基于主体功能区规划的中国城乡建设用地扩张时空特征遥感分析（英文）

China had implemented the national strategies for Major Function-oriented Zones(MFOZs)to realize the goal of national sustainable development since 2010.This study analyzed and compared spatio-temporal characteristics and differences in built-up area for China’s MFOZs using a China’s Land Use Database(CLUD)derived from high-resolution remotely sensed images in the periods of 2000–2010 and 2010–2013.To sum up:(1)The percentage of built-up area in each of the MFOZs was significantly different,revealing the gradient feature of national land development based on the distribution of the main functions.(2)Annual growth in built-up area in optimal development zones(ODZs)decreased significantly during 2010–2013 compared with the period 2000–2010,while annual growth in built-up area in key development zones(KDZs),agricultural production zones(APZs)and key ecological function zones(KEFZs)increased significantly.(3)In ODZs,the average annual increase in built-up area in the Yangtze River Delta region was significantly higher than in other regions;the average area increase and rate of increase of built-up area in KDZs was faster in the western region than in other regions;average annual area growth of built-up area in APZs in the northeast,central and western regions was twice as high as the previous decade on average;the annual rate of change and increase in the dynamic degree of built-up area were most notable in KEFZs in the central region.(4)The spatial pattern and characteristics of built-up area expansions in the period 2010–2013 reflected the gradient feature of the plan for MFOZs.But the rate of increase locally in built-up area in ODZs,APZs and KEFZs is fast,so the effective measures must be adopted in the implementation of national and regional policies.The conclusions indicated these methods and results were meaningful for future regulation strategies in optimizing national land development in China.     

新疆城乡建设用地动态变化的时空特征分析

利用20世纪80年代末和90年代末两个时期的LandsatTM卫星影象,运用空间分析和统计分析方法,分析了新疆城乡建设用地变化的时空特征。结果表明:①在这10年的时间里,新疆城乡建设用地扩展明显,其中城镇用地增长迅速。城乡建设用地类型及其结构变化在东疆、南疆和北疆三大区域和县(市)级区域存在明显的差异。②新疆城乡建设用地扩张以占用耕地和草地为主。③新疆城乡建设用地变化驱动因素主要是人口增长、国民经济的增长、第三产业的发展。     

基于遥感数据的建三江垦区城镇用地扩张时空特征及驱动力分析

在RS和GIS的支持下集成多源数据,重建了建三江垦区下辖农场1990年、2000年、2010年和2015年4个时期的城镇用地格局。应用动态度模型等探讨了建三江垦区城镇用地扩张的时空特征及区域差异,分析了其驱动因素。结果表明：① 1990~2015年,建三江垦区城镇用地面积增加了3 237.5 hm²,平均扩张速率为130 hm²/a,扩张速率最显著的阶段是2000~2010年。② 垦区下辖农场城镇用地扩张时空差异明显,建三江管局所在城镇扩张面积最大;浓江农场扩张相对比例最大;动态度模型分析发现二道河农场扩张速度最快,勤得利农场的城镇用地扩张速率最慢,扩张面积最小。③ 建三江垦区以农场为城镇单元的建设用地扩张模式主要为线性轴状扩张。④ 城镇人口数量、经济水平的不断提升、产业结构的优化与区域政策极大地促进了垦区城镇用地的扩张,交通条件是城镇扩张速率和模式的重要影响因素。     

