棉花冠层微气象特征研究

利用棉花花铃期作物冠层和农田土壤小气候观测资料分析研究了棉花群体内温度、湿度和风速的时空变化规律,探讨了叶片水势、空气饱和差和冠层净辐射之间的关系,对土壤温度和土壤热通量的变化也进行了客观分析。     

CoLM模式对青藏高原中部BJ站陆面过程的数值模拟

利用公共陆面模式Common Land Model(CoLM)及"全球协调加强观测计划之亚澳季风青藏高原试验"(CAMP/Tibet)中那曲地区Bujiao(BJ)站2002—2004年的观测资料对该地区进行了单点数值模拟试验。通过比较模拟与观测的地表能量通量,表明CoLM较成功地模拟了该地区的能量分配。模式对向上的短波辐射、向上的长波辐射、净辐射及土壤热通量模拟得较好,但冬季存在偏差。进一步比较了模拟和观测的土壤温度及土壤湿度,发现浅层60 cm土壤温度模拟较好,深层存在偏差,表现为土壤温度变化滞后于实际变化。土壤湿度总体偏小,尤其是冬季冻结期,土壤冻融过程中忽略了土壤液态水在温度0℃以下仍能存在,含冰量模拟偏高。     

黄淮海平原典型冬小麦农田生态系统能量平衡研究—以封丘地区为例

本文以位于黄淮海平原的中科院封丘农业生态试验站冬小麦农田生态系统为研究对象,基于2013年10月至2014年6月涡度相关和自动气象站观测资料,利用涡度相关法和相关性分析法对黄淮海平原典型冬小麦各生育期的能量平衡特征进行了分析,揭示冬小麦农田环境气象要素与各分支通量之间的相关关系。结果表明:黄淮海平原典型冬小麦各生育期能量分配的特征不同,出苗期潜热仅占净辐射的40%,拔节期和抽穗期潜热占净辐射的比重均高达80%以上,其他生育期潜热占净辐射的比重均为55%以上。播种期和出苗期显热通量占净辐射的比重最大,均可达50%以上;分蘖期及其后生育期显热通量占净辐射的比重均为35%及以下,拔节期和抽穗期显热通量占净辐射的比重最小,仅为10%左右;随着冬小麦的生长,显热通量占净辐射的比重基本呈下降的趋势。冬小麦各生育期土壤热通量的区别不明显,越冬期土壤热通量占净辐射的比例为15%,其余各生育期土壤热通量占总能量的比例均为10%以下。冬小麦各生育期的能量闭和度均较高,出苗期能量闭合度为83%,分蘖期能量闭合度为90%,返青期以后生育期的能量闭合度均为90%及以上。2013—2014年封丘地区冬小麦各生育期气温与各通量之间呈正相关关系,相对湿度与各通量之间呈负相关关系;冬小麦生育期土壤温度与土壤热通量之间的相关系数为0.5左右,土壤温度与净辐射、潜热、显热之间无显著相关性;土壤含水量在冬小麦播种期、返青期与各通量的相关系数均为-0.5,其他生育期土壤含水量与各通量无明显相关性。     

CLM4.5在西北农牧交错带盐池站的模拟性能评估

农牧交错带具有草地、裸地、农田大面积相互镶嵌的独特下垫面,其地表水热过程变化复杂,亟需深入研究。利用宁夏盐池站2017年实际观测资料,对陆面过程模式CLM4.5的模拟性能进行检验。结果表明,在复杂下垫面下,CLM4.5仍能较好地模拟出草地的地面反射辐射、地面长波辐射和净辐射以及0~10 cm土壤含水量和温度的变化特征,但模拟值与观测值还存在一定偏差。CLM4.5能模拟出辐射通量的日变化特征,除5月外,地面反射辐射模拟值与观测值之间的偏差较小。地面长波辐射模拟值白天偏高,净辐射观测值与模拟值的相关系数为0.99,均方根误差为22.50 W·m^-2。土壤含水量观测值与模拟值的相关系数达0.83,但模拟值偏低,且模式对降雨后土壤含水量变化过程的模拟性能有待提高。土壤温度模拟值的日变化特征较为明显,观测值与模拟值的相关系数为0.98,均方根误差为2.82℃。     

1982年8月—1983年7月青藏高原地面热源强度跃变事实及其现象

1、地面热源强度资料及其计算 地表热量平衡方程为 B=P+LE+H(1)其中B为净辐射值,P为感热,LE为潜热(或蒸发凝结热),H为土壤热通量。 或 B-H=D+LE(2)B-H即为地面热源强度或地面加热强度。其中B-H>0,地面为热源;B-H<0,地面为冷源。依据相似理论,用通量廓线关系计算了拉萨、那曲、改则三站的感热和潜热通量值,辐射平衡用实测值,地表热通量则用5cm,10cm深度的土壤热通量外推得到。从而由(2)式可得到上述三站的地面热源强度。具体计算方法及其计算误差详见[2]。     

