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了解树木径向生长对气候响应的区域特征是模拟或预测未来全球变化如何对森林生态系统产生影响的基础。对青藏高原东北部(祁丰)干旱气候条件下与南部(林周)高寒半干旱气候条件下的两条标准化年表分析发现,两年表敏感度均较高,样芯间一致性均较强,为分析树木径向生长对气候要素的响应关系提供了保障。对祁丰和林周树轮宽度序列与其附近酒泉(1951-2009年)和当雄(1963-2009年)气象站上年5月到当年9月的气候因子(月平均气温、月最高气温、月平均最低温和月降水量)进行相关和响应分析发现,祁丰和林周树木的径向生长与当年5-6月平均气温存在负相关关系,相关系数分别为-0.360和-0.466;而与当年5-6月降水量显著正相关,相关系数分别为0.499和0.623。祁丰和林周树轮宽度序列与帕尔默干旱指数(PDSI,1951-2005年)的格网数据在每个月份均呈正相关关系,与5-6月的相关值分别为0.581和0.719。上年7月到当年6月的降水量与祁丰(r=0.529)和林周(r=0.667)树轮宽度序列的相关值也较高,推断干旱状况是限制高原东北部与南部树木径向生长的主要因素。 相似文献
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植物稳定同位素研究进展与展望 总被引:6,自引:0,他引:6
植物稳定同位素是近年来在地理学、生态学研究中逐步广泛应用的研究手段, 具有综合长 期生物地球化学过程和联系不同系统成分的特点, 国际上已经展开了较为广泛的应用, 国内也有 相关研究。本文对国内外植物C、H、O 稳定同位素研究的回顾, 显示植物稳定同位素与环境因子, 如气温、湿度、降水、环境稳定同位素组成等密切相关。目前植物稳定同位素技术主要应用于历史 时期环境气候的重建, 恢复大气CO2 同位素组成以及CO2 浓度的变化趋势。本文根据植物稳定同 位素的特点和研究基础, 认为植物稳定同位素方法不仅可以用来重建历史时期气候, 而且在区域 环境差异及其生态效应研究上有着重要应用前景。 相似文献
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植物响应气候变化模型模拟研究进展 总被引:9,自引:0,他引:9
尽管温室气体的增温效应及幅度大小具有很大的不确定性 ,存在许多分歧 ,然而植物对于气候变化的响应研究仍然成为众多学者关注的热点。近十年来 ,国内外学者从模型模拟的角度进行了多层面定量研究。归纳起来 ,已有的模型可以归并为生物地理相关模型、生态响应面模型、立地模型、植物生理模型以及统计模型等五类。本文逐一进行了评述 ,分析了它们的优势与不足 ,最后对模型模拟的发展趋势进行了展望。 相似文献
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极地维管植物因其所处环境的特殊性而备受关注。本文综述了极地维管植物在结构、生理、遗传和起源方面的研究进展,从而了解其对环境的适应机制,以及遗传多样性的特点、拓殖和起源方式。由叶片超微结构显示出叶绿体突起、叶绿体与线粒体的紧密相连等结构特点与植物适应极地环境有关。低温和长日照下糖类和蛋白质积累、酶活性的保持或提高、与胁迫相关基因的表达保证了植物在严酷环境下的生存。次生代谢物质含量随紫外线和光强度而变化,从而保护植物免受强辐射的伤害。极地地理和气候环境影响了植物遗传多样性和拓殖方式。南极植物(发草)群体的遗传多样性低,基因流动主要发生在邻近群体之间,其拓殖方式符合步石模型。北极植物则存在着长距离拓殖。多领域的研究观点表明,维管植物最有可能通过鸟类的帮助而迁入南极。 相似文献
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Global climate change is having marked influences on species distributions, phenology and ecosystem composition and raises questions as to the effectiveness of current conservation strategies. Conservation planning has only recently begun to adequately account for dynamic threats such as climate change. We propose a method to incorporate climate-dynamic environmental domains, identified using specific environmental correlates of floristic composition, into conservation strategies, using the province of KwaZulu-Natal, South Africa as a case study. The environmental domains offer an approach to conservation that conserves diversity under current and future climates, recognising that the species constituting diversity may change through time. We mapped current locations of domains by identifying their positions in a multi-dimensional environmental space using a non-hierarchical iterative k-means clustering algorithm. Their future locations were explored using an ensemble of future climate scenarios. The HadCM2 and GFDL2.1 models represented the extreme ranges of the models. The magnitude of change in each environmental domain was calculated using Euclidean distances to determine areas of greatest and least stability for each future climate projection. Domains occurring in the savanna biome increase at the expense of domains occurring in the grassland biome, which has significant negative consequences for the species rich grasslands. The magnitude of change maps represents areas of changed climatic conditions or edaphic disjunctions. The HadCM2 model predicted the greatest overall magnitude of change across the province. Species with specific soil requirements may not be able to track changing climatic conditions. A vulnerability framework was developed that incorporated climatic stability and habitat intactness indices. The mean magnitude of change informed the potential speed of transition of domains between the vulnerability quadrants. The framework informs appropriate conservation actions to mitigate climate change impacts on biodiversity. The study explicitly links floristic pattern and climate variability and provides useful insights to facilitate conservation planning for climate change. 相似文献
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Jarle W. Bjerke Arve Elvebakk Hans Tømmervik 《Norsk geografisk tidsskrift. Norwegian journal of geography》2018,72(1):57-64