2010-2015年中国土地利用变化的时空格局与新特征

土地利用/覆被变化是人类活动对地球表层及全球变化影响研究的重要内容。本文基于Landsat 8 OLI、GF-2等遥感图像和人机交互解译方法,获取的土地利用数据实现了中国2010-2015年土地利用变化遥感动态监测。应用土地利用动态度、年变化率等指标,从全国和分区角度揭示了2010-2015年中国土地利用变化的时空特征。结果表明：2010-2015年中国建设用地面积共增加24.6×10³ km²,耕地面积共减少4.9×10³ km²,林草用地面积共减少16.4×10³ km²。2010-2015年与2000-2010年相比,中国土地利用变化的区域空间格局基本一致,但分区变化呈现新的特征。东部建设用地持续扩张和耕地面积减少,变化速率有所下降;中部建设用地扩张和耕地面积减少速度增加;西部建设用地扩张明显加速,耕地面积增速进一步加快,林草面积减少速率增加;东北地区建设用地扩展持续缓慢,耕地面积稳中有升,水旱田转换突出,林草面积略有下降。从“十二五”期间国家实施的主体功能区布局来看,东部地区的土地利用变化特征与优化和重点开发区的国土空间格局管控要求基本吻合;中部和西部地区则面临对重点生态功能区和农产品主产区相关土地利用类型实现有效保护的严峻挑战,必须进一步加大对国土空间开发格局的有效管控。     

基于遥感监测的广州市建设用地时空变化

基于1996、2000、2005和2011年4期TM遥感影像,利用ArcGIS空间分析功能,研究了广州市建设用地时空变化状况。结果表明,研究时段内广州市建设用地共扩展413.44 km2,属快速扩展时期,且扩张速度越来越快。建设用地斑块个数、平均斑块面积、最大斑块指数和紧凑度越来越大。增城区和从化市等建设用地主要呈零星式和蔓延式扩张,而市辖区、番禺区、南沙区和花都区建设用地主要呈填充式和蔓延式发展;建设用地扩张以东南方向（番禺区、南沙区）和西北方向（花都区）为主,其次为增城区和从化市。人口增长、经济发展、规划与政策和交通建设是影响广州市建设用地扩展的主要驱动力因素。     

新疆天山北坡经济带城乡建设用地动态变化的时空特征

土地利用变化具有明显的时空特性,是当前国际上开展土地利用／土地覆盖研究的重要内容。通过利用20世纪80年代末和90年代末两个时段的Landsat TM卫星影像,运用GIS空间分析和EXCEL统计分析方法,分析了新疆天山北坡经济带城乡建设用地变化的时空特征及其主要驱动力。结果表明：（1）在这10年的时间里,区域城乡建设用地增长较快,其中特大城市（乌鲁木齐市）和中等城市用地增长迅速。（2）区域城乡建设用地扩张以占用草地和耕地为主。同时,城乡建设用地类型及其结构变化在17市县存在明显的差异。（3）天山北坡经济带城乡建设用地变化是自然和社会经济两大因素共同作用的结果,人口增长、国民经济的增长、工业的发展和政府政策是区域城乡建设用地变化的主要驱动因素。     

太湖流域城乡建设用地扩张热区与洪涝危险性评价

城乡建设用地变化及其与环境系统关联机制是流域土地可持续利用的重点方向。采用多期数据及空间分析技术,揭示太湖流域城市化进程最为迅速时期的城乡用地扩张特征及其洪涝危险性。结果表明:1985—2010年城乡用地扩张增量高达5 406. 02 km~2,扩张增率2000年后急剧上升,以大城市为核心集聚型扩张,上海及沿沪宁线扩张热区持续增加,而沪杭线及沿江扩张热区动态变化;城乡用地扩张从洪涝危险低级区向高级区转移,呈现趋势不明型、低增高减-低减高增型以及低减高增型3种类型,而高危险区新增用地有66. 2%来自新区开发;城乡建设用地需求与低洪涝危险区有限供给的矛盾是主因,城镇发展与土地利用政策演变是主推力。高危险区城乡扩张给其自身及其下游都带来更高的洪涝威胁和防洪投资,建议重点研究新区用地优化与海绵设施建设。     

中国城乡建设占用耕地的时空格局及形成机制

描绘了1996-2006年间中国城乡建设用地增长及其占用耕地的时空特征,探讨了城乡建设占用耕地的驱动机制。研究发现：人口流动为主的城镇化模式导致农业转移人口在城乡“两头占地”,这是中国城乡建设用地持续扩张的主要根源;各类开发区的设立和扩张都以占用耕地为主,对城乡建设占用耕地的贡献超过一半;而城市和镇的扩张速度更慢、土地来源更为多元。实证结果表明,投资和产出增长的差异性对城乡建设及其耕地占用的时空格局起到了关键作用;中西部地区的基础设施建设占用了大量耕地,但对区域经济发展和人口集聚的带动作用有限;以开发区为载体的产业集聚发展模式有利于中西部地区的土地集约利用和耕地保护,而东部沿海地区的省级开发区则容易成为地方政府的圈地运动。土地集约利用和耕地保护政策应重点解决农业转移人口城乡同时占地的问题,发挥城镇化的节地效应,并强化政策的区域差异性和针对性。     

