1982-2009 年珠穆朗玛峰自然保护区植被指数变化

植被指数是指示植被变化的重要指标, 本研究基于1982-2009 年珠穆朗玛峰自然保护区(简称珠峰地区)植被指数(NDVI)时间序列数据、土地覆被和野外调查等数据, 采用时序变化趋势和空间分析法, 对珠穆朗玛峰地区植被的时空变化过程及保护区成效进行了定量分析。研究表明:①珠峰地区NDVI分布的总特征是南部和北部高, 中部低。②1982-2009 年珠峰地区NDVI年际变化趋势和空间异质性十分明显:1982-1997 年, 珠峰地区NDVI总体上呈显著上升趋势, 北部地区增幅较大;1998-2009 年, NDVI总体下降(56.96%的NDVI呈下降趋势), 其中, 珠峰地区中部和北部的NDVI下降最为明显, 而南部核心保护区森林和灌丛的NDVI则呈显著上升趋势, 且变化幅度较大。③长时间序列植被指数变化的过程和空间差异性推断:1998 年以来, 天然林保护等生态工程促使珠峰地区保护效果更加明显。     

近40a来长江流域≥10℃积温的时空变化特征

基于1970―2013 年长江流域131 个气象站点的日平均气温数据,采用气候倾向率、累积距平、M-K 检验及滑动T 检验等方法分析了该区≥10℃积温的时空变化特征。结果表明：1）突变时间较早的区域主要有嘉陵江流域,中游干流区,太湖流域和下游干流区（1997 年）;而岷江、沱江流域,鄱阳湖流域和洞庭湖流域较晚（2001年）;长江源头的金沙江流域最晚（2002 年）。2）在区域尺度上,1970 年以来,北亚热带、中亚热带和高原气候区日平均气温≥10℃积温的初日分别以-1.25、-1.39、-0.8 d/10 a 提前,终日分别以1.52、1.43、1.47 d/10 a 推后,持续日数以2.97、2.92、4.62 d/10 a 幅度延长。积温总体上分别以113.5、88.8、77.3℃/10 a 增加。3）≥10℃积温的年际变化存在明显的空间差异,积温增加幅度较大的地区主要集中在汉中―奉节―五峰―吉首―武冈―道县以东的长江中下游地区以及四川盆地、云贵高原、青海高原的个别站点。     

长江三角洲地区高温热浪人群健康风险评价

在全球极端气象、气候事件频发的背景下,获取高分辨的灾害风险信息对于区域防灾减灾决策具有重要的参考价值。而在当前的灾害风险评估中,基于行政单元的人口和社会经济等承灾体信息与栅格水平上的致灾因子普遍存在空间不匹配的现象。本文通过融合多源遥感数据和人口、社会经济统计数据,在利用人居指数对高温人口暴露进行空间化的基础上,获取了250 m分辨率的长江三角洲地区高温热浪人群健康风险空间格局。结果表明,风险等级较高的地区集中在上海、常州、杭州、宁波、无锡、嘉兴、泰州等城市的中心城区,主要是较高的人口暴露度和城市高温共同作用的结果;而大城市近郊以及各规模较小的城区的风险等级次之;相对欠发达地区虽然人口暴露程度较低,但较高的高温危险性和社会经济脆弱性指数使得这些地区的高温人群健康风险也不容忽视。识别高风险地区的风险主导因子对于提高人群高温适应能力以及减轻高温健康风险具有重要意义。     

基于多模型和多数据源的青藏高原春季物候时空格局分析（英文）

In this study,we have used four methods to investigate the start of the growing season(SGS) on the Tibetan Plateau(TP) from 1982 to 2012,using Normalized Difference Vegetation Index(NDVI) data obtained from Global Inventory Modeling and Mapping Studies(GIMSS,1982-2006) and SPOT VEGETATION(SPOT-VGT,1999-2012).SGS values estimated using the four methods show similar spatial patterns along latitudinal or altitudinal gradients,but with significant variations in the SGS dates.The largest discrepancies are mainly found in the regions with the highest or the lowest vegetation coverage.Between 1982 and 1998,the SGS values derived from the four methods all display an advancing trend,however,according to the more recent SPOT VGT data(1999-2012),there is no continuously advancing trend of SGS on the TP.Analysis of the correlation between the SGS values derived from GIMMS and SPOT between 1999 and 2006 demonstrates consistency in the tendency with regard both to the data sources and to the four analysis methods used.Compared with other methods,the greatest consistency between the in situ data and the SGS values retrieved is obtained with Method 3(Threshold of NDVI ratio).To avoid error,in a vast region with diverse vegetation types and physical environments,it is critical to know the seasonal change characteristics of the different vegetation types,particularly in areas with sparse grassland or evergreen forest.     

