旅游景观生态系统格局研究方法探讨——以云南省丽江纳西族自治县为例

在旅游景观生态系统格局理论研究基础上,为反映功能异质性特征,从要素作用空间分异的角度,较为系统地建立了格局研究的方法体系。文章选择云南省丽江县进行了案例研究,结果表明:(1)方法的提出丰富了现有景观格局研究工作,结构与过程研究的结合,更符合旅游景观生态系统中以旅游者为主导的要素相互作用空间过程;(2)方法具有较高的应用价值,例如斑块范围研究能更好地反映旅游者的实际活动范围,为旅游目的地的旅游者管理与自然环境保护提供了更符合实际应用的空间依据。     

鄂尔多斯高原景观格局变化分析--以伊金霍洛旗为例

以位于内蒙古鄂尔多斯高原上的伊金霍洛旗为研究区域，以景观生态学的数量分析方法为基本手段，在土地利用现状分类体系下，以其1984、1991和1998年3个年度的土地利用图为基础。从区域和斑块类型两个尺度上，对其景观格局进行了数量分析。结果表明，在三个典型年度。天然草地为伊金霍洛旗的景观基质，景观格局指数的所有变化均是在此基础上发生和演变的。从整个景观尺度的格局指数变化情况显示，伊金霍洛旗景观的破碎化程度在增加；同时景观的异质性程度在下降，景观愈来愈有少数景观斑块类型所控制。而在斑块类型这一尺度上的格局指数变化说明，不同类型斑块的复杂性的变化趋势基本相同，即均有不同程度的增长，但增加幅度有限；同时还说明，不同类型斑块内部其大小差异的幅度在不断缩小。但从不同年度的变化情况来看，无论是区域还是不同的斑块类型，其格局指数的变化并不与总体的变化趋势同步。     

土地利用景观格局指数的粒度效应——以黄龙县为例

通过对黄龙县土地利用现状图的矢量化,再转化为栅格Grid图,利用景观格局分析软件Fragstats(栅格版),分别以25 m和100 m为步长在25～500 m和100～2 000 m的粒度上对景观格局指数进行计算,分析景观指数的粒度效应,对比2个不同范围粒度域上景观指数呈现的异样性,并尝试性地提出理论景观格局指数.结果表明,9种景观指数有4种不同的变化规律,2个不同步长不同粒度域的景观指数有2类变化规律,且理论景观指数的提出对一些指数可以很好地解决同一个地方用不同分辨率所计算出的不同的景观格局指数,把结果统一到同一个标准上来.     

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。     

科尔沁沙地沙漠化时空演变及其景观格局——以内蒙古自治区奈曼旗为例

利用1975 年MSS影像, 1992 年、2006 年、2010 年TM影像和1999 年ETM +影像等5 个时期遥感影像为数据源, 提取奈曼旗35 年来沙漠化土地动态变化信息, 并在此基础上, 探讨了区域沙漠化土地景观格局时空演变特征, 旨在为科尔沁地区沙漠化治理和区域生态环境恢复与重建提供参考。结果表明:(1) 35 年来, 奈曼旗沙漠化土地面积总体呈逆转的趋势, 沙漠化总面积减少了123.43 km², 沙漠化土地主要经历了先增加后减少的过程;(2) 景观格局呈波动性变化, 1999 年以前, 景观形状指数和多样性指数增加, 蔓延度和聚集度减小, 破碎化程度加强, 沙漠化程度上升, 沙漠化主导类型为中度和重度沙漠化, 1999 年以后破碎化程度变弱, 沙漠化程度明显下降, 沙漠化主导类型转变为中度和轻度沙漠化;(3) 1975-2010 年间轻度和中度沙漠化土地重心迁移最为明显, 轻度沙漠化土地重心向东北方向偏移了6.35 km, 中度沙漠化土地重心向西南方向偏移了7.24 km。     

基于Logistic-CA-Markov的土地利用景观格局变化——以京津冀都市圈为例

以京津冀都市圈为例,运用马尔科夫转移矩阵、景观格局指数和Logistic-CA-Markov耦合模型等,对各地类转移情况、景观格局特征、影响因子和未来变化趋势进行分析和多情景模拟。结果表明：①景观水平上,总体景观破碎化程度加大。类型水平上,耕地、草地和林地是主导优势地类。②1985～2000年之间,耕地主要流向城乡居民...     