CLM3.5模式对青藏高原玛曲站陆面过程的数值模拟研究

利用通用陆面过程模式(CLM3.5)和青藏高原玛曲站2010年6月-2011年2月的观测资料进行了9个月的单点数值模拟试验。通过比较辐射通量、能量通量、土壤温度及土壤含水量的模拟值和观测值,结果表明,CLM3.5模式能较成功地模拟玛曲地区的陆面能量与水分特征。该模式对夏季向上短波辐射的模拟较好,冬季整体偏小。向上长波辐射的模拟整体较好,但模拟值稍偏大。净辐射的模拟整体较好,模拟值与观测值的相关系数为0.99,偏差为-1.28 W.m-2。感热通量的模拟较差,整体显著偏高。潜热通量的模拟较好,随季节变化特征明显。土壤热通量的模拟夏季较好,冬季土壤冻结及消融期的偏差较大,主要原因与冬季模拟的积雪偏少有关。土壤温度的模拟夏季较好、冬季较差,6层土壤温度模拟值与观测值的相关系数均在0.98以上,平均偏差为-1.80℃。模式较好地模拟出了冬季土壤冻结后存留的未冻水,冻结后土壤含水量的模拟较该模式以前的版本有了很大的改善,6层土壤含水量模拟值与观测值的平均相关系数为0.94,平均偏差为-0.015m3.m-3。     

黄土高原半干旱区夏季晴天陆面特征模拟与观测对比分析

以甘肃定西为例,利用中尺度模式MM5模拟了黄土高原半干旱区夏季晴人的陆面特征,并与观测资料进行对比分析。结果表明,对气温、土壤热通量、辐射、感热通量的模拟结果与观测比较一致,而对比湿、地表温度、潜热通量的模拟结果与观测偏差稍大。夏季晴天,定西地区的地表温度日最高值出现时间较13最高气温出现时间早了3h,但两者日最低值出现时间相同;10cm深度处的土壤温度存在明显的日变化,而40、80cm深度处无明显的日变化;空气湿度较低,夜晚比湿的变化与露水的凝结量变化时间一致;土壤热通量呈典型的单峰型日变化特征,日最大值出现在13：00,与太阳短波辐射与地表反射辐射日最大值出现的时间相同;在半干旱区感热通量明显大于潜热通量,热通量以感热通量为主;边界层高度最高可达到2100m左右,比干旱区敦煌的低1000m左右。     

北京郊区草地夏季能量收支平衡的数值模拟

北京郊区地表能量分配可能影响北京地区的天气和气候。为了进一步检验陆面过程模式对北京郊区具有代表性的稀疏草地地表能量分配的模拟能力,利用原版和改进版简化生物圈模式(SiB2,Simple Biosphere Model 2)模拟了2010年7月22日-8月5日期间北京郊区阳坊镇坦克打靶场草地的辐射平衡、能量收支以及地表热通量。并将模拟结果与实际测量的数据进行对比,结果表明:1)原版SiB2低估净辐射11.32%,改进版SiB2则低估净辐射5.81%,主要原因是改进版SiB2更新了土壤热传导率计算方法,从而提高了土壤温度(包括地表温度)模拟结果的精度,进而改善了地表向上的长波辐射模拟结果的准确性;2)改进版SiB2同时改善了感热通量和潜热通量的模拟结果,但是原版SiB2和改进版SiB2均低估了土壤热通量。     

丘陵区土壤热通量遥感估算模型适应性分析

利用具有丘陵区典型特征的四川省乐至县气象站的土壤热通量和净辐射观测数据,分析了二者的变化特征,并验证了土壤热通量遥感估算模型的适用性。分析结果表明：晴空土壤热通量G与净辐射Rn存在明显日变化,最大值出现13时左右;其比值G／Rn受土壤湿润程度和地表覆盖的影响,地表湿润、覆盖率高,比值小。在干旱时,瞬时比值可高达0．7,而湿润情况,可低至0．05。对目前广泛使用的G／Rn卫星遥感模型估算结果与实测值的对比分析表明,不同的G／Rn卫星遥感估算模型估算结果存在明显的差异,仅依靠植被指数的模型不适合南方丘陵区。本研究认为Bastiaanssen等的模型较适合丘陵区的土壤热通量遥感估算模型。     

