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1.
亚洲季风与中国干湿、农牧气候界线之关系 总被引:15,自引:4,他引:11
基于中国553个气象站点1958~2000年日降水量资料、北方295个气象站点同期(20(cm)蒸发皿资料,界定出半干旱区和农牧交错区各自的范围。利用东亚夏季风强度指数(1951~1995年)与印度夏季降水量(1951~1998年)资料, 分析了半干旱区和农牧交错区东南-西北界10年际空间变化与亚洲夏季风的关系。近50年中国干湿、农牧气候界线的动态变化是影响中国的季风环流强弱作用在空间上的实物表现, 季风环流的强弱变化控制着气候界线空间摆动的范围与方向, 其年代际变化是中国干湿、农牧气候界线呈现出年代际变化特征的根源。分析显示, 在现代情况下, 农牧气候界线位置的空间摆动主要反映人类生产活动强度的强弱差异, 人为因素起主导作用。 相似文献
2.
气候变化对北方农牧交错带界线变迁影响的定量探测方法研究 总被引:4,自引:1,他引:3
气候对北方农牧交错带界线变迁的定量影响是目前生态脆弱敏感区对气候变化响应领域的研究热点问题。前人已在气候变化对农牧交错带界线的定性影响方面有较为深刻的认识,但仍缺乏在时间和空间上对气候贡献率进行有针对性的定量辨识。本文利用1970年以来长时间序列的国家气象站点数据和土地利用遥感解译数据,分别提取了基于气候要素和土地利用的20世纪70年代、80年代、90年代和21世纪前10年4个时期的北方农牧交错带界线,通过垂直和水平方向变动探测方法(FishNet)和界线变迁方向变动探测方法(DSAS)对气候界线与土地利用界线的时空变化进行探测,定量分析了不同时期气候对农牧交错带界线变迁影响的贡献率。结果表明,气候与土地利用界线空间分布格局及气候贡献率在不同时期、不同区域差异较大,在西北地区变幅最小,东北地区变幅最大。在大兴安岭东南缘农田控制水源涵养生态功能区西北段以及内蒙古高原东南缘农、林、牧业生态—生产功能区西北段,气候与土地利用界线空间耦合关系最为密切,在该地区基于FishNet方法下水平方向上气候贡献率达10.7%~44.4%,垂直方向上达4.7%~55.9%;基于DSAS方法下气候贡献率为1.1%~16.8%。两种方法探测结果大部分趋于一致,但DSAS方法精度高,适用于小范围精确探测;FishNet方法更简单,适用于精度要求不高、快速直观的统计分析。本研究可为北方农牧交错带内农牧业生产适应气候变化、合理开发土地生产潜力、保护农牧交错带区内生态环境提供科学依据和指导。 相似文献
3.
Development of quantitative methods for detecting climate contributions to boundary shifts in farming-pastoral ecotone of northern China 总被引:3,自引:0,他引:3
The quantitative effect of climate change on fragile regions has been a hot topic in the field of responses to climate change. Previous studies have qualitatively documented the impacts of climate change on boundary shifts in the farming-pastoral ecotone (FPE); however, the quantitative methods for detecting climate contributions remain relatively limited. Based on long-term data of meteorological stations and interpretations of land use since 1970, climate and land use boundaries of the 1970s, 1980s, 1990s and 2000s were delineated. To detect climate contributions to the FPE boundary shifts, we developed two quantitative methods to explore the spatial-temporal pattern of climate and land use boundary at the east-west (or south-north) (FishNet method) and transect directions (Digital Shoreline Analysis System, DSAS method). The results indicated that significant differences were exhibited in climate boundaries, land use boundaries, as well as climate contributions in different regions during different periods. The northwest FPE had smaller variations, while the northeast FPE had greater shifts. In the northwest part of the southeast fringe of the Greater Hinggan Mountains and the Inner Mongolian Plateau, the shifts of climate boundaries were significantly related to the land use boundaries. The climate contributions at an east-west direction ranged from 10.7% to 44.4%, and those at a south-north direction varied from 4.7% to 55.9%. The majority of the results from the DSAS were consistent with those from the FishNet. The DSAS method is more accurate and suitable for precise detection at a small scale, whereas the FishNet method is simple to conduct statistical analysis rapidly and directly at a large scale. Our research will be helpful to adapt to climate change, to develop the productive potential, as well as to protect the environment of the FPE in northern China. 相似文献
4.
