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1.
Relationships between rocky desertification and spatial pattern of land use in typical karst area,Southwest China 总被引:7,自引:4,他引:3
Yongjun Jiang Linli Li Chris Groves Daoxian Yuan Pat Kambesis 《Environmental Earth Sciences》2009,59(4):881-890
Karst rocky desertification is a typical type of land degradation in the Southwest China. An attempt was made to study quantitatively
the relationships between rocky desertification and spatial pattern of land use through applying spatial analysis of Geographical
Information System in Nandong underground river system, a typical karst area, Southwest China. The spatial distribution of
rocky desertification and spatial pattern of land use were obtained from interpreting Landsat Images in Nandong area in 2007
by supervised classifications, and verified and rectified through field survey. The results indicate that: (1) the total land
deserted area covers 378.3 km2, or 23.4% of the total area, of which intense, moderate and slight rocky desertification covers 269.46, 54.2, and 54.63 km2, respectively, in Nandong area. (2) There is an obvious effect of spatial pattern of land use on rocky desertification. With
the increase of elevation and slope, there is a higher occurrence ratio of rocky desertification in the cultivated land and
grass land. Also, more than half of total rocky desertification was dominated within the areas of 4 km from the construction
land, and 97% of total rocky desertification was dominated within the areas of 10 km from the construction land in Nandong
area. And what can be known from the data is that the primary effect distance of human on rocky desertification from the construction
land is 4 km, and the farthest effect distance of human on rocky desertification from the construction land is 10 km in Nandong
area. 相似文献
2.
Bin Ying Shi-zhen Xiao Kang-ning Xiong Qi-wei Cheng Jin-sheng Luo 《Environmental Earth Sciences》2014,71(2):631-645
The Huajiang and Hongfenghu demonstration areas represent typical karst landforms and rocky desertification landscapes in Guizhou, China. These were selected for a comparison of rocky desertification and land use cover. Based mainly on 5 m resolution Spot 5, remote sensing images, topographic maps (1:10,000) and land use maps, the intensity and extent of rocky desertification, and slope characteristics of the two areas were interpreted. Spatial overlay analysis was used to compare the land use/land cover (LULC) and rocky desertification within each. The results were compared using the concepts of rocky desertification occurrence (RDO) among LULC classes and the structure value of desertification land (SVDL). The results demonstrated that (1) the landforms and extent of rocky desertification in the two areas are significantly different and the proportion of very steep slopes is one of the reasons leading to large areas of rocky desertification; (2) the RDO and SVDL show significant differences between the two areas; also rocky desertification intensity in various LULC classes cannot be measured in terms of RDO. High RDO may occur in low-intensity desertification land, and vice versa; (3) the structural characteristics of rocky desertification among various LULC are consistent among the woodland, “bare land” and “other grassland” land use classes in the two areas, but sequence slight > moderate > intense is not consistent between the areas. For the rocky desertification control, the present authors consider that the spatial distribution differences of rocky desertification and LULC among areas with different landform types area combined with the intensity of rocky desertification should be used in designing appropriate measures for control of desertification and rehabilitation of land. 相似文献
3.
Rocky desertification and its causes in karst areas: a case study in Yongshun County,Hunan Province,China 总被引:9,自引:0,他引:9
Rocky desertification, a process of land degradation characterized by soil erosion and bedrock exposure, is one of the most
serious land degradation problems in karst areas, and is regarded as an obstacle to local sustainable development. It is well
known that human activities can accelerate rocky desertification; however, the effects of climate change on rocky desertification
in karst areas are still unclear. This study focused on the effects of temperature and precipitation changes and human activities
on rocky desertification in karst areas to determine the impacts of climate change and human disturbances on rocky desertification.
Areas of different level of rocky desertification were obtained from Landsat TM (1987) and Landsat ETM+ (2000) images. The
results show that, although the total desertification area increased by only 1.27% between 1987 and 2000, 17.73% of the slightly
desertified land had degraded to a moderate or intense level, 2.01 and 15.71%, respectively. Meanwhile, between 1987 and 2000,
the air temperature increased by 0.7°C, and precipitation increased by 170 mm. Statistical results indicate that the increase
in precipitation was caused by heavy rainfall. In addition, under the interactive influences of heavy rainfall and temperature,
the average karst dissolution rate was about 87 m3 km−2 a−1 during the 14 years in the study area. Further analysis indicated that rocky desertification was positively related with
the increase in temperature and precipitation and especially with the heavy rainfall events. Climate change accelerated rocky
desertification in the karst areas.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
4.
