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1.
Revealing the multi-scale variation characteristics of the drought/flood patterns for the past millennium has been a hot spot in climate change research in recent years. It has significance for understanding and predicting the temporal and spatial differences of precipitation changes in the context of future climate warming. Based on publications on the peer-reviewed journals, here, we summarized and compared the combinations between cold/warm periods and dry/wet spatial patterns at multi-scales in China over the past millennium. The main conclusions are: although there are differences in China's dry/wet patterns in different cold and warm periods for the past millennium, the ensemble mean shows that the dry/wet patterns in eastern China in decadal or centennial warm periods are approximately "dry (South China)-wet (middle and lower reaches of the Yangtze River)-dry (Huanghuai Area)" from south to north, while in the relatively cold periods it mainly shows a "wet in east and dry in west" pattern. The climate changes from cold to warm usually lead to a drying trend in the Huanghuai Area, and a wetting trend in the Jiangnan area (especially the Yangtze River basin in Hunan and Jiangxi provinces). This shows that the "flood in south and drought in north" pattern in eastern China since the 1970s under the background of global warming may be a re-occurrence of the matching characteristics of cold/warm climate and dry/wet patterns in China for the past millennium. However, from the perspective of the longer-scale cold and warm stages, the dry/wet pattern in China tend to be "dry in the arid and semi-arid areas in western China; wet in southwestern, northern, and northeastern China; and dry in southeastern China" in the Medieval Climate Anomaly, and an opposite pattern shows in the Little Ice Age. It suggests that there are still uncertainties in the current climate reconstructions, and it also shows that the mechanism of dry/wet pattern responding to multi-scale temperature fluctuations might be extremely complicated. 相似文献
2.
中国近500年来的气候模拟与重建资料对比 总被引:4,自引:0,他引:4
介绍了利用全球海气耦合气候模式ECHO G进行的小冰期以来的长时间积分气候模拟试验,并与中国区域温度重建资料作对比。共做了2个模拟试验:控制试验和真实强迫试验。首先将模拟结果与器测资料作对比,验证该模式模拟中国气候的能力;然后将模拟结果与中国10个区域重建的500年温度序列进行比较分析。均值、方差及EOF分析表明,对于1550年至今的时段,除了东北、新疆、西南地区外,其它地区模拟与重建序列的相关性尚好,相关的置信度超过90%;而对于1760年以来的时期,除了华南、西北、西南地区外,其它地区二者较为一致,相关的置信度均超过90%,表明气候模式ECHO G能捕捉到中国大部分地区温度的趋势及低频变化特征,也说明上述强迫条件是近500年来气候变化的主要控制因子。然而模拟的温度距平的空间差异性比重建资料的小,对于年代际、年际等短时间尺度的温度变化模拟与重建结果的吻合度较差。误差来自于重建和模拟两个方面。在重建资料方面,需要提高代用资料的代表性、精确性和可靠性;在模拟方面,应提高各强迫条件序列的精确性,同时应引入更多的强迫因子,如下垫面植被及工业气溶胶等。这样从两方面努力,才能更深入地刻划和认识中国历史气候演变及其成因机制问题。 相似文献
3.
利用地球系统模式CESM过去2 000年气候模拟试验结果,探讨了在百年尺度上东亚夏季风降水的时空变化特征及其成因,对于认识百年尺度气候变化规律、区分外强迫因子对东亚季风的影响有着重要的科学意义。研究表明:1东亚夏季风降水与温度基本同相变化,降水存在准100年、准150年和准200年周期。2降水标准化EOF第一模态为由北向南"负—正—负—正"的条带状空间分布,而EOF第二模态基本为全区一致的分布型态。3东亚夏季风降水准100年周期主要受太阳辐射、火山活动和气候系统内部变率的共同影响;准150年周期主要受太阳辐射的影响;准200年周期主要受太阳辐射和火山活动的影响。东亚夏季风降水在温带地区主要受温室气体和土地利用/覆盖的影响;在副热带地区主要受太阳辐射和火山活动的影响;在热带地区主要受太阳辐射、火山活动和气候系统内部变率的影响。 相似文献
4.
