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Introduction The temperature in the Northern Hemisphere increased by 0.4℃ between the 1960s and the 1980s, and in the same period the temperature of the Tibetan Plateau increased by 0.5℃ (IPCC 2001). The temperature in China increased by 0.3 ℃ between 1951 and 1990 (DING and DAI 1994). Using 15 different general circulation models, Jones and Moberg (2003) estimated that the rate of annual warming over the continents between 1901 and 2000 was 0.078℃ decade–1 (significant at the 99.9… 相似文献
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高温危险性评估是高温灾害研究的基础性工作。本研究在传统高温灾害危险性评价的基础上增加了高温空间集聚程度指标,完善了高温危险性的评价角度,考虑了高温灾害群发对高温危险性的增强作用。基于高温日数、高温强度、高温空间集聚程度对1979-2017年中国高温危险性进行了综合评价,并分析了各项指标及其年际变化速率的空间分布特征,提取出高温综合高危区及和各指标同时增强的区域。研究结果表明:① 不考虑高温空间集聚程度会造成内蒙古西部及东北部、山西北部等地的高温危险性被低估,存在4级高温危险性被低估为2级或3级;② 目前高温综合危险性最强的地区分布在新疆天山南部、湖南东部等地,表现为年平均高温日数2036 d,高温强度1.190~2.180 ℃,平均集聚程度13.390~18.710 个;③ 江苏、内蒙古甘肃交界处及四川重庆交界处等地的3项评价指标均逐年显著增强,具体表现为从1979-2017年,年平均高温日数变率0.419~0.740 天/年,高温强度变率0.30~0.42 ℃/10年,平均集聚程度变率0.250~0.390 个/年。今后这些地区可能成为高温综合危险性最高的地区。该高温危险性评价方法有助于提升高温灾害风险评估的准确性,危险性变化趋势结果有助于预估未来高温灾害的高危区。 相似文献
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利用河南省武陟县1961—2010年5—9月日极端最高气温资料,统计分析了武陟县极端最高气温与高温天气的特征,以期能对提高气候预测水平和农业生产有一定帮助。结果表明:武陟县高温天气主要出现在6—7月,高温天气的时间分布具有明显的周期性;年极端最高气温的变化大体上经历了从高到低又到高的过程;持续高温天气主要出现在6月,连续≥3d的高温天气过程出现最多,平均每年出现1.9次;武陟县夏季酷热与极端最高气温高、持续高温天气出现次的年份,集中在20世纪60年代中期以及90年代后期至今的两个时间段内。 相似文献
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温度是地下水的固有属性,地下水温度场和动态特征是地下水流系统的外在表现。为揭示地下水开采等人类活动影响下西北内陆盆地浅层地下水温度场特征与地下水流系统的关系,基于多点位、长序列、高精度的地下水温度监测数据,在酒泉东盆地开展了地下水温度场及动态特征研究。结果表明:酒泉东盆地浅层地下水温度9.33~20.77℃不等,平均水温为13.54℃,自地下水补给区至排泄区,沿地下水径流方向,浅层地下水温度逐渐升高;循环深度相近的不同地下水流系统对比表明,浅层地下水温度与地下水动力条件呈负相关,地表水入渗补给大、水动力条件强的水流系统地下水平均温度低,入渗补给小、水动力条件弱的地下水平均温度高;浅层地下水温度动态受自然地下水循环和地下水开采等人类活动共同影响,从山前地下水补给区到中游绿洲区再到下游排泄区,浅部地下水温度动态可划分为4种基本类型,依次分别为河流补给型、水温稳定型、开采相关型、正弦波动型。 相似文献
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ZHAOXin-yi WANJun WUXiu-qin 《中国地理科学(英文版)》2002,12(4):329-332
Based on the monthly mean temperature, the changing processes and tendencies of temperature during1951 -2000 in Jilin Province, which is in Northeast China, are analyzed. And the spatial characteristics of the changeare submitted. In the past 50 years the temperature of Jilin Province was increasing just like the other areas in the world.Since 1990, the increasing of temperature has been more obvious than that in the previous 40a. From the west to theeast, the province has larger temperature rising. According to Principal Component Analysis (PCA) of temperature field,Jilin Province is divided into 3 regions and the degree of becoming warmer is different from region to region. During theperiod of 1951 to 2000, the annual temperature in Jilin Province has been rising, so has the temperature in winter andsummer. The average temperature in the 1990s was 0. 5 - 2. 0℃ higher than that in the 1950s. From the west to theeast, the increasing of temperature became smaller. 相似文献
