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1.
XueYong Zhao XiaoAn Zuo Gang Huang YingXin Huang ShaoKun Wang YaYong Luo WenDa Huang Hao Qu Wei Mao Jie Lian 《寒旱区科学》2010,2(1):0015-0020
Analyses of desertified land and land use change in Naiman County of Inner-Mongolia showed that there was a fluctuated in-crease of rain-fed cropland in the period from 1951 to 1960, then decreased until the middle of the 1990's, then increased again, while irrigated cropland consistently increased. The woodland and build-up land consistently increased while grassland area de-creased. The area of water body increased from 1975 to 1995 and then decreased while river beach decreased. Wetland change fluctuated with a maximum of 303.53km2 in 1995 and a minimum of 62.08 km2 in 2002. Invasion of cropland into river beach does not only change land coverage on the beach, but also the hydrological process of the river systems and deeply influence wa-ter availability. The correlation between cropland and underground water table is negative and significant. Increase of irrigated cropland is the primary cause of water availability reduction. Water table reduction is negatively correlated to cropland. The total desertified land has decreased since 1975. A rapid increase occurred before 1959, but it is difficult to assess the change of deserti-fication due to lack of data from 1959 to 1975. Changes of different types of desertified lands were different. There is no signifi-cant correlation between land use and different types of desertified land, but there is a significant negative correlation between woodland and total desertified land. The correlation between grassland and total desertified land is positive and significant. There is a significant correlation between different land cover and key factors such as water body and annual precipitation, river beach and runoff, area of shifting dune and annual precipitation, and cropland and underground water table. Desertification reversion in Naiman County is fragile and will be even much more fragile due to population growth, rapid land use and climate change. This will lead to continued invasion of irrigated cropland into more fragile ecosystems and reduction of water availability. 相似文献
2.
Land use/cover change is an important theme on the impacts of human activities on the earth systems and global environmental change. National land-use changes of China during 2010–2015 were acquired by the digital interpretation method using the high-resolution remotely sensed images, e.g. the Landsat 8 OLI, GF-2 remote sensing images. The spatiotemporal characteristics of land-use changes across China during 2010–2015 were revealed by the indexes of dynamic degree model, annual land-use changes ratio etc. The results indicated that the built-up land increased by 24.6×10~3 km~2 while the cropland decreased by 4.9×10~3 km~2, and the total area of woodland and grassland decreased by 16.4×10~3 km~2. The spatial pattern of land-use changes in China during 2010–2015 was concordant with that of the period 2000–2010. Specially, new characteristics of land-use changes emerged in different regions of China in 2010–2015. The built-up land in eastern China expanded continually, and the total area of cropland decreased, both at decreasing rates. The rates of built-up land expansion and cropland shrinkage were accelerated in central China. The rates of built-up land expansion and cropland growth increased in western China, while the decreasing rate of woodland and grassland accelerated. In northeastern China, built-up land expansion slowed continually, and cropland area increased slightly accompanied by the conversions between paddy land and dry land. Besides, woodland and grassland area decreased in northeastern China. The characteristics of land-use changes in eastern China were essentially consistent with the spatial govern and control requirements of the optimal development zones and key development zones according to the Major Function-oriented Zones Planning implemented during the 12 th Five-Year Plan(2011–2015). It was a serious challenge for the central government of China to effectively protect the reasonable layout of land use types dominated with the key ecological function zones and agricultural production zones in centraland western China. Furthermore, the local governments should take effective measures to strengthen the management of territorial development in future. 相似文献
3.
Water consumption is a key role in improving the efficiency and sustainability of water management in arid environments.In this study, we explored an approach based on meta-analysis, MODIS NDVI products, land-use spatial distribution, and soil water physical parameters to gain insight into long-term and large scale distribution of land use and water consumption, maintain maximum Zhangye Oasis area according to Heihe River runoff, and suitable water resource management in Zhangye Oasis. This approach was initiated in order to improve the efficiency of irrigation and water resource management in arid regions. Results showed that Heihe River runoff can maintain a maximum Zhangye Oasis area of 22.49×10~4 hm~2.During the 2000-2016 growing seasons, actual oasis water consumption ranged from 11.35×10~8 m~3 to 13.73×10~8 m~3, with a mean of(12.89 ± 0.60)×10~8 m~3; if maintaining agricultural production and oasis stability was chosen, oasis water consumption ranged from 10.24×10~8 m~3 to 12.37×10~8 m~3, with a mean of(11.62 ± 0.53)×10~8 m~3. From the perspective of water resources management and ecosystem stability, it is necessary to reduce the area of Zhangye Oasis or choose the minimum water consumption method to manage the oasis, to ease the pressure of water shortage and maintain stable and sustainable development of the Zhangye Oasis. These results can provide future practical guidance for water resource management of coordinated development of the economy and the environment in an arid area. 相似文献
4.
