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1.
Thomas Van Der Hammen 《Climatic change》1991,19(1-2):37-47
2.
J Platt Bradbury 《Climate Dynamics》1992,6(3-4):275-285
Cores of lake sediment to a depth of 334 m in the town of Tulelake, Siskiyou County, northern California, document the late Cenozoic paleolimnologic and paleoclimatic history of the northwestern edge of the Great Basin. The cores have been dated by radiometric, tephrochronologic and paleomagnetic analyses. Lacustrine diatoms are abundant throughout the record and document a nearly continuous paleolimnologic history of the Tule Lake basin for the last 3 Myr. During most of this time, this basin (Tule Lake) was a relatively deep, extensive lake. Except for a drier (and cooler?) interval recorded by Fragilaria species about 2.4 Ma, the Pliocene is characterized by a dominance of planktonic Aulacoseira solida implying a warm monomictic lake under a climatic regime of low seasonality. Much of the Pleistocene is dominated by Stephanodiscus and Fragilaria species suggesting a cooler, often drier, and highly variable climate. Benthic diatoms typical of alkaline-enriched saline waters commonly appear after 1.0 Ma, and tephrochronology indicates slow deposition and possible hiatuses between about 0.6 and 0.2 Ma. The chronology of even-numbered oxygen isotope stages approximately matches fluctuations in the abundance of Fragilaria since 800 ka indicating that glacial periods were expressed as drier environments at Tule Lake. Glacial and interglacial environments since 150 ka were distinct from, and more variable than, those occurring earlier. The last full glacial period was very dry, but shortly thereafter Tule Lake became a deep, cool lacustrine system indicating a substantial increase in precipitation. Aulacoseira ambigua characterized the latest glacial and Holocene record of Tule Lake. Its distribution indicates that warmer and wetter climates began about 15 ka in this part of the Great Basin. Diatom concentration fluctuates at 41 000 year intervals between 3.0 and 2.5 Ma and at approximately 100 000 year intervals after 1.0 Ma. In the late Pliocene and early Pleistocene, Aulacoseira solida percentages wax and wane in an approximately 400 000 year cycle. The possible response of Tule Lake diatom communities to orbitally-induced insolation cycles underscores the importance of this record for the study of late Cenozoic paleoclimate change. 相似文献
3.
An assessment of the influence of land cover uncertainties on the simulation of global climate in the early Holocene 总被引:1,自引:0,他引:1
Six and 21 kyear BP represent the extreme states of climate since the last glacial maximum. The early Holocene, in contrast, was a time of transition, experiencing rapidly melting continental ice sheets, rising sea-level, and increasing summer insolation. Key features of the climate, illustrated by an NCAR CCM3 general circulation model experiment representing 11 kyr BP, include enhanced continentality and seasonality, and an enhanced northern monsoon. The principal circulation responses to the 11 kyr BP boundary conditions can be summarized as an intensification and northward shift of the mean meridional circulation and an intensification of the planetary wave structure of the Northern Hemisphere in northern summer, and a slight intensification of the mean meridional circulation coupled with a southward shift in the planetary wave structure in northern winter. These changes are manifest in the enhancement of the typical seasonal cycle of sea-level pressure in the Northern Hemisphere relative to that of the present day, and enhancement and equatorward shift of the Aleutian and Icelandic lows in northern winter. Over the period 15-8 kyr BP, within the current boreal forest zone, herbaceous tundra was replaced by shrub tundra, and subsequently by evergreen or deciduous forest, but there is uncertainty in the location, timing, and exact nature of these transitions. The specific location of the relatively small area of the Asian boreal forest-tundra transition can have an impact on regional climate, primarily in the net shortwave radiation component of the surface energy budget in spring, and in the cloudiness, net shortwave radiation, and turbulent heat fluxes in summer. These changes also have an impact on global climate. Our results suggest that the additional northern heating leads to a reduced equator-pole heat transport in the Northern Hemisphere which then influences heat and momentum transport in the Southern Hemisphere. 相似文献
4.
