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1.
近30年吉林市景观格局变化及气候效应 总被引:2,自引:0,他引:2
在ArcGIS、ENVI、Excel和FRAGSTATS软件支持下, 利用景观指数中的斑块数量、最大斑块指数、斑块密度、周长面积分维数、聚集度和香农多样性指数, 对1980年、1995年和2010年的吉林市景观格局进行了分析。结果表明:近30年间吉林市斑块数量、斑块密度、周长面积分维数和香农多样性指数呈先增加后减少的趋势, 聚集度呈先减少后增加的趋势, 最大斑块指数逐渐减少;林地景观面积、草地景观面积一直在减少, 湿地景观面积呈先增加后减少趋势, 旱田景观面积逐渐增加。在东北地区气候变化背景下, 吉林市景观格局的变化对该区气候产生了一定的影响, 使该区气温上升、降雨量减少。吉林市景观格局变化与气温、降雨量变化的空间分布格局有较好的对应关系。 相似文献
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吉林省西部属于生态脆弱区,湿地作为重要的生态单元,其发展变化对区域生态环境产生重要影响。近年来,由于受到较多的人为干扰,该区域湿地变化极为显著。为了充分发挥湿地生态环境功能,促进区域生态环境改善,以吉林省西部2000-2010年湿地变化数据为基础,基于情景分析法设置了自然变化(情景1)、规划优先(情景2)和生态优先(情景3)三种情景,利用CLUE-S模型对2020年湿地空间格局进行模拟,并从湿地空间分布变化特征和景观抗干扰能力两个方面对不同情景下的湿地格局进行分析评价,旨在了解不同情景下湿地格局的差异性,寻求合理的湿地空间分布格局。结果表明:CLUE-S模型的土地利用预测正确率为84.54%,κ指数为0.83,能够较好地模拟2020年湿地格局变化,特别是对沼泽湿地、水域和建设用地模拟效果较好;不同情景下湿地空间格局特征具有明显的差异性,三种情景下的沼泽湿地的质心均偏向西南,水域的质心均偏向东南,而水田的质心在情景1中偏向东北,在情景2和情景3中偏南,沼泽湿地和水田在情景3比情景1中具有更强的聚集性,而水域恰相反,情景1比情景3中具有更强的聚集性;不同情景下的湿地景观抗干扰能力不同,2010-2020年,情景1中的所有湿地类型的景观干扰指数都逐渐增加,而情景2和情景3中沼泽湿地和水域的景观干扰指数逐渐降低,尤以生态优先情景的下降幅度最大。表明在实施科学的生态建设时,湿地景观具有较强的抗干扰能力。 相似文献
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为揭示湿地变化剧烈区湿地格局变化过程及规律,利用GIS和RS技术,结合地学信息图谱与空间自相关方法,对1954-2010年三江平原沼泽湿地格局变化及其影响因素进行研究。结果表明:1954-2010年三江平原沼泽湿地面积逐渐减少,88.7%的沼泽湿地丧失,湿地斑块数量呈先增加后减少的趋势;三江平原沼泽湿地的空间聚集性逐渐降低,且空间格局由集中连片分布转变为零星散布;降雨量减少、气温升高及径流量减少,是造成沼泽湿地减少的主要原因之一,地形地貌影响到沼泽湿地的丧失程度,以海拔20~80 m的沼泽湿地面积丧失最多。三江平原沼泽湿地的丧失同时受农业开发、居民点分布、湿地保护区建设影响,距居民点越近,沼泽湿地面积丧失呈指数增加,距保护区越近,沼泽湿地面积丧失越多。 相似文献
4.