集成中国季风区石笋氧同位素记录的共同变化特征,初步建立了近千年10年平均的东亚夏季风演变序列。在10年尺度以上分析了东亚夏季风演变与其他气候要素变化之间的关系。主要结论有: 1)近千年来东亚夏季风演变可划分为中世纪时期(11~13世纪初期)的季风稍弱阶段,13世纪中后期至14世纪前半叶的季风较强时期,14世纪后半叶至17世纪的季风较弱阶段,自18世纪开始持续约200年的季风再次增强时期,以及20世纪初开始的季风逐渐减弱阶段。2)近千年来东亚大陆或北半球温度的变化虽然对东亚夏季风变化具有一定的影响,但东亚夏季风强度的变化并不总是取决于陆地温度的变化。3)近千年来东亚夏季风的强弱变化与降水变化在低频趋势上有良好的对应关系,在东亚夏季风增强的时期,中国东部降水较多,而在夏季风减弱时,中国东部降水趋于偏少。 相似文献
5.
大兴安岭地处季风气候的尾闾区,是一个研究全球变化的关键区域.但由于该地区古气候代用指标(树轮、孢粉、石笋等)获取比较困难,历史文献也缺乏,使得古气候研究受到了限制.本研究通过大兴安岭北部的漠河县满归镇附近一个厚88 cm的泥炭剖面的孢粉记录,根据831个表土样品的花粉数据和附近90个气象台站30年的地面观测数据,运用现代类比法( Modern Analogue Technique,简称MAT)重建了该地区过去2100年的年均温(Tann)、年降水量(Pann)、 1月均温(Tjan)和7月均温(Tjuly),结果表明Tann和Tjan的波动达到2. 4℃, Tjuly的波动为1. 7℃, Pann波动为28. 2 mm.该地区的气候变化分为3个阶段:阶段Ⅰ(150 BC^850 A.D.)温度和降水量相对较低,年均温比现代30年均值低约0. 5℃;阶段Ⅱ(850~1300 A.D.)以温度升高-降低的波动为特征,升温在1070~1170 A. D.期间最明显,年均温比现代 30 年平均值高 0. 2℃,这一时期相当于欧洲中世纪气候异常期( the Medieval Climate Anomaly,简称MCA);阶段Ⅲ(1300~2000 A.D.)早期(1300~1900 A.D.)以气温较低为特征,这一时期相当于小冰期(the Little Ice Age,简称LIA),年均温比现代30年平均值低0. 8℃,晚期(1900~2000 A.D.)呈现升温的趋势. 相似文献
6.
B. Wilhelm F. Arnaud P. Sabatier O. Magand E. Chapron T. Courp K. Tachikawa B. Fanget E. Malet C. Pignol E. Bard J. J. Delannoy 《第四纪科学杂志》2013,28(2):189-199
A high‐resolution sedimentological and geochemical study of a high‐altitude proglacial lake (Lake Blanc, Aiguilles Rouges, 2352 m a.s.l.) revealed 195 turbidites, 190 of which are related to flood events over the last 1400 years. We used the coarsest sediment fraction of each turbidite as a proxy for the intensity of each flood event. Because most flood events at this locality are triggered by localized summer convective precipitation events, the reconstructed sedimentary record reveals changes in the frequency and intensity of such events over the last millennium. Comparisons with other temperature, palaeohydrological and glacier reconstructions in the region suggest that the most intense events occurred during the warmest periods, i.e. during the Medieval Climate Anomaly (AD 800–1300) and the current period of global warming. On a multi‐decadal time scale, almost all the flood frequency peaks seem to correspond to warmer periods, whereas multi‐centennial variations in flood frequency appear to follow the regional precipitation pattern. Consequently, this new Alpine flood record provides further evidence of a link between climate warming and an increase in the frequency and intensity of flooding on a multi‐decadal time scale, whereas the centennial variability in flood frequencies is related to regional precipitation patterns. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
7.
《Quaternary Science Reviews》2007,26(13-14):1810-1817
Long high-resolution proxy records are valuable for understanding Asian Southwest Monsoon (ASM) dynamics on decadal to centennial timescales. A millennium long δ18O ice core record from the central Himalayas provides an opportunity to study the ASM variability on decadal to centennial timescales. The Dasuopu ice core δ18O record indicates that a relatively warm period corresponding with the Medieval Warm Period lasted from AD 1140s to 1390s, a notable warming trend is apparent from 1800s to 1990s, and several cool periods occurred between AD 1010–1130s, 1290–1330s, 1400–1460s, 1520s, 1590–1630s, 1740s, and 1770–1790s. Comparisons with other high-resolution monsoon proxy records from the Arabian Sea, south Oman, and southern China reveal a high correspondence between temperature changes in the central Himalayas and the ASM variability during the last 1000 years. A pronounced warming trend since AD 1670 coincides with an abrupt transition from a weak to a strong intensity of the ASM. The thermal conditions in the Himalayas and on the Tibetan Plateau and associated glacial boundary conditions may have been predominantly responsible for variations of the ASM intensity and for a latitudinal movement in the mean position of the ITCZ on decadal to centennial timescales. 相似文献
8.