太白山高山林线植被的数量分析 总被引:8,自引:2,他引:6
通过对太白山南坡高山林线(alpinetimberline)及其附近的草本植物群落的聚类,排序,物种多样性以及生态种组等研究分析表明:1.太白山高山植物群落的物种多样性随着海拔高度的升高而增加;2群落交错带(ecotone)的物种多样性要比相邻群落内部高;3.在太白山高山带,随着海拔升高,种一面积相关值呈波动增加,但在群落交错带比相邻群落的内部小。 相似文献
5.
《地理学报(英文版)》2017,(9)
The quantitative effect of climate change on fragile regions has been a hot topic in the field of responses to climate change. Previous studies have qualitatively documented the impacts of climate change on boundary shifts in the farming-pastoral ecotone(FPE); however, the quantitative methods for detecting climate contributions remain relatively limited. Based on long-term data of meteorological stations and interpretations of land use since 1970, climate and land use boundaries of the 1970 s, 1980 s, 1990 s and 2000 s were delineated. To detect climate contributions to the FPE boundary shifts, we developed two quantitative methods to explore the spatial-temporal pattern of climate and land use boundary at the east-west(or south-north)(Fish Net method) and transect directions(Digital Shoreline Analysis System, DSAS method). The results indicated that significant differences were exhibited in climate boundaries, land use boundaries, as well as climate contributions in different regions during different periods. The northwest FPE had smaller variations, while the northeast FPE had greater shifts. In the northwest part of the southeast fringe of the Greater Hinggan Mountains and the Inner Mongolian Plateau, the shifts of climate boundaries were significantly related to the land use boundaries. The climate contributions at an east-west direction ranged from 10.7% to 44.4%, and those at a south-north direction varied from 4.7% to 55.9%. The majority of the results from the DSAS were consistent with those from the Fish Net. The DSAS method is more accurate and suitable for precise detection at a small scale, whereas the Fish Net method is simple to conduct statistical analysis rapidly and directly at a large scale. Our research will be helpful to adapt to climate change, to develop the productive potential, as well as to protect the environment of the FPE in northern China. 相似文献
6.
The alpine treeline ecotone is defined as a forest-grassland or forest-tundra transition boundary either between subalpine forest and treeless grassland, or between subalpine forest and treeless tundra. The alpine treeline ecotone serves irreplaceable ecological functions and provides various ecosystem services. There are three lines associated with the alpine treeline ecotone, the tree species line (i.e., the highest elevational limit of individual tree establishment and growth), the treeline (i.e., the transition line between tree islands and isolated individual trees) and the timber line (i.e., the upper boundary of the closed subalpine forest). The alpine treeline ecotone is the belt region between the tree species line and the timber line of the closed forest. The treeline is very sensitive to climate change and is often used as an indicator for the response of vegetation to global warming. However, there is currently no comprehensive review in the field of alpine treeline advance under global warming. Therefore, this review summarizes the literature and discusses the theoretical bases and challenges in the study of alpine treeline dynamics from the following four aspects: (1) Ecological functions and issues of treeline dynamics; (2) Methodology for monitoring treeline dynamics; (3) Treeline shifts in different climate zones; (4) Driving factors for treeline upward shifting. 相似文献
7.