The temperature anomaly and dust concentrations recorded from central Antarctic ice core records display a strong negative correlation. The dust concentration recorded from an ice core in central Antarctica is 50-70 times higher during glacial periods than interglacial periods. This study investigated the impact of dust aerosol on glacial-interglacial climate, using a zonal energy balance model and dust concentration data from an Antarctica ice core. Two important effects of dust, the direct radiative effect and dust-albedo feedback, were considered. On the one hand, the direct radiative effect of dust significantly cooled the climate during the glacial period, with cooling during the last glacial maximum being as much as 2.05℃ in Antarctica. On the other hand, dust deposition onto the ice decreased the surface albedo over Antarctica, leading to increased absorption of solar radiation, inducing a positive feedback that warmed the region by as much as about 0.9℃ during the glacial period. However, cooling by the direct dust effect was found to be the controlling effect for the glacial climate and may be the major influence on the strong negative correlation between temperature and dust concentration during glacial periods. 相似文献
5.
High frequency pulses of East Asian monsoon climate in the last two glaciations: link with the North Atlantic 总被引:20,自引:0,他引:20
Three loess sections in the Loess Plateau of China have been studied to characterize the variations of the East Asian monsoon
climate in the Late Quaternary period. Paleo-weathering profiles based on two weathering indices reveal a series of spatially
correlative intervals of lower weathering intensity (LW), in the last glacial and late penultimate glacial loess, indicating
significantly cooler or/and drier conditions. Most of them are identified at or near the transitional boundaries between loess
and soil units, suggesting that climatic conditions favorable for LW events tended to occur at or near major climatic boundaries.
Twenty-eight radiocarbon and thermoluminescence measurements, combined with Kukla's magnetic susceptibility age model date
these events at ∼14, ∼21, ∼29, ∼38, ∼52, ∼71, ∼135, and ∼145 ka BP, with ∼5–10 ka frequency inlaid within the orbitally induced
∼20-ka periodicity. The ages of the first six events in the last glacial period are therefore close to those of the coarse-grained
Heinrich layers in the North Atlantic Ocean, which resulted from massive discharges of icebergs. The results indicate that
the climate in the area affected by the East Asian monsoon has experienced high-frequency changes more or less synchronous
with the Heinrich events. These high-frequency changes have been reported by Porter and An, based on the grain-size time series
from the Luochuan loess section. Our data also reveal that similar events also occurred during the penultimate glaciation.
The mechanisms linking the Heinrich events and the East Asian monsoon climate may be similar to that driving the Younger Dryas
event which has been identified in a large number of records in China and in the surrounding oceans.
Received: 16 October 1995 / Accepted: 10 May 1996 相似文献
6.
Reconstructing the temporal and spatial climate development on a seasonal basis during the last few centuries, including the
‘Little Ice Age’, may help us better understand modern-day interplay between natural and anthropogenic climate variability.
The conventional view of the climate development during the last millennium has been that it followed a sequence of a Medieval
Warm Period, a cool ‘Little Ice Age’ and a warming during the later part of the 19th century and in particular during the
late 20th/early 21st centuries. However, recent research has challenged this rather simple sequence of climate development.
Up to the present, it has been considered most likely that the ‘Little Ice Age’ glacial expansion in western Scandinavia was
due to lower summer temperatures. Data presented here, however, indicate that the main cause of the early 18th century glacial
advance in western Scandinavia was mild and humid winters associated with increased precipitation and high snowfall on the
glaciers. 相似文献
7.