青藏高原地区过去2000年来的气候变化 总被引:14,自引:0,他引:14
依据冰芯、树轮、沉积物分析和冰川波动等各单点古气候代用资料,以及重建的综合温度变化曲线,分析了近 2000年青藏高原温度变化的整体性和区域性特征。全青藏高原综合温度曲线显示中世纪暖期(1150-1400年)、小冰期(1400-1900年)以及公元 3~5世纪冷期的存在。青藏高原温度变化具有明显的区域性特征。在 9~11世纪,青藏高原东北部以温暖为特征,而青藏高原南部和西部表现为寒冷。青藏高原南部和西部分别于1150-1400年(此时段在高原东北部表现为弱暖期)和1250-1500年经历了气候变暖。与中国东部文献记录的最新综合研究结果比较,高原东北部与中国东部的温度变化最为一致。而且,许多重大气候事件,如1100-1150年、1500-1550年、1650-1700年和1800-1850年的冷事件在高原和中国东部同时出现,而后 3次冷期与小冰期期间中国西部发生的冰川前进相匹配。 相似文献
9.
The processes and rates of groundwater recharge in arid and semiarid environments are highly related to local climate parameters, particularly precipitation. The chloride profile of an unsaturated zone in an arid and semiarid region can be used to infer the recharge history and past changes in climate, by extension. In this study, a 17-m chloride profile was collected from the sandy loess in the northwestern Chinese Loess Plateau, which also lies in the transition zone between desert and loess. A 71-year groundwater recharge history was reconstructed using the chloride mass balance method with an annual Cl? input of 0.84 g/m2/year. The reconstructed history revealed a long-term decline in recharge with multiple shorter-term oscillations. Five recharge stages between 1938–1946, 1947–1955, 1956–1975, 1976–2000, and 2001–2008 AD were identified, where the lowest average recharge value was 25.1 mm/a in 1976–2000 AD and the highest was 71.7 mm/a in 1947–1955 AD. Climate conditions during these five periods were also inferred based on the reconstructed recharge rates with the knowledge that high recharge corresponds to more humid climates. The climate over the past 71 years generally became drier in the study area, despite some fluctuations. The reconstructed recharge rates, calculated from 1/Cl? in the profile, exhibited the same variability as annual precipitation measured in the region, both in long- and short-term oscillations over the period from 1955 to 2008. The chloride concentration variations in the profile, indicating changes in recharge flux, also well correlated with annual precipitation anomalies in the region to the east of 100°E in China for the whole study period. These comparisons verified that it is feasible to study not only groundwater recharge, but also past climate change using a chloride profile from the sandy loess area. The results suggested that unsaturated zones of sandy loess may be valuable archives for reconstructing recharge history and regional paleoclimate changes in the region. 相似文献
10.
11.
Annually resolved June–July–August (JJA) temperatures from ca. 570 BC to AD 120 (±100 a; approximately 690 varve years) were quantified from biogenic silica and chironomids (Type II regression; Standard Major Axis calibration‐in‐time) preserved in the varved sediments of Lake Silvaplana, Switzerland. Using 30 a (climatology) moving averages and detrended standard deviations (mean–variability change, MVC), moving linear trends, change points and wavelets, reconstructed temperatures were partitioned into a warmer (+0.3°C; ca. 570–351 BC), cooler (?0.2°C; ca. 350–16 BC) and moderate period (+0.1°C; ca. 15 BC to AD 120) relative to the reconstruction average (10.9°C; reference AD 1950–2000 = 9.8°C). Warm and variable JJA temperatures at the Late Iron Age–Roman Period transition (approximately 50 BC to AD 100 in this region) and a cold anomaly around 470 BC (Early–Late Iron Age) were inferred. Inter‐annual and decadal temperature variability was greater from ca. 570 BC to AD 120 than the last millennium, whereas multi‐decadal and lower‐frequency temperature variability were comparable, as evident in wavelet plots. Using MVC plots of reconstructed JJA temperatures from ca. 570 BC to AD 120, we verified current trends and European climate model outputs for the 21st century, which suggest increased inter‐annual summer temperature variability and extremes in a generally warmer climate (heteroscedasticity; hotspot of variability). We compared these results to MVC plots of instrumental and reconstructed temperatures (from the same sediment core and proxies but a different study) from AD 1177 to AD 2000. Our reconstructed JJA temperatures from ca. 570 BC to AD 120 showed that inter‐annual JJA temperature variability increased rapidly above a threshold of ~10°C mean JJA temperature. This increase accelerated with continued warming up to >11.5°C. We suggest that the Roman Period serves with respect to inter‐annual variability as an analogue for warmer 21st‐century JJA temperatures in the Alps. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
12.