基于主体功能区规划的中国城市化地区生态功能评估

从县域尺度对中国主要城市化地区生态功能开展后评估研究,分析城市化地区生态功能指数与第三级指标的相关性,对生态功能明显衰退地区提出政策建议。结果表明:2009-2015年,"两横三纵"城市化战略格局生态功能中高水平区县占比从78.68%降低至68.13%;优化开发区域生态功能中高水平区县占比由53.85%减少至37.28%,明显降低区域主要分布于京津冀东南部、环渤海地区;重点开发区域生态功能中高水平区县占比由73.78%降低至69.21%,明显降低区域分布在中原城市群和东北地区。生态退化的城市化地区均伴随不同程度的生境质量指数降低、生态空间减少、开发强度以及人口密度增加现象。生态功能与第三级指标的相关性由大到小依次为生态空间占比>生境质量指数>开发强度>人口密度。建议强调发展控制,加强生态保护,实施分区分类管控,健全不同主体功能区差异化协同发展长效机制。     

长沙市区建设用地扩张的时空特征

以不同时段的遥感影像资料为数据源,借助GIS技术对空间数据的统计及分析功能,提取出6个时期长沙市建成区变化的相关数据信息。在此基础上,利用扩张速度、扩张弹性、分维数、玫瑰图等方法分析长沙市区1986~2004年建设用地扩张的时空特征。结果表明,近20年来,长沙城市建设用地扩张了将近1倍,尤其是2002~2004年,建设用地扩张趋势最为明显。现阶段城市的扩张主要表现为低密度填充式的蔓延,城区扩张方向的主要方位是NW270°~295°和SE165°~180°。建设用地扩张的驱动因素除经济发展及人口增长因素之外,政策也是重要的影响因素,尤其是近年来政策因素的作用更为突出。未来长沙城市的空间发展将是多中心组团式的扩张,城市扩张方向日趋合理化。     

Examining the influence of the implementation of Major Function-oriented Zones on built-up area expansion in China

China had implemented the national strategies for Major Function-oriented Zones (MFOZs) to realize the goal of national sustainable development since 2010. This study analyzed and compared spatio-temporal characteristics and differences in built-up area for China’s MFOZs using a China’ s Land Use Database (CLUD) derived from high-resolution remotely sensed images in the periods of 2000–2010 and 2010–2013. To sum up: (1) The percentage of built-up area in each of the MFOZs was significantly different, revealing the gradient feature of national land development based on the distribution of the main functions. (2) Annual growth in built-up area in optimal development zones (ODZs) decreased significantly during 2010–2013 compared with the period 2000–2010, while annual growth in built-up area in key development zones (KDZs), agricultural production zones (APZs) and key ecological function zones (KEFZs) increased significantly. (3) In ODZs, the average annual increase in built-up area in the Yangtze River Delta region was significantly higher than in other regions; the average area increase and rate of increase of built-up area in KDZs was faster in the western region than in other regions; average annual area growth of built-up area in APZs in the northeast, central and western regions was twice as high as the previous decade on average; the annual rate of change and increase in the dynamic degree of built-up area were most notable in KEFZs in the central region. (4) The spatial pattern and characteristics of built-up area expansions in the period 2010–2013 reflected the gradient feature of the plan for MFOZs. But the rate of increase locally in built-up area in ODZs, APZs and KEFZs is fast, so the effective measures must be adopted in the implementation of national and regional policies. The conclusions indicated these methods and results were meaningful for future regulation strategies in optimizing national land development in China.     

