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1.
Xinxiang Cao 《中国地理科学(英文版)》2008,18(2):146-154
It is very significant for urban development and urban wetland protection and utilization to probe into the process and reasons of urban wetland landscape dynamics. Taking the information of remote sensing and detailed land survey data as the basic information sources, with the help of RS and GIS, according to the principles and methods of landscape ecology, this paper analyzed wetland landscape pattern dynamics and its reasons in Kaifeng City, Henan Province of China, from 1987 to 2002. The results show that the total wetland area in Kaifeng City firstly reduced by 20.1% from 1987 to 1990 and then increased from 1990 to 2002, with an average annual growth rate of 3.3%. At the same time, landscape fragment degree and landscape dominance degree increased, respectively from 0.64 to 0.72 and from 0.3754 to 0.5563, but mean patch area, maximum patch area, patch fractal dimension reduced. As far as single landscape element concerned, fi'om 1987 to 2002, patch area, patch number, patch density, patch shape and patch location changed in varying degrees in all wetland types in Kaifeng City, among which rice field changed most and others relatively less. In the recent 20 years, rice fields, lake wetlands, puddles and ponds had a higher stability, but river and bottomland wetlands were mostly transformed to land use types. The change of wetland landscape pattern was the result of the combined action of the Huanghe (Yellow) River, urban expansion, wide cultivation of rice, and rapid development of fishery. Among them human activities were the main driving factors for wetland landscape changes. 相似文献
2.
野鸭湖湿地自然保护区是北京最大的湿地自然保护区,也是唯一的湿地鸟类自然保护区,因此,选择野鸭湖研究城市湿地景观格局演变特征具有典型意义。以野鸭湖自然保护区为研究对象,分析了1999年、2004年、2009年和2014年4个时期野鸭湖湿地系统景观格局演变过程,并根据景观指数分析其动态变化趋势。研究结果表明:①野鸭湖湿地面积在1999~2004年间逐渐减少,之后逐年恢复,至2014年湿地面积总数已恢复到1999年的水平,但水体的面积仍缩减一半,主要恢复的是草甸湿地和疏林湿地。②野鸭湖湿地景观格局的变化特征主要表现为:景观破碎度增加,景观形状更加复杂,景观多样性和异质性增加而优势度降低。③野鸭湖湿地斑块类型呈现如下特征:耕地连片分布,耕地开垦力度减缓;草甸湿地成片增长且优势度逐渐明显,形状复杂;水体分布聚集,2014年出现恢复现象;疏林湿地面积不断增长,呈现破碎化现象;建筑用地面积也略微增长,但分布分散;滩涂湿地面积最小,形状简单。 相似文献
3.
1IN TR O D U C TIO NEco-security is the state in w hich the resources,envi-ronm entand ecosystem s thatconcern people are secure(M Aetal.,2004;SH Ietal.,2004).O therw ise,w e calliteco-security problem or ecologicalrisk.The eco-se-curity isdraw ing the in… 相似文献
4.
近30年天津滨海新区湿地景观格局遥感监测分析 总被引:6,自引:0,他引:6
在GIS和FRAGSTATS软件支持下,结合景观格局数量分析方法,利用1979-2008年间共6期TM遥感影像与非遥感数据,对天津滨海新区近30年的湿地景观空间格局进行了动态分析。结果表明,滨海新区湿地(以人工湿地为主),1979-2004年滨海新区湿地总面积变化不大,但各类型间转换较大,主要是自然湿地转变为人工湿地,沼泽湿地几近消失。2006-2008年,由于城市建设大量滨海滩涂湿地被围填占用,到2009年5月自然海岸线的90%以上被占用。景观破碎度增加,湿地斑块数量从137个增加到704个,同时造成平均斑块面积下降。驱动力分析表明,降雨量减少的同时,年平均气温上升是主要的自然驱动因素。和自然因素相比,人类干扰为主要人文驱动因素,表现在水产养殖为主的农业经济活动、城市建设用地占用和围海造地等方面。目前,滨海新区几乎没有自然湿地生态系统,破碎化和人工化是该区域湿地的主要特征。 相似文献
5.