Lawrence R. Heaney 《Climatic change》1991,19(1-2):53-61
Tropical rain forest in Southeast Asia has developed within an extensive archipelago during the past 65 million years or more. During the Miocene (beginning 25 million years BP), rain forest extended much further north (to southern China and Japan); since that time it has contracted. During the Pleistocene (beginning 2.0 million years BP), development of continental glaciers at high latitudes was associated in Southeast Asia with lowered sea level, cooler temperatures, and modified rainfall patterns. Fossil pollen records demonstrate that Southeast Asian vegetation during the last glacial maximum (ca. 18 000 BP) differed substantially from that of today, with an increase in the extent of montane vegetation and savannah and a decline in rain forest. These data show that the distribution and extent of rain forest in Southeast Asia has historically been quite sensitive to climatic change. 相似文献
8.
动力气候模式是目前国际上开展气候预测的主要工具。经过 8年多的研制、发展和业务化过程 ,国家气候中心已建立起第一代动力气候模式预测业务系统 ,并以此为平台 ,形成了一套包括月、季节到年际时间尺度的动力模式预测业务。 2 0年历史回报试验和 1年多的试验性业务运行结果表明 ,该系统对东亚区域的季节预测具有较好的预测能力 ,其预测结果已经在实际业务中得到了应用 ,并成为我国短期气候预测业务的重要参考依据。该文是对该动力模式系统性能的介绍 ,也是对国家“九五”重中之重课题的加强课题“短期气候预测综合动力模式预测系统业务化”专题的总结汇报。 相似文献
9.
Kirsten Warrach Marc Stieglitz Jeffrey Shaman Victor C. Engel Kevin L. Griffin 《Climatic change》2006,75(4):455-493
During the 20th century the northeastern U.S.A. has undergone an annual temperature increase of 1 °C, the combined effect
of winter warming and an increase in daily summer minimum temperatures. A significant cooling of spring through autumn in
maximum air temperatures is also evident since 1950. Therefore, the primary objective of this study is to document these climate
trends and variability over the last century. A secondary objective is to provide a preliminary analysis of how these changes
may have impacted hydrologic and ecosystem processes. Specifically, with respect to ecosystem processes, we examine how the
cooling of daytime maximum temperatures may have impacted plant respiration and biomass accumulation. The study site is the
Black Rock Forest, an experimental forest located in Hudson Highlands of New York that has been maintained as a conservation
area over the last 100 years. For the region centered about the forest, there exists a climate/weather record and an extensively
maintained biomass record that extends continuously from the early part of the 20th century through present. With such an
extensive physical and biological record to draw from, this forest provides a microcosm for studying how changes in 20th century
local and regional climate may have impacted ecosystem processes such as species adaptation, biomass growth, and 20th century
carbon sequestration. In a subsequent paper we will more extensively explore the relationship between this record of changing
climate and eco-hydrological processes. 相似文献
10.
本文采用landsat陆地资源卫星数据和中国科学院寒区旱区环境与工程研究所冰川矢量编目数据和气象观测数据为数据源,利用GIS空间分析方法和气候统计方法,提取并分析了1987~2014年西藏年楚河流域冰川及冰川湖变化特征。结果表明:1987年年楚河流域内共有冰川82条,1987~2014年冰川总面积呈减少趋势,冰川面积减小18.386km2(8.34%),变化率为-5.23km2/10a;1987年流域内面积大于0.2km2的冰湖共有8个,1987~2014年,冰湖总面积呈增加趋势,冰湖面积增加1.489km2(7.06%),变化率为0.323km2/10a;年楚河流域年降水量变化不明显,年平均气温整体呈上升趋势(0.28℃/10a)。降水对冰川和冰湖变化影响较小,温度的持续升高是冰川和冰湖变化的主要因素。 相似文献
11.