Over the past few decades,built-up land in China has increasingly expanded with rapid urbanization,industrialization and rural settlements construction.The expansions encroached upon a large amount of cropland,placing great challenges on national food security.Although the impacts of urban expansion on cropland have been intensively illustrated,few attentions have been paid to differentiating the effects of growing urban areas,rural settlements,and industrial/transportation land.To fill this gap and offer comprehensive implications on framing policies for cropland protection,this study investigates and compares the spatio-temporal patterns of cropland conversion to urban areas,rural settlements,and industrial/transportation land from 1987 to 2010,based on land use maps interpreted from remote sensing imagery.Five indicators were developed to analyze the impacts of built-up land expansion on cropland in China.We find that 42,822 km2 of cropland were converted into built-up land in China,accounting for 43.8% of total cropland loss during 1987–2010.Urban growth showed a greater impact on cropland loss than the expansion of rural settlements and the expansion of industrial/transportation land after 2000.The contribution of rural settlement expansion decreased;however,rural settlement saw the highest percentage of traditional cropland loss which is generally in high quality.The contribution of industrial/transportation land expansion increased dramatically and was mainly distributed in major food production regions.These changes were closely related to the economic restructuring,urban-rural transformation and government policies in China.Future cropland conservation should focus on not only finding a reasonable urbanization mode,but also solving the "hollowing village" problem and balancing the industrial transformations. 相似文献
5.
《地理学报(英文版)》2016,(3)
Land use/cover change has been recognized as a key component in global change and has attracted increasing attention in recent decades. Scenario simulation of land use change is an important issue in the study of land use/cover change, and plays a key role in land use prediction and policy decision. Based on the remote sensing data of Landsat TM images in 1989, 2000 and 2010, scenario simulation and landscape pattern analysis of land use change driven by socio-economic development and ecological protection policies were reported in Zhangjiakou city, a representative area of the Poverty Belt around Beijing and Tianjin. Using a CLUE-S model, along with socio-economic and geographic data, the land use simulation of four scenarios–namely, land use planning scenario, natural development scenario, ecological-oriented scenario and farmland protection scenario–were explored according to the actual conditions of Zhangjiakou city, and the landscape pattern characteristics under different land use scenarios were analyzed. The results revealed the following:(1) Farmland, grassland, water body and unused land decreased significantly during 1989–2010, with a decrease of 11.09%, 2.82%, 18.20% and 31.27%, respectively, while garden land, forestland and construction land increased over the same period, with an increase of 5.71%, 20.91% and 38.54%, respectively. The change rate and intensity of land use improved in general from 1989 to 2010. The integrated dynamic degree of land use increased from 2.21% during 1989–2000 to 3.96% during 2000–2010.(2) Land use changed significantly throughout 1989–2010. The total area that underwent land use change was 4759.14 km2, accounting for 12.53% of the study area. Land use transformation was characterized by grassland to forestland, and by farmland to forestland and grassland.(3) Under the land use planning scenario, farmland, grassland, water body and unused land shrank significantly, while garden land, forestland and construction land increased. Under the natural development scenario, construction land and forestland increased in 2020 compared with 2010, while farmland and unused land decreased. Under the ecological-oriented scenario, forestland increased dra-matically, which mainly derived from farmland, grassland and unused land. Under the farmland protection scenario, farmland was well protected and stable, while construction land expansion was restricted.(4) The landscape patterns of the four scenarios in 2020, compared with those in 2010, were more reasonable. Under the land use planning scenario, the landscape pattern tended to be more optimized. The landscape became less fragmented and heterogeneous with the natural development scenarios. However, under the ecological-oriented scenario and farmland protection scenario, landscape was characterized by fragmentation, and spatial heterogeneity of landscape was significant. Spatial differences in landscape patterns in Zhangjiakou city also existed.(5) The spatial distribution of land use could be explained, to a large extent, by the driving factors, and the simulation results tallied with the local situations, which provided useful information for decision-makers and planners to take appropriate land management measures in the area. The application of the combined Markov model, CLUE-S model and landscape metrics in Zhangjiakou city suggests that this methodology has the capacity to reflect the complex changes in land use at a scale of 300 m×300 m and can serve as a useful tool for analyzing complex land use driving factors. 相似文献
6.