20世纪80年代末以来中国土地利用变化的基本特征与空间格局

土地利用/土地覆被变化（LUCC）是人类活动与自然环境相互作用最直接的表现形式,本文采用相同空间分辨率的卫星遥感信息源和相同的技术方法,对中国1980 年代末到2010 年土地利用变化数据进行定期更新。在此基础上,提出并发展土地利用动态区划的方法,研究土地利用变化的空间格局与时空特征。我们发现：1990-2010 年的20 年间,中国土地利用变化表现出明显的时空差异。“南减北增,总量基本持衡,新增耕地的重心逐步由东北向西北移动”是耕地变化的基本特征;“扩展提速,东部为重心,向中西部蔓延”是城乡建设用地变化的基本特征;“林地前减后增,荒漠前增后减,草地持续减少”是非人工土地利用类型变化的主要特征。20 世纪末与21 世纪初两个10 年相比,中国土地利用变化空间格局出现了一些新特征,原有的13 个土地利用变化区划单元演变为15 个单元,且部分区划单元边界发生变化。主要变化格局特征为黄淮海地区、东南部沿海地区、长江中游地区和四川盆地城镇工矿用地呈现明显的加速扩张态势;北方地区耕地开垦重心由东北地区和内蒙古东部转向西北绿洲农业区;东北地区旱作耕地持续转变为水田;内蒙古农牧交错带南部、黄土高原和西南山地退耕还林还草效果初显。近20 年间,尽管气候变化对北方地区的耕地变化有一定的影响,但政策调控和经济驱动仍然是导致我国土地利用变化及其时空差异的主要原因。2000 年后的第一个10 年,土地利用格局变化的人为驱动因素已由单向国土开发为主,转变为开发与保护并重。在空间格局变化的分析方法方面,应用“动态区划法”开展世纪之交两个10 年中国LUCC空间格局变化的分析,有效揭示了20 年来中国LUCC“格局的变化过程”,即动态区划边界的推移、区划单元内部特征的变化与单元的消长等;以及“变化过程的格局”,即土地利用变化过程与特征的分阶段区域差异,清晰刻画了LUCC动态区划中区划单元的消长,单元边界的变动,以及前后10 年的变化强度特征,揭示了土地利用“格局”与“过程”之间的交替转化规律,以及不同类型和区域的变化原因,证明了该分析方法的有效性。     

2000～2015年中国人工表面变化遥感监测分析

基于时间序列遥感数据获取的多期土地覆被数据对中国人工表面变化信息进行提取和定量评价,进一步分析中国各省市的人均人工表面面积变化趋势,以及7个主要城市群的人工表面变化情况,结果可知:① 2015年中国人工表面的面积总和为29.07万km ²,其中建设用地25.10万km ²、交通用地3.09万km ²、采矿场0.88万km ²;② 2015年人工表面总面积较2010年年均增长为0.66万km ²,年均增速为2.57%,较2000~2010年年均增长0.55万km ²（年均增速2.70%）增速有所放缓。③ 总体上中国大部分行政区的人均人工表面面积近15 a持续提高。     

Forest Cover Change in the Toledo District,Belize from 1975 to 1999: A Remote Sensing Approach*

Measuring land‐cover change is an essential part of sustainable conservation planning. This project uses Landsat MSS and ETM+ data to document forest cover change in the Toledo District, Belize, from 1975 to 1999 and provides an initial assessment of why these changes took place. Supervised and subpixel classification methods were employed. The results showed an aggregate forest loss of almost 10 percent, which is approximately 36,000 ha. Deforestation expanded significantly in the most populous Mayan areas of central Toledo District and along the Guatemalan border. Subpixel classification results showed that in 1999 the most densely forested areas were in northern Toledo District in the Maya Mountains.     

