1957—2007年雅鲁藏布江中游河谷降水变化的小波分析   总被引：5，自引：1，他引：4       下载免费PDF全文

李海东  沈渭寿  赵卫  孙明  孙俊 《气象与环境学报》2010,26(4):1-7

通过对近51 a雅鲁藏布江中游河谷地区4个气象站逐日降水资料进行等权平均取值,采用气候倾向率和小波分析法,研究了不同时间尺度下近51 a降水变化趋势及周期特征。结果表明:研究区降水量以20世纪80年代为最少,2000年后年降水量与20世纪90年代和60年代基本持平。夏季和秋季降水量年代际变化与年降水量的变化基本一致。近51 a降水量增加趋势不显著。年降水量存在准3 a、8—11 a和30 a的周期,以准11 a周期最为突出。降水量变化以春季增长趋势最显著,可在干旱季补充土壤水分,减轻风沙化土地的发生发展。秋季和冬季增长趋势不明显,夏季降水量呈减小趋势。就季节降水变化的时间尺度和周期性而言,2007年后四季降水表现为,春季在20—30 a时间尺度上将处于偏高期,夏季在8—12 a时间尺度上将处于偏低期,秋季在8—12 a时间尺度上将处于偏低期,冬季在20—30 a时间尺度上将出现向降水偏高的过渡期。  相似文献   

植被动力学模式中物候方案的研究进展   总被引：3，自引：0，他引：3  

田东晓  曾晓东 《气候与环境研究》2015,20(6):726-734

植物物候是指植物生长过程中呈现出的季节性现象,一般与植物所处的气候与环境变化密切相关。植被动力学模式研究的物候主要表现为叶面积指数变化,直接影响陆气间的碳通量与水热交换,同时影响物种间的竞争,从而间接地影响生态系统的结构组成。按照建模方法的差别,目前模式中使用的物候方案可分为使用卫星观测资料的物候方案、基于物候——气候关系的统计模型和基于叶碳平衡(周转)的动力学模型三大类。将植物物候分为物候期的触发和物候期叶片的发育过程两部分,分别对国际上广泛使用的八种全球植被动力学模式进行分类描述,对比其优缺点。最后探讨了植被动力学模式中物候方案的进一步发展方向。  相似文献   

Vegetation图像植被指数与实测水稻叶面积指数的关系   总被引：9，自引：1，他引：9  

何隆华  储开华  肖向明 《遥感学报》2004,8(6):672-676

水稻的叶面积指数 (LAI)是水稻生长的一项重要参数 ,与水稻的生物量与产量直接相关。利用 1999年在江苏省江宁县实测的水稻叶面积指数与同期Vegetation/SPOT的植被指数作了对比分析 ,结果发现同期的LAI与植被指数表现相近的变化特征 ,两者具有良好的相关关系。  相似文献   

北京山区植被覆被率遥感制图与景观格局分析——以门头沟区为例   总被引：14，自引：2，他引：14  

李晓琴  孙丹峰  张凤荣 《国土资源遥感》2003,14(1):23-28

准确、快速地获取植被覆盖状况信息是北山区生态恢复和建设的关键与重点.本文在FCD Mapping model的原理和方法基础上,利用TM图像对北京门头沟区植被覆被率展开调查和制图应用研究,并利用FRAGSTATS软件对所得的植被覆盖等级图从斑块大小、斑块数、斑块密度、斑块平均面积、分形维数和聚集度等角度进行了空间格局的剖析.  相似文献   

大面积棉花长势的MODIS监测分析方法与实践   总被引：19，自引：2，他引：17  

吕建海  陈曦  王小平  包安明 《干旱区地理》2004,27(1):118-123

大面积棉花的生长状况监测比较复杂,目前还没有比较成熟的方法。以往遥感监测应用较多的是NOAA—AVHRR数据,监测精度和监测效果不高。本文利用新一代传感器MODIS数据,结合实测的地面农作物生长发育农学参数,系统地分析了石河子地区棉花播种到收获整个田间遥感归一化指数(NDVI)及其对应的叶而积指数(LAI)的变化规律,证明MODIS叶面积指数和实测LAI有很高的一致性,MODISIAI的变化状况与棉花长势变化基本一致,实现了较为精确的石河子地区大面积棉花长势的遥感动态监测。  相似文献   

Numerical study for vegetation effects on coastal wave propagation by using nonlinear Boussinesq model     

《Applied Ocean Research》2018

The vegetation has important impacts on coastal wave propagation. In the paper, the sensitivities of coastal wave attenuation due to vegetation to incident wave height, wave period and water depth, as well as vegetation configurations are numerically studied by using the fully nonlinear Boussinesq model. The model is based on the implementation of drag resistances due to vegetation in the fully nonlinear Boussinesq equation where the drag resistance is provided by the Morison’s formulation for rigid structure induced drag stresses. The model is firstly validated by comparing with the experimental results for wave propagation in vegetation zones. Subsequently, the model is used to simulate waves with different height, period propagating on vegetation zones with different water depth and vegetation configurations. The sensitivities of wave attenuation to incident wave height, wave period, water depth, as well as vegetation configurations are investigated based on the numerical results. The numerical results indicate that wave height attenuation due to vegetation is sensitive to incident wave height, wave period, water depth, as well as vegetation configurations, and attenuation ratio of wave height is increased monotonically with increases of incident wave height and decreases of water depth, while it is complex for wave period. Moreover, more vegetation segments can strengthen the interaction of vegetation and wave in a certain range.  相似文献   