景观镶嵌结构是景观异质性的重要表现,同时又是各种生态过程在不同尺度上作用的结果。本文以北京市野鸭湖湿地自然保护区为区域背景,以RS、GIS和GPS为技术手段,监测获取了1996-2002年研究区域湿地土地利用/土地覆盖景观空间格局变化,探讨了土地利用/土地覆盖景观空间格局变化对湿地环境的影响。故此,对1998-2000年和2000-2002年湿地资源景观镶嵌结构的动态变化进行详细分析。结果表明:(1)利用遥感信息多尺度、多时相、多波段的特点,在GIS、GPS技术的支持下,能够快速及时准确地反映湿地景观类型的动态变化,为湿地资源监测、保护与利用提供科学依据。(2)借助景观生态学中的相关原理,通过景观空间格局计算模型解释不同类型湿地景观的分布、变化,剖析湿地景观演化机制,为湿地景观规划与评价服务。(3)分析认为,野鸭湖湿地景观格局发生了较大的变化,水域面积减少严重,耕地面积增长幅度不高,旅游用地和堤坝面积明显增加。(4)湖泊和沼泽草甸是控制和影响湿地景观格局的主体。野鸭湖整个湿地景观的破碎化程度降低,人类活动干扰湿地在不断减弱,湿地景观异质性在逐渐降低,斑块之间的连通性提高,生境斑块相互之间的隔离度大大减少,湿地景观趋向稳定。 相似文献
6.
Wetland Is an important landscape existing almost DEFINITIONS OF WETLANDall over the world.In China,wetlands are distributedeverywhe。加mfrlgld-tern。。。ie zone to tropical zone,XU QI et al.dehned wetland as the soil which isfrom lmoral!o Inland from paln to pforeau and moisten by under-ground water or Is permanently ormountains.>ome ot the wetlands share the sam。char-temno。rllv soak。d by ground。ater(XU,1995).Thisacterlstlcs of other countries,and some are un… 相似文献
7.
闽江口湿地遥感时空演变应用分析 总被引:6,自引:0,他引:6
将闽江口湿地动态变化度、湿地变化转移矩阵和景观生态学的空间格局模型相结合,横、纵向分析了1986- 1994年、1994-2000年两个时期闽江口湿地的动态演变模式。研究表明,在两个时期不同的社会政策和经济发展阶段,人类活动对闽江口湿地的干扰强度与对象不同,造成两个时期不同的湿地演变模式。在1986-1994年间景观类型动态变化,以水田面积的扩张为主导,在1994-2000年间景观类型动态变化突出表现为城乡建筑用地对水田、非湿地农业的占用。在1986-2000年间,湿地景观中,人工水域破碎度增加,破碎化速度提高,形状更加复杂化;水田破碎度和形状复杂度都由增加向减弱转变;天然水域破碎度减小,形状复杂程度由减少变为增加;滩地破碎度由减少变为增加,形状复杂化由增加转向减少。在中、小时间尺度范围内,人类活动是影响闽江口湿地演变的主要原因之一,特别是近10多年来社会经济的高速发展,城镇化进程的加速,人类活动成为影响闽江口湿地的最主要原因。 相似文献
8.