Spatiotemporal characteristics,patterns, and caus-es of land-use changes in China since the late 1980s

Land-use/land-cover changes (LUCCs) have links to both human and nature interactions. China's Land-Use/cover Datasets (CLUDs) were updated regularly at 5-year intervals from the late 1980s to 2010,with standard procedures based on Landsat TM\ETM+ images. A land-use dynamic regionalization method was proposed to analyze major land-use conversions. The spatiotemporal characteristics,differences,and causes of land-use changes at a national scale were then examined. The main findings are summarized as follows. Land-use changes (LUCs) across China indicated a significant variation in spatial and temporal characteristics in the last 20 years (1990-2010). The area of cropland change decreased in the south and increased in the north,but the total area remained almost unchanged. The reclaimed cropland was shifted from the northeast to the northwest. The built-up lands expanded rapidly,were mainly distributed in the east,and gradually spread out to central and western China. Woodland decreased first,and then increased,but desert area was the opposite. Grassland continued decreasing. Different spatial patterns of LUC in China were found between the late 20th century and the early 21st century. The original 13 LUC zones were replaced by 15 units with changes of boundaries in some zones. The main spatial characteristics of these changes included (1) an accelerated expansion of built-up land in the Huang-Huai-Hai region,the southeastern coastal areas,the midstream area of the Yangtze River,and the Sichuan Basin;(2) shifted land reclamation in the north from northeast China and eastern Inner Mongolia to the oasis agricultural areas in northwest China;(3) continuous transformation from rain-fed farmlands in northeast China to paddy fields;and (4) effectiveness of the "Grain for Green" project in the southern agricultural-pastoral ecotones of Inner Mongolia,the Loess Plateau,and southwestern mountainous areas. In the last two decades,although climate change in the north affected the change in cropland,policy regulation and economic driving forces were still the primary causes of LUC across China. During the first decade of the 21st century,the anthropogenic factors that drove variations in land-use patterns have shifted the emphasis from one-way land development to both development and conservation.The "dynamic regionalization method" was used to analyze changes in the spatial patterns of zoning boundaries,the internal characteristics of zones,and the growth and decrease of units. The results revealed "the pattern of the change process," namely the process of LUC and regional differences in characteristics at different stages. The growth and decrease of zones during this dynamic LUC zoning,variations in unit boundaries,and the characteristics of change intensities between the former and latter decades were examined. The patterns of alternative transformation between the "pattern" and "process" of land use and the causes for changes in different types and different regions of land use were explored.     

Spatiotemporal characteristics,patterns and causes of land use changes in China since the late 1980s简

Land-use/land-cover changes （LUCCs） have links to both human and nature inter- actions. China＇s Land-Use/cover Datasets （CLUDs） were updated regularly at 5-year inter- vals from the late 1980s to 2010, with standard procedures based on Landsat TM／ETM＋ im- ages. A land-use dynamic regionalization method was proposed to analyze major land-use conversions. The spatiotemporal characteristics, differences, and causes of land-use changes at a national scale were then examined. The main findings are summarized as fol- lows. Land-use changes （LUCs） across China indicated a significant variation in spatial and temporal characteristics in the last 20 years （1990-2010）. The area of cropland change de- creased in the south and increased in the north, but the total area remained almost un- changed. The reclaimed cropland was shifted from the northeast to the northwest. The built-up lands expanded rapidly, were mainly distributed in the east, and gradually spread out to central and western China. Woodland decreased first, and then increased, but desert area was the opposite. Grassland continued decreasing. Different spatial patterns of LUC in China were found between the late 20th century and the early 21st century. The original 13 LUC zones were replaced by 15 units with changes of boundaries in some zones. The main spatial characteristics of these changes included （1） an accelerated expansion of built-up land in the Huang-Huai-Hai region, the southeastern coastal areas, the midstream area of the Yangtze River, and the Sichuan Basin; （2） shifted land reclamation in the north from northeast China and eastern Inner Mongolia to the oasis agricultural areas in northwest China; （3） continuous transformation from rain-fed farmlands in northeast China to paddy fields; and （4） effective- ness of the ＂Grain for Green＂ project in the southern agricultural-pastoral ecotones of Inner Mongolia, the Loess Plateau, and southwestern mountainous areas. In the last two decades, although climate change in the north affected the change in cropland, policy regulation and economic driving forces were still the primary causes of LUC across China. During the first decade of the 21st century, the anthropogenic factors that drove variations in land-use pat- terns have shifted the emphasis from one-way land development to both development and conservation. The ＂dynamic regionalization method＂ was used to analyze changes in the spatial patterns of zoning boundaries, the internal characteristics of zones, and the growth and decrease of units. The results revealed ＂the pattern of the change process,＂ namely the process of LUC and regional differences in characteristics at different stages. The growth and decrease of zones during this dynamic LUC zoning, variations in unit boundaries, and the characteristics of change intensities between the former and latter decades were examined. The patterns of alternative transformation between the ＂pattern＂ and ＂process＂ of land use and the causes for changes in different types and different regions of land use were explored.     

