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Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016

CHEN Zeyu XU Jiyao HU Xiong CHEN Hongbin CHEN Wen WEI Ke BIAN Jianchun TIAN Wenshou ZHANG Shaodong REN Rongcai DOU Xiankang

CHEN Zeyu, XU Jiyao, HU Xiong, CHEN Hongbin, CHEN Wen, WEI Ke, BIAN Jianchun, TIAN Wenshou, ZHANG Shaodong, REN Rongcai, DOU Xiankang. Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016[J]. 空间科学学报, 2016, 36(5): 738-752. doi: 10.11728/cjss2016.05.738
引用本文: CHEN Zeyu, XU Jiyao, HU Xiong, CHEN Hongbin, CHEN Wen, WEI Ke, BIAN Jianchun, TIAN Wenshou, ZHANG Shaodong, REN Rongcai, DOU Xiankang. Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016[J]. 空间科学学报, 2016, 36(5): 738-752. doi: 10.11728/cjss2016.05.738
CHEN Zeyu, XU Jiyao, HU Xiong, CHEN Hongbin, CHEN Wen, WEI Ke, BIAN Jianchun, TIAN Wenshou, ZHANG Shaodong, REN Rongcai, DOU Xiankang. Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016[J]. Chinese Journal of Space Science, 2016, 36(5): 738-752. doi: 10.11728/cjss2016.05.738
Citation: CHEN Zeyu, XU Jiyao, HU Xiong, CHEN Hongbin, CHEN Wen, WEI Ke, BIAN Jianchun, TIAN Wenshou, ZHANG Shaodong, REN Rongcai, DOU Xiankang. Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016[J]. Chinese Journal of Space Science, 2016, 36(5): 738-752. doi: 10.11728/cjss2016.05.738

Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016

doi: 10.11728/cjss2016.05.738
详细信息
  • 中图分类号: P351

Advances in the Researches of the Middle and Upper Atmosphere in China in 2014—2016

  • 摘要: In this report the research results by Chinese scientists in 2014-2016 are summarized. The focuses are placed on the researches of the middle and upper atmosphere, specifically the researches associated with ground-based observation capability development, dynamical processes, and properties of circulation and chemistry-climate coupling of the middle atmospheric layers.

     