未来气候情景下中国生态地理区域系统温度带的北移(英文) 总被引:6,自引:3,他引:3
Despite the well-documented effects of global climate change on terrestrial species' ranges,eco-geographical regions as the regional scale of ecosystems have been poorly studied especially in China with diverse climate and ecosystems.Here we analyse the shift of temperature zones in eco-geographical study over China using projected future climate scenario.Projected climate data with high resolution during 1961-2080 were simulated using regional climate model of PRECIS.The number of days with mean daily temperature above 10℃ and the mean temperature of January are usually regarded as the principal criteria to indicate temperature zones,which are sensitive to climate change.Shifts due to future climate change were calculated by comparing the latitude of grid cells for the future borderline of one temperature zone with that for baseline period(1961-1990).Results indicated that the ranges of Tropical,Subtropical,Warm Temperate and Plateau Temperate Zones would be enlarged and the ranges of Cold Temperate,Temperate and Plateau Sub-cold Zones would be reduced.Cold Temperate Zone would probably disappear at late this century.North borderlines of temperature zones would shift northward under projected future climate change,especially in East China.Farthest shifts of the north boundaries of Plateau Temperate,Subtropical and Warm Temperate Zones would be 3.1°,5.3° and 6.6° latitude respectively.Moreover,northward shift would be more notably in northern China as future temperature increased. 相似文献
8.
Northward-shift of temperature zones in China’s eco-geographical study under future climate scenario
Despite the well-documented effects of global climate change on terrestrial species’ ranges, eco-geographical regions as the regional scale of ecosystems have been poorly studied especially in China with diverse climate and ecosystems. Here we analyse the shift of temperature zones in eco-geographical study over China using projected future climate scenario. Projected climate data with high resolution during 1961–2080 were simulated using regional climate model of PRECIS. The number of days with mean daily temperature above 10℃ and the mean temperature of January are usually regarded as the principal criteria to indicate temperature zones, which are sensitive to climate change. Shifts due to future climate change were calculated by comparing the latitude of grid cells for the future borderline of one temperature zone with that for baseline period (1961–1990). Results indicated that the ranges of Tropical, Subtropical, Warm Temperate and Plateau Temperate Zones would be enlarged and the ranges of Cold Temperate, Temperate and Plateau Sub-cold Zones would be reduced. Cold Temperate Zone would probably disappear at late this century. North borderlines of temperature zones would shift northward under projected future climate change, especially in East China. Farthest shifts of the north boundaries of Plateau Temperate, Subtropical and Warm Temperate Zones would be 3.1°, 5.3° and 6.6° latitude respectively. Moreover, northward shift would be more notably in northern China as future temperature increased. 相似文献
9.
东亚地区森林植被带的三维空间分布 总被引:10,自引:3,他引:10
东亚森林植被带主要由热带亚热带雨林(季雨林)、暖温带常绿阔叶林、冷温带落中阔叶林和亚寒带针叶林组成。这些植被带的垂直分布高度随纬度(温度梯度)和经度(干湿度梯度)的不同而变化,本文根据大量的地植物学资料,从生态气候学的角度研究了这种变化的规律性并给予了定理的表达。结果表明,在湿润气候区,各森林植被带的分布高度随纬度的增加而下降,下降趋势能用多级正弦函数来表达,随着经度的增加(由内陆向沿海变化),各 相似文献
10.
中国生态过渡带分布的空间识别及情景模拟 总被引:1,自引:1,他引:0
在全球变化及其生态环境效应研究中,如何对生态过渡带的空间分布格局及变化情景进行空间定量识别和模拟分析,对揭示气候变化和人类活动对全球变化的响应及反馈具有指示性意义。在对HLZ模型进行修正和拓展的基础上,建立了生态过渡带类型的空间识别方法。并基于1981—2010年的全国782个气候观测站点数据,在实现全国生态过渡带类型及分布的空间识别基础上,结合3种气候情景数据CMIP5 RCP 2.6、RCP 4.5和RCP 8.5,实现了T0(1981—2010年)、T1(2011—2040年)、T2(2041—2070年)和T3(2071—2100年)4个时段内全国生态过渡带的空间分布格局及其未来情景模拟。另外,引入平均中心空间分析模型,对全国生态过渡带平均中心的时空偏移趋势进行了定量分析。结果显示:在T0~T3时段内,全国共出现41种生态过渡带类型,约占全国陆地面积的18%;冷温带草原/湿润森林与暖温带干旱森林过渡带(564238.5 km2)、冷温带湿润森林与暖温带干旱/湿润森林过渡带(566549.75 m2)、北方湿润/潮湿森林与冷温带湿润森林过渡带(525750.25 km2)是最主要的3种生态过渡带类型。面积占到全国生态过渡带总面积的35%;2010—2100年期间的冷温带荒漠灌丛与暖温带荒漠灌丛/有刺草原过渡带的增加速度最快,在3种情景RCP 2.6、RCP 4.5和RCP 8.5下,其面积将分别增加3604.2 km2/10a、10063.1 km2/10a和17242 km2/10a;寒冷型生态过渡带类型总体上呈向暖湿型过渡带类型增加的趋势;北方潮湿森林与冷温带湿润/潮湿森林过渡带的平均中心偏移幅度最大,在4个时段内整体向东北方向偏移,其偏移幅度将超过150 km。另外,随着气温的逐渐上升和降水量的增加,中国北方的生态过渡带整体呈向北偏移趋势,南方生态过渡带则逐渐减少且平均中心呈现逐渐向高海拔地区退缩的趋势,气候变化对青藏高原区生态过渡带时空格局的影响日益显著。 相似文献
11.