农牧交错带农田景观格局对土地生态环境安全的影响——以呼和浩特市为例

在GIS支持下,利用卫星遥感影像提供的信息和非遥感信息想结合的方法,获得研究区农田景观空间分布格局和生态环境现状数据资料。从区域农田生态系统特点和地区土地生态安全角度出发,通过对市域农田景观空间格局特征及其对土地生态环境安全影响的分析,显示出农田景观格局的空间差异性与破碎度高是农牧交错地区土地生态环境安全的重要影响因素。调整土地利用结构、加强地区土地整理与生态农业建设投入,是保证区域土地生态环境安全,促进区域社会经济可持续发展的主要途径。     

基于RS与GIS的干旱区绿洲景观格局变化研究——以金塔绿洲为例

景观生态学是宏观生态研究的一个新领域。景观格局变化研究,是目前景观生态学的研究热点。利用遥感的手段获取试验区1990和2000年景观格局的基础数据,并利用GIS做分析的工具,计算出6个指标值,采用格网化的方法,将研究区域的景观斑块转化成5m×5m的格网,进行空间分析,计算得出了景观斑块的转移矩阵,为景观格局在空间上的变化分析打下基础。分析显示:①多样性、均匀性、优势度3个指标数值上有很大的相关性,只需考虑多样性;②绿洲景观格局的变化与水资源的变化密切相关;③绿洲有沙漠化的威胁;④城镇居民点用地扩展迅速,主要在未利用土地上发展,金塔绿洲内城镇居民区有城市化的趋势;⑤城镇居民点破碎化指标值未能真正体现其景观特性,当不考虑少数几个大的斑块时,能够得到较为理想的结果。     

科尔沁沙地水域景观格局的时空动态——以奈曼旗为例

对位于科尔沁沙地腹地的奈曼旗近30 a来土地利用/覆被信息中水域类型的景观格局指数进行了时空组合分析。结果表明,大尺度研究区（8 135.15 km2）1975-1985年水体与湿地斑块的类型面积和数量增加,形状趋于复杂;1985-2005年斑块类型面积和数量大幅减少,形状趋于简单;中尺度研究区（892.74 km2）水体与湿地斑块的类型面积在波动中减小,湿地斑块数量减少和形状简单化的转折期相对较短且滞后于水体。小尺度研究区（110.42 km2）集中了人畜以及上游活动的干扰,水体与湿地斑块仅在个别时期出现,难以连续存在。在各尺度研究区内,河漫滩斑块类型面积变化趋势各异,数量和形状复杂程度都相对稳定;且随着研究区增大形状更加不规则。水域类型的景观格局虽然在不同时空上的动态过程存在差异性,但其发展方向具有相同趋势,发展过程受到气候波动和人类活动干扰的共同影响。     

土地利用景观格局空间尺度效应研究——以武汉市为例

城市土地利用景观格局研究对城市规划设计和土地资源管理具有重要的理论价值和现实意义,而研究尺度的选择是其必不可少的部分。本文基于景观生态学方法,以武汉市为研究区域,选取聚集分散指数、斑块类型指数、形状指数三种类型指数对土地利用景观格局进行分析,同时引入层次分析法,研究武汉市土地利用景观格局的空间尺度效应及其响应特征,结果表明武汉市土地利用景观格局具有明显的空间尺度效应,随着空间尺度的增大,景观破碎程度增大,景观分布越来越分散,景观异质性减小,斑块之间连接度越来越弱。在此基础上,建立最佳尺度选择模型,并基于分型理论对最佳尺度的合理性进行验证,最终得出武汉市土地利用景观格局研究的最佳空间尺度为60 m。     