ZHONGLinsheng ZHANGYongmin ZHAOShidong KarlE.Rvavec 《地理学报(英文版)》2003,13(4):423-428
Based on GIS and statistical methods, with the help of searching historical literatures and calculating the landscape indices, the land use changes of Qian‘an County in both spatial and temporal aspects from 1945 to 1996 has been analyzed in this paper. And the driving forces of land use changes and their ecological effects are discussed too. The main findings of this study are as follows: (1) Land use changed greatly in Qian‘an during 1945-1996, characterized by a decrease in grassland, wetland and water bodies, and an increase in cultivated land, saline-alkali land, and the land for housing and other construction purposes. Grassland decreased by 175,828.66 ha, and cultivated land increased by 102,137.23 ha over the half century. Accordingly, the main landscape type changed from a steppe landscape to a managed agricultural ecosystem. (2) Results of correlation analysis show that the land use change in the study area was mainly driven by the socioeconomic factors. (3) The ecological effects of land use change in the area are characterized by serious salinization, degression of soil fertility and the weakening, of landscaoe suitability. 相似文献
7.
《地理学报(英文版)》2019,(8)
Urban land intensive use is an important indicator in harmonizing the relationship between land supply and demand. The system dynamics(SD) can be used to construct the feedback loop between urban construction land supply and demand and index variable function. Based on this, this study built a supply and demand system dynamic model of urban construction land for Chang-Zhu-Tan urban agglomeration. This model can simulate the change trends of supply and demand of construction land, industrial land, and residential land in 2016–2030 by three scenarios of low, medium, and high intensity modes. The results showed that the scale of construction land of urban agglomeration is expanding, with a rapid increase rate for the urban construction land. The scale and speed of land use based on the three intensity modes existed differences. The large scale and supply of construction land in the low intensity mode caused easily the waste of land resources. In high intensity mode, the scale and supply of construction land were reduced against the healthy development of new-type urbanization. In the medium intensity mode, the scale and supply of land use adapted to the socio-economic development and at the same time reflected the concept of modern urban development. In addition, the results of this study found that the proportion of industrial land in construction land ranged from 15% to 21%, which increased year by year in the low intensity mode, and decreased slowly and stabilized in medium and high intensity modes. The proportion of residential land in construction land ranged from 27% to 35%, which decreased in the low and the medium intensity modes, and maintained a high level in the higher intensity mode. This study contributes to provide scientific reference for decision-making optimization of land supply and demand, urban planning, and land supply-side reform. 相似文献
8.
Land degradation has been rapidly taking place in source region of the Yellow River in China. This study was conducted during 2008 in Maduo County to investigate soil and plant changes in relation to land degradation. Several results were derived from this work. First, the soil organic carbon (SOC) and total nitrogen (TN) decreased significantly on the extremely degraded land comparing with the natural grassland. Second, soil bulk density increased as land degradation worsened. Soil bulk density of the extremely degraded land was significantly greater than that of the grassland. Third, pH showed no obvious variation pattern. Finally, aboveground biomass decreased from grassland to the moderately degraded land. But aboveground biomass increased on the extremely degraded land and very extremely degraded land with most aboveground biomass inedible for livestock. 相似文献
9.