Thomas a. Kursar 《Climatic change》1998,39(2-3):363-379
Predicting future changes in tropical rainforest tree communities requires a good understanding of past changes as well as a knowledge of the physiology, ecology and population biology of extant species. Climate change during the next hundred years will be more similar to climate fluctuations that have occurred in the last few thousand years and of a much smaller magnitude than the extent of climate change experienced during last glaciation or at the Pleistocene–Holocene transition. Unfortunately, the extent to which tropical rainforest tree communities have changed during the last few thousand years has been little investigated. As a consequence we lack the detailed evidence for population and range shifts of individual tropical species resulting from climate change analogous to the evidence available for temperate zone forests. Some evidence suggests that the rate of tropical forest change in the last several thousand years may have been high. If so, then CO2 increases and the likely alterations in temperature, forest turnover rate, rainfall, or severe droughts may drive substantial future forest change. How can we predict or model the effects of climate change on a highly diverse tree community? Explanations for the regulation of tropical tree populations often invoke tree physiology or processes that are subject to physiological regulation such as herbivory, pathology or seed production. In order to incorporate such considerations into climate change models, the physiology of a very diverse tree community must be understood. My work has focused on simplifying this diversity by categorizing the shade-tolerant species into functional physiological groups. Most species and most individual trees are shade-tolerant species, gap-requiring species being relatively uncommon. Additionally, in a regenerating gap most of the individuals are shade-tolerant species that established before gap formation. Despite the fact that the shade-tolerant species are of major ecological importance, their comparative physiology has received little attention. I have found that shade-tolerant species differ substantially in their responses to light flecks, treefall light gaps and drought. Furthermore, among phylogenetically unrelated species, these differences in physiology can be predicted from leaf lifetime. These results provide a general framework for understanding the mechanics of tropical rainforests from a physiological perspective that can be used to model their responses to climate change. 相似文献
12.
H. Renssen 《Climate Dynamics》1997,13(7-8):587-599
Geological evidence points to a global Younger Dryas (YD) climatic oscillation during the last glacial/ present interglacial
transition phase. A convincing mechanism to explain this global YD climatic oscillation is not yet available. Nevertheless,
a profound understanding of the mechanism behind the YD climate would lead to a better understanding of climate variability.
Therefore, the Hamburg atmospheric circulation model was used to perform four numerical experiments on the YD climate. The
objective of this study is to improve the understanding of different forcings influencing climate during the last glacial/interglacial
transition and to investigate to what extent the model response agrees with global geological evidence of YD climate change.
The following boundary conditions were altered: sea surface conditions, ice sheets, insolation and atmospheric CO2 concentration. Sea surface temperatures based on foraminiferal assemblages proved to produce insufficient winter cooling
in the N Atlantic Ocean in two experiments. It is proposed that this discrepancy is caused by uncertainties in the reconstruction
method of sea surface temperatures. Therefore, a model-derived set of Atlantic surface ocean conditions was prescribed in
a subsequent simulation. However, the latter set represented an Atlantic Ocean without a thermohaline circulation, which is
not in agreement with evidence from ocean cores. The global response to the boundary conditions was analysed using three variables,
namely surface temperature, zonal wind speed and precipitation. The statistical significance of the changes was tested with
a two-tailed t-test. Moreover, the significant responses to cooled oceans were compared with geological evidence of a YD oscillation.
This comparison revealed a good match in Europe, Greenland, Atlantic Canada and the N Pacific region, explaining the YD oscillation
in these regions as a response to cooled N Atlantic and N Pacific Oceans.
However, the results leave the YD climate in other regions completely unexplained. This reflects either an insufficient set
of boundary conditions or the important role played by feedbacks within the coupled atmosphere-ocean-ice system. These feedbacks
are poorly represented in the used atmospheric model, since ice sheets and the ocean surface conditions have to be prescribed.
Received: 30 July 1996 / Accepted: 12 February 1997 相似文献
13.
