深圳快速城市化中地形对景观垂直格局的影响

基于RS 和GIS 的支持, 以深圳市为案例研究地形对景观格局及其垂直分布的影响, 进行景观格局时空动态分析。文章指出, 人类活动对土地的干扰程度表现为从低平地区向高 峻地区递减, 从而导致在以山地占主体的盐田等区在城市化前期低于地势平坦的福田等区; 随着城市的进一步加深, 福田等区多样性指数则快速降低, 盐田等区相对降低很少, 或还处 于上升状态。多样性指数在高程带和坡度带上多时段变化表明: 在垂直空间上, 土地利用结 构的垂直分异是景观格局垂直分异内在原因, 多样性指数的空间曲线和时间曲线具有反“U” 形库兹涅茨曲线特征, 但是这种曲线变化特征需要到一定的城市化阶段才能形成, 并且曲线 特征随城市化的加深而更加明显; 在时间上, 低海拔和低坡度地区的多样性指数的动态特征 也有类似库兹涅茨曲线的反“U”形, 而且随城市化的加深, 具有这种特征的高程带和坡度 带均在上移。     

珠海市土地利用空间格局与地形的相关性研究

以2008年Landsat TM遥感影像、地形图为基础数据,通过建立DEM、高程分级、坡度分级及叠加分析等方法,分析了珠海市土地利用空间格局及其与地形因子的关系.珠海市土地利用类型空间分布具有强烈的区域差异性,不同高程与坡度分级区域土地利用类型组合不同;各土地类型的面积在低海拔、低坡度段占绝对优势,随着高程和坡度的上升,土地利用类型减少,多样性降低.在高程<40 m、坡度<2°的区域,水域为主导土地利用方式,而在高程＞40 m、坡度＞2°的区域,林地成为主导土地利用类型的优势越来越明显;在海拔40～100 m、坡度2°～15°区域土地利用破碎度指数最高,受人类活动强烈干扰的地段主要集中在海拔低、坡度平缓的区域,自然因子在高坡度区域对土地利用空间格局起到一定的制约作用.     

小尺度地形因子对农地土壤质量的影响研究

地形差异是土地利用结构和空间分布格局分异的重要影响因子,也是土地质量的重要参评因素.选择泰山东麓多种地貌类型过渡区,利用数字高程模型(DEM)提取研究区坡度、高程等地形因子信息,通过GIS空间分析划分研究区农地土壤质量等级,利用SPSS统计分析高程、坡度等地形因子对土壤质量的影响.结果表明:土壤质量等级随地形变化呈规律性演替,坡度和高程与土壤质量呈极显著相关关系,且坡度对土壤质量的影响大于高程;随着坡度的上升,土壤质量分值呈抛物线趋势,而随着高程的上升,土壤质量呈降低趋势,且各高程段内不同坡度等级土壤质量分值也呈抛物线走势;土壤质量的最高分值位于坡度2°～5°、高程0～150 m的地形部位.     

基于遥感技术和GIS的小流域土地利用/覆被变化分析

根据贵州省平坝县克酬流域1973年MSS影像数据,1989、1995、2000年Landsat TM影像数据,利用RS和GIS信息获取技术、空间分析技术和数理统计方法,分析了该流域土地利用的数量变化和空间变化特征,明确了土地利用变化的主要类型和方向,并探讨了土地利用变化和地形因子的关系。结果显示,该流域土地利用以农田和灌草用地为主,1973~2000年林地和灌草地减少,农田、水域、村镇、交通用地增加,林地转化为灌草、灌草转化为农田及农田转化为村镇居民点和公路用地是研究区主要土地利用变化类型。研究区土地利用空间分布与海拔高程、坡度等地形因子有密切关系。1973~2000年农田、林地和灌草分布的海拔高程和坡度均呈增加趋势,这和上述土地利用类型间的转化规律相一致。     