区域气候要素的空间模拟精度直接关系到区域气候-植被生态系统的模拟精度。针对这一问题,运用HASM方法对江西省气候要素进行空间模拟,而且与IDW、Kriging、Spline等传统经典方法模拟结果的对比分析表明,HASM方法的模拟精度最高。因此,在10年和30年时间尺度上,运用HASM方法分别完成江西过去60年的平均气温、平均降水和潜在蒸散的空间模拟,并采用Holdridge生命地带(HLZ)模型分别实现了江西不同时间尺度的HLZ生态系统时空变化模拟。模拟结果显示,在1961-2010年期间,20%左右的HLZ生态系统发生了变化,平均气温上升是HLZ生态系统发生变化的主要驱动因子。另外,在江西省出现的7种HLZ生态系统类型中,暖温带湿润森林类型受平均气温上升的影响最大。 相似文献
12.
秦巴山区马尾松林和油松林的空间分布及亚热带与暖温带界线划分 总被引:1,自引:4,他引:1
秦岭不仅是中国南北的地理分界线,也是中国亚热带和暖温带的气候分界线,在中国地理生态格局中占有重要的地位和作用。由于过渡带的复杂性、过渡性和异质性以及划分指标、研究目的的不同,学术界关于这一南北地理—生态分界线的具体位置一直有争论。为了进一步揭示秦巴山区过渡带的特征,明确中国南北地理—生态分界线的位置,本文选择马尾松(Pinus massoniana)林和油松(Pinus tabulaeformis)林这两类分别代表中国南方亚热带针叶林和北方温带针叶林的植被,结合研究区SRTM地形数据、气温和降水数据等,以年降水、最冷月(1月)气温、最热月(7月)气温和年均温为气候指标,详细分析了这两类植被在秦巴山区的空间分布及二者分界线处的气候条件。结果表明:① 马尾松林和油松林的分界线及相应位置的气候指标可以作为亚热带与暖温带界线划分的植被—气候指标之一。秦巴山区亚热带针叶林(马尾松林)与温带针叶林(油松林)的分界线位于伏牛山南坡至汉中盆地北缘一线(秦岭南坡)海拔1000~1200 m处;分界线处气候指标稳定:年降水750~1000 mm,年均温12~14 ℃,最冷月气温0~4 ℃,最热月气温22~26 ℃。② 通过综合的植被—气候指标来划分秦巴山区亚热带和暖温带的界线,能更科学地确定气候带分界线的位置及过渡带的特征,更全面地反映地表植被—气候格局的变化。此外,秦巴山区亚热带与暖温带的界线应该是由亚热带与暖温带针叶林分界线、阔叶林分界线、灌丛分界线等组成的一个过渡带。本文的研究结果为亚热带与暖温带划分指标的选取提供了一定的科学依据。 相似文献
13.