Using the radial basis function network model to assess rocky desertification in northwest Guangxi,China 总被引:1,自引:1,他引:0
Mingyang Zhang Kelin Wang Chunhua Zhang Hongsong Chen Huiyu Liu Yuemin Yue Ingrid Luffman Xiangkun Qi 《Environmental Earth Sciences》2011,62(1):69-76
Karst rocky desertification is a progressive process of land degradation in karst regions in which soil is severely, or completely,
eroded. This process may be caused by natural factors, such as geological structure, and population pressure leading to poor
ecosystem health and lagging economic development. Karst rocky desertification is therefore a significant obstacle to sustainable
development in southwest China. We applied a radial basis function network model to assess the risk of karst rocky desertification
in northwest Guangxi, a typical karst region located in southwest China. Factors known to influence karst rocky desertification
were evaluated using remote sensing and geographic information systems techniques to classify the 23 counties in the study
area from low to extreme risk of karst rocky desertification. Counties with extreme or strong karst rocky desertification
risk (43.48%, nearly half of the study area) were clustered in the north, central and southeast portions of the study area.
Counties with low karst rocky desertification (30.43%) were located in the west, northeast and southwest of the study area.
The spatial distribution of karst rocky desertification was moderately correlated to population density. 相似文献
5.
基于遥感数据得出贵州罗甸县大关地区和广西都安县三只羊地区三个时期的土地覆盖类型数据。通过对这些不同时期土地覆盖类型数据的分析,发现大关地区从1979年到2001年,植被面积减少,石漠面积增加,土地覆盖类型以灌木林→灌丛→荒草地→石漠的方向变化为主,岩溶生态环境朝着恶劣的方向即典型的石漠化方向发展;而都安三只羊地区则相反,从1976年至2002年,植被面积增加,石漠面积减少,土地覆盖类型的主导变化方向是石漠→荒草地→灌丛→灌木林,即反石漠化方向,岩溶生态环境总的趋势是朝着良性的方向发展。两地的石漠化进程不同的原因主要在于土地利用的方式不同,大关地区采取的是劈山造田的方式来解决紧张的人地关系;而三只羊地区则是采取生态移民的方式。 相似文献
6.
The relations between land use and karst rocky desertification in a typical karst area,China 总被引:13,自引:0,他引:13
Karst rocky desertification (KRD) is one major type of desertification which is under irrational human impact on the vulnerable
eco-geo-environment. In this study, Zhudong fengcong rocky desertification landscape was selected to investigate the land
use types distribution law in different rock types and the KRD land in different land use types. KRD data was determined by
user–computer interactive interpreting method from Aster images in 2004, according to the exposed ratio of rock, the coverage
of vegetation and soil in 0.2 km2 unit, integrating with land utilizing present situation map, hydrogeology map, relief map, vegetation map, soil distribution
map, as well as the practical investigation and the population census datum in 2002. Results showed that the occurrence ratio
of KRD land is different in land use types and rocky assemblages obviously; land cover has a strong impact upon KRD. The sloping
cropland distributed in homogenous limestone has a higher occurrence ratio of light KRD, secondly, is in the limestone interbedded
with clastic rock. Light KRD land was dominated by shrubland, and sloping cropland accounts for 11.67% of it, moderate KRD
land was dominated by moderate coverage grass slopes, strong and extremely strong KRD was dominated by rocky dry land which
is difficult to use. 相似文献
7.
滇东岩溶石山地区石漠化特征及成因 总被引:35,自引:0,他引:35
滇东地区生态地质环境脆弱,石漠化明显,面积28 320 km2,严重地制约着地区经济的可持续发展。采用三级标准划分石漠化等级,景观差异特征明显,便于野外识别,制定与之相适应的整治措施。滇东地区石漠化分布具有集中连片、自北向南逐渐增多、程度加重的特点。石漠化的成因:地貌的演化过程中存在着石漠化的潜势,广泛分布的岩溶石山是形成石漠化的物质基础,特定的自然地理环境是导致石漠化的基本条件;人口增长过快、不合理的土地开发、工业污染是形成石漠化的主要因素,但自然因素和人为因素的主次因地而异。 相似文献
8.
9.