  • [1] GAO H, XU J, WARD W, et al. Double-layer structure of OH day glow in the mesosphere [J]. J. Geophys. Res. Space Phys., 2015, 120:5778-5787
    [2] LIU W, XU J, YUAN W. Seasonal variation of OH rotational temperature measured over Beijing, China [J]. Chin. J. Geophys., 2015, 58(5):1467-1474
    [3] LIU W, XU J, SMITH A K, YUAN W. Comparison of ro-tational temperature derived from ground-based OH airglow observations with TIMED/SABER to evaluate the Einstein coefficients [J]. J. Geophys. Res. Space Phys., 2015, 120. DOI: 10.1002/2015JA021886
    [4] CHEN G M, J XU, WANG W, BURNS A G. A comparison of the effects of CIR-and CME-induced geomagnetic activity on thermospheric densities and spacecraft orbits:Statistical studies [J]. J. Geophys. Res. Space Phys., 2014, 119. DOI: 10.1002/2014JA019831
    [5] XU J, WANG W, ZHANG S, LIU X, YUAN W. Multiday thermospheric density oscillations associated with variations in solar radiation and geomagnetic activity [J]. J. Geophys. Res. Space Phys., 2015, 120. DOI:10. 1002/2014JA020830
    [6] JIANG G, WANG W, XU J, et al. Responses of the lower thermospheric temperature to the 9-day and 13.5-day oscillations of recurrent geomagnetic activity [J]. J. Geophys. Res. Space Phys., 2014, 119. DOI:10.1002/ 2013JA019406
    [7] LIU X, XU J, ZHANG S R, et al. Thermospheric planetary wave-type oscillations observed by FPIs over Xinglong and Millstone Hill [J]. J. Geophys. Res. Space Phys., 2014,119:6891-6901
    [8] LIU X, XU J, ZHANG S R, ZHOU Q, YUAN W. Solar activity dependency of multiday oscillations in the night time thermospheric winds observed by Fabry-Perot interferometer [J]. J. Geophys.Res. Space Phys., 2015, 120:5871-5881
    [9] SUN L, XU J, WANG W, et al. Mesoscale Field-Aligned Irregularity structures (FAIs) of airglow associated with medium-scale traveling ionospheric disturbances (MSTIDs)[J]. J. Geophys. Res. Space Phys., 2015, 120. DOI: 10.1002/2014JA020944
    [10] CHEN G M, XU J, WANG W, et al. The responses of ionospheric topside diffusive fluxes to two geomagnetic storms in October 2002 [J]. J. Geophys. Res. Space Phys., 2014, 119:6806-6820
    [11] YAO X, YU T, ZHAO B, et al. Climatological modeling of horizontal winds in the mesosphere and lower thermosphere over a mid-latitude station in China [J]. Adv. Space Res., 2015, 56:1354-1365
    [12] TAN Benkui, CHEN Wen. Progress in the study of the dynamics of extratropical atmospheric teleconnection patterns and their impacts on East Asian climate [J]. J. Meteor. Res., 2014, 28(5):780-802
    [13] ZHOU Qun, CHEN Wen. Impact of the 11-year solar cycle on the relationship between the East Asian winter monsoon and the following summer monsoon and the related processes [J]. Clim. Envir. Res., 2014, 19(4):486-496 (in Chinese)
    [14] XU J, SMITH A K, LIU M, et al. Evidence for nonmigrating tides produced by the interaction between tides and stationary planetary waves in the stratosphere and lower mesosphere [J]. J. Geophys. Res., 2014, 119. DOI: 10.1002/2013JD020150
    [15] LIU M, XU J, YUE J, JIANG G. Global structure and seasonal variations of the migrating 6-h tide observed by SABER/TIMED[J]. Sci. China:Earth Sci., 2015, 58:1216-1227
    [16] LIU M, XU J, LIU H, LIU X. Possible modulation of migrating diurnal tide by latitudinal gradient of zonal wind observed by SABER/TIMED[J]. Sci. China:Earth Sci., 2015. DOI: 10.1007/s11430-015-5185-4
    [17] YU Y,WANW, REN Z, et al. Seasonal variations of MLT tides revealed by a meteor radar chain based on Hough mode decomposition [J]. J. Geophys. Res. Space Phys., 2015, 120:7030-7048
    [18] REN Z, WAN W, XIONG J, LIU L. Influence of DE3 tide on the equinoctial asymmetry of the zonal mean ionospheric electron density [J]. Earth Planets Space, 2014, 66. DOI: 10.1186/1880-5981-66-117
    [19] LI X, WAN W, YU Y, REN Z. Yearly variations of the stratospheric tides seen in the CFSR reanalysis data [J]. Adv. Space Res., 2015, 56(9):1822-1832
    [20] LI X, WAN W, REN Z, et al. The variability of nonmigrating tides detected from TIMED/SABER observations[J]. J. Geophys. Res. Space Phys., 2015, 120. DOI:10. 1002/2015JA021577
    [21] CHEN D, CHEN Z Y, LÜ D R. Simulation of the generation of stratospheric gravity waves in upper-tropospheric jet stream accompanied with a cold vortex over Northeast China [J]. Chin. J. Geophys., 2014, 57(1):10-20
    [22] JIA J Y, PREUSSE P, ERN M, et al. Sea surface temperature as a proxy for convective gravity wave excitation:a study based on global gravity wave observations in the middle atmosphere [J]. Ann. Geophys., 2014, 32:1373-1394
    [23] JIA Y, ZHANG S D, YI F, HUANG C M, et al. Observations of gravity wave activity during stratospheric sudden warmings in the Northern Hemisphere [J]. Sci. China:Tech. Sci., 2015, 58(6):951-960
    [24] XU J, LI Q, YUE J, et al. Concentric gravity waves over northern China observed by an airglow imager network and satellites [J]. J. Geophys. Res. Atmos., 2015, 120:11 058-11 078
    [25] LIU X, XU J, YUAN W. Diurnal variations of turbulence parameters over the tropical oceanic upper troposphere during SCSMEX[J]. Sci. China Tech. Sci., 2014, 57(2):351-359
    [26] LIU X, XU J, LIU H L, YUE J, YUAN W. Simulations of large winds and wind shears induced by gravity wave breaking in the Mesosphere and Lower Thermosphere (MLT) region [J]. Ann. Geophys., 2014, 32:543-552