岩溶湖泊湿地流域作为景观格局变化的热点研究区域,探讨景观格局动态变化及预测趋势,为岩溶流域生态安全研究提供科学依据。应用遥感与地理信息系统技术,结合普者黑岩溶湖泊湿地流域实际情况,分别对该地区1990、1995、2000、2005、2010、2015 年6 期遥感影像进行分类、解译,系统地获取地区景观格局状况,分析动态变化特征,并运用CA-Markov 模型对未来湿地景观格局进行模拟预测。结果表明:1990?2015年普者黑岩溶湿地流域景观格局随时间变化显著,景观破碎化程度总体呈现增加趋势,斑块数(NP)从861增加到889,景观类型的优势斑块面积在逐渐增加,而多样性指数从1.064下降到0.966;2020?2030年普者黑岩溶湿地流域建筑用地、农地和湿地景观类型面积在增加,农地和林地在减少,其中,较为突出的是建筑用地占有率由2.79%上升到2.97%,农地占有率60.12%增加到60.74%,湿地占有率6.67%上升7.02%,而林地占有率由26.70%下降到26.40%。景观格局进行预测可以发现湿地面积、建筑用地面积和农地变化幅度最大,本文相关研究和预测结果可为普者黑流域生态保护提供一定的建议和参考。 相似文献
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基于1977、1993、2001和2005年4期Landsat遥感影像资料,选用面积、斑块数量、斑块平均大小、斑块面积标准差和面积加权平均斑块形状指数,对额济纳盆地景观空间格局的动态变化进行了分析。结果表明:乔木林面积持续减少,表现为绿洲外部及边缘的小斑块大量消失;灌木林在早期以斑块的萎缩和破碎化为主,随后因建群种演替为旱生生态型而趋于稳定,2001年后部分小斑块消失;草地在1977~1993年以小斑块的消失为主,1993~2001年以斑块的破碎化为主,2001年后斑块的团聚性增强,草地扩张;戈壁在1977~2001年斑块的破碎化程度增大,2001年后受草地恢复和巴丹吉林沙漠入侵的影响,总面积和斑块数量减少;沙地在研究期间持续扩张,1977~1993年表现为向植被的分散入侵,1993~2001年斑块的扩张和新小斑块的形成同步进行,2001年后以斑块的扩展和相互连通为主,团聚性增强。黑河输水量的变化是研究区景观空间格局动态变化的主要驱动力,在生态输水工程实施后,生态环境的恶化趋势得到了一定的扼制,但仍需采取措施提高输水的生态效果。 相似文献
6.
干旱是全球性普遍发生的一种自然现象,而喀斯特干旱不能简单归因于"气候异常、降水量减少"。在贵州省选择40个典型流域为研究样区,利用面向对象分类技术,构建土壤水体指数(SWBI),提取土地利用类型的遥感信息;借用景观指数计算软件(Fragstats4.0),计算土地利用类型的景观密度指数(PD)、最大斑块指数(LPI)、形状指数(SI)、景观分维指数(FDI),分析土地利用类型的空间分布格局;探讨不同土地利用格局下的流域储水空间的变化、流域地表储水能力的大小,研究土地利用类型及其空间分布变化对水文干旱的影响。研究表明:①疏林、旱地和灌木林分布相对集中、空间分布变化较大,水体和城镇分布相对分散、空间分布变化较小;②土地利用类型的斑块密度分布及最大斑块分布对水文干旱影响较大,土地利用类型的斑块边界分布及斑块形状分布对水文干旱影响较小;③土地利用类型的斑块密度指数、最大斑块指数、斑块形状指数及斑块分维指数越大,则土地利用类型对水文干旱影响越小。 相似文献
7.
综合运用GIS技术和景观生态学方法,以贵州省九个地级行政单元为研究对象,分析了贵州省土地利用的空间结构特征,进而,结合贵州省特殊省情——喀斯特石漠化的发育,建立了喀斯特石漠化与景观指数之间相关关系。所得基本结论为:(1)贵州省北部和西部地区景观破碎严重;南部和西南部斑块形状相对规则;东部和北部的景观连接度高;九个地区景观多样性和景观均匀度基本相等,景观多样性较低,景观分布较均匀;东部和西部土地利用的空间镶嵌结构最复杂,稳定性最强;从南到北中部狭长的一条带上,土地利用的空间镶嵌结构最简单,稳定性最弱。(2)潜在以上石漠化与耕地景观形状指数、景观多样性指数和斑块数量之间存在相关关系,相关系数分别为-0.8375、0.5713和0.8676,说明耕地景观形状越简单、景观多样性越高、斑块数量越多,石漠化的分布就相应越广泛。 相似文献
8.