武汉都市圈城际联系通达性的测度与分析

空间- 距离- 通达性已经成为城市区域一体化联系与发展的先决条件。当前都市圈城际联 系发展与交通网络建设存在明显的不同步现象, 矛盾解决的关键是优化其路网通达性空间格局。 以武汉都市圈为实证对象, 构建最短距离矩阵, 引入时间、空间通达性模型, 建立高等级路网发育 评价指标体系, 从节点体系与网络体系两个角度, 定量分析武汉都市圈城际通达性变化及其空间 格局, 揭示出: 圈域城镇( 节点) 体系通达性空间差异明显, 与城市自身交通区位、经济发展水平密 切相关, 其空间格局与城镇等级规模呈共轭协同关系, 不同空间等级节点形成以武汉为中心的同 心圈层与“轴—辐”网络空间格局; 快速交通干道网络( 高速公路、铁路等) 是城市通达性空间演变 的重要推动力, 使其空间收敛减速, 形成显著的带状分异格局, 初步形成沪蓉东西向、京珠南北向 的两大城市经济联系交通走廊; 圈域城际交通干网发育程度偏低, 处于回路网络水平, 高等级路 网扩展潜力巨大。     

1981-2001年珠穆朗玛峰自然保护区植被变化

Based on the NOAA AVHRR-NDVI data from 1981 to 2001, the digitalized China Vegetation Map （1：1,000,000）, DEM, temperature and precipitation data, and field investigation, the spatial patterns and vertical characteristics of natural vegetation changes and their influencing factors in the Mt. Qomolangma Nature Reserve have been studied. The results show that： （1） There is remarkable spatial difference of natural vegetation changes in the Mt. Qomolangma Nature Reserve and stability is the most common status. There are 5.04% of the whole area being seriously degraded, 13.19% slightly degraded, 26.39% slightly improved, 0.97% significantly improved and 54.41% keeping stable. The seriously and slightly degraded areas, which mostly lie in the south of the reserve, are along the national boundaries. The areas of improved vegetation lie in the north of the reserve and the south side of the Yarlung Zangbo River. The stable areas lie between the improved and degraded areas. Degradation decreases with elevation. （2） Degeneration in the Mt. Qomolangma Nature Reserve mostly affects shrubs, needle-leaved forests and mixed forests. （3） The temperature change affects the natural vegetation changes spatially while the integration of temperature changes, slopes and aspects affects the natural vegetation change along the altitude gradients. （4） It is the overuse of resources that leads to the vegetation degeneration in some parts of the Mt. Qomolangma Nature Reserve.     

青藏高原植被覆盖变化与降水关系

The temporal and spatial changes of NDVI on the Tibetan Plateau, as well as the relationship between NDVI and precipitation, were discussed in this paper, by using 8-km resolution multi-temporal NOAA AVHRR-NDVI data from 1982 to 1999. Monthly maximum NDVI and monthly rainfall were used to analyze the seasonal changes, and annual maximum NDVI, annual effective precipitation and growing season precipitation (from April to August) were used to discuss the interannual changes. The dynamic change of NDVI and the corre- lation coefficients between NDVI and rainfall were computed for each pixel. The results are as follows: (1) The NDVI reached the peak in growing season (from July to September) on the Tibetan Plateau. In the northern and western parts of the plateau, the growing season was very short (about two or three months); but in the southern, vegetation grew almost all the year round. The correlation of monthly maximum NDVI and monthly rainfall varied in different areas. It was weak in the western, northern and southern parts, but strong in the central and eastern parts. (2) The spatial distribution of NDVI interannual dynamic change was different too. The increase areas were mainly distributed in southern Tibet montane shrub-steppe zone, western part of western Sichuan-eastern Tibet montane coniferous forest zone, western part of northern slopes of Kunlun montane desert zone and southeastern part of southern slopes of Himalaya montane evergreen broad-leaved forest zone; the decrease areas were mainly distributed in the Qaidam montane desert zone, the western and northern parts of eastern Qinghai-Qilian montane steppe zone, southern Qinghai high cold meadow steppe zone and Ngari montane desert-steppe and desert zone. The spatial distribution of correlation coeffi- cient between annual effective rainfall and annual maximum NDVI was similar to the growing season rainfall and annual maximum NDVI, and there was good relationship between NDVI and rainfall in the meadow and grassland with medium vegetation cover, and the effect of rainfall on vegetation was small in the forest and desert area.     

面向对象的长江源区当曲流域高寒湿地信息提取(英文)

长江南源当曲流域是我国高寒沼泽湿地的集中分布地区之一,是青藏高原腹地重要的水源涵养地。对该地区湿地资源及分布的正确把握直接关系到当地牧民的生产生活及下游地区的经济社会发展。由于湿地光谱特征复杂,易于其他地类混淆,传统的遥感信息提取方法很难保证湿地信息提取的精度。本文运用面向对象的图像信息自动分类方法,对当曲流域内的湿地信息进行提取。在对各类型湿地的光谱特征、纹理特征及空间特征进行分析的基础上,充分结合DEM及其衍生数据(坡度、坡向), 归一化植被指数 (NDVI), 归一化水体指数 (NDWI) 及缨帽变换(Kauth-Thomas transformation)得到的湿度图层等参数,设置各参数阈值,建立各湿地类型的信息提取知识规则,并结合野外实地调查对信息提取精度进行验证。经检验,湿地信息提取的总体精度达到89.00%。     

Google Earth Engine平台下的1990-2019年江西省森林覆被连续变化分析

森林是人类赖以生存和发展的重要生态环境资源,对其时空格局进行监测和分析具有十分重要的意义。本文以全国生态文明示范区之一的江西省作为研究区,基于Google Earth Engine平台的Landsat时序数据,采用CCDC方法,对江西森林的面积和绿度变化进行了分析。其结果对森林时空格局的监测和分析具有一定的参考价值。