Analysis of dynamics and driving factors of wetland landscape in Zoige, Eastern Qinghai-Tibetan Plateau 总被引:3,自引:0,他引:3
Zoige Wetland is one of the largest plateau wetlands in the world. This paper provides a dynamic analysis of spatial and temporal patterns of the wetland in Zoige, Eastern Qinghai-Tibetan Plateau, supported by ERDAS8.7 and ArcGIS9.0. It is the first comparative analysis of a system of rapidly changing wetland with landscape patterns in Zoige, using 3 classified landsat Thematic Mapper images of 1977, 1994 and 2001. The classified images were used to generate wetland distributing maps, and shape index (S), diversity index (H), dominance index (D), evenness index (E), fragmentation index (F) and fractal dimension (Fd) were calculated and analyzed spatiotemporally across pure grazing area in Zoige for each landscape type and in different periods (before 1977, during 1977-1994 and 1994-2001), as well as the driving forces of natural and anthropogenic. The study shows that for a comprehensive understanding of the shapes and trajectories of the shrinking and desertificated land expansion of the wetland, a spatiotemporal landscape metrics analysis in different periods is an improvement than only with landscape changing rates. This type of analysis can also be used to infer underlying social, economic, and political processes that drive the observed wetland forms. The results indicate that wetland patterns can be changed over relatively short periods of time. The total area of lake reduced by 164.86 km^2, grassland extended by 141.74 km^2, semi-marsh extended by 105.94 km^2, marsh reduced by 86.00 km^2 the number of landscape patches reduced by 56, and their average area decreased by 2.68 km^2, the successions within lake, marsh, semi-marsh and grassland were found obviously. S decreased stepwise: D and F increased but H decreased: The changing rate after 1994 was 2.3 to 2.9 times greater than that before. The change of the wetland landscape patterns resulted in the interaction between socio-ceenomic and natural forces of positive and negative aspects; and natural factors affected as assistant aspect. Some important human activities in this period led to the change of the landscape patterns in this region directly. Some measurements made by government and NGO delayed the converting process partly. 相似文献
9.
HEPing WANGBao-zhong 《中国地理科学(英文版)》2002,12(3):254-261
Dongting Lake is internationally an important wetland.We summarized the conception,func-tion,classification and current situation of the wetland-landscape culture in this region.The results showed that the cul-ture of Dongting Lake wetland was rich in diversity,which are the Rice Cultivation Culture,high-balustrade dwelling,Nuo Culture,Ship Culture ,Dragon Boat Culture,Chu Culture,Ancient Architecture Landscape,Wetland Foodstuff and Cuisine Culture,Civil Art.Historic Heritage and Cultural Relics,Revolutionary Sites and Ruins,and Production and Living Culture,etc.We also evaluated the eco-tourism value of wetland landscape culture,and analyzed its features and orientation.The results revealed that the south Dongting Lake wetland plays role on the Changjiang(Yangtze)River reaches civilization and Chinese civilization,even has great influence on the global civilization.We summarized that the soul of the south Dongting Lake Culture was Wetland Culture ,Water Culture,Rice Cultivation and Chu Culture.The thoughts ,principles and approaches of sustainable exploitation and utilization of the wetland landscape culture were formulat-ed and suggested. 相似文献
10.
Kim Youngchul Hwang Gilson Lee Jin-Woo Park Je-Chul Kim Dong-Sup Kang Min-Gi Chang In-Soung 《中国海洋大学学报(英文版)》2006,5(4):345-350
In spite of the low temperature during the winter season and the high land environment, the wetland treatment system is gaining popularity in Korea because of its lower construction cost and simplicity in operation and maintenance. Many different types of wetland treatment systems have been built during the last 10 years, among which the free water surface wetland has been predominant. Most of the large-scale systems are government projects for improving the water quality of the streams flowing into the estuary dikes and reservoirs. The covering plants used in this system are different in different areas but cattails and reeds or their combinations are common. Constructed wetlands in Korea can be characterized by their shallow depths and short hydraulic residence times. There is no established flow pattern and configuration rules for constructing wetlands, but many efforts have been made with a view to improving their ecological function. Flow control is the most difficult problem in designing a riverbed or riparian wetland. There have been scores of flow rate control devices developed for wetlands, but none of them guarantee wetlands' safety against flooding. In earlier wetland construction, the building materials were mainly soil. Recently, strong and durable building materials such as rocks, gravel beds, concrete and steel are used at vulnerable places to protect them from erosion. Our investigation indicated that the wetland system would be an appropriate technology because it is not only cheaper to construct, but also requires less maintenance work. However, we suffer from the reduced effectiveness in performance during the winter. We need to evaluate the partial treatment accomplished during 6 to 7 months per year. 相似文献
11.