多流域降雨和土地利用格局对土壤侵蚀影响的比较分析——以陕北黄土丘陵沟壑区为例

土壤侵蚀是制约黄土高原可持续发展的瓶颈因素,为分析不同面积流域降雨和土地利用格局对土壤侵蚀影响的变化趋势,本文基于土壤侵蚀评价指数,发展了降雨和土地利用格局对土壤侵蚀影响的表征方法,探讨了多流域降雨和土地利用格局对土壤侵蚀的影响。结果表明：① 2006-2012年,研究区降雨侵蚀力因子R总体上呈现上升的趋势,植被覆盖与管理因子C呈现下降趋势;② 随流域面积的增加,研究区内降雨格局对土壤侵蚀的影响逐渐降低,而土地利用格局对土壤侵蚀的影响变大;③ 在流域面积较小时,降雨格局对土壤侵蚀的影响要大于土地利用格局对土壤侵蚀的影响,而在流域面积较大时,土地利用格局对土壤侵蚀的影响大于降雨格局对土壤侵蚀的影响;④ 随着流域面积的增加,研究区的林地比例有所下降,陡坡植被覆盖类型趋于单一,这是在流域面积增大时土地利用格局对土壤侵蚀影响增加的主要原因。同时,流域面积较小时,降雨对土壤侵蚀的影响较大,但随着流域面积的增加,松软的土壤性质和沟壑纵横的地形增大了发生重力侵蚀的可能性,土壤和地形对土壤侵蚀的影响增大。     

三峡库区腹地山区农业景观格局动态变化与转型

山区农业景观格局动态分析有利于厘清农业景观发展的动态轨迹与方向,对农地用途的合理规划和管理有重要意义。本文提出了山区农业景观格局转型理论框架,并在三峡库区草堂溪流域进行了实证研究,从整体—微观的角度解析2000—2018年期间,以坡耕地、撂荒地和果园为代表的农业景观格局转型特征。研究发现：① 果园沿河谷的扩张和撂荒地在较高海拔处的扩张明显压缩了坡耕地的空间,这导致区域景观多样性的整体增强,而在局部地形上的差异明显,斑块破碎但聚集度增强;② 研究区农户耕种范围内的农业景观格局转型主要表现为耕—果转换型、综合型、部分撂荒型和撂荒型4种模式,各模式揭示了山区农业景观格局的不同发展阶段;③ 在以社会经济因素为主的驱动下,三峡库区山区的农业景观格局转型具有双向性,表现为以传统均衡分布的纯粮种植景观向河谷生态经济双赢的经果林景观和较高海拔的撂荒地转变。研究结果揭示了近年来中国山区农业景观格局演变的独特性,对库区山区农村土地利用和农业生态系统的深入认识以及库区乡村发展和生态环境的改善均有启示意义。     

Characterization of landscape pattern based on land economic niche change: A case study in Ganzhou,Gansu Province,China

Land use change has a profound impact on biodiversity and ecological processes, and is closely related to changes in landscape patterns. This paper introduces the theory and method of land economic niche into landscape ecology, which provides a new method for spatial characterization of urban and rural spatial landscape patterns. Based on this theory, this paper analyzes the landscape pattern of Ganzhou District by using Landsat images as data source in 1995, 2000, 2005,2010 and 2015. We calculated the land economic niche by applying the niche potential theory. Combined with the theory of landscape ecology, we explored the effects of the land economic niche change on the landscape pattern at a county scale.The results show that economic niche of construction land, watershed and farmland increased during 1995–2015, and grassland declined significantly. The economic niche of farmland, construction land, watershed and grassland show a negative correlation with the number of patches(NP), fragmentation index(FN) and the fractal dimension index(FD), and had a positive correlation with the aggregation index(AI). There was no significant correlation between the forest land economic niche and landscape metrics. The change of land economic niche has a driving effect on the landscape pattern of the county, which can represent the economic development direction of Ganzhou District. The land economic niche is closely related to the landscape type which can directly obtain an economic benefit.     