地形因子对京西门头沟区土地利用/覆盖变化的影响

以土地利用数据和数字高程模型(DEM)为基础,运用GIS对空间数据和属性数据的管理和分析功能,用高程、坡度、坡向3个地形因子分析了1990年与2005年北京门头沟地区的土地覆盖现状以及土地利用动态变化度。结果表明,地形因子对土地利用类型的分布规律有明显的影响,研究区在最近的15 a农业用地减少,城镇建设用地大幅度增加,社会经济和政治因素对土地利用/覆盖动态变化的驱动作用显著。     

重庆石碗溪小流域坡度和高程对土地利用及经济发展的影响

坡度和高程是土地资源固有的两个重要环境因子,与土地利用关系密切,尤其是在山区,坡度和高程基本上决定了土地利用的方向和方式,从而影响农业和经济的发展。石碗溪小流域面积20.73km2,为丘陵低山区。按坡度和高程对土地利用的影响程度,把坡度和高程各分为3级,即:0°～15°、15°~25°、>25°和500m以下、500~800 m、800m以上。从1:10 000地形圈上提取土地坡度和高程分级图,与土地利用现状图又叠加,获取各坡度、高程级及其土地利用类型和数据。结果表明,土地面积随坡度、海拔级的增加而加大。耕地分布在各个高程级0～15°的缓坡上,800m以上地区面积最大,果园和森林大多分布在800m以上>25°的陡坡地上。通过分析比较小流域各个行政村2002年农业总收入及种植业、林业、牧业收入与坡度和高程的关系,可以看出坡度和高程对经济发展的影响。最后,根据坡度和高程状况,结合小流域社会经济条件,提出几点建议,以其为山区小流域土地可持续利用及经济持续发展提供科学依据。     

深圳土地利用时空变化与地形因子的关系研究

引入GIS空间分析和数字地形模型(DEM)技术,利用土地利用数据和地形数据,定量分析土地利用时空变化与地形因子的关系,从土地利用空间分布、土地利用转移和土地利用变化速度3方面总结地形因子对深圳土地利用时空变化的影响特征及规律。结果表明:在深圳土地利用时空变化过程中,地形因子对土地利用变化的影响作用明显,在不同地形级别上土地利用分布、土地利用转移和土地利用变化速度等均表现出不同的时空变化特征。     

科尔沁沙地土地利用变化研究

基于研究区2000、2005年的土地利用矢量数据,从土地利用数量、土地利用结构以及土地利用程度3方面分析了科尔沁沙地2000～2005年的土地利用变化特征,结果表明：（1）科尔沁沙地土地利用总体变化速度较慢,综合土地利用动态度仅为0.44%;科尔沁沙地土地利用变化的主要趋势是未利用地明显减少、建设用地与林地迅速增加。（2）研究区各旗县的各种土地利用类型的变化都和整个科尔沁沙地的变化相当,差异不大,土地利用结构信息熵总体呈下降态势。（3）土地利用变化程度两个模型的研究表明,科尔沁沙地土地利用程度不断增强,用地效率明显提高,土地利用正处于发展期,综合水平较高。     

DEM不同分辨率对地形因子提取的不确定性

地形因子的提取对水土流失、土地利用、土地资源评价、城市规划等方面的研究起着重要的作用,通过对地形因子计算和分析,为以上研究提供一定的参考。基于DEM(数字高程模型)的ASTER GDEM V2_30m数据,以云南省保山市隆阳区为研究区,提取该区的坡度与坡向等地形指标,分析不同分辨率(30 m、60 m、90m、120 m)下的地形因子的差异性。结果表明:随着分辨率降低,隆阳区坡度向中等级坡度集中,陡坡区域缩小,即坡度从集中在35°~45°区域向≤5°和15°~25°区域集中;不同空间分辨率对坡向提取也有不确定性的变化,但影响程度没有坡度大。因此在土壤侵蚀等模型中对地形因子进行估算时,需要充分考虑分辨率的影响。     