Icy surfaces impose challenges for northern societies, wildlife and agriculture. However, there have been relatively few studies of the impacts of anoxic ground ice on non-agricultural plants. During the winter of 2009–2010, an extreme winter warming event led to thick ground-ice layer development in the world’s northernmost botanical garden in Tromsø, in subarctic Norway, due to much rain on warm days interspersed with cold dry days. After ice melt in late spring, the authors assessed plant mortality and tested whether certain growth forms, geographical origins, or terrain features were more vulnerable to stress. They found that mortality was negatively correlated with terrain slope, that cryptophytes were most vulnerable, and that good soil drainage improved all plants’ survival. Vegetation greenness (measured by the Normalized Difference Vegetation Index, NDVI) reached an unprecedented minimum in the summer of 2010 and remained low for two more years. The results suggest that more investigations of the impacts of ground ice are needed to understand better how alpine ecosystems might change with increasing climate change. In conclusion, the study revealed that botanical garden studies may be a valuable supplement to field studies, as plants of different origins could be studied under similar climatic conditions. 相似文献
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IntroductionInPAGESofIGBPcoreprojectstudy',pollenanalysisinsbeenoneoftheimportantmethodstoreco~ctQuaternarypaleoclilnate.Recently,tviththedeepeningofglobalchangeresearches,manyresearchersactounderstandindetaildiechangeofclimatebystUdyingpollenrecordsoflandsoilsandlakesandswamps.Foralongbine,theChinesescienhstshavepaidgreatattenhontotheStUdyofthehistoricalclinistcandenvironmentchangesinNorthChina.particularlyinBedingarea.Daingthepastthreedecades,thescienhstShavemadesurveysandstUdiesonth… 相似文献
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长江源区地表水资源对气候变化的响应及趋势预测(英文) 总被引:2,自引:0,他引:2
In this paper,variations of surface water flow and its climatic causes in China are analyzed using hydrological and meteorological observational data,as well as the impact data set(version 2.0) published by the National Climate Center in November 2009.The results indicate that surface water resources showed an increasing trend in the source region of the Yangtze River over the past 51 years,especially after 2004.The trend was very clearly shown,and there were quasi-periods of 9 years and 22 years,where the Tibetan Plateau heating field enhanced the effect,and the plateau monsoon entered a strong period.Precipitation notably increased,and glacier melt water increased due to climate change,all of which are the main climatic causes for increases in water resources in the source region.Based on global climate model prediction,in the SRESA1B climate change scenarios,water resources are likely to increase in this region for the next 20 years. 相似文献
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中世纪暖期气候研究综述 总被引:4,自引:4,他引:0
中世纪暖期是过去2 000 a以来最为重要的一个时期。该温暖事件是否具有全球性特征,其变化是否具有同步性,温度和降水变化的幅度如何?依据大量的研究成果,虽然对中世纪暖期的气候变化不甚清楚,我们仍然认为这一事件很可能是全球性的,而非区域性的。各种证据表明该时期的温暖程度不及20世纪,而且中世纪暖期表现出不连续的特征,降水也存在区域差异,这主要是因为降水和温度有着不同的响应自然驱动的物理特性。大量重建和模拟显示,诸如太阳辐射和火山作用的自然因素可以解释这一时期的大部分气候变化特征,但气候系统内部的相互作用是不能被忽视的。因此,将内部因素和外部因素联合起来揭示气候变化的机制就显得非常重要。 相似文献
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阿尼玛卿山地祁连圆柏径向生长对气候的响应 总被引:2,自引:0,他引:2
通过对阿尼玛卿山地5 个坡面20 个祁连圆柏树轮宽度标准年表的分析, 发现公共区间内各树木年轮宽度标准年表中的信噪比SNR 和样本总解释量EPS 值都较高, 说明年表中都含有较强的环境信息; 树轮宽度年表之间的平均相关为0.35 (大多达到95%的置信程度), 具有较好的区域一致性。聚类分析使树木年轮宽度年表分成东、西两大部分, 而年表的第一主分量显示出: 西部树轮的指数序列明显长于东部即树木生长有自西向东扩展的趋势, 并且东、西区域树木生长变化的特征年变化具有同步性。东、西树轮宽度年表中第一主分量和第二主分量与气候因子的相关和响应都表现出一定的相似性, 但第二主分量对气候因子响应的差异性更显著。西部树木生长PCI 的主要限制因子是温度, 尤其当年春末夏初及前一年秋季温度影响最大, 同样降水也起着重要的作用, 西部树木生长PC2 的主要限制因子是降水量; 而东部树木生长PC1 主要受降水的制约, 第二主分量PC2 的响应分析显示出气候的滞后影响(树木前期生长) 是非常重要的限制因子。 相似文献
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三北防护林工程区植被绿度对温度和降水的响应 总被引:1,自引:0,他引:1
探究三北防护林工程区植被绿度对温度和降水的响应可为该区植被建设提供科学依据。基于2000—2015年的MODIS NDVI数据和气象数据,采用通径分析法分析了不同生长阶段气温和降水对三北防护林工程区植被绿度的直接和间接影响。研究发现:生长季多年平均植被绿度整体上呈现东部高西部低的空间格局,且林地>耕地>草地;生长季植被绿度呈现增长趋势,植被覆盖状况得到改善,其中耕地植被增长趋势最大。生长季升温抑制植被生长,降水量增加促进植被生长,降水量是影响三北防护林工程区生长季植被生长的关键气候因子。在不考虑降水变化影响时,升温促进植被生长,但生长季温度升高带来的降水量减少使得升温对植被生长表现为抑制作用。生长季不同时期降水量增加对植被生长均是促进作用,表现为末期>中期>初期;而气温的影响则表现为生长季初期升温促进植被生长,中期和末期升温不利于植被生长。生长季末期升温对植被生长的负效应以直接作用为主,而中期主要通过降水量变化的间接作用体现。识别生长季不同时段气温和降水对植被绿度影响的差异性,有助于全面认识和评估植被对气候变化的响应。 相似文献