SHAW模式对青藏高原中部季节冻土区土壤温、湿度的模拟

利用水热耦合模式(Si multaneous Heat and Water,SHAW)及"全球协调加强观测计划之亚澳季风青藏高原试验(CAMP/Tibet)"中那曲地区BJ站2002年8月1日—2003年8月31日的观测资料,对青藏高原中部季节冻土区的土壤温湿特征进行了单点模拟研究。SHAW模式能较好地模拟BJ站不同深度土壤温度,模拟值与观测值的相关系数在0.97以上,平均偏差在1℃以内。随着土壤深度增加,土壤温度的模拟效果变好,100 cm以下土壤温度的观测值和模拟值基本吻合。由于净辐射和土壤热通量在冬、春季的模拟值较观测值略偏大,使得模拟的土壤温度在冬、春季也略微偏大。就模拟结果而言,60 cm以上土壤温度对降雪是比较敏感的。模拟的土壤湿度基本上能够再现土壤未冻水含量随时间的实际变化趋势,除4 cm土壤层外,其他层的模拟值与观测值差异较大。由于影响土壤湿度的因素较多及其本身具有较复杂的相态变化,陆面模式中对其进行合理的参数化仍是难点之一。     

COMPARATIVE ANALYSIS OF VARIOUS DATA OF AIR–SEA TEMPERATURE DIFFERENCE AND ITS VARIATION ACROSS SOUTH CHINA SEA IN THE PAST 35 YEARS

Using the International Comprehensive Ocean-Atmosphere Data Set(ICOADS) and ERA-Interim data, spatial distributions of air-sea temperature difference(ASTD) in the South China Sea(SCS) for the past 35 years are compared,and variations of spatial and temporal distributions of ASTD in this region are addressed using empirical orthogonal function decomposition and wavelet analysis methods. The results indicate that both ICOADS and ERA-Interim data can reflect actual distribution characteristics of ASTD in the SCS, but values of ASTD from the ERA-Interim data are smaller than those of the ICOADS data in the same region. In addition, the ASTD characteristics from the ERA-Interim data are not obvious inshore. A seesaw-type, north-south distribution of ASTD is dominant in the SCS; i.e., a positive peak in the south is associated with a negative peak in the north in November, and a negative peak in the south is accompanied by a positive peak in the north during April and May. Interannual ASTD variations in summer or autumn are decreasing. There is a seesaw-type distribution of ASTD between Beibu Bay and most of the SCS in summer, and the center of large values is in the Nansha Islands area in autumn. The ASTD in the SCS has a strong quasi-3a oscillation period in all seasons, and a quasi-11 a period in winter and spring. The ASTD is positively correlated with the Nio3.4 index in summer and autumn but negatively correlated in spring and winter.     

Could the Recent Taal Volcano Eruption Trigger an El Ni?o and Lead to Eurasian Warming?

<正>The Taal Volcano in Luzon is one of the most active and dangerous volcanoes of the Philippines. A recent eruption occurred on 12 January 2020(Fig. 1a), and this volcano is still active with the occurrence of volcanic earthquakes. The eruption has become a deep concern worldwide, not only for its damage on local society, but also for potential hazardous consequences on the Earth’s climate and environment.     

VARIABILITY OF INTER-ANNUAL RELATIONSHIP BETWEEN INDIAN OCEAN DIPOLE AND HUAXI REGION’S AUTUMN PRECIPITATION

The moving-window correlation analysis was applied to investigate the relationship between autumn Indian Ocean Dipole (IOD) events and the synchronous autumn precipitation in Huaxi region, based on the daily precipitation, sea surface temperature (SST) and atmospheric circulation data from 1960 to 2012. The correlation curves of IOD and the early modulation of Huaxi region’s autumn precipitation indicated a mutational site appeared in the 1970s. During 1960 to 1979, when the IOD was in positive phase in autumn, the circulations changed from a “W” shape to an ”M” shape at 500 hPa in Asia middle-high latitude region. Cold flux got into the Sichuan province with Northwest flow, the positive anomaly of the water vapor flux transported from Western Pacific to Huaxi region strengthened, caused precipitation increase in east Huaxi region. During 1980 to 1999, when the IOD in autumn was positive phase, the atmospheric circulation presented a “W” shape at 500 hPa, the positive anomaly of the water vapor flux transported from Bay of Bengal to Huaxi region strengthened, caused precipitation ascend in west Huaxi region. In summary, the Indian Ocean changed from cold phase to warm phase since the 1970s, caused the instability of the inter-annual relationship between the IOD and the autumn rainfall in Huaxi region.     