The climate history of western Spitsbergen, Svalbard is deduced from variations of glaciers during the last 20 000 years. A major depression of the regional equilibrium line altitude (ELA) occurred during the Late Weichselian glacial maximum (18000–13000y ago) when low summer temperatures may have caused year-round snow accumulation on the ground. This rapid expansion of the glaciers also indicates nearby moisture sources, suggesting partly open conditions in the Norwegian Sea during the summers. A rapid glacial retreat around 13 000–12 500 y BP was caused by a sudden warming. During the Younger Dryas the ELA along the extreme western coast of Spitsbergen was not significantly lower than at present. In contrast to Fennoscandia, the British Isles and the Alps, there is no evidence for readvance of local glaciers during Younger Dryas on western Spitsbergen. This difference is attributed to a much dryer climate on Spitsbergen and probably only slight changes in sea surface temperatures. In addition, summer melting in this high arctic area is more sensitive to orbitally increased insolation. Around 10 000 y BP another rapid warming occurred and during early and mid Holocene the summer temperatures were significantly higher than at present. A temperature decline during the late Holocene caused regrowth of the glaciers which reached their maximum Holocene position during the last century.Contribution to Clima Locarno — Past and Present Climate Dynamics; Conference September 1990, Swiss Academy of Sciences — National Climate Program 相似文献
14.
明确气候变化背景下大兴安岭林区气候干湿状况特征,揭示其对森林火灾的影响,可为该区域森林火灾管理和森林资源保护提供科学依据。基于大兴安岭林区1974—2016年标准化降水指数(SPI),采用统计分析和对比分析方法,系统研究不同干湿情景对森林火灾发生次数及过火面积的影响,并讨论不同等级干旱对其影响的异同性。结果表明:1974—2016年,年、季尺度上大兴安岭林区气候均呈湿润化趋势。森林火灾发生次数多(少)和过火面积大(小)与气候的干湿状况(等级)基本一致,但森林火灾的发生次数与气候干湿状况相关更为密切。年尺度上,SPI与火灾次数呈负相关,与过火面积的自然对数则呈较弱的负相关;季尺度上,各季节SPI与对应的林火次数和过火面积自然对数均呈显著的负相关,但与过火面积的相关程度差异较大,以春季相关最为显著,秋季次之,夏季则相对较弱;不同季节SPI与年林火次数和过火面积自然对数呈负相关,前一年冬季SPI对当年火灾次数的贡献最大。可见,气候干湿状况对森林火灾的影响存在明显的滞后效应。SPI不仅能较好地反映区域气候的干湿状况,亦能较好地指示森林火灾发生的可能性及发生火灾的过火面积的相对变化情况,可为森林火灾预测和管理提供科学依据。 相似文献
15.
Kristina Blennow Mikael Andersson Johan Bergh Ola Sallnäs Erika Olofsson 《Climatic change》2010,99(1-2):261-278
We estimated how the possible changes in wind climate and state of the forest due to climate change may affect the probability of exceeding critical wind speeds expected to cause wind damage within a forest management unit located in Southern Sweden. The topography of the management unit was relatively gentle and the forests were dominated by Norway spruce (Picea abies (L.) Karst.). We incorporated a model relating the site index (SI) to the site productivity into the forest projection model FTM. Using estimated changes in the net primary production (NPP) due to climate change and assuming a relative change in NPP equal to a relative change in the site productivity, we simulated possible future states of the forest under gradual adjustment of SI in response to climate change. We estimated changes in NPP by combining the boreal-adapted BIOMASS model with four regional climate change scenarios calculated using the RCAO model for the period 2071–2100 and two control period scenarios for the period 1961–1990. The modified WINDA model was used to calculate the probability of wind damage for individual forest stands in simulated future states of the forest. The climate change scenarios used represent non-extreme projections on a 100-year time scale in terms of global mean warming. A 15–40% increase in NPP was estimated to result from climate change until the period 2071–2100. Increasing sensitivity of the forest to wind was indicated when the management rules of today were applied. A greater proportion of the calculated change in probability of wind damage was due to changes in wind climate than to changes in the sensitivity of the forest to wind. While regional climate scenarios based on the HadAM3H general circulation model (GCM) indicated no change (SRES A2 emission scenario) or a slightly reduced (SRES B2 emission scenario) probability of wind damage, scenarios based on the ECHAM4/OPYC3 GCM indicated increased probability of wind damage. The assessment should, however, be reviewed as the simulation of forest growth under climate change as well as climate change scenarios are refined. 相似文献
16.