东北地区植被分布全球气候变化区域响应 总被引:26,自引:8,他引:18
根据东北地区生态气候环境和生物地理规律对Holdridge生命地带分类系统进行修正,将东北地区植被分为寒温带湿润森林、寒温带潮湿森林、温带湿润森林、暖温带湿润森林、温带半湿润森林草甸草原、温带半湿润草甸草原、温带半干旱典型草原、暖温带半湿润草甸草原和暖温带半干旱典型草原等9 个生命地带并分析了其空间分布特征。运用大气环流模式分析东北地区由于温室气体增加导致的气候变化趋势。以此为基础评价东北地区植被分布的区域响应。全球气候变暖情景下,东北地区暖温带和温带范围明显扩大,而寒温带范围缩小甚至退出东北地区,植被分布界限显著北移;同时湿润区面积减少半湿润区和半干旱区扩大,导致森林面积缩小草原面积扩大。 相似文献
14.
基于地理探测器的中国亚热带北界探讨 总被引:1,自引:0,他引:1
暖温带与亚热带的分界线,是自然区划中一条重要的自然界线,它的划分问题曾引起诸多学科学者的争论。由于早期综合自然区划研究多以定性、专家集成方法为主,同时区划目的、使用指标等多有不同,导致不同学者所划分的自然区多存在一定的差异。本文基于空间分异性思想,使用地理探测器定量探测气候指标对中国亚热带北界的影响,选择其中q值较大的指标如日均温≥0℃天数、最冷月1月均温、年降水和湿润指数等作为主导因子并参考植被、土壤数据探讨亚热带北界界线的位置。结果表明:① 地理探测器法可以快速、准确地筛选自然区划的主要气候指标,并确定分界线的准确位置,提高了自然区划研究的技术水平和区划界线的客观性。② 使用地理探测器划分的新界线在研究区西部位于秦岭南坡1000~1600 m的位置,与以往界线相比略偏南;在研究区东部河南东部、安徽北部比以往界线略偏北。在保持自然要素完整性的同时,新界线具有更大的q值,表明新界线可以很好的反映暖温带与北亚热带2个区划带之间的差异,划分结果具有合理性。 相似文献
15.
An ecologo-phytocenotic classification of forest types has been worked out for the mountainous areas of the Western Transbaikalia.
Using the floristic and ecologo-geographical criteria and the DCA ordination method, we identified seven groups of forest
types belonging to two altitudinal-belt complexes. The resulting classification refines the existing understanding of the
phytocenotic structure of forest cover under sharply continental climate conditions in the contact zone with island steppes
of the Transbaikalia and serves the vegetation cover monitoring and modeling purposes. 相似文献
16.
The influence of monsoon climatic characteristics makes the tropics of China different from those of other parts of the world. Therefore, the location of the northern boundary of China’s tropical zone has been one of the most controversial issues in the study of comprehensive physical regionalisation in China. This paper introduces developments in the study of the northern boundary of China’s tropical zone, in which different scholars delimit the boundary with great differences based on different regionalisation objectives, indexes, and methods. The main divergence of opinion is found in different understandings of zonal vegetation, agricultural vegetation type, cropping systems, tropical soil type and tropical characteristics. In this study, we applied the GeoDetector model, which measures the spatial stratified heterogeneity, to validate the northern boundaries of the tropical zone delimited by six principal scholars. The results show that the mean q-statistic value of the higher latitude boundary delimited by Ren Mei’e is the largest (q=0.37), suggesting that, of the rival views, it best reflects the regional differences between China’s tropical and subtropical zones, but it is not necessarily suitable for guiding the development of tropical agriculture. The mean values of the q-statistics of Zheng Du’s line and Yu Xianfang’s line around the Leizhou Peninsula at a lower latitude were smaller, at 0.10 and 0.08 respectively, indicating that the regional differences were smaller than those of Ren Mei’e’s boundary. Against the background of global climate change, the climate itself is changing in fluctuation. It is, thus, worth our further research whether the northern boundary of the tropical zone should not be a fixed line but rather should fluctuate within a certain scope to reflect these changes. 相似文献
17.