岩溶石漠化是指碳酸盐岩发育地区,由于人类不合理活动造成的土壤严重侵蚀,基岩大面积出露,地表出现类似荒漠景观的现象。石漠化的产生取决于基底岩石结构特点和酸不溶物含量。目前对于究竟哪种类型的岩石易于形成石漠化,利于形成石漠化的岩性在空间分布上有无规律性等问题,单纯利用传统的遥感解译方法显得力不从心。作者从古地理学角度对广西石漠化的形成及分布情况进行了研究,将广西石漠化区域划分为7个分区,包括桂林—贺州分区(Ⅰ)、柳州—来宾分区(Ⅱ)、都安—马山分区(Ⅲ)、平果台地分区(Ⅳ)、靖西台地分区(Ⅴ)、扬子台地南缘分区(Ⅵ)和西林—乐业—凌云分区(Ⅶ)。从广西石漠化分布情况可以看出,具有较为稳定台地相格局的地区容易发育连续性的碳酸盐岩(并诱发石漠化),同时重度石漠化一般分布于长时期发育台地边缘礁(滩)相的环境中(例如平果台地相区、靖西台地相区、扬子台地南缘分区)。广西众多的、较为稳定的孤立碳酸盐岩台地建造为石漠化产生提供了“机会”。通过研究容易诱发石漠化岩性的空间分布特征,结合遥感解译和实地调查,对石漠化风险进行评估,对属于不同时代和不同沉积环境下形成的石漠化采用不同的治理模式,这无疑为石漠化研究提供了一个新的角度。 相似文献
10.
岩溶地区是实施乡村振兴战略的坚中之坚,是极易出现返贫的地区之一,有必要梳理总结岩溶地区消除石漠化贫困的历程、成果和存在的问题,巩固脱贫攻坚成果,夯实乡村振兴的理论基础。本研究以岩溶地区实施重大生态工程的时间节点为主线,参考各阶段前人取得的阶段性和标志性成果,系统梳理了石漠化贫困的相关概念和研究历程;然后对各阶段的研究热点进行整理,归纳总结了石漠化与农村贫困的关系、石漠化致贫机制、消除石漠化贫困的策略、防治工程减贫效益评价等4个方面的前人研究成果。研究表明:石漠化贫困与石漠化区贫困的界限不清,是造成石漠化防治工程和精准扶贫衔接脱节的原因之一,应突出石漠化区生态脆弱的特性,将生态建设有机融入巩固脱贫攻坚成果同乡村振兴有效衔接之中,实现生态、资源、人口和经济各要素的耦合协调发展;工作超前,理论基础研究落后的现实依然存在,应加强石漠化区乡村人地关系及相对贫困的研究,探究石漠化阻碍乡村振兴的制约机制;此外,在岩溶地区生态质量不断提升的背景下,应优化石漠化防治工程后评价体系,凸显社会效益和经济效益评价的重要性,总结经验、汲取教训,巩固岩溶地区脱贫攻坚成果,实现脱贫攻坚与乡村振兴有效衔接。 相似文献
11.
基于RS、GIS的重庆黔江区石漠化现状与成因分析 总被引:1,自引:0,他引:1
在RS、GIS支持下,利用2004的TM遥感影像数据研究重庆市黔江区石漠化现状及形成原因。结果表明:黔江区7.21%的土地发生石漠化,其中轻度、中度、强度石漠化分别占总面积的3.06%、3.41%、0.74%,潜在石漠化占总面积的4.84%;石漠化的分布与地层、高程、坡度及土地利用等因素密切相关;石漠化的形成与发展是人类不合理的经济活动叠加于脆弱的生态地质环境背景上综合作用的结果。 相似文献
12.
近年来,由中国地质调查局组织实施的“岩溶地区水文地质环境地质综合调查”工程,按阶段任务目标,基本查明了我国南方岩溶区岩溶地下水资源赋存分布规律和开发利用潜力,发现了石漠化、地下水污染、内涝灾害等环境地质问题,揭示了岩溶作用对油气资源、矿产资源、岩溶旅游资源、碳循环和环境地质问题的控制机制,启动了“全球岩溶动力系统资源环境效应”国际大科学计划,在岩溶动力学理论、岩溶石笋高分辨率测年、岩溶人工增汇和岩溶地下水探测等方面实现了重大科技创新。建立的不同类型区岩溶地下水富水模式、成井模式、有效开发利用模式以及石漠化区综合治理模式,经实践表明具有推广应用价值,可为岩溶水资源可持续开发利用、石漠化综合治理、地下水污染防治和岩溶贫困区脱贫攻坚提供技术支撑。 相似文献
13.