Evolution characteristics of hydrological connectivity pattern of marsh wetland in Naoli River Basin
As an important indicator of the structural and functional stability of wetland landscapes, hydrological connectivity plays an important role in maintaining the stability of wetland ecosystems. Large-scale human activities have led to significant changes in the hydrological connectivity pattern of wetlands in Naoli River Basin since 1950 s. Combined with the availability of wetland habitat and the spreading capacity of aquatic birds, hydrological connectivity indices of marsh wetlands were calculated in the studied area, and the temporal and spatial changes were analyzed from 1950 s to 2015. The results indicate that:(1) the hydrological connectivity index of the marsh wetlands shows a growth trend with increasing distance threshold. All patches of marsh wetlands linked together when the distance threshold reached 35--40 km;(2) the optimal distance of hydrological connectivity is about 10 km for marsh wetlands of whole Naoli River Basin;(3) the total hydrological connectivity of marsh wetlands decreased in the Naoli River Basin from 1950 s to 2015. Although the hydrological connectivity index increased after 2005, the fragmentation of the landscape has not been improved. The analysis of the wetland hydrological connectivity can provide a scientific basis for the ecological restoration and protection of the wetland in the Naoli River Basin. 相似文献
12.
“双评价”视角下基于FLUS模型的武汉大都市区土地利用模拟和城镇开发边界划定研究 总被引:1,自引:0,他引:1
城镇开发边界的划定对于保障资源合理利用、促进城镇有序发展具有重要意义。国内现有研究多以规划实践的技术探讨为主,但对资源环境的定量化评估不足,且较少在大都市区尺度开展研究。本文以武汉大都市区为研究案例,提出在耦合多种要素构建“双评价”体系的基础上,结合FLUS模型进行土地利用模拟和城镇开发边界的划定,并运用景观格局指数等对结果进行分析校验。结果表明:① 土地利用模拟KAPPA系数为0.95,总体精度为0.96,能较好的反映未来用地变化情况,且结果显示城镇建设用地呈蔓延式扩张,有必要通过划定边界来控制城镇开发;② 根据模拟结果划定城镇开发边界,能够避免城镇建设集中占用生态或农业价值较高的区域,并在优化形态的基础上改善武汉大都市区的城镇空间布局,有很强的适用性;③ 驱动体系评价表明,相较于单一因子库,“双评价”因子库精度更高,且更能优化景观格局,促进建设用地斑块集聚发展并填补建成区空白,更符合区域发展诉求;④ 扩张结果评价表明划定结果与武汉大都市区的未来发展模式吻合,未来空间管控应重点关注临空港片区、阳逻片区、光谷-未来城片区、纸坊片区扩张的潜在价值。本研究验证了FLUS模型在武汉大都市区内应用的有效性,为规划管控及建设用地布局优化提供一定参考。 相似文献
13.
敦煌西湖自然保护区湿地演化及驱动力分析 总被引:1,自引:0,他引:1
西湖国家级自然保护区位于河西走廊西端,是敦煌盆地人工绿洲的天然屏障。近几十年来,由于气候变化和人类水土资源过度开发,保护区生态环境持续恶化,湿地退化和沙漠化趋势日趋严重。本文运用多时相资源卫星遥感影像,解译分析了保护区湿地演化规律。结果表明:1980-2013年间有23个年份湿地处于快速退化状态,保护区湿地面积由1.72×104 hm2减少到0.99×104 hm2,减少了42.4%;保护区湿地的斑块数从32个增加到51个,平均斑块面积由537 hm2减少为213 hm2,湿地演化呈破碎化趋势。湿地分布质心向西南方向移动了11.59 km,湿地呈整体向西南缓慢移动的趋势。运用因子分析法对湿地演化的驱动因子进行了分类,并利用投影寻踪模型分析各驱动因子对湿地演化的贡献率,结果表明:下游湿地退化的根本原因是大规模引地表水和开采地下水灌溉,其次是气候变化引起的冰川退缩、径流量衰减。20世纪90年代,西湖保护区湿地处于相对稳定状态,建议敦煌地区耕地维持在20世纪90年代初的2.7×104 hm2水平,或通过节水、调整作物结构和跨流域调水等措施,压缩引地表水和开采地下水水量,灌溉用水需控制在20世纪90年代初的用水水平。该研究成果可为自然保护区湿地保护和流域综合开发提供依据。 相似文献
14.