气候变化对中国北方荒漠草原植被的影响 总被引:70,自引:2,他引:70
气候变化对陆地生态系统的影响及其反馈是全球变化研究的焦点之一。利用气候变量实现对遥感植被指数所表示的植被绿度信息的模拟,可以尝试作为表达生物圈过去和未来状态的一种途径。利用1961-2000年的气温、降水和1983-1999年的NOAA/AVHRR资料,分析了中国北方地带性植被类型荒漠草原植被分布区的短尺度气候的年际和季节变化,及其对植被的影响。结果表明,过去40年中该区域年际气候变化表现为增温和降水波动。年NDVI的最大值(NDVImax)可以较好地反映气候的变化,过去17年中NDVImax出现的时间略有提前。综合分析NDVI、植被盖度、NPP、区域蒸散量、土壤含水量及其气候的年际变化,表明增温加剧了土壤干旱化,降水和土壤含水量仍是制约本区植被生长的根本原因。 相似文献
13.
近千年全球气候变化的长积分模拟试验 总被引:5,自引:2,他引:3
近千年全球气候变化的长积分模拟试验是全球气候模拟研究的新领域,它不仅将现代器测资料与过去代用指标序列进行了有机的衔接,而且对过去百年和年代际尺度的气候变化可进行动力学解释,探讨其主要控制因素及其导致的区域响应差异。由于这类长积分模拟对计算机技术和气候模式本身的要求较高,目前能进行这类研究的国家为数不多。重点介绍了德国马普气象研究所的全球海气耦合气候模式ECHO G,以及利用该模式进行的千年长积分模拟试验结果。首先,应用全球120年的器测资料对模拟结果进行了检验,论证了该模型较强的气候模拟能力;其次,根据全球地表2 m气温的千年模拟结果,揭示了中世纪暖期—小冰期—20世纪暖期三段式气候变化时段,然后讨论了中世纪暖期和小冰期鼎盛期全球及中国的温度分布特点;最后根据对各控制因子的拟合分析与比较,初步揭示了近千年来的温度变化主要受太阳有效辐射的变化控制,而温室气体含量的增加对100年来温度的快速上升起着主导作用。
相似文献
14.
利用黑河流域4个探空站不同等压面的大气温度及露点差序列,分析1981-2010年区域对流层大气比湿垂直廓线的气候特征、年均比湿和季节平均比湿的年际及年代际变化,以及季节对年均比湿年代际变化趋势的贡献.研究表明,水汽主要集中在对流层中低层,比湿极大值均出现在夏季,其平均比湿仅为全国平均比湿的0.4~0.77,200hPa等压面比湿与全国平均比湿接近,季节变化微弱.除夏季700hPa等压面比湿上升外,年均比湿与季节比湿呈下降趋势,且沿廓线向上年均比湿与季节平均比湿的相对下降速率逐渐增大.典型等压面700hPa、500hPa和200hPa年均比湿和季节平均比湿先增大后减小,以1980年代中期和2002年为界经历了"干-湿-干"过程,30年来比湿极大值出现在2002年,其变化幅度随高度的增加而减弱.冬季平均比湿距平变化最为平稳,夏季比湿波动最大.区域1990年代比湿整体增加,但2000年代则相反,且比湿减小幅度是1980年代比湿增幅的10倍,1990年代的5倍.1980年代年均比湿增大主要通过秋季来贡献;1990年代的年均比湿增大通过夏秋季贡献;2000年代比湿大幅下降仍以夏季贡献最大,秋季贡献统计上最明显. 相似文献
15.