以整个景观为研究对象,着重分析研究九寨沟的景观格局,景观之间的相互关系以及人类活动对景观的影响.从景观生态学的角度,结合遥感和地理信息系统技术,综合景观分类原理绘制出九寨沟景观分布矢量图,并建立景观空间数据库.运用景观生态学数量分析方法,选取斑块大小、斑块数、平均斑块面积、最大斑块指数、斑块形状指数、景观多样性、景观破碎化等景观指标,对九寨沟景区进行综合的、多层次的景观空间结构分析,从而对景区内景观格局变化的内在规律进行探讨,并针对景观破碎化现况,提出九寨沟生态旅游可持续性发展建议. 相似文献
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本文利用一个1 km分辨率冰盖模式和11个PMIP4全球气候模式,研究了全新世中期亚洲高山区气候和冰川的变化特征。多模式集合平均结果显示,(1)全新世中期亚洲高山区年平均温度较工业革命前期降低了约0.7 ℃,夏季气温升高约0.7 ℃,冬季气温降低约1.8 ℃,全新世中期年平均降水略微增加(0.5%),但夏季和冬季降水分别增加和减少了约16%;(2)全新世中期亚洲高山区冰川较工业革命前期整体显著退缩,面积减少了约13%,体积减小了约8%。在区域尺度上,全新世中期亚洲高山区北部冰川的面积(体积)减少了约58%(47%),西部冰川的面积(体积)减少了约26%(25%),而南部冰川的面积(体积)增加了约20%(39%);(3)全新世中期夏季升温主导亚洲高山区北部和西部冰川的退缩,而降水增多是亚洲高山区南部冰川扩张的首要控制因子。本研究有助于加深理解全新世中期亚洲高山区冰川的变化格局和驱动因子。 相似文献
11.
Irina V. Kurina Elena E. Veretennikova Anna A. Il’ina Marina L. Egorova Lyudmila V. Salisch Vladimir N. Dolgin Albert V. Udaloi Evgeniya A. Golovatskaya Egor A. Dyukarev Sergei V. Smirnov 《Boreas: An International Journal of Quaternary Research》2023,52(2):223-239
Palaeoenvironmental reconstructions from peat are strongly focused on ombrotrophic mires, but this study demonstrates that eutrophic mires can also be used. A multi-proxy approach was applied to a eutrophic mire on a floodplain terrace in the southern taiga of West Siberia. The results of the reconstruction were considered in the wide geographic context of the surrounding regions, including Siberia and Central Asia. Different palaeoecological proxies (analysis of plant macrofossils, testate amoebae, oribatid mites, molluscs, peat humification, ash content and spectral characteristics of humic acids) were used in this study. The results of different proxies showed a high level of consistency among themselves, which allowed for a robust interpretation of Holocene mire development. Throughout the ~7800 years history of the mire, there was a high level of surface wetness. The presence of mineral matter in the peat between 7800 and 5100 cal. a BP indicates regular flooding caused by the intensive fluvial activity, apparently resulting from increased precipitation. This was followed by a trend towards a gradual decrease in surface wetness from conditions of high surface moisture (stagnant water) between 5100 and 3000 cal. a BP to present day conditions of moderate surface moisture with a water table slightly below the mire surface. This pattern is consistent with the well-documented long-term trend from palaeoecological records throughout the taiga and arctic zones in West Siberia and central arid Asia. Our data further support the idea that the westerlies were the dominant driver of climate for the southern taiga of West Siberia during the Middle to Late Holocene. 相似文献
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We analyse the potential impacts of sea-level rise on the management of saline coastal wetlands in the Hunter River estuary, NSW, Australia. We model two management options: leaving all floodgates open, facilitating retreat of mangrove and saltmarsh into low-lying coastal lands; and leaving floodgates closed. For both management options we modelled the potential extent of saline coastal wetland to 2100 under a low sea-level rise scenario (based on 5 % minima of SRES B1 emissions scenario) and a high sea-level rise scenario (based on 95 % maxima of SRES A1FI emissions scenario). In both instances we quantified the carbon burial benefits associated with those actions. Using a dynamic elevation model, which factored in the accretion and vertical elevation responses of mangrove and saltmarsh to rising sea levels, we projected the distribution of saline coastal wetlands, and estimated the volume of sediment and carbon burial across the estuary under each scenario. We found that the management of floodgates is the primary determinant of potential saline coastal wetland extent to 2100, with only 33 % of the potential wetland area remaining under the high sea-level rise scenario, with floodgates closed, and with a 127 % expansion of potential wetland extent with floodgates open and levees breached. Carbon burial was an additional benefit of accommodating landward retreat of wetlands, with an additional 280,000 tonnes of carbon buried under the high sea-level rise scenario with floodgates open (775,075 tonnes with floodgates open and 490,280 tonnes with floodgates closed). Nearly all of the Hunter Wetlands National Park, a Ramsar wetland, will be lost under the high sea-level rise scenario, while there is potential for expansion of the wetland area by 35 % under the low sea-level rise scenario, regardless of floodgate management. We recommend that National Parks, Reserves, Ramsar sites and other static conservation mechanisms employed to protect significant coastal wetlands must begin to employ dynamic buffers to accommodate sea-level rise change impacts, which will likely require land purchase or other agreements with private landholders. The costs of facilitating adaptation may be offset by carbon sequestration gains. 相似文献
14.