Temporal change in the landscape erosion pattern in the Yellow River Basin,China

Using Landsat TM data from 1995 and 2000, changes in the landscape erosion pattern of the Yellow River Basin, China were analysed. The aim was to improve our understanding of soil‐erosion change so that sustainable land use could be established. First, a soil‐erosion intensity index model was developed to study soil‐erosion intensity change in the study area. Over the 5 years, the areas of weak erosion, moderate erosion, severe erosion, and very severe erosion all increased. The area of weak erosion increased dramatically by 7.94×10⁵ ha, and areas of slight erosion and acute erosion decreased by 1.93×10⁶ ha and 4.50×10⁴ ha, respectively. The results show that while the intensity of soil erosion has gradually been decreasing as a whole, in some regions the soil erosion is becoming more severe. Based on landscape indices, the pattern of changes in soil erosion over the past 5 years was analysed. The changes in landscape pattern of soil erosion resulted from human activities. Analysis showed that human impact increases fragmentation, having three major effects on landscape pattern, reduction in patch area, variations in patch shape, and changes in spatial pattern. In the study area, population growth, farming, governmental policy and forest degradation are the major factors causing soil erosion change over a 5‐year period.     

煤矿区景观演变的生态累积效应——以山西省潞安矿区为例

基于累积效应原理和景观分析原则,提出了景观生态基准值概念,利用景观类型结构偏离累积度、景观格局干扰累积度和生态敏感性退化累积度构建了煤矿区景观生态累积效应表征模型。以山西潞安矿区为例,将1993年作为采前景观生态基准,在对矿区景观(1993年~2000年~2006年)分析的基础上,对矿区景观演变所造成的生态累积效应进行分析。结果发现,在13年的时间内,景观空间累积负荷呈现明显增强的趋势。2000年之后人类干扰活动的增强,使得阶段2(2000年~2006年)的变化幅度明显高于第1阶段(1993年~2000年)。同时由于不同区域煤炭资源开发等人类活动干扰强度不同,使得不同分区的累积度存在一定的区域差异。     

The influence of rainfall and land use patterns on soil erosion in multi-scale watersheds: A case study in the hilly and gully area on the Loess Plateau,China

Soil erosion has become a major global environmental problem and is particularly acute on the Loess Plateau (LP), China. It is therefore highly important to control this process in order to improve ecosystems, protect ecological security, and maintain the harmonious relationship between humans and nature. We compared the effects of rainfall and land use (LU) patterns on soil erosion in different LP watersheds in this study in order to augment and improve soil erosion models. As most research on this theme has so far been focused on individual study areas, limited analyses of rainfall and LU patterns on soil erosion within different- scale watersheds has so far been performed, a discrepancy which might influence the simulation accuracies of soil erosion models. We therefore developed rainfall and LU pattern indices in this study using the soil erosion evaluation index as a reference and applied them to predict the extent of this process in different-scale watersheds, an approach which is likely to play a crucial role in enabling the comprehensive management of this phenomenon as well as the optimized design of LU patterns. The areas considered in this study included the Qingjian, Fenchuan, Yanhe, and Dali river watersheds. Results showed that the rainfall erosivity factor (R) tended to increase in these areas from 2006 to 2012, while the vegetation cover and management factor (C) tended to decrease. Results showed that as watershed area increased, the effect of rainfall pattern on soil erosion gradually decreased while patterns in LU trended in the opposite direction, as the relative proportion of woodland decreased and the different forms of steep slope vegetation cover became more homogenous. As watershed area increased, loose soil and craggy terrain properties led to additional gravitational erosion and enhanced the effects of both soil and topography.     