基于DMSP/OLS夜间灯光数据提取城镇建设用地的邻域分析法

为提高城镇建设用地提取的精度,文章提出一种基于DMSP/OLS夜间灯光数据邻近象元特征差异的提取城镇建设用地的邻域分析方法。该方法主要是通过栅格运算识别建设用地和非建设用地的突变,结合阈值法准确提取建设用地边界。将该方法应用于2009年中国大陆34个主要城市的建设用地提取,并与基于TM数据以及基于DMSP/OLS数据传统全局阈值法和局部优化法提取的建设用地进行比较。结果显示,该方法提取的建设用地象元数与TM影像提取的象元数呈较好的相关性(R2=0.966),均方根误差为191.64个象元,相对精度为82.79%,景观形状指数、聚集度指数、边缘面积比指数和连接度指数也具有较高的相似性(R2分别为0.475 4、0.366 2、0.858 9和0.915 3)。该方法不仅能准确识别大面积的城市建设用地斑块边界,而且不会漏掉小面积的城市建设用地斑块,克服了传统全局阈值法和局部优化法的缺点。     

基于RS和GIS的城市化进程中河道时空演变分析——以深圳市布吉河为例

为研究城市化对城市河道的影响,论文选择处于粤港澳大湾区的典型高度城市化流域布吉河流域为研究区,基于1988-2015年10期Landsat系列遥感影像、2003-2017年9期Google Earth高分辨率遥感影像、2019年深圳市水系图以及1980年以来的河道整治相关文献,应用RS和GIS技术,构建城市河道演变特征...     

2015—2020年中国土地利用变化遥感制图及时空特征分析

持续地开展国家尺度土地利用/覆盖变化遥感监测对于新时代国土空间规划和“美丽中国”蓝图绘制具有重要的科学价值。本文采用Landsat 8 OLI、GF-2等卫星遥感数据,融合遥感大数据云计算和专家知识辅助人机交互解译方法,研发了中国土地利用变化（2015—2020年）和2020年土地利用现状矢量数据（CLUD 2020）,建立了完整的30 a（20世纪80年代末—2020年）每隔5 a的30 m分辨率中国土地利用动态数据库。基于CLUD 2020数据,从全国和区域两个尺度揭示了2015—2020年中国土地利用变化的总体规律、区域分异和主要特征。研究表明：将遥感大数据云计算生成的30 m分辨率植被覆盖变化和地表类型变化检测信息融入到人机交互遥感解译方法,可有效地提高大范围土地利用变化遥感制图的效率和变化图斑辨识的准确性;精度评价表明,CLUD 2020一级类型制图的综合精度达95%。总体上,全国范围内国土空间开发强度与2010—2015年比较进入相对稳定状态。期间全国耕地面积仍保持减少态势,空间分异特征为耕地南减北增,东北松嫩平原及其与三江平原交界区大规模的旱地向水田转移,西北新疆南部开垦和北部退耕/撂荒并存;全国城乡建设用地持续增加,空间分异特征表现为由以往的沿海地区和超大、大城市集聚转向中西部地区的大中小城镇周边蔓延为主。全国范围的林草自然生态用地面积持续减少,但强度与2010—2015年比较有所下降;受气候变化的持续影响,青藏高原地区的河流湖泊等水域面积显著增加。以上土地利用变化格局与“十三五”期间国家高质量发展、生态文明建设宏观战略和气候变化的影响密切相关。