山地丘陵区土地利用分布及其与地形因子关系——以河北省怀来县为例

为探究山地丘陵地区不同地形因子对土地利用空间格局的影响,以河北省怀来县为例,研究了各土地利用类型在不同地形上的分布特征。同时,定性和定量分析了土地利用景观格局与地形环境的相关性。研究表明:土地利用景观格局分布存在明显的地形梯度特征,较高地形级别主要分布着林地和草地,其分布指数在较高地形级别占据优势位;而受人类活动干扰影响较大的城乡建设用地、采矿用地、耕地、园地和水域的优势位分布在较低地形级别上。移动窗口法得到的景观格局指数的分布定性显示出土地利用景观格局随地形变化的梯度特征,典范对应分析结果定量显示出典范对应分析排序的前4个轴的累计土地利用景观指数—地形解释变量为96.98%,地形因子第1排序轴与土地利用变化景观格局指数特征第一排序轴的相关系数达到0.671,其土地利用景观格局指数与地形因子存在显著的相关性。由此可见,高程、坡度和地形起伏度这三类地形因子对山地丘陵区的土地利用类型的结构和空间分布起着重要的影响作用。     

基于山地垂直带谱的秦岭土地利用空间分异

为揭示秦岭山地垂直带与土地利用之间的相互关系,文章基于2000年夏季卫星遥感影象和1∶25万DEM数据,采用目视解译的方式提取出秦岭南北坡的土地利用类型。将垂直带与土地利用进行叠加分析得出:秦岭山地林地占44.83%,草地占35.93%,耕地占18.42%。土地利用在垂直带上地空间分异显著,由基带往上耕地的比例呈指数关系减少,林地呈正抛物线变化,草地则与林地相反。在秦岭南北坡同一垂直带土地利用上也有明显的变化,特别体现在栓皮栎林带、锐齿栎林以及冷杉林带上。     

Vertical distribution changes in land cover between 1990 and 2015 within the Koshi River Basin,Central Himalayas

The study of mountain vertical natural belts is an important component in the study of regional differentiation.These areas are especially sensitive to climate change and have indicative function,which is the core of three-dimensional zonality research.Thus,based on high precision land cover and digital elevation model (DEM) data,and supported by MATLAB and ArcGIS analyses,this paper aimed to study the present situation and changes of the land cover vertical belts between 1990 and 2015 on the northern and southern slopes of the Koshi River Basin (KRB).Results showed that the vertical belts on both slopes were markedly dif-ferent from one another.The vertical belts on the southern slope were mainly dominated by cropland,forest,bare land,and glacier and snow cover.In contrast,grassland,bare land,sparse vegetation,glacier and snow cover dominated the northern slope.Study found that the main vertical belts across the KRB within this region have not changed substantially over the past 25 years.In contrast,on the southern slope,the upper limits of cropland and bare land have moved to higher elevation,while the lower limits of forest and glacier and snow cover have moved to higher elevation.The upper limit of alpine grassland on the northern slope retreated and moved to higher elevation,while the lower limits of glacier and snow cover and vegetation moved northward to higher elevations.Changes in the vertical belt were influenced by climate change and human activities over time.Cropland was mainly controlled by human activities and climate warming,and the reduced precipitation also led to the abandonment of cropland,at least to a certain extent.Changes in grassland and forest ecosystems were predominantly influenced by both human activities and climate change.At the same time,glacier and snow cover far away from human activities was also mainly influenced by climate warming.     

近5年青海省植被覆盖变化的遥感监测

This paper used five years （2001-2006） time series of MODIS NDVI images with a 1-km spatial resolution to produce a land cover map of Qinghai Province in China. A classification approach for different land cover types with special emphasis on vegetation, especially on sparse vegetation, was developed which synthesized Decision Tree Classification, Supervised Classification and Unsupervised Classification. The spatial distribution and dynamic change of vegetation cover in Qinghai from 2001 to 2006 were analyzed based on the land cover classification map and five grade elevation belts derived from Qinghai DEM. The result shows that vegetation cover in Qinghai in recent five years has been some improved and the area of vegetation was increased from 370,047 km^2 in 2001 to 374,576 km^2 in 2006. Meanwhile, vegetation cover ratio was increased by 0.63%. Vegetation cover ratio in high mountain belt is the largest （67.92%） among the five grade elevation belts in Qinghai Province. The second largest vegetation cover ratio is in middle mountain belt （61.80%）. Next, in the order of the decreasing vegetation cover ratio, the remaining grades are extreme high mountain belt （38.98%）, low mountain belt （25.55%） and flat region belt （15.46%）. The area of middle density grassland in high mountain belt is the biggest （94,003 km^2）, and vegetation cover ratio of dense grassland in middle mountain belt is the highest （32.62%）, and the increased area of dense grassland in high mountain belt is the greatest （1280 km^2）. In recent five years the conversion from sparse grass to middle density grass in high mountain belt has been the largest vegetation cover variation and the converted area is 15931 km^2.     