喀斯特石漠化--中国西南最严重的生态地质环境问题 总被引:99,自引:1,他引:98
王世杰 《矿物岩石地球化学通报》2003,22(2):120-126
作为最严重的环境地质问题,日益扩展的土地石漠化,正在吞噬着中国西南喀斯特地区民众的生存空间,已经构成灾害和贫困之源。喀斯特石漠化是土地荒漠化的主要类型之一,是人类不合理经济活动叠加于脆弱生态地质环境背景上的综合作用结果。它以脆弱的生态地质环境为基础,以强烈的人类活动为驱动力,以土地生产力退化为本质,以出现类似荒漠景观为标志。中国西南脆弱的喀斯特生态环境是经过漫长的地质历史演化而形成的,它对喀斯特石漠化具有明显的控制作用。构造运动塑造了陡峻而破碎的喀斯特地貌格局,古环境演化奠定了石漠化的物质基础。喀斯特地区的人口压力及不合理的人类活动,导致土地资源的严重退化、植被覆盖度锐减、水土流失加剧和生态环境严重恶化,超载的社会经济压力是导致喀斯特土地石漠化最重要的驱动力。尽管喀斯特石漠化综合治理非常艰巨,但仍具备恢复或重建生态环境的可能性。 相似文献
14.
基于RS和GIS的南汀河流域石漠化评价 总被引:3,自引:2,他引:1
以南汀河流域ETM、DEM和地质岩性数据为基础数据,应用遥感和地理信息技术提取了石漠化评价因子,构建石漠化评价指标并对石漠化强度进行评价。运用空间叠加分析和统计分析方法对石漠化信息进行分析,得到流域岩溶区石漠化强度分级特征,利用土地利用数据及石漠化信息与土地利用/覆盖类型的相关关系以分析土地利用方式对石漠化的影响。结果表明(1)研究区石漠化强度为:中度石漠化>轻度石漠化>潜在石漠化>强度石漠化>无石漠化>极强度石漠化。(2)强度石漠化区和极强度石漠化区主要分布在以耕地和疏林地为主要覆盖类型的区域。说明了造成石漠化的因素除裸岩率、植被、坡度、岩性等主要影响因子外,人们利用土地的方式对石漠化也具有很大促进作用。 相似文献
15.
系统阐明岩溶石漠化的演变趋势,对正确认识岩溶石漠化发生发展过程及实施有效的石漠化综合防治措施具有重要意义。研究表明:(1)驱动石漠化发生与形成的因素有岩溶山地农户生计单一、土地压力大、土地承载力低和生态脆弱等4个主要因素;石漠化发生扩展其实质就是在低土地承载力背景下,过伐、过垦、过牧等土地利用方式触发了岩溶山地土地退化,即石漠化。(2)岩溶石漠化在发生发展到一定阶段后,随着社会经济背景的演变和石漠化驱动因素的变化、消失,石漠化面积扩张的趋势会发生根本性的转折,即石漠化转型。(3)中国西南岩溶山地土地利用方式改变引起生态系统机制改变,从而引起石漠化转型演变。石漠化转型是土地利用系统对经济社会发展与生态系统综合作用的响应,符合经济社会发展和生态系统演化的总体趋势。(4)中国西南岩溶山地石漠化演变对揭示该区域人地关系变化具有指导意义。 相似文献
16.
贵州高原石漠化敏感性与宏观地貌的空间关联分析 总被引:2,自引:0,他引:2
以中国南方典型喀斯特高原-贵州高原为研究区,通过构建石漠化敏感性评价指标体系及评价模型,利用GIS空间分析方法,对贵州高原石漠化敏感度的空间分布特征及其与宏观地貌类型的空间关联格局进行探讨。结果表明:(1)贵州高原石漠化敏感性以中高度敏感为主,占国土总面积的45.54%,生态环境脆弱,发生石漠化的概率较高;(2)不同等级敏感性之间均具有显著的正相关关系,不敏感等级与轻度敏感等级相关性在0.05水平上显著相关,轻度与中度、高度和极敏感等级之间相关系数均在0.9以上;(3)不敏感区域主要分布在低海拔平原、丘陵和台地区,轻度和中度敏感区域主要分布在高海拔丘陵、平原和台地,高度以上敏感区域主要分布在高、中、低山和河谷地区;(4)地形起伏度和海拔对于石漠化的敏感性在地貌类型上的空间分布起着重要的作用。 相似文献
17.