Holocene vegetation and climate history at Haligu on the Jade Dragon Snow Mountain, Yunnan, SW China 总被引:1,自引:0,他引:1
Xiao-Yan Song Yi-Feng Yao A. H. Wortley K. N. Paudayal Shao-Hua Yang Cheng-Sen Li S. Blackmore 《Climatic change》2012,113(3-4):841-866
This paper uses pollen analysis to investigate and document the changing climate and vegetation during the Holocene based on a 400?cm core in depth obtained at a wetland site at Haligu (3,277?m a. s. l.) on the Jade Dragon Snow Mountain in Yunnan, China. By applying the Coexistence Approach to pollen data from this core, a quantitative reconstruction of climate over the last 9,300?years was made based on each pollen zone and individual core sample, which reveals the temperature and precipitation change frequently during that time. The qualitative analyses show that from 9300 to 8700?cal. yr BP, the vegetation was dominated by needle-leaved forest (mainly Pinus and Abies), indicating a slightly cool and moderately humid climate. Between 8700 and 7000?cal. yr BP, evergreen broad-leaved forest, dominated by Quercus, became the predominant vegetation type, replacing needle-leaved forest at this elevation, implying a warmer and more humid climate. During the period 7000 to 4000?cal. yr BP, the vegetation changed to mixed needle-leaved and evergreen broad-leaved forest, indicating a warm and moderately humid climate, but somewhat cooler than the preceding stage. From 4000 to 2400?cal. yr BP, the vegetation was again dominated by evergreen broad-leaved forest, but coniferous trees (mainly Pinus) began to increase, especially relative to a decline in Quercus. This implies that the climate remained warm and humid but slight drier than previously. The evergreen Quercus phase (8700–2400?yr BP) was designated as the Holocene climatic optimum in the Haligu core sediments. It is correlated with a markedly greater abundance and diversity of pteridophytes spores than was recorded before or after this period. From 2400?cal. yr BP to present, the vegetation was dominated by needle-leaved forest, of which Pinus formed the predominant component, accompanied by Abies and Tsuga. This reflects a slightly cooler, humid climate but also correlates with a period of increasing human settlement on the lower slopes of the mountain. At this elevated site, several hundred metres above the highest present day settlements, direct palynological evidence of anthropogenic activity is uncertain but we discuss ways in which the marked decline in Quercus pollen during this period may reflect the impact of ways in which natural resources of the mountain have been utilised. 相似文献
17.
Karsten Grunewald Jörg Scheithauer Jean-Marie Monget Derek Brown 《Climatic change》2009,95(3-4):535-549
The Pirin Mountains in southwest Bulgaria spatially mark a transition between the Mediterranean and temperate climate zones. Therefore they are also particularly relevant for research on high mountain climate and the effect of landscape transformation. Historical climate records gathered in the area have been researched, checked and statistically examined. The mountainous climate has been characterised and trends in the evolution of temperature and precipitation since 1931 have been outlined. There are objective evidences for an increasing annual mean temperature, longer vegetative periods and local droughts in spring and autumn. Significant changes also appear in climatic threshold values such as the number of frost change days. This last parameter is very important for the sustainability of mountainous ecosystems. 相似文献
18.