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This study examined the thermal effects of building‘s external wall surfaces, using observational data of spatial-temporal distribution of surface temperature, air temperature, and heat flux into and out of external surface. Results indicate that external wall surface temperature and nearby air temperature vary with the change of orientation, height and season. In general, the external wall surface temperature is lower near the ground, and is higher near the roof, than nearby air temperature. But north wall surface temperature is mostly lower than nearby air temperature at the same height; south wall surface temperature during the daytime in December, and west wall surface temperature all day in August, is respectively higher than nearby air temperature. The heat fluxes into and out of external wall surfaces show the differences that exist in the various orientations, heights and seasons. In December,south wall surface at the lower sites emits heat and north wall surface at the higher sites absorbs heat. In April, all external wall surfaces, emit heat near the ground and absorb heat near the roof. In August, west wall surface all day emits heat, and other wall surfaces just show the commensurate behavior with that in April. 相似文献
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全球气候的不断变化使得生物生境受到极大影响。气温作为最基本的气候要素,其变化迁移会胁迫生物对此做出响应,造成生物群落的迁徙。气温变化速度将气温看作物质的运动,能够直观地表示气温时空变化特征,对研究生物分布地理界限变化具有重要的指导意义。本文利用1961-2013年的全国每月平均温度数据集,分析了过去50多年中国东北与华北地区之间气温变化速度的区域差异。结果表明:东北与华北两地区整体气温变化速度均值为5.60 km/year,速度范围主要集中于0~9 km/year之间,约占总数的90%。东北地区气温变化速度均值大于华北地区。其中,东北速度均值为5.85 km/year,华北为5.41 km/year。从区域内部来看,东北地区气温变化速度整体较高,三省中黑龙江与吉林速度较高,辽宁省速度变化相对较小。华北气温变化速度高值区域主要分布在内蒙古高原与河北、天津的小部分地区,其他地区的气温变化速度则相对较小。 相似文献
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极端气温事件发生频率的增加对人群的健康带来了很大的影响,深入理解人群对气温变化的感知特征有助于提高应对极端气温事件的预警、适应和管理水平。针对传统调查数据在样本量和覆盖度等方面的不足,本文使用基于微博的社交媒体数据来研究人群对气温感知的定量特征。研究通过建立气温关注度、敏感性和耐受性等指标,调查了中国2017年31个城市的人群对气温感知的空间格局变化与局部变异性,分析了不同季节和不同群体对气温感知的差异性与影响因素。分析结 果表明:人群对气温的感知表现出显著的纬度梯度规律性,纬度每下降1°,人群平均的热耐受性增强0.42 oC,冷耐受性降低0.31 oC,冷敏感性增强0.51;人群对气温的感知在不同季节、不同群体之间也表现出显著的差异性,反季的异常气温更易引起人群对于气温变化的关注,青少年与女性群体对冷更为敏感;气温感知特征的区域差异性与气候分区紧密相关,温带地区的人群比热带显示出更强的热耐受性,而热带地区的人群具有更显著的气温敏感性。本文研究结果可以为理解大尺度上人群对气温变化感知的基本特征和分异规律提供新的规律发现与证据支持。 相似文献
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针对气象台站气温观测资料序列存在站址迁移可能造成的资料非均一性影响,利用环县等6个站址迁移气象站的逐年平均气温、平均最高气温、平均最低气温序列,采用SNHT(标准正态检验)客观分析方法,结合6个气象站的元数据及历史沿革资料等信息进行主观分析,对因迁站造成的气温序列不均一性进行检验,表明站址迁移对气温资料影响较大,并且因地理地形环境而有所差异。结果表明:台站迁移后造成新旧站址的地理环境差异显著且海拔高度差异过大,是引起气温序列非均一性的主要原因。地理环境、气候条件相似的台站迁移对气温资料的均一性无明显影响。 相似文献
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根据实际需要设计了一款井温测量仪,该仪器采用感温原理和数字技术实现工地现场的井温测量以及数据处理.并将温度测量仪与井温测量方法相结合,从而实现了比较可靠的井温测量. 相似文献