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Liang Liang 《自然地理学》2013,34(6):489-509
Geographic variations in plant phenology are known to be affected by climatic differences over space, but the role of adaptation variability of plant populations is less well understood. In this study, I examined the geographic variations in spring and autumn phenology of white ash (Fraxinus americana L.) in a common garden and related observations over a 2-year period (2013 and 2014) to climatic and geographic factors of their provenances. Spring leaf-out of trees with northern provenances occurred later in 2013, but slightly earlier in 2014, than those with southern provenances. This difference was potentially caused by the counterbalancing effect of chilling and forcing in response to interannual temperature fluctuations. In both years, leaf senescence of white ash occurred significantly earlier for trees with northern than southern provenances, reflecting strong adaptation to a photoperiod gradient. The growing season length for white ash, therefore, is constrained by spring and fall phenology through different environmental cues. Spring phenology exerted a greater influence on the interannual variability of growing season length. Identifying these detailed adaptive patterns facilitates a better understanding of phenological change over space and allows development of genotype-sensitive phenological models to predict the ecological impact of climate change. 相似文献
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Vegetation re-establishment in polar "lichen-kill" landscapes: a case study of the Little Ice Age impact 总被引:1,自引:0,他引:1
It has been accepted that the extremely sparse vegetation currently observed in Canadian polar deserts is due to prevailing unfavourable climatic conditions, inhibiting plant establishment, growth and survival. Less considered in the literature is the additional antagonistic factor of episodic adverse climatic anomalies. Such was the most recent Little Ice Age (LIA) cooling which caused a setback to, or even largescale extinction of, high Arctic plant communities that had taken centuries to develop. The LIA brought about new glacial advances, expansion of permanent snow banks and formation of ice crusts over entire landscapes. The newly formed ice (and snow) killed the underlying vegetation, thus creating what is in the geological literature referred to as "lichen-kill zones." In these zones the current plant diversity and abundance are exceedingly low and the plants are all relatively young and even-aged, factors which all point to their recent origin. Here we maintain that this vegetation has not yet reached equilibrium with the present prevailing climate and that it is still in an initial stage of succession. We present results of eight upland sites sampled in the vicinity of Alexandra Fiord Lowland, Ellesmere Island, Canada, to demonstrate the slow recolonization process that has been occurring within the last 100–150 years after the LIA termination. The widespread presence of the "lichen-kill" zones throughout the Canadian polar regions reflects the extent and destructive nature of even minor climatic cooling on vulnerable polar ecosystems. 相似文献
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With the possibility of future fresh water shortages increasing, a methodology that incorporates climatic and anthropogenic factors is needed. This research estimates future water availability in the Lower Cape Fear basin using changes in climate, land use, and population growth. The USGS Thornthwaite monthly water balance model is used with estimates of climate change and land use change parameters to assess future water resources based on predicted monthly fluxes of the water balance.The southern United States is a rapidly growing region. Trends present in the population data are used to produce future estimates of population for the basin. Precipitation and temperature estimates based on Intergovernmental Panel on Climate Change (IPCC) predictions and current climatology are inputs to the model. Projected increases in impervious surface cover due to population growth and urbanization are incorporated through the model runoff factor. Water stress indicators are used to categorize the sub-watersheds as water rich, water stressed, or water scarce. Scenarios incorporating regional predictions of climate change indicate a decrease in summer soil moisture minima and increases in summer water deficits. Ensemble runs indicate a shift toward water stress in the Lower Cape Fear River basin, due to a warming climate as well as increased demand. While climate change has a significant impact on water resources, population growth was found to have the most substantial impact. The methods and findings have application to water managers at local and regional levels. 相似文献