Mall Orru Vivika Vaizene Juri-Rivaldo Pastarus Ylo Systra Ingo Valgma 《Environmental Earth Sciences》2013,70(7):3311-3321
The paper presents results of the study on oil shale mining (Estonia underground mine) possibilities under the Selisoo mire. The Selisoo area is 2,051 ha in extent, and most of the mire is in natural state. Peat layer consists of thick (4.4–6.5 m) oligotrophic peat. Mining under Selisoo will go at depths 65–70 m under the surface. The mining field of the Estonia mine was planned between Ahtme and Viivikonna fault zones. The lowest hydraulic conductivity of carbonate rocks 0.11 l/day per m2 is found in the Oandu layer and for peat it is 0.35–0.0002 m/day. Therefore, together they form a good aquitard. When the annual rainfall amount is the highest, the difference between horizontal water inflow and runoff is positive with 127,000 m3. Positive water balance is guaranteed in case of precipitation being at least 540 mm/year. The positive water balance is important for preserving the ecological system of Selisoo mire. For guaranteeing long-term stability of mine pillars, a new calculation method has been elaborated, based on the conventional calculation scheme, where the factor of safety is more than 2.3. Rheological processes are out of question, collapse of the pillars is impossible. Stability of the underground constructions and overburden rocks must be “eternal”. The criteria were elaborated for oil shale mining and will guarantee preservation of mires in natural or close to natural state. 相似文献
15.
The purpose of this study is to investigate the oasis landscape fragmentation in northwestern China’s arid regions. Landscape
maps of Jinta oasis were compiled by using GIS based on Landsat TM data of 1990 and 2000. Landscape indexes for evaluating
fragmentation are patch area, patch density, corridor density and split index. Results indicated many difference. First, between
the years 1990 and 2000, the landscape fragmentation in Jinta oasis decreased slightly. Second, the area of the matrix decreased
at the class level. The landscape fragmentation of the matrix (bare soil) increased as a result of increased influence of
human activities on matrix and was opposite to the irrigated farmland whose area is larger and more aggregated in 2000 than
in 1990. Third, dense corridor system is one of the most prominent characteristics of the arid regions. It is one of the key
factors resulting in the landscape fragmentation; especially the fragmentation within the same patch types. The corridor density
of irrigated farmland, residential area and forestland were quite large in Jinta oasis both in 1990 and 2000. The pattern
of Jinta oasis is characterized by agricultural oasis embedded in Gobi and in the desert, where the ecosystem was disturbed
strongly by the intense human activities. 相似文献
16.
Shuai Wang Longyi Shao Dongdong Wang Jason Hilton Biao Guo Jing Lu 《Sedimentology》2020,67(2):991-1013
Coal seams preserve high-resolution records of ancient terrestrial water table (base level) fluctuations in ancient peat accumulations, but little is known about base level change in anomalously thick coal seams. Using the Early Cretaceous 91 m anomalously thick No. 6 coal (lignite) seam in the Erlian Basin (north-east China) as a case study, the origin and evolution of peat accumulation in a continental faulted basin is revealed by sedimentological, sequence stratigraphic and coal petrological analyses. The lignite is dominated by huminite, indicating oxygen-deficient and waterlogged conditions in the precursor mire. Four types of key sequence stratigraphic surfaces are recognized, including paludification, terrestrialization, accommodation-reversal and give-up transgressive surfaces. Vertically, the No. 6 coal seam consists of fourteen superimposed wetting-up and drying-up cycles separated by key sequence stratigraphic surfaces, with each of these cycles having a mean duration of about 156 to 173 kyr. In a high accommodation peat swamp system, the wetting-up cycles are generally characterized by an upward increase in mineral matter and inertodetrinite and an upward decrease in huminite with the paludification surface as their base and the give-up transgressive surface or accommodation-reversal surface as their top, representing a trend of upward-increasing accommodation. In contrast, the drying-up cycles are generally characterized by an upward decrease in mineral matter and inertodetrinite and an upward increase in huminite, with the terrestrialization surface as their base and the accommodation-reversal surface as their top, representing a trend of upward-decreasing accommodation. A multi-phase mire stacking model for accumulation of the coal seam is proposed based on high-frequency accommodation cycles and the stratigraphic relationships between coal and clastic sediments. High-frequency accommodation cycles in the coal are closely related to water table fluctuations in the precursor mires and are driven by high-frequency climate via changes in the intensity and seasonality of precipitation in a relatively stable subsidence regime. Recognition that the No. 6 coal seam is composed of multiple stacked mires has implications for studies addressing palaeoclimatic inferences and genesis of anomalously thick coals seams. 相似文献
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本文以DSR模型为框架建立了湖南洛塔屋檐洞水库生态安全评价指标体系,并引入缀块丰富度密度、聚集度、景观均匀性指数等景观生态学指数,采用层次分析和模糊评判有机结合的综合方法,从生态安全状态、压力、响应三个指标体系角度出发,具体分析了屋檐洞库区自然、社会、经济三方面的生态安全问题,对库区生态安全进行综合评价,评判出屋檐洞水库库区系统生态安全属于安全级别,并根据评价中间结果找出生态安全响应是洛塔中寨水电站建设的潜在生态危险因素,提出建立合理科学的生态补偿机制以及库区生态安全预警系统等对策. 相似文献
18.