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地表组分温度比像元混合温度具有更强的物理意义和实用价值,是定量遥感反演的一个重要研究方向。本文以马尔可夫链和最大后验准则地表温度尺度转换方法,结合静止气象卫星数据高时间分辨率的特点,通过模拟静止气象卫星数据地表组分温度反演进行分析和验证。在研究过程中,地面被简化为由植被和土壤两组分组成,同时假设邻近像元的植被和土壤组分温度相同。鉴此,本文通过模拟构建20×20像元大小的静止气象卫星混合像元图像,并对各像元各时刻温度添加均值为0标准差为2K的随机误差,最终应用所提算法估算各像元各时刻的植被和土壤组分温度大小。精度分析结果表明,该算法能够较为精确地反演植被和土壤组分温度,且误差基本控制在2K以内。此外,本文还进一步讨论了算法的适用性及其对混合像元温度误差、植被覆盖度误差,以及邻近像元植被覆盖度变化范围的敏感度。分析结果再次证明,该方法对混合像元温度误差和植被覆盖度误差都具有较低的敏感性,在最大温度误差条件(均值为1.8K,标准差为5K)和最大植被覆盖度误差(均值为0.18,标准差为0.2)的条件下,各组分温度的估算精度分别能控制在3K和2K以内,满足精度要求。但是,由于组分温度初值的确定方法,对所计算窗口内植被覆盖度变化范围有较强的敏感性,反演结果与植被覆盖度变化范围相关,要求窗口内植被覆盖度变化范围足够大才能满足初值估算的精度要求。 相似文献
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泗河冲洪积扇区域分布厚层松散岩土体,浅层地温能开发利用潜力巨大,查明地温场的温度自恢复能力并分析其影响因素,对地源热泵工程换热器的设计具有重要参考价值。笔者开展了多组现场热响应试验,并采用高精度测温线缆,长期监测地埋管换热器周边不同岩性、不同深度岩土体温度变化情况,以查明其变化规律。研究表明:在同种工况下,砂性土的温度恢复能力要远强于粘性土,地温的恢复主要发生在负荷停止的初期。研究区粘性土温度自恢复能力差,岩土体热物性参数、地下水径流条件、埋管循环水温度、气温及变温带深度是影响地温场恢复能力的因素。 相似文献
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Activities of hexokinase(HK),pyruvate kinase(PK) and levels of HSP70 were measured to evaluate the response of Litopenaeus vannamei to rapid temperature changes under controlled laboratory conditions.Shrimps were subjected to a quick temperature change from 27℃ to 17℃ for the summer case(Cold temperature treatment),or from 17℃ to 27℃ for the winter case(Warm temperature treatment).After 0.5,1,3,6,12,24,48,and 72 h of exposure time,shrimps were sampled and prepared for further analysis.The results showed that the effect of acute temperature changes on activities of HK was significant.Patterns of variations of the two glycolytic enzymes suggested that enzymes in the glycolysis cycle could adjust their activities to meet the acute temperature change.The HSP70 level increased in both cold and warm temperature treatments,suggesting that the rapid temperature changes activated the process of body's self-protection.But the difference in expression peak of HSP70 might be related to the different body size and the higher thermal sensitivity to temperature increase than to temperature decrease of L.vannamei. 相似文献
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Activities of hexokinase(HK), pyrnvate kinase(PK)and levels of HSPT0 were measured to evaluate the response of Litopenaeus vannamei to rapid temperature changes under controlled laboratory conditions. Shrimps were subjected to a quick temperature change from 27℃ to 17℃ for the summer case(Cold temperature treatment), or from 17℃ to 27℃ for the winter case(Warm temperature treatment). After 0. 5, 1, 3, 6, 12, 24, 48, and 72 h of exposure time, shrimps were sampled and prepared for further analysis. The results showed that the effect of acute temperature changes on activities of HK was significant. Patterns of variations of the two glycolytic enzymes suggested that enzymes in the glycolysis cycle could adjust their activities to meet the acute temperature change. The HSP70 level increased in both cold and warm temperature treatments, suggesting that the rapid temperature changes activated the process of body's self-protection. But the difference in expression peak of HSP70 might be related to the different body size and the higher thermal sensitivity to temperature increase than to temperature decrease of L. Vannamei. 相似文献