IMPACT OF ATMOSPHERIC LOW-FREQUENCY OSCILLATION ON THE IMMIGRATION OF NILAPARVATA LUGENS(STL) IN HUNAN AND JIANGXI PROVINCES

Various features of the atmospheric environment affect the number of migratory insects, besides their initial population. However, little is known about the impact of atmospheric low-frequency oscillation(10 to 90 days) on insect migration. A case study was conducted to ascertain the influence of low-frequency atmospheric oscillation on the immigration of brown planthopper, Nilaparvata lugens(Stl), in Hunan and Jiangxi provinces. The results showed the following:(1) The number of immigrating N. lugens from April to June of 2007 through 2016 mainly exhibited a periodic oscillation of 10 to 20 days.(2) The 10-20 d low-frequency number of immigrating N. lugens was significantly correlated with a low-frequency wind field and a geopotential height field at 850 h Pa.(3) During the peak phase of immigration, southwest or south winds served as a driving force and carried N. lugens populations northward, and when in the back of the trough and the front of the ridge, the downward airflow created a favorable condition for N. lugens to land in the study area. In conclusion, the northward migration of N. lugens was influenced by a low-frequency atmospheric circulation based on the analysis of dynamics. This study was the first research connecting atmospheric low-frequency oscillation to insect migration.     

A COMPARATIVE ANALYSIS OF ATMOSPHERIC AND OCEANIC CONDITIONS BEFORE THE OCCURRENCE OF TWO TYPES OF EL NIO EVENTS

The atmospheric and oceanic conditions before the onset of EP El Ni?o and CP El Ni?o in nearly 30 years are compared and analyzed by using 850 hPa wind, 20℃ isotherm depth, sea surface temperature and the Wheeler and Hendon index. The results are as follows: In the western equatorial Pacific, the occurrence of the anomalously strong westerly winds of the EP El Ni?o is earlier than that of the CP El Ni?o. Its intensity is far stronger than that of the CP El Ni?o. Two months before the El Ni?o, the anomaly westerly winds of the EP El Ni?o have extended to the eastern Pacific region, while the westerly wind anomaly of the CP El Ni?o can only extend to the west of the dateline three months before the El Ni?o and later stay there. Unlike the EP El Ni?o, the CP El Ni?o is always associated with easterly wind anomaly in the eastern equatorial Pacific before its onset. The thermocline depth anomaly of the EP El Ni?o can significantly move eastward and deepen. In addition, we also find that the evolution of thermocline is ahead of the development of the sea surface temperature for the EP El Ni?o. The strong MJO activity of the EP El Ni?o in the western and central Pacific is earlier than that of the CP El Ni?o. Measured by the standard deviation of the zonal wind square, the intensity of MJO activity of the EP El Ni?o is significantly greater than that of the CP El Ni?o before the onset of El Ni?o.     

全球贸易隐含碳变化及其影响分析

基于最新的GTAP8 (Global Trade Analysis Project）数据库,使用投入产出法,分析了2004年到2007年全球贸易变化下南北集团贸易隐含碳变化及对全球碳排放的影响。结果显示,随着发展中国家进出口规模扩张,全球贸易隐含碳流向的重心逐渐向发展中国家转移。2004年到2007年,发达国家高端设备制造业和服务业出口以及发展中国家资源、能源密集型行业及中低端制造业出口的趋势加强,该过程的生产转移导致全球碳排放增长4.15亿t,占研究时段全球贸易隐含碳增量的63%。未来发展中国家的出口隐含碳比重还将进一步提高。贸易变化带来的南北集团隐含碳流动变化对全球应对气候变化行动的影响日益突出,发达国家对此负有重要责任。     

Analysis of Atmospheric Boundary Layer Height Characteristics over the Arctic Ocean Using the Aircraft and GPS Soundings

正ERRATUM to: Atmospheric and Oceanic Science Letters, 4(2011), 124-130 On page 126 of the printed edition (Issue 2, Volume 4), Fig. 2 was a wrong figure because the contact author made mistake giving the wrong one. The corrected edition has been updated on our website. The editorial office is sincerely sorry for any     

Index to Vol.31

正AN Junling;see LI Ying et al.;(5),1221—1232AN Junling;see QU Yu et al.;(4),787-800AN Junling;see WANG Feng et al.;(6),1331-1342Ania POLOMSKA-HARLICK;see Jieshun ZHU et al.;(4),743-754Baek-Min KIM;see Seong-Joong KIM et al.;(4),863-878BAI Tao;see LI Gang et al.;(1),66-84BAO Qing;see YANG Jing et al.;(5),1147—1156BEI Naifang;     

Information for Contributors

正Journal of Meteorological Research is an international academic journal in atmospheric sciences edited and published by Acta Meteorologica Sinica Press,sponsored by the Chinese Meteorological Society.It has been acting as a bridge of academic exchange between Chinese and foreign meteorologists and aiming at introduction of the current advancements in atmospheric sciences in China.The journal columns include Articles.Note and Correspondence,and research letters.Contributions from all over the world are welcome.