Public education as well as tourism and leisure are the two important functions of national wetland park, and tourist behaviors act as the guiding factor in the national wetland park construction and management. As the first national wetland park in China, Xixi National Wetland Park, located in Hangzhou City, Zhejiang Province, will give constructive instructions to the construction and management of other wetland parks and ecotourism resorts. This paper analyzed the tourist behaviors in Xixi National Wetland Park. By the observation, in-depth interview and questionnaire, the results show that tourists in wetland parks are different from those in the other common destinations, and they are also different from those strict eco-tourists. In fact, the tourists in wetland park have unique characteristics, such as the intense perception to the functions of wetland ecosystem and the environment impact behaviors. Those tourists are preferred to natural landscapes in their motivations and expectations. Wetland landscapes are the main image to those tourists in the Xixi National Wetland Park. Tourist expectation, experience and satisfaction are all critical factors for the success of the planning and management in national wetland parks. Based on the results, some measures for the sustainable development of wetland parks, including to optimize wetland theme landscape and tourism products, to improve tourist facilities and services, to enhance quality of visitor experiences, and to implement total quality management based on tourist characteristics, are given to national wetland park ecotourism. 相似文献
15.
武汉城市化过程中的土地利用变化对其湖泊生态系统产生了一系列负面影响,深入研究并分析其影响的空间非平稳性对优化武汉城市化建设和环境保护规划极具现实意义。本文运用景观生态学理论和地理加权回归建模方法,分别构建城市化测度指标和多种类型景观格局指标,衡量武汉城市化进程对于湖泊特征、景观格局的影响,从而揭示了1996~2013年间武汉城市化进程与湖泊景观格局之间的空间非平稳性关系,结果表明:1武汉城市化进程对其不同地理区域的湖泊景观格局影响存在差异,具体表现为城市化强度越大的地区,其引起并解释湖泊景观格局变化的能力越强;2在武汉市大部分地区(超过其总面积的70%),尤其集中在中部及其周边地区,城市化与湖泊景观面积、密度、连通度、斑块分维数的变化均存在负相关,且具有呈方向性的梯度变化趋势。3在某些有针对性保护的区域,如北部黄陂区,景观面积、景观连通度、斑块分维数与城市化强度指数呈现出正相关。针对上述特征本研究提出武汉市湖泊防治的对策和建议。 相似文献
16.
Wetland biodiversity means mainly the types of wetland ecosystem and biological species diversity. Biodiversity includes all
species of plants, animals and microbes, all gene possessed by them and all ecosystems consisting of them and environment.
According to the origin and genesis, China’s wetlands can be divided into natural wetland ecosystems including mires, lakeshores,
bottomland, seashore, wet meadow, etc., and artificial wetland ecosystem including paddy field. Then based on geomorphological
type, these ecosystems can be divided into 15 subsystems, then based on soil substrata and ecological niche conditions, they
can be subdivided into 15 classes, finally according to construction species of plants, several types can be divided into.
They are not only the expression of ecosystem diversity, but also the base for biological communities subsistence. This peculiar
ecological niche provides a complex and perfect special habitat for various animal and plant communities. In this special
habitat, there exist various biological types from monomolecular microbes to higher plants and animals, especially some endangered
and rare plants and animals. According to the statistics, there are more than 300 species of birds in China wetlands, making
up one-third of the total number of China’s birds. Wetlands not only good place for waterbirds living, but also the important
environment on which wild animals and plant rely for existence. There are 65 species of mammals, 50 species of reptiles, 45
species of amphibious animals, 1040 species of fish, 825 species of higher plants, 639 species of angiosperm, 10 species of
gymnosperm, 12 species of pteridophyte and 164 species of bryophyte investigated in China’s wetlands. 相似文献
17.
STUDY ON WETLAND LOSS AND ITS REASONS IN CHINA 总被引:2,自引:2,他引:0
1INTRODUCTIONWetlandsaretheecosystemswithmanyfunctionsandhavebeenprovidinguswitharangeoffunctionsandbenefitssuchaswatersupplyflowregulationsendimentretentionmoderationofclimatepreventionofsalinewaterintrusionetc.Althoughwetlandoccupyonlyabout6%… 相似文献
18.