T. V. Napreenko-Dorokhova M. G. Napreenko A. P. Lisitzin 《Doklady Earth Sciences》2017,475(2):900-906
The results of complex investigations that have been carried out since 2007 in large bog ecosystems (Zehlau, Bolshoe Mokhovoe, and Koz’e) located in Kaliningrad oblast in two largest landscape areas, glaciolacustrine plains in the central part of the region and coastal lowlands of the southern coast of Curonian Lagoon and the delta of the Neman River, are presented. It is established that the intensive development of mires and their transition to the raised bog stage occurred in the territory of Kaliningrad oblast later than in most of the forest zone in European Russia, where this process was noted as early as during the Atlantic. On the glaciolacustrine flat plains in the central part of Kaliningrad oblast, where there were no deep depressions, the mire formation process was manifested weakly for a long time. A colder and more humid climate, which is a condition necessary for the raised bog peat accumulation and rapid expansion of bogs to the adjacent forest area, occurred only in the Subatlantic. 相似文献
19.
More than 3800 coal thickness measurements, proximate analyses from 97 localities, and stratigraphic and sedimentological analyses from more than 300 outcrops and cores were used in conjunction with previously reported palynological and petrographic studies to map individual benches of the coal and document bench-scale variability in the Fire Clay (Hazard No. 4) coal bed across a 1860 km2 area of the Eastern Kentucky Coal Field. The bench architecture of the Fire Clay coal bed consists of uncommon leader benches, a persistent but variable lower bench, a widespread, and generally thick upper bench, and local, variable rider benches. Rheotrophic conditions are inferred for the leader benches and lower bench based on sedimentological associations, mixed palynomorph assemblages, locally common cannel coal layers, and generally high ash yields. The lower bench consistently exhibits vertical variability in petrography and palynology that reflects changing trophic conditions as topographic depressions infilled. Infilling also led to unconfined flooding and ultimately the drowning of the lower bench mire. The drowned mire was covered by an air-fall volcanic-ash deposit, which produced the characteristic flint clay parting. The extent and uniform thickness of the parting suggests that the ash layer was deposited in water on a relatively flat surface without a thick canopy or extensive standing vegetation across most of the study area. Ash deposits led to regional ponding and establishment of a second planar mire. Because the topography had become a broadly uniform, nutrient-rich surface, upper-bench peats became widespread with large areas of the mire distant to clastic sources. Vertical sections of thick (>70 cm), low-ash yield, upper coal bench show a common palynomorph change from arborescent lycopod dominance upward to fern and densospore-producing, small lycopod dominance, inferred as a shift from planar to ombrotrophic mire phases. Domed mires appear to have been surrounded by wide areas of planar mires, where the coal was thinner (<70 cm), higher in ash yield, and dominated by arborescent lycopods. Rectangular thickness trends suggest that syndepositional faulting influenced peat accumulation, and possibly the position of the domed mire phase. Faulting also influenced post-depositional clastic environments of deposition, resulting in sandstone channels with angular changes in orientation. Channnels and lateral facies were locally draped by high-ash-yield rider coal benches, which sometimes merged with the upper coal bench. These arborescent-lycopod dominant rider coal benches were profoundly controlled by paleotopography, much like the leader coal benches. Each of the benches of coal documented here represent distinctly different mires that came together to form the Fire Clay coal bed, rather than a single mire periodically split by clastic influx. This is significant as each bench of the coal has its own characteristics, which contribute to the total coal characteristics. The large data set allows interpretation of both vertical and lateral limits to postulated domed phases in the upper coal bench, and to the delineation of subtle tectonic structures that allow for meaningful thickness projections beyond the limits of present mining. 相似文献