面向对象的喀斯特地区石漠化遥感信息提取研究——以贵州省大方地区为例 总被引:1,自引:1,他引:0
针对现有基于像素的监督和非监督分类方法在地质环境复杂、地形起伏较大、阴影明显的喀斯特石漠化地区难以满足石漠化信息提取精度要求的问题,采用基于纹理特征数据和地形数据辅助面向对象方法进行喀斯特地区石漠化信息的提取。该方法首先依据石漠化分布在TM/ETM+影像面积大小不均匀的特征,利用纹理和地形因子计算最优分割参数进行多尺度分割;然后根据植被覆盖率、岩石裸露率以及坡度因子构建石漠化分级指标;最后参照石漠化分级标准、光谱信息以及纹理特征等建立的分类规则提取喀斯特地区石漠化信息。选取贵州省石漠化严重的大方县时序TM/ETM+影像进行石漠化信息提取试验,结果表明:与基于像素的监督分类和非监督分类方法相比,基于面向对象的分类可以有效地减少因复杂地形导致石漠化信息提取结果"椒盐化"现象,提取精度明显优于基于像素的监督分类和非监督分类方法。 相似文献
18.
基于Logistic-CA-Markov模型的石漠化空间变化规律研究 总被引:3,自引:2,他引:1
为了揭示岩溶地区石漠化发生、发展的一般规律,文章以贵州省六枝特区为例,获取了1990、2000、2010年石漠化数据。利用Logistic-CA-Markov模型探讨石漠化发生的驱动因子及各类型间的转移情况,并在两种情景模式下对研究区2020年石漠化空间分布进行模拟。结果表明:(1)利用Logistic模型回归分析石漠化驱动因子,能够较好的反映其分布状况,CA-Markov耦合模型模拟石漠化空间分布,精度达到理论要求。(2)无石漠化、潜在石漠化、轻度石漠化、中度石漠化演变过程中受人为因素影响大于自然因素,而强度和极强度石漠化则相反。(3)在现有石漠化演化速率情景下,各等级石漠化的演变轨迹为修复与恶化并存模式,最突出的是潜在和轻度石漠化。(4)在喀斯特山地生态产业修复和封山育林结合情景下,石漠化修复与恶化并存的双重轨迹模式改为以修复为主的单一轨迹模式,其中轻度和中度石漠化治理效果最为突出。因此石漠化治理措施重点应针对轻度和中度石漠化分布区,注重协调人地矛盾,防止利用过程中返回式演变。 相似文献
19.
滇东南喀斯特区域石漠化时空格局演变研究——以广南县为例 总被引:1,自引:0,他引:1
石漠化给区域发展带来了一系列生态环境和社会经济问题,国家自实施生态治理工程以来,区域石漠化得到一定改善。为探讨生态治理工程实施后石漠化格局变化,研究以滇东南典型喀斯特区域广南县为例,以2000年、2010年和2018年3期遥感影像为数据源,通过人机交互式解译获得石漠化空间分布数据,运用时间变化度、转移矩阵和叠加分析等方法,分析广南县石漠化时空格局演变特征。结果表明:(1)时间变化上,广南县石漠化类型仍以重度石漠化为主,但是石漠化面积总体在不断减少。灌木林地和未利用地石漠化面积最大,其中灌木林地以潜在石漠化为主,未利用地以重度石漠化为主,是石漠化重点治理的用地类型。2000-2010年石漠化转移方向是向无石漠化和相邻等级石漠化转移,2010-2018年主要向低等级石漠化转移;(2)空间分布上,广南县喀斯特区域石漠化南多北少,呈现南重北轻的分布格局,沿篆角乡—黑支果乡—南屏镇南部—八宝镇西南部一线、珠琳镇和五珠乡相邻区域、珠街镇和曙光乡的相邻区域是石漠化集中分布区;(3)19年间,广南县喀斯特南部区域的石漠化大面积改善,而中部及北部区域的石漠化不断恶化。整体而言,退耕还林等生态治理工程的实施,能有效改善喀斯特区域的石漠化状况,使广南县石漠化总面积减少了288.98km2。 相似文献
20.
云南岩溶石漠化状况及治理规划要点 总被引:15,自引:6,他引:9
云南岩溶区生态地质环境脆弱,石漠化明显,面积达34772. 76km2 ,严重地制约着地区经济的可持续发展。石漠化分布具有集中连片、自北向南逐渐增多,程度加重的特点。区内地貌的演化过程中存在着石漠化的潜势,广泛分布的岩溶石山是形成石漠化的物质基础,特定的自然地理环境是产生石漠化的基本条件; 人口增长过快、不合理的土地开发、工业污染是形成石漠化的主要影响因素,但自然因素和人为因素的主次因地而异。文中针对石漠化的形成条件及原因,提出了石漠化综合治理的指导思想,以及全面规划、综合治理,因地制宜,分类指导等原则,阐明了石漠化综合治理规划的目标、规划单元,规划部署的基本模式与工程措施。 相似文献