1951-2010 年中国主要气候区划界线的移动 总被引:10,自引:2,他引:8
根据采用同一区划方法、指标体系划分的1951-1980 年及1981-2010 年中国气候区划结果,对比分析了过去60 年中国气候区划的主要界线变化特征。结果表明:1951-1980 年至1981-2010 年,我国寒温带界线西缩、北移;暖温带北界东段北移,其中最大北移幅度超过1个纬度;北亚热带北界东段平均北移1 个纬度以上,并越过淮河一线;中亚热带北界中段从江汉平原南沿移至了江汉平原北部,最大移动幅度达2 个纬度;南亚热带北界西段北移0.5~2 个纬度;青藏高原亚寒带范围缩小,高原温带范围增加。东北湿润、半湿润区虽转干与趋湿并存,但其中温带地区的湿润-半湿润东界东移,大兴安岭中部与南部的半湿润-半干旱界线北扩;其他地区的干湿分界线虽未出现明显移动,但北方半干旱及华北半湿润区总体转干,河西走廊、新疆及青藏高原的干旱、半干旱区总体转湿;而南方湿润区则趋干与转湿并存。 相似文献
18.
Jun-hui Liu Ji-xi GaoShi-Hai Lv Yong-wei HanYi-huang Nie 《Journal of Arid Environments》2011,75(3):298-308
Meteorological records show a rise in temperature and decrease in precipitation in most parts of the farming-pastoral ecotone of Northern China over the last 50 years. During the last quarter of the 20th Century, the agrarian sector went through a series of reforms and changes in government policies on land use that have led to extensive changes in land cover. The objective of this study was to redefine the location and analyze the boundary variations under the effects of climate and land use changes in the farming-pastoral ecotone of Northern China. The results showed that the location of study area has been redefined as both a climatic ecotone from the perspective of suitability of precipitation and temperature for agricultural crops and vegetation growth, and also a land use ecotone based on the impacts of farmland restructuring by government policies on land use. In recent decades, the climatic boundary has moved southeast while the land use boundary has moved northwest, showing opposing directions of change. The extent of boundary changes in the northeast and northern sections are far greater than in the northwestern section of the farming-pastoral ecotone of Northern China. 相似文献
19.
全新世中国东部亚热带地区气候变迁的古生物学证据 总被引:1,自引:0,他引:1
中国东部亚热带地区全新世期间的气候波动频繁,引起哺乳动物群的多次迁徙。该时期哺乳动物群的常见种属多见于亚热带地区,仅少数种属如貘、犀、长臂猿和亚洲象等在自然状态下主要分布于热带―中亚热带南部地区,指示了具热带气候性质的中亚热带南部的森林环境。文章在确定中国东部全新世不同阶段此类动物群的种属构成与分布特征的基础上,主要根据热带种的迁徙和分布特征,初步推断各阶段亚热带地区的气候变迁状况如下:盛冰期之后的冰消期,温度逐渐回升,14 000―12 000 a BP时,热带种分布北界大致南移2°,指示1月平均气温较今低3~5℃;12 000―8 500 a BP为升温期,气候转暖,热带种分布北界达中亚热带南部,逐渐类似于现今气候;8 500―5 000 a BP为大暖期,热带种分布北界抵秦岭―淮河一线,北移约6°,指示1月气温较今高约7~9℃;5 000―3 000 a BP为降温期,热带种分布北界位于秦岭―淮河以南的长江流域,北移约4°,指示1月气温较今高约5~6℃;3 000 a BP以来,气候逐渐变冷。这些变化体现了中国东部亚热带地区在全新世时期发生了多次较大的气候和生物气候带变迁事件。 相似文献
20.
中国南方表层岩溶带的特征及形成机理 总被引:35,自引:0,他引:35
表层岩溶带以密集发育的岩溶微形态呈不规则带状组合于浅层地表为特征。它广布于中国南方岩溶区,但其规模、形态和分布特征三地质、气候等因素的控制。表层岩溶带的存在使南方岩溶区具有浅表层岩溶水循环与地下管道水循环耦合的二次岩溶水循环的结构特征。坚硬纯灰岩的广泛分布,高温多雨、雨热同期的亚热带季风气候为中国南方表层岩溶带的发育提供了极为有利的条件,四大圈层的交汇,碳-水-钙循环活跃,使表层岩溶带的岩溶动力作用明显高于其下部包气带甚至饱水带。表层岩溶带形成是地表强烈岩溶化过程的结果,强的溶蚀动力,水流的快速溶蚀并达到碳酸盐成分饱和状态是表层岩溶带发育机理的关键。 相似文献