为67.5%,2009年的平均值达到72%,植被覆盖度总体呈增长趋势;植被覆盖度增幅的空间特征表现为水源区中部地区高,东西部地区相对较低;在不同植被类型中,落叶针叶林的覆盖度平均值增幅最大,草地覆盖度增幅最小;位于水源区的大多数县(市)的植被覆盖度在近十年来都有不同程度的增加,其中柞水县的植被覆盖度平均值增长幅度最大,这与国家实施退耕还林、封山育林、基本农田建设等政策有关。     

用基于知识的决策树方法分层提取矿区土地类型——以湖北大冶为例

以湖北大冶为研究区,采用多时相陆地卫星遥感图像,通过不同波段组合,以及ironoxide指数和归一化差异植被指数(NDVI)等,详细分析了各地表地物光谱特征和空间特征,建立了研究区分类知识库表,采用决策二叉树法进行分类,得到了高精度分类结果图。基于不同时相分类结果的变化检测,通过对研究区水体污染、矿区复垦、耕地变化等分析,认为从1986～2002年,研究区水质虽有一定改善,但矿区植被退化严重,耕地大量减少,停产矿区复垦仅为20%,为合理保护矿区生态环境和科学管理采矿企业提供了有用资料。