YIN Shu-bai LU Xian-guo 《中国地理科学(英文版)》2006,16(1):56-62
1 INTRODUCTION There is no single and universally recognized wetland definition so far. More than 50 of wetland definitions have been developed (YANG, 2002; DUGAN, 1993; MITCH and GOSSELINK, 1996; NRC, 1995). Because wetlands form part of a continuous gradient between u- plands and open water, the problem on wetland defini- tion usually arises on the edges of wetlands, toward ei- ther wetter or drier conditions (NRC, 1995; MITSCH and GOSSELINK, 1996). What frequency, dept… 相似文献
19.
城市边缘区位于城市与乡村之间的过渡交接地带,既是城市扩张的前沿,也是城乡建设和用地置换中最具活力的地区。准确识别城市边缘区的空间范围一直是城市空间结构研究的核心问题,有助于从城乡对比的角度来衡量城市化程度。本文以城市边缘区的空间突变特征为切入点,基于格网尺度评价构建基于多源数据的城市边缘区特征识别指标,然后采用小波变换检测进行特征值突变点群的识别,并利用基于Delaunay的自动边长阈值的边界提取算法识别突变点群内外边界,从而实现了一种基于空间突变特征的城市边缘区提取方法。最后,以江阴市作为研究区进行了实证分析,并将本文方法提取结果与通过信息熵模型和土地利用程度综合指数模型提取城市边缘区的经典方法提取结果进行对比,经典方法所提取的城市边缘区结果更为混乱分散,而本文结果更为完整客观。将本文方法提取结果与使用土地利用数据与行政区划统计年鉴数据构建城市边缘区识别指标进行突变检测的不同指标方法提取结果进行对比,二者重叠度达88.03%,体现了本文方法的正确性,而从局部细节分析来看,本文结果更符合实际情况。为了更好地验证本文方法的有效性,利用景观格局指数对本文方法和不同指标方法提取的城市建成区、城市边缘区和乡村腹地的范围进行检验:从斑块类型层级指数分析, 2种方法划定的区域都具有典型的空间特征;而从景观层级指数分析,本文识别出的边缘区所计算的斑块密度、最大斑块指数、景观分离度、景观破碎化指数和香农多样性指数均高于对比方法,而蔓延度和香农均匀度均低于对比方法,说明本文识别的城市边缘区范围内景观破碎化程度和异质性更高,景观分布不均匀,社会经济条件更复杂,从而证明了本方法的有效性,尤其适合于非闭合环状的城市边缘区的提取。 相似文献
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YU Han WANG Xiaodong CHU Lijuan WANG Guodong SUN Guangzhi SUN Mingyang WANG Jingyu JIANG Ming 《中国地理科学(英文版)》2019,(4):712-724
In the case of increasing fragmentation of wetlands, the study of the relationship between wetland landscape characteristics and total nitrogen(TN) in water is of great significance to reveal the mechanism of wetland water purification. Taking the Naoli River(NR) wetlands in Northeast China as the research object, 10 uniformly distributed sampling sites in the study area were sampled in August 2015 to test the TN concentration and interpret the images of NR wetlands in the same period. Taking the sampling site as the control point, the whole wetlands were divided into 10 regions, and the landscape index of each region was extracted. In order to reveal whether the landscape characteristics are related to the TN concentration in the wetlands water body, the landscape index and the TN concentration in the control point water body were analyzed by correlation analysis, step-by-step elimination analysis and path analysis to reveal whether the landscape characteristics are related to the TN concentration under wetlands receiving agricultural drainages. The results showed that the correlation coefficients between four area indexes or eight shape indexes and TN concentration did not reach a significant correlation level(P > 0.05), indicating that TN removal was not only determined by a single landscape index. The path coefficient of edge density(ED) index is –0.41, indicating that wetland patch connectivity is the primary factor of TN removal, and there is no relationship between the larger patch area and the higher TN removal. The removal of TN in wetlands is restricted by the synergistic effect of landscape area and shape characteristics. 相似文献