The simulation of LUCC based on Logistic-CA-Markov model in Qilian Mountain area,China

The Qilian mountain area was examined for using the Logistic-CA-Markov coupling model combined with GIS spatial analyst technology to research the transformation of LUCC, driving force system and simulate future tendency of variation. Results show that:(1) Woodland area decreased by 12.55%, while grassland, cultivated land, and settlement areas increased by 0.22%, 7.92%, and 0.03%, respectively, from 1986 to 2014. During the period of 1986 to 2000, forest degradation in the middle section of the mountain area decreased by 1,501.69 km~2. Vegetation cover area improved, with a net increase of grassland area of 38.12 km~2 from 2000 to 2014.(2) For constructing the system driving force, the best simulation scale was 210m×210m. Based on logistic regression analysis, the contribution(weight) of composite driving forces to land use and cover change was obtained, and the weight value was more objectively compared with AHP and MCE method.(3) In the natural scenarios, it is predicted that land use and cover distribution maps of Qilian mountain area in 2028 and 2042, and the Lee-Sallee index test was adopted. Over the next 27 years(2015–2042), farmland, woodland, grassland, settlement areas show an increasing trend, especially settlements with an obvious change of 0.56%. The area of bare land will decrease by 0.89%. Without environmental degradation, tremendous structural change of LUCC will not occur, and typical characteristic of the vertical zone of the mountain would remain. Farmland and settlement areas will increase, but only in the vicinity of Qilian and Sunan counties.     

豫西黄河流域土地利用空间格局地形梯度特征分析

豫西黄河流域土地利用空间格局在水平和垂直方向上都具有明显区域特征。利用DEM数据对研究区土地利用空间格局地形梯度规律进行了分析,结果表明:(1)各土地利用类型的空间分布规律随高程和坡度的变化具有显著的特点:受人类活动干扰影响较大的各类农业用地、建筑用地、果园、水域和湿地主要分布在海拔相对较低和坡度相对较小的区域;而受人类活动干扰影响较小的各类林地(除果园外)、草地和未利用地则比较均匀地分布在海拔相对较高和坡度较大的区域。(2)不同的海拔段和坡度段内各土地类型的分布也存在一定的分布规律:农业用地类型和林地类型在各个地形梯度内都占有较大的面积比重,这是由于其基数较大,在区域内占据优势地位决定的;在低海拔小坡度地段内农业用地具有相对的面积优势;有林地随着海拔升高和坡度增大,面积比例不断增大,其主导地位随之增强。     

Vertical differentiation of land cover in the central Himalayas

Characterized by obvious altitudinal variation, habitat complexity, and diversity in land cover, the Mt. Qomolangma region within the central Himalayas is one of the most sensitive areas to climate change in the world. At the same time, because the Mt. Qomolangma region possesses the most complete natural vertical spectrum in the world, it is also an ideal place to study the vertical structure of alpine land cover. In this study, land cover data for 2010 along with digital elevation model data were used to define three methods for dividing the northern and southern slopes in the Mt. Qomolangma region, i.e., the ridgeline method, the sample transect method, and the sector method. The altitudinal distributions of different land cover types were then investigated for both the northern and southern slopes of the Mt. Qomolangma region by using the above three division methods along with Arc GIS and MATLAB tools. The results indicate that the land cover in the study region was characterized by obviously vertical zonation with the south-six and north-four pattern of vertical spectrum that reflected both the natural vertical structure of vegetation and the effects of human activities. From low to high elevation, the main land cover types were forests, grasslands, sparse vegetation, bare land, and glacier/snow cover. The compositions and distributions of land cover types differed significantly between the northern and southern slopes; the southern slope exhibited more complex land cover distributions with wider elevation ranges than the northern slope. The area proportion of each land cover type also varied with elevation. Accordingly, the vertical distribution patterns of different land cover types on the southern and northern slopes could be divided into four categories, with glaciers/snow cover, sparse vegetation, and grasslands conforming to unimodal distributions. The distribution of bare land followed a unimodal pattern on the southern slope but a bimodal pattern on the northern slope. Finally, the use of different slope division methods produced similar vertical belt structures on the southern slope but different ones on the northern slope. Among the three division methods, the sector method was better to reflect the natural distribution pattern of land cover.     