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In order to provide a theoretical basis for the protection and development of T. ciliata germplasm resources, we studied the genetic diversity of T. ciliata by using SSR (Simple Sequence Repeat) primers to evaluate the genetic diversity of 192 T. ciliata germplasm samples from 24 populations of 5 provinces. DataFormater, Popgene, NTSYS, TFPGA and other software were used for genetic data conversion, genetic parameter estimation, dendrogram construction and genetic variation analysis. The results showed that: 1) a total of 17 alleles (Na) were detected in seven pairs of primers, with an average of 2.260 for each primer. Among them, the highest numbers of alleles (4) were detected in primers S11 and S422.The mean value of Nei’s genetic diversity index (H) was 0.4909, the mean value of Shannon information index (I) was 0.7321, and the mean value of polymorphic information content (PIC) was 0.5182. The mean expected heterozygosity (He) and observed heterozygosity (Ho) were 0.1055 and 0.4956, respectively. The Nei°s genetic distances of the populations ranged between 0.0002 and 2.6346, and the mean was 0.5477. The average genetic diversity level (H=0.1044) of the 24 populations was lower than that of the species (H=0.4909). 2) The genetic differentiation coefficients (Fst) varied from 0.2374 to 0.9148, with an average value of 0.7727. The mean of population gene flow (Nm) was 0.0735, indicating a low level of genetic exchange between populations, and suggesting that the genetic variation mainly came from within populations. 3) With the UPGMA method, the 24 populations were clustered into 3 groups at Nei’s genetic identity (0.99): the populations from Guizhou Province and Guangxi Zhuang Autonomous Region were clustered into one group, the populations from Hunan Province were in another group, and the populations from Hubei Province were in the third group. The Mantel test analysis showed a significant correlation between Nei’s genetic distance and geographic distance (r=0.6318, P=0.009?0.05). The genetic diversity of the 24 populations of T. ciliata was at a low level. Geographic isolation was the main reason for genetic differentiation among T. ciliata provenances. In the protection of germplasm resources of T. ciliata, emphasis should be placed on breeding genetic resources from the populations with higher genetic diversity (P14, for example). As for the populations with low genetic diversity, an ex-situ protection strategy as well as ecological and timber objectives, should be taken into account to maximize the conservation and utilization of the diversity of T. ciliata. 相似文献
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气候变化对太行山土壤水分及植被的影响 总被引:9,自引:2,他引:9
在太行山低山区将自然植被移入蒸渗仪,观察当降水分别为常年平均降水量的80%、90%、100%、110%和120%等5种处理条件下,植被生产力和土壤的不同反映。研究发现:受验植被对降水反映敏感,降水每增加10%,植被生产力增加15%左右,预示未来全球变化导致的降水变化会对太行山低山区植被产生影响。同时在利用野外实验结果对WAVES模型进行验证的基础上,模拟了不同温度和降水变化情景下,土壤水分的可能变化趋势。结果表明:增温和减少降水对土壤水分负作用明显,尽管降水增加可改善土壤的水分供应状况,但降水增加10%对土壤水分的正面影响,大体被3 oC的增温抵消。由于模型模拟中采用的是与目前没有改变降水条件的实验相同的植被(LAI),而植被生长在太行山这一半湿润、半干旱地区又受土壤水分控制,因而估计未来气候变化情景下的植被变化与土壤水分的变化趋势相似。 相似文献
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1IntroductionTheconventionalassessmentSonthepossibleimPactsofclilnateAngehaveahrpothesisofkeepingclimaticvariabilityinaccordtviththatofpresentclimateduetolackofavailableinformationchangesinclimaticvariabiiltyFixedtemperaturechangeandfixedprecipitationadjustingfactorsassumedorderivedffomGCMs'shoulahonareaddedtotheobserveddailytemperatUrormulhpliedwithhiStoricaldailypreeipitahonrespechvelyinthesestUdiest11.Alti1oughthereareanUInerofapparentdeficienciesinGCMs,includinglowertemporalandspatia… 相似文献