Patrycja Jernas Dorthe Klitgaard Kristensen Katrine Husum Lindsay Wilson Nalan Koç 《Boreas: An International Journal of Quaternary Research》2013,42(1):236-255
The western and northern Svalbard continental margins (European Arctic) are environmentally sensitive areas that are dependent on the northward flow of Atlantic Water, the largest heat source of the Arctic Ocean. Two marine sediment records from the Svalbard shelf: Kongsfjorden Trough and Hinlopen Trough, were analysed with regard to the benthic foraminiferal content and lithology to assess the palaeoceanographic evolution during the past two millennia with decadal to multi‐decadal temporal resolution. In both records, an overall gradual decrease of E. excavatum f. clavata during the past two millennia reflects a change towards generally warmer and less glacially influenced conditions, presumably related to enhanced inflow of Atlantic Water (AW). The influence of AW also varied on centennial time scales, as evidenced by faunal and sedimentary shifts occurring almost synchronously at both locations. The period from AD 700 to 1200 was characterized by enhanced inflow of AW, followed by the development of highly productive oceanographic fronts at both localities from AD 1200 to 1500. In contrast, the subsequent interval (AD 1500–1900) shows particularly harsh conditions in the Hinlopen Trough, with significantly reduced foraminiferal flux and sediment input related to perennial sea ice cover. In Kongsfjorden, less severe conditions were observed, indicating that the AW advection continued. The synchronicity of changes in both records demonstrates the effect of the variability in inflow of AW to the Svalbard region during the past 2000 years. Moreover, the records seem to follow climate anomalies, for example the Little Ice Age and Medieval Warm Period, found in the North Atlantic realm. 相似文献
16.
Spatial variations of monsoonal rain in eastern China: Instrumental, historic and speleothem records
Nai-Jung Wan Hong-Chun Li Zi-Qi Liu Hsin-Ying Yang Dao-Xian Yuan Yong-Heng Chen 《Journal of Asian Earth Sciences》2011,40(6):1111-1150
We select four caves and their nearby cities in the monsoonal region of China for studying the relationships among precipitation, temperature, summer monsoon intensity and stalagmite δ18O. The instrumental, historic and stalagmite δ18O records from these areas show strong spatial disparities on annual to decadal scales, so that climatic conditions in a single location cannot represent these of the entire eastern China. On time scales <500 years, stronger summer monsoon may lead to higher rainfall in some locations but not over eastern China. Correlation between the summer monsoon strength and precipitation is not only location-dependent but also changes with time. One may not use the paleoclimatic pattern of cold–dry and warm–wet on glacial/interglacial ages throughout all time scales for climatic conditions in the monsoonal region. On centennial to millennial scales, stalagmite δ18O variation trend from eastern China resemble solar irradiance with lighter δ18O corresponding to increased solar irradiance, and vice versa. The similar trends may reflect climatic feedbacks link to solar forcing to cause changes in the summer monsoon intensity and/or in monsoonal circulation. Changes in monsoonal circulation and intensity affect (1) summer rainfall intensity, (2) summer/winter precipitation ratio, or (3) ratio of moisture from Indian/Pacific oceans, or a combination of the three. Thus, a speleothem δ18O record may not be proper to be used as a proxy of paleo-precipitation amount, especially on short time scales. Based on the four stalagmite δ18O records during the last 2000 years, EASM strength decreased from AD 200 to AD 500, and from AD 1300 to AD 1600 (the 1st half of the Little Ice Age), whereas EASM strength increased from AD 1600 to AD 1900 (the 2nd half of the Little Ice Age). The EASM strength has weakened since early 1900’s. 相似文献
17.
文章依据冰芯、树木年轮等自然记录和历史文献记录,分析了中国北方不同地区近2000年的沙尘事件及其与气候变化的关系。结果表明,在干旱区西部,历史时期的沙尘变化主要受温度变化的制约,无论在10年尺度,还是百年尺度上,沙尘事件与温度变化均表现为显著的反相关,即气候寒冷期与沙尘频发事件相对应,气候温暖期与沙尘发生变弱期一致;在半干旱区,在10年尺度上温度和降水序列与沙尘发生频率均显著负相关,但在百年尺度上沙尘与降水变化的关系更为密切;在干旱区东部,沙尘与气候变化的关系具有明显的过渡性特征,气候变化对沙尘事件的作用主要在百年尺度上体现出来,沙尘与温度记录的负相关比降水更好,在10年尺度上气候与沙尘序列尽管也是负相关,但不显著。通过对现代气象记录的气温、降水变化和沙尘事件频数分析,其结果与历史时期情况基本一致。 相似文献
18.