Unplanned urban growth: land use/land cover change in the Guwahati Metropolitan Area,India

Unplanned urban growth, particularly in developing countries has led to changes in land use/land cover (LULC). Numerous Indian cities face problems of unplanned LULC change due to nominal or non-existent planning efforts compounded by rapid urban population growth. The Guwahati Metropolitan Area (GMA) is one such urban centre. The present study assesses the trajectories of LULC change using Landsat imageries acquired in 1976, 1989, 2002 and 2015. Natural and semi natural vegetated area and artificial and natural water bodies decreased while built-up areas, cultivated and managed areas, and natural and semi natural non-vegetated areas increased. The built-up area increased from 23.9 in 1976 to 115.1 km² in 2015 becoming the dominant land cover class accounting for 41.8% of the total geographical area. During this period, natural and semi natural vegetated land were reduced by 88.9 km² at an annual rate of 2.2 km². Over the years there was an increasing trend of built-up land and cultivated and managed areas in the peripheral areas of the city while natural and semi natural vegetated land diminished. Consequently, as in many other developing countries, there is an urgent need for the governmental authorities and other stakeholders to implement effective urban planning policies.     

Geologically constrained changes to landforms caused by human activities in the 20th century: A case study from Fukuoka Prefecture,Japan

Human activity has been recognized to be an important geomorphic agent, and the resulting changes to landforms and land cover are regarded as a global problem. Although there has been much research into the relationships between geomorphic processes and types of land use such as agriculture, mining, and urbanization, it is important to clarify spatiotemporal human impacts on topography on a regional scale when predicting future changes in land cover.This study examined changes in land use to clarify the distribution and impact of anthropogenic changes to landforms, as well as the influence of geology on the extent of these changes. In a case study from Fukuoka Prefecture, Japan, changes in land use over the last century were analyzed using a geographic information system (GIS). The study area, which covers approximately 4930 km², has experienced urban development since 1950 and has a current population of over 5 million. Land use data were prepared using paper-based early editions of topographic maps. Subsequently, the distribution of anthropogenic landforms was evaluated by comparing landforms with regional geological data.GIS analysis using our prepared land use data, landform data, and regional geological data has clarified the following characteristics of the study area. (1) Land uses prior to 1950 were constrained by topographic relief. After 1950, land use was characterized by urban sprawl. Urban areas expanded and contained both higher elevations and steeper slopes at their margins. The relationships between land uses and landforms during this urbanization are unclear. (2) The area of urban land increased in the geological regions with Paleogene sedimentary rocks (PSD) and Mesozoic granitic rocks (GR) during the 20th century. The largest coal mining area in Japan was located in the PSD geological regions, and ancient iron working was common in the GR geological regions, particularly during the 7th century. This result indicates that the land use distribution, especially urban areas in sloping terrain, is related to the regional geology. (3) Deforestation related to land use resulted in steeper terrain in forest land in the PSD and GR geological regions. These changes to landforms in forest areas occurred as a result of rapid urban sprawl and have created many new boundaries between forest areas with steeper slopes and urban areas with gentler slopes. This phenomenon may have caused an increase in the frequency of sediment-related disasters.This case study indicates that predictions of anthropogenic changes to landform, which are important for the assessment of global climate change and natural hazards, must clarify the relationships between land uses, landforms, and regional geology.