基于EVI的中国最近10 a植被覆盖变化特征分析   总被引：1，自引：1，他引：0  

赫英明  刘向培  王汉杰 《气象科学》2017,37(1):51-59

通过对2000—2009年增强型植被指数(EVI)数据的分析发现:在过去的10 a里,中国的植被覆盖度明显增加,植被活动在增强。植被覆盖的年变化和季节变化特征如下:(1)10 a来植被覆盖地区的面积呈增加趋势,植被稀少地区的面积呈减少趋势;(2)无论是植被覆盖区还是全国平均,单位面积EVI年平均值都呈增加趋势;(3)在生长季节(夏季、春季)植被活动增加更明显,EVI增加速率按季节排列如下:夏季春季秋季冬季。植被覆盖的空间变化特征显示,尽管总体上中国植被覆盖呈增加趋势,但存在空间异质性。结合同期的温度、降水和森林资源清查数据,从两个方面初步解释了植被覆盖度增加的原因,即:温度的上升和春季降水量的增加;近年来中国开展的大型林业生态建设工程。  相似文献   

Is remote sensing useful for finding and monitoring urban farms?     

《Applied geography (Sevenoaks, England)》2017

As the world becomes increasingly urbanized, the need for fresh fruits and vegetables in urban areas grows while the difficulty of bringing these perishable products to these areas also increases. Small-scale agriculture located in urban areas is a highly effective and profitable way to provide these products to communities that are far from extensive commercial agricultural areas. Here we describe how remote sensing can be used with data mining approaches to monitor urban and peri-urban farms within cities in both developed and developing countries. Using very high resolution satellite imagery together with moderate and coarse resolution imagery and information from social media and the web, we analyze the usefulness of different methods to identify farms within urban boundaries in four countries. The analysis shows how a mixed-method approach is necessary in order to identify where urban farming is occurring and to monitor its change through time. Although remote sensing-based vegetation and water indices were useful, without ancillary data they are not effective at remotely mapping the locations of urban farms. However, remote sensing is a good way to monitor vegetation condition in locations where actively managed urban farms are known to exist.  相似文献   

科尔沁沙地东南缘近3000年来植被演化与人类活动   总被引：19，自引：1，他引：18  

任国玉 《地理科学》1999,19(1):42-48

在科尔沁沙地东南部,以蒙古栎为代表的乔木花粉从３１００ａＢ．Ｐ．开始显著下降,蒿属和藜科等草本植物花粉逐渐上升,藜科花粉开始上升时间又迟于蒿属花粉。这说明,原业的固定沙丘有一部分首先转化为半固定沙丘,半固定沙丘后来又转变成半流动和流动沙丘。  相似文献   

Mapping Submerged Aquatic Vegetation with GIS in the Caloosahatchee Estuary: Evaluation of Different Interpolation Methods     

Weihe Guan  Robert H. Chamberlain  Bruce M. Sabol  Peter H. Doering 《Marine Geodesy》1999,22(2):69-91

This article evaluates different spatial interpolation methods for mapping submerged aquatic vegetation (SAV) in the Caloosahatchee Estuary, Florida. Data used for interpolation were collected by the Submersed Aquatic Vegetation Early Warning System (SAVEWS). The system consists of hydro-acoustic equipment, which operates from a slow-moving boat and records bottom depth, seagrass height, and seagrass density. This information is coupled with geographic location coordinates from a Global Positioning System (GPS) and stored together in digital files, representing SAV status at points along transect lines. Adequate spatial interpolation is needed to present the SAV information, including density, height, and water depth, as spatially continuous data for mapping and for comparison between seasons and years. Interpolation methods examined in this study include ordinary kriging with five different semivariance models combined with a variable number of neighboring points, the inverse distance weighted (IDW) method with different parameters, and the triangulated irregular network (TIN) method with linear and quintic options. Interpolation results were compared with survey data at selected calibration transects to examine the suitability of different interpolation methods. Suitability was quantified by the determination coefficient (R2) and the root-mean-square error (RMSE) between interpolated and observed values. The most suitable interpolation method was identified as the one yielding the highest R2 value and/or the lowest RMSE value. For different geographic conditions, seasons, and SAV parameters, different interpolation methods were recommended. This study identified that kriging was more suitable than the IDW or TIN method for spatial interpolation of all SAV parameters measured. It also suggested that transect data with irregular spatial distribution patterns such as SAV parameters are sensitive to interpolation methods. An inappropriate interpolation method such as TIN can lead to erroneous spatial representation of the SAV status. With a functional geographic system and adequate computing power, the evaluation and selection of interpolation methods can be automated and quantitative, leading to a more efficient and accurate decision.  相似文献