《地理学报(英文版)》2018,(8)
Land expansion of mountain cities in China is not systematically studied yet.This study identified 55 major mountain cities at and above prefecture level,and analyzed the land expansion characteristics and driving forces,based on visually interpreted data from TM images in 1990,2000,2010 and 2015.From 1990 to 2015,total built-up land area of the mountain cities increased by 3.87 times,5.56%per year.The urban land growth was apparently accelerated after 2000,from 4.35%per year during 1990–2000 increased to 6.47%during 2000–2010 and 6.2%during 2010–2015.Compared to the urban population growth,the urban land expansion rate was 44% higher.As a result,the urban land area per capita increased,but it was still within the government control target,and also was much lower than the average of all cities in China.Urban development policy,changes to administrative divisions,GDP and population growth,and road construction were identified as the major driving forces of land expansion.Terrain conditions were not found a relevance to the urban land expansion rate during 1990–2015,but had a significant impact on the layout and shape,and also probably on the urban land efficiency. 相似文献
10.
The characteristics of oasis urban expansion and drive mechanism analysis: a case study on Ganzhou District in Hexi Corridor, China 总被引:1,自引:1,他引:0
HuaLi Tong PeiJi Shi GuoFeng Zhu April Pearson QianGuo Li YuanFeng Liu HaiLong Liu 《寒旱区科学》2015,7(3):282-292
Ganzhou District is an oasis city in the Zhangye Municipality of Gansu Province,China.Based on multi-temporal TM and ETM satellite remote sensing data in 1985,1996,2000,and 2012,and by using corrected figures of land use status over the same periods,the spatial area of Ganzhou District since 1985 was extracted with statistical methods,and urban spatial expansion was measured by quantitative research methods.The characteristics of spatial expansion of Ganzhou District were analyzed by urban expansion rate,expansion intensity index,compactness,fractal dimension,and the city center shift method.The results showed that the built-up area of Ganzhou District increased by 3.46 times during 1985–2012.The expansion in 1985–1996 was slow,during 1996–2000 it was rapid,and during 2000–2012 it was at a high speed.This city mainly expanded to the northeast and northwest.Government decision making had a decisive influence on urban expansion.Initially the expansion was uniform,but later the local transportation,economy,resources,population,and national policies factors had an obvious influence on urban expansion. 相似文献
11.
Taking two false color composite Landsat 5 TM (Thematic Mapper) images of band 4,3,2 taken in 1995 and 2000 as data resources, this paper carried out study on LUCC of Zhangye oasis in recent five years by interpretation according to land resources classification system of 1:100,000 Resources and Environmental Database of the Chinese Academy of Sciences. The results show that great changes have taken place in landuse/landcover in Zhangye oasis since 1995: (1) Changes of landuse structure show that cropland and land for urban construction and built-up area increased, on the contrary, water area and grassland decreased. These changes reflect the deterioration of eco-environment and the acceleration of urbanization, and also indicate the problems existing in the arrangement of water and land resources between the upper and lower reaches of the Heihe River. (2) Regional differences of landuse/landcover are evident, characterized by following aspects: in Sunan County located in Qilian Mountain area, unused land and grassland decreased, but cropland and land for urban construction and built-up area increased. In Minle and Shandan counties located in foothills, unused land, water area and cropland decreased, but grassland and land for urban construction and built-up area increased. In Zhangye City, Linze County and Gaotai County located in plain area of the middle reaches of the Heihe River, unused land, water area and grassland decreased, while woodland, cropland and land for urban construction and built-up area increased. 相似文献
12.
以海伦市1986年,1995年和2007年3期TM影像为基础数据,在RS与GIS技术支持下,运用马尔科夫转移矩阵、单一土地利用类型动态度和景观空间格局分析方法对沿海市土地利用变化、景观格局特征进行研究,并分析了土地利用变化的驱动力。结果表明,①旱田和水田面积一直处于增长状态,增长速率由快变缓,主要由林地、草地和未利用土地转换而来。②林地、草地和未利用土地面积持续下降;城镇建设用地和农村建设用地的面积一直保持着增加态势,增长速率由缓变快,使得土地利用强度有所上升。③景观格局变化主要表现为,优势度整体上升、景观多样性整体呈现下降的趋势,城乡建设用地的类斑近圆指数最大,林地、未利用土地和水域斑块破碎度增加。④人为因素中的人口增长、经济发展、政府生态环境保护和农业可持续发展的政策在土地利用变化中起重要作用。该研究对于合理利用土地资源和农业可持续发展具有重要意义。 相似文献
13.