《Climate Dynamics》2008,30(7-8):887-907
Fire activity has varied globally and continuously since the last glacial maximum (LGM) in response to long-term changes in
global climate and shorter-term regional changes in climate, vegetation, and human land use. We have synthesized sedimentary
charcoal records of biomass burning since the LGM and present global maps showing changes in fire activity for time slices
during the past 21,000 years (as differences in charcoal accumulation values compared to pre-industrial). There is strong
broad-scale coherence in fire activity after the LGM, but spatial heterogeneity in the signals increases thereafter. In North
America, Europe and southern South America, charcoal records indicate less-than-present fire activity during the deglacial
period, from 21,000 to ∼11,000 cal yr BP. In contrast, the tropical latitudes of South America and Africa show greater-than-present
fire activity from ∼19,000 to ∼17,000 cal yr BP and most sites from Indochina and Australia show greater-than-present fire
activity from 16,000 to ∼13,000 cal yr BP. Many sites indicate greater-than-present or near-present activity during the Holocene
with the exception of eastern North America and eastern Asia from 8,000 to ∼3,000 cal yr BP, Indonesia and Australia from
11,000 to 4,000 cal yr BP, and southern South America from 6,000 to 3,000 cal yr BP where fire activity was less than present.
Regional coherence in the patterns of change in fire activity was evident throughout the post-glacial period. These complex
patterns can largely be explained in terms of large-scale climate controls modulated by local changes in vegetation and fuel
load.
The readers are requested to refer to the section “List of contributors” for the complete list of author affiliation details. 相似文献
19.
Challenges in the Application of Existing Process-Based Models to Predict the Effect of Climate Change on C Pools in Forest Ecosystems 总被引:1,自引:0,他引:1
Process-based models used to investigate forest ecosystem response to climate change were not necessarily developed to include the effect of carbon dioxide (CO2) and temperature increases on physiological processes. Simulation of the impacts of climate change with such models may lead to questionable predictions. It is generally believed that significant shifts in the performance of black spruce (Picea mariana [Mill] B.S.P.) will occur under climate change. This species, which accounts for 64% of Ontario's coniferous growing stock and 80% of the annual allowable cut, represents important economic activity throughout the boreal forest region. Forest management planning requires relatively accurate productivity estimates. Thus, it is imperative to ensure that process-based models realistically predict the effect of climate change. In this study, CENTURY and FOREST-BGC models were calibrated for a productive, upland black spruce stand in northwestern Ontario. Even though both models predicted similar relative outcomes after 100 years of climate change, they disagreed on the impacts of temperature in combination with an increase in CO2. Also, absolute amounts of carbon sequestered varied with climate change scenarios. Comparison of both models indicated that the representation of critical processes in these two forest ecosystem models is incomplete. For instance, the interactive effects of CO2 and temperature increases on physiological processes at stand and soil levels are not well documented nor are they easily identifiable in the models. Their incorporation into models is therefore problematic. Practitioners must consequently be wary of assumptions about the inclusion of critical processes in models. 相似文献
20.
Projected Shifts in Kppen Climate Zones over China and Their Temporal Evolution in CMIP5 Multi-Model Simulations 总被引:2,自引:0,他引:2
Previous studies have examined the projected climate types in China by 2100. This study identified the emergence time of climate shifts at a 1?scale over China from 1990 to 2100 and investigated the temporal evolution of K o¨ppen–Geiger climate classifications computed from CMIP5 multi-model outputs. Climate shifts were detected in transition regions(7%–8% of China's land area) by 2010, including rapid replacement of mixed forest(Dwb) by deciduous forest(Dwa) over Northeast China, strong shrinkage of alpine climate type(ET) on the Tibetan Plateau, weak northward expansion of subtropical winterdry climate(Cwa) over Southeast China, and contraction of oceanic climate(Cwb) in Southwest China. Under all future RCP(Representative Concentration Pathway) scenarios, the reduction of Dwb in Northeast China and ET on the Tibetan Plateau was projected to accelerate substantially during 2010–30, and half of the total area occupied by ET in 1990 was projected to be redistributed by 2040. Under the most severe scenario(RCP8.5), sub-polar continental winter dry climate over Northeast China would disappear by 2040–50, ET on the Tibetan Plateau would disappear by 2070, and the climate types in 35.9%and 50.8% of China's land area would change by 2050 and 2100, respectively. The results presented in this paper indicate imperative impacts of anthropogenic climate change on China's ecoregions in future decades. 相似文献