Dynamic changes and transitions of agricultural landscape patterns in mountainous areas: A case study from the hinterland of the Three Gorges Reservoir Area

Analyzing the agricultural landscape patterns in mountainous areas is critical to clarify the dynamic changes and development direction of agricultural landscapes. This also plays a significant role in the rational planning and management of agricultural land. A theoretical framework for agricultural landscape pattern transitions in mountainous areas is proposed to fill the gap of current research with an empirical study in the Caotangxi Watershed, Three Gorges Reservoir Area (TGRA), China. The transition characteristics of agricultural landscape patterns from 2000 to 2018 as represented by sloping farmland, abandoned land, and orchards are analyzed from a holistic-local perspective. The results indicate that the orchards expanded along river valleys, and abandoned land expanded at high elevations, which led to reduced sloping farmland. This phenomenon gives regional landscape differences at the holistic and local levels. Namely, it enhances the region’s holistic landscape diversity but causes fragmentation and aggregation of landscape patches in local areas. The agricultural landscape pattern transitions within the farming range in the study area are manifested primarily in four modes: sloping farmland-orchard conversion type (FOCT), comprehensive conversion type (CCT), partially abandoned type (PAT), and wholly abandoned type (WAT). Each transition mode reveals different development stages of the mountainous agricultural landscape patterns. In general, the agricultural landscape pattern transition is driven by socioeconomic factors in mountainous areas of the TGRA and is bidirectional. This attribute is expressed as the transition from the traditional grain-planting landscape with an even distribution to the eco-economic win-win orchard in valleys and transitions from sloping farmland to abandoned land in high-elevation areas. Overall, the results of this study reveal the uniqueness of agricultural landscape pattern evolutions in China’s mountainous areas in recent decades, which has enlightened the in-depth understandings of rural land use and agricultural ecosystems in mountainous areas of the TGRA, as well as improvements in rural developments and ecological environments.     

黑土耕作区侵蚀沟治理紧迫度空间分布特征

综合把握侵蚀沟发育状态及其治理紧迫程度可为有效判断区域侵蚀沟防控方向与治理重点提供重要参考.论文结合侵蚀沟形态数据,构建区域侵蚀沟治理紧迫度评价指标体系,从乡镇与网格尺度揭示区域侵蚀沟侵蚀程度及其空间分布规律.结果表明:①从数量特征看,海伦黑土耕作区侵蚀沟分布呈非均衡状态,沟道长度以微/小型(≤500 m)为主,沟道面...     

Remote-sensing data reveals the response of soil erosion intensity to land use change in Loess Plateau,China

Developing an effective approach to rapidly assess the effects of restoration projects on soil erosion intensity and their extensive spatial and temporal dynamics is important for regional ecosystem management and the development of soil conservation strategies in the future. This study applied a model that was developed at the pixel scale using water soil erosion indicators (land use, vegetation coverage and slope) to assess the soil erosion intensity in the Loess Plateau, China. Landsat TM/ETM+ images in 2000, 2005 and 2010 were used to produce land use maps based on the object-oriented classification method. The MODIS product MOD13Q1 was adopted to derive the vegetation coverage maps. The slope gradient maps were calculated based on data from the digital elevation model. The area of water soil-eroded land was classified into six grades by integrating slope gradients, land use and vegetation coverage. Results show that the Grain-To-Green Project in the Loess Plateau worked based on the land use changes from 2000 to 2010 and enhanced vegetation restoration and ecological conservation. These projects effectively prevented soil erosion. During this period, lands with moderate, severe, more severe and extremely severe soil erosion intensities significantly decreased and changed into less severe levels, respectively. Lands with slight and light soil erosion intensities increased. However, the total soil-eroded area in the Loess Plateau was reduced. The contributions of the seven provinces to the total soil-eroded area in the Loess Plateau and the composition of the soil erosion intensity level in each province are different. Lands with severe, more severe and extremely severe soil erosion intensities are mainly distributed in Qinghai, Ningxia, Gansu and Inner Mongolia. These areas, although relatively small, must be prioritised and preferentially treated.     

区域土壤侵蚀演化风险分析——以泾河流域为例

土壤侵蚀演化风险是在一定的空间范围内土壤侵蚀风险的时间变化关系,是发生土壤侵蚀可能性的动态演变过程,其对于评价不同时空尺度水土保持措施的合理性及其效益意义重大。以位于黄土高原中部的泾河流域为例,基于1986年、1995年和2000年的三期土地利用类型空间数据,利用GIS技术和信息熵理论,结合美国通用土壤流失方程（Uni...