共和盆地龙羊峡库区1987-1999年间土地覆被变化过程 总被引:9,自引:7,他引:9
利用多时相多光谱遥感数据,针对研究区环境特点及已有研究程度,综合最大似然法监督分类、基于地理知识的多尺度空间分层聚类的部分监督分类方法和主成分方法,分析了位于黄河上游的龙羊峡水库库区1987—1999年间土地利用和覆盖变化过程。结果表明:①库区土地利用与土地覆盖总趋势是土地退化、覆盖度降低,此期间各盖度草场面积共减少500.82 km2,年均减少41.73 km2,其中高盖度草场退化最为严重,13 a间来面积减少361.25 km2,年均减少30.10 km2;土地沙漠化发展速度很快,13 a间沙地面积增加了219.81 km2,年均增加18.32 km2。②库区草场退化,土地沙漠化日趋严重,高盖度草场退化为中盖度草场的面积为70.29 km2,沙漠化面积为60.96 km2;中盖度草场退化为低盖度草场的面积为34.31 km2,沙漠化面积为80.75 km2;低盖度草场退化为沙地的面积为76.50 km2。③库区土地利用、土地覆盖变化在地域空间上具有较大差异性,土地利用、土地覆盖变化最为显著、强烈的区域为黄河西岸的塔拉滩,草场总面积减少215.43 km2,占全区草场退化量的43%;水浇地面积增加32.50 km2,是全区内水浇地面积增幅最大的区域,占全区水浇地增加量的51%;沙地面积扩大158.41 km2,年均增长率为13.2%。河卡滩土地利用类型变化幅度是全区最小的,有些类型基本没有发生变化。分析库区土地利用、土地覆盖变化的主要因素在于自然因素,但从局部区域来看,人为因素在环境变化中起着主导性作用。 相似文献
14.
冷凉型绿洲是干旱区的主要景观类型之一,其景观结构的变化机制是理解干旱区生态环境变化的重要补充。位于祁连山北麓的冷凉绿洲(张掖市民乐县)是干旱区具有代表性的区域,在黑河流域具有重要的生态功能。据此,本文以1987、1995、2000、2005年的TM数据为信息源,采用景观结构的分析方法,分析了该绿洲1987—2005年间的景观变化。结果表明:在干旱区的冷凉型绿洲中,农田是景观优势斑块类型,斑块面积占研究区的比例为28.6%~34.6%。景观斑块类型的转化主要发生在农田和草地之间,1987—2005年间农田转换为草地的比例为43.6%,而草地转换为农田高达72.9%。与同期平原型绿洲景观变化特点相比较,冷凉型绿洲的农田面积扩增速度大于平原型绿洲。分布面积最小的水域和居工地斑块有最高的景观变化速率,说明该干旱区河流水文过程季节性变化和持续的城镇化过程对该类景观类型的影响显著。 相似文献
15.
内蒙古高原浑善达克沙地区土地利用与覆被变化及退化趋势 总被引:2,自引:0,他引:2
浑善达克沙地及其周边地区是我国北方沙尘暴多发区之一,该区的土地利用与覆被变化反映了一系列的环境与社会经济问题。基于卫星遥感信息和空间数据处理技术,并结合地面实地调查资料、气象观测和社会经济数据,得出了20世纪80年代末至90年代末这一地区土地利用与覆被变化情况。结果表明:耕地、建设用地和未利用地明显增加,草地和水域减少,变化面积最大的是草地,有944.42 km2的草地转变为其他用地类型;从变化速率来看,最快的是建设用地,增加了19.8%,其次是耕地,增加10.2%。土地利用转变的主要类型是草地向耕地和未利用地的转变,及耕地向建设用地的转变;呈退化趋势的土地面积近3倍于恢复土地面积。就土地利用与覆被变化的社会经济背景进行了深入分析。 相似文献
16.