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The distribution of borehole temperature at four high-altitude alpine glaciers was investigated. The result shows that the temperature ranges from -13.4℃ to -1.84℃, indicating the glaciers are cold throughout the boreholes. The negative gradient (i.e., the temperature decreasing with the increasing of depth) due to the advection of ice and climate warming, and the negative gradient moving downwards relates to climate warming, are probably responsible for the observed minimum temperature moving to lower depth in boreholes of the Gyabrag glacier and Miaoergou glacier compared to the previously investigated continental ice core borehole temperature in West China. The borehole temperature at 10m depth ranges from -8.0℃ in the Gyabrag glacier in the central Himalayas to -12.9℃ in the Tsabagarav glacier in the Altai range. The borehole temperature at 10 m depth is 3-4 degrees higher than the calculated mean annual air temperature on the surface of the glaciers and the higher 10 m depth temperature is mainly caused by the production of latent heat due to melt-water percolation and refreezing. The basal temperature is far below the melting point, indicating that the glaciers are frozen to bedrock. The very low temperature gradients near the bedrock suggest that the influence of geothermal flux and ice flow on basal temperature is very weak. The low temperature and small velocity of ice flow of glaciers are beneficial for preservation of the chemical and isotopic information in ice cores. 相似文献
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评估高温灾害的危险性变化,能够为区域高温灾害风险管理和制定减灾措施提供决策依据。本研究选取高温日数、最高温度和平均高温强度3个指标,基于1961—2020年中国2517个气象站点日最高温数据和CMIP6情景模式比较计划中SSP2-4.5情景下12个气候模式提供的2031—2099年未来气候预测数据集,用核密度概率估计方法计算了4个重现期(即5、10、20和50年)下3个指标的取值,对中国未来高温危险性变化进行了评估。结果表明:① 在SSP2.4-5情景下,中国的高温日数呈现出4个危险中心,分别是:西北干旱(半干旱)地区中部、华北和华中地区的交汇区域、西南地区中部和华南地区南部,并且高温日数从这4个中心向外逐渐减少;最高温度在空间上的分布北部大于南部,东部大于西部。平均高温强度的分布则呈现出从华北地区南部、西北干旱(半干旱)地区西部和东部地区西部向我国除青藏高原地区外的其它地区减少的趋势; ② 在SSP2.4-5情景下,随着重现期年限的增长,中国地区3个高温指标均呈增长趋势且增幅较大,并且高值范围也在不断扩大;③ 3个高温指标变化值均呈现出了明显的空间聚集性,3个指标共同显示的热点区域包括西南地区北部和南部、西北干旱(半干旱)地区中部和华北、华中地区的少部分区域,这些地区发生高温灾害的可能最大,同时根据高温日数变化和最高温度变化,东部地区西部发生高温灾害可能也较大,3个指标共同显示的冷点区域包括青藏高原地区东南部、西北干旱(半干旱)地区的西部和我国东南沿海地区,这些地区几乎不会发生高温危险。 相似文献
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采用线性最小二乘原理对从对流层顶10 km至地表0.8 km的温度探空廓线进行拟合,外插地表温度,讨论外插地表温度与实测温度的统计特性。将其应用于GPS气象中的加权平均温度模型发现,基于外插的地表温度能显著提高模型精度,提高约1.2~1.7 K。 相似文献
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引入温度递减率,和地表温度一起作为独立参数对加权平均温度进行拟合,并根据所建立的温度递减率模型,分析其对加权平均温度的影响。研究表明,高精度的温度递减率有利于改善加权平均温度模型拟合值的分布,使其不再与地表温度呈现简单的线性关系,即使不同探空站的地表温度相同,它们计算的加权平均温度也不相同,从而提高GPS气象学中PWV的转换精度。 相似文献