The features of climate change and their effects on glacier snow melting in the past 50 years (1961–2010) in Xinjiang were studied. Regional climate data for 49 meteorological stations in the Tianshan Mountains and the northern and southern areas of Xinjiang were collected with the aid of techniques such as climatological statistical diagnosis, regional climate models, remote sensing, and geographic information system. The annual average temperature displayed a rising trend across the Tianshan mountainous area and both areas of Xinjiang. The trend was particularly apparent in winter and autumn with the rate of increase in the annual average minimum temperature being significantly higher than that of the maximum temperature. Rainfall also tended to increase in all three areas over the 50-year period, with the magnitude of change being highest in the mountainous area followed by northern Xinjiang and then southern Xinjiang. As a result of the rising temperatures, there was a negative material balance among the region's glaciers, of which the year 1982/1983 was the key year for the development of Tianshan mountain glacier snow. After this date, glacial ablation intensified with an annual change increase in average temperature of 1 °C, leading to a glacier material balance change of about 300 mm. To establish rainfall and temperature sequences for three regional climate change scenarios in the 2011–2050 period, we adopted the delta method using actual measurements during the 1961–2000 period against corrected data from rainfall and temperature simulations. All three scenarios indicated that temperatures will continue to increase, that the increase in rainfall may decrease in mountainous regions but will increase in the basin, and that the speed of glacial ablation in Xinjiang will continue to accelerate. 相似文献
19.
J. Schmieder S.C. Fritz J.B. Swinehart A.L.C. Shinneman A.P. Wolfe G. Miller N. Daniels K.C. Jacobs E.C. Grimm 《Quaternary Science Reviews》2011,30(13-14):1797-1812
High-resolution paleohydrological reconstructions were carried out in five shallow lakes in the Nebraska Sand Hills across an east–west transect in order to 1) determine whether long-term droughts of the past 4000 years were spatially and temporally coherent across the region, 2) distinguish local variation in climate or hydrology from regional patterns of change, and 3) compare the paleolimnological results with the existing dune-inferred drought records. Diatom-inferred lake-level was reconstructed for all sites and compared with other regional records. Alterations between high and low lake-levels were frequent during the past 4000 years, which suggests that shifts between dry and wet periods were prevalent across the Sand Hills. Extended multi-decadal to centennial-scale droughts were more common prior to 2000 years BP, while the last two millennia were hydrologically more variable and climate conditions alternated on shorter timescales. Despite some discrepancies among the five records, the paleohydrological reconstructions refine the Holocene drought history of the Nebraska Sand Hills, particularly between ~2200 and 4000 cal a BP. Many of the observed drought events are contemporaneous with severe droughts documented at sites in the northern Great Plains and Rocky Mountains, lending support for the severity and regional significance of these events in western North America. 相似文献
20.
地表植被改变对气候变化影响的模拟研究 总被引:10,自引:0,他引:10
由于人类活动的影响,在过去的几百年里全球植被发生了很大的变化。地表植被的变化通过地面的能量和水汽交换而改变气候,研究目的是通过数值模拟认识这一过程的有关气候效应。方法上使用AGCM+SSIB模式对由于植被变化而可能导致的气候变化进行了敏感性模拟试验,研究区域为欧亚大陆。模拟主要对1700年、1800年、1900年、1950年所代表的气候特征时期植被改变所造成的气候变化响应进行平衡态试验。欧亚大陆在这些时段内植被变化是非常明显的,有大片的土地覆盖从森林变为草地或者耕地,或者从自然草地变为耕地。结果表明地表植被的改变对于气候的作用是非常复杂的,但中纬度地区在统计上有着比较明显的作用。得出的主要结论是,从1700年到1950年由于植被的退化,东亚地区夏季变得更热而冬季变得更冷,欧洲冬夏都变冷了;中国南部的降水在夏季不断减少,亚洲夏季风被削弱。 相似文献