干旱区绿洲扩展过程中的景观变化分析 总被引:1,自引:0,他引:1
绿洲化过程中的景观变化和尺度效应是景观生态学研究的热点之一。针对这一目标以黑河中游张掖绿洲为研究区域,应用“3S”技术的缓冲分析方法,以绿洲标志景观类型农田、林地和湿地为核心,确定了不同时期绿洲范围并划分了老绿洲区和新增绿洲区。在此基础上,从景观组成动态和斑块连通度的尺度依赖特征两个方面分析了绿洲化过程中的景观变化机制和尺度效应。研究结果表明,绿洲化过程是以农田和建设用地斑块动态为主要特点。主要表现为:在不同的分区中,农田斑块以总面积和最大斑块指数增加为特点,说明农田斑块趋向集中连片分布;建设用地斑块总面积、斑块密度和最大斑块指数等3个指标都为增加,在景观上呈星点状扩张分布。老绿洲与新增绿洲的比较分析显示,新增绿洲的建设用地面积增加速率小于老绿洲,而农田面积的增加速率大于老绿洲。从景观斑块连通度的尺度依赖特点来看,在老绿洲中景观斑块类型的空间尺度依赖规律明显,但在时间尺度上的变化不显著;在新增绿洲内,林地、水域和建设用地的尺度依赖性比老绿洲高,其中林地、建设用地的空间变化规律明显,在时间尺度上无明显的差异;而水域斑块的尺度依赖性1985年高于2006年。 相似文献
17.
河西走廊张掖绿洲LUCC的驱动力分析 总被引:18,自引:2,他引:16
利用1995和2000年Landsat 5、4、3、2(RGB)波段合成影像解译结果,采用中国科学院资源环境数据库中的中国1:10万土地资源利用分类系统,对河西走廊中段的张掖绿洲的土地利用/覆被变化(LUCC)进行了研究。并运用典型相关分析方法对张掖绿洲LUCC及其影响因子进行了统计分析,诊断出各影响因子对该区LUCC的贡献作用大小,同时运用典型相关系数和冗余度分析,检验了分析结果。 相似文献
18.
土地利用变化的地形梯度特征与空间扩展——以北京市海淀区和延庆县为例 总被引:12,自引:2,他引:10
选择北京市海淀区、延庆县作为研究区,利用1992年、2002年遥感影像数据,借用地形位梯度指数,研究了土地利用变化的地形梯度特征及其空间扩展形势。研究表明:(1)海淀区建设用地受到经济和社会发展驱动明显,表现出既向低地形梯度位也向高地形梯度位扩展;但农业用地、果园因建设用地扩展受到挤压,表现为向更高地形位扩展态势;林地在高地形位得到了明显恢复,也有向更低的地形位扩张的趋势,但灌草地和未利用地在中高地形位受到林地挤压,低地形位受到农业用地、果园挤压,优势地形位明显萎缩;(2)延庆县建设用地扩展受地形位驱动作用明显,主要集中在低地形位区域;农业用地主要分布在较低地形位上,变化不大;果园在经济发展需求驱动下,向更高地形位扩展;林地在较高地形位得到较好恢复,对灌草地、未利用地产生了挤压作用,使得灌草地、未利用地在中高地形位的优势度降低,优势分布区间趋于萎缩。 相似文献
19.
徐州煤矿区土地利用变化分析 总被引:5,自引:0,他引:5
以3 个时相的卫星遥感图像TM 为主要数据源, 利用神经网络分类法进行监督分类, 获得1987-2003 年间徐州煤矿区土地利用变化的基础数据。由此计算出土地利用类型的动态转移矩阵、土地利用程度变化指数、动态度指数、土地利用变化类型的多度和重要度指数等区域土地利用变化的指数模型, 定量分析该区土地利用变化情况。结果显示: ① 建设用地和水体的面积均保持持续上升的势头; 耕地呈现持续下降态势; 林地先减少后增加; 未利用地面积则呈现出先增加后减少态势。② 在1987-2003 年间, 建设用地和未利用地都主要转向耕地。在1987-1994 年间, 水体主要向林地转移; 耕地主要转向未利用地和建设用地; 林地主要转向耕地。在1994-2003 年间, 水体的转移比例很小; 耕地主要转向未利用地和林地; 林地主要转向水体。③ 在1987-2003 年间, 该区土地利用变化的剧烈程度很大, 并且其土地利用正处于一个衰退期。④ 在1987-1994 年间, 主要的土地利用变化类型分别是: 未利用地与耕地、耕地与建设用地之间的相互转化。在1994-2003 年间, 主要的土地利用变化类型分别是: 耕地转化为未利用地、耕地转化为林地、未利用地转化为耕地、耕地转化为建设用地。 相似文献