    [27] LIU X, XU J, YUE J, et al. Large winds and wind shears caused by the nonlinear interactions between gra-vity waves and tidal backgrounds in the mesosphere and lower thermosphere [J]. J. Geophys. Res. Space Phys., 2014, 119(9):7 698-7 708
    [28] LIU X, YUE J, XU J, et al. Gravity wave variations in the polar stratosphere and mesosphere from SOFIE/AIM temperature observations [J]. J. Geophys. Res. Atmos., 2014, 119:7368-7381
    [29] WEI D, TIAN W, CHEN Z Y, et al. Upward transport of air masses during an occurrence of orographic wave in the UTLS over the Tibetan Plateau [J]. Chin. J. Geophys. (in press)
    [30] LIU X, YUE J, XU J, YUAN W, et al. Five-day wave sin polar stratosphere and mesosphere temperature and mesospheric ice water measured by SOFIE/AIM[J]. J. Geophys. Res. Atmos., 2015, 120:3872-3887
    [31] ZHANG S D, YI F, HUANG C M, et al. Spatial and seasonal variability of high frequency gravity waves in lower atmosphere revealed by U.S. radiosonde data [J]. Ann. Geophys., 2014, 32:1129-1143
    [32] GAN Q, YUE J, CHANG L C, et al. Observations of thermosphere and ionosphere changes due to the dissipative 6.5-day wave in the lower thermosphere [J]. Ann. Geophys., 2015, 33:913-922
    [33] HUANG K M, ZHANG S D, YI F, et al. Nonlinear interaction of gravity waves in a nonisothermal and dissipative atmosphere [J]. Ann. Geophys., 2014, 32:263-275
    [34] GAN Q, DU J, WARD W E, et al. Climatology of the diurnal tides from eCMAM30 (1979 to 2010) and its comparison with SABER[J]. Earth Planets Space, 2014, 66. DOI: 10.1186/1880-5981-66-103
    [35] HUANG C M, ZHANG S D, ZHOU Q, et al. WHU VHF radar observations of the diurnal tide and its variability in the lower atmosphere over Chongyang (114.14°E, 29.53°N) [J]. China. Ann. Geophys., 2015, 33:865-874
    [36] SHUAI J, HUANG C M, ZHANG S D, et al. Elevated stratopause events during 2003-2011 revealed by SABER/TIMED temperature observations [J]. Chin. J. Geophys., 2014, 57(8):2465-2472
    [37] HU J G, REN R C, XU H M. The boreal spring stratospheric final warming and its interannual and interdecadal variability [J]. Sci. China:Earth Sci., 2014, 57(4):710-718
    [38] HU J G, REN R C, XU H M. Occurrence of winter stratospheric sudden warming events and the seasonal timing of spring stratospheric final warming [J]. J. Atmos. Sci., 2014, 71:2319-2334
    [39] HU J G, REN R C, XU H M, et al. Seasonal timing of stratospheric final warming associated with the intensity of stratospheric sudden warming in preceding winter [J]. Sci. China:Earth Sci., 2015, 58(4):615-627
    [40] POGORELTSEV A I, SAVENKOVA E N, ANISKINA O G, et al. Interannual and intraseasonal variability of stratospheric dynamics and stratosphere-troposphere coupling during northern winter [J]. J. Atmos. Solar-Terr. Phys., 2015, 136:187-200
    [41] XUE X, CHEN W, CHEN S, ZHOU D. Modulation of the connection between boreal winter ENSO and the South Asian High in the following summer by the stratospheric Quasi-biennial Oscillation [J]. J. Geophys. Res. Atmos., 2015, 120:7393-7411
    [42] GUO D, SU Y C, SHI C H, et al. Double core of ozone valley over the Tibetan Plateau and its possible mechanisms [J]. J. Atmos. Solar-Terr. Phys., 2015, 130/131:127-131
    [43] ZHANG J, TIAN W, XIE F, et al. Climate warming and decreasing total column ozone over the Tibetan Plateau during winter and spring [J]. Tellus B, 2014, 66(1):136-140
    [44] XIE F, LI J, TIAN W, et al. The relative impacts of El Nino Modoki, canonical El Nino, and QBO on tropical ozone changes since the 1980s [J]. Envir. Res. Lett., 2014, 9(6):064020
    [45] XIE F, LI J, TIAN W, et al. Indo-Pacific warm pool area expansion, Modoki activity, and tropical cold-point tropopause temperature variations [J]. Sci. Rep., 2014, 4(13):4552
    [46] WANG C, TIAN W, ZHANG J, et al. Model study of the impacts of emissions, chemical and dynamical processes on the CO variability in the tropical upper troposphere and lower stratosphere [J]. Tellus B, 2015, 67(1):27475
    [47] HU D, TIAN W, XIE F, et al.Impacts of stratospheric ozone depletion and recovery on wave propagation in the boreal winter stratosphere [J]. J. Geophys. Res.:Atmos., 2015, 120:8299-8317
    [48] WANG W, TIAN W, DHOMSE S, et al. Stratospheric ozone depletion from future nitrous oxide increases [J]. Atmos. Chem. Phys., 2014, 14:12967-12982
    [49] SHANG L, LIU Y, TIAN W, et al. Effect of methane emission increases in East Asia on atmospheric circulation and ozone [J]. Adv. Atmos. Sci., 2015, 32(12):1617-1627
    [50] ZHANG J, TIAN W, WANG Z, et al. The influence of ENSO on northern midlatitude ozone during the winter to spring transition [J]. J. Climate, 2015, 28:4774-4793
    [51] ZHANG J, TIAN W, XIE F, et al. Influence of the El Niño southern oscillation on the total ozone column and clear-sky ultraviolet radiation over China [J]. Atmos. Envir., 2015, 120:205-216
    [52] HU D, TIAN W, XIE F, et al. Effects of meridional sea surface temperature changes on stratospheric temperature and circulation [J]. Adv. Atmos. Sci., 2014, 31(4):888-900
    [53] SHI C H, XU T, CAI J, et al. The E-P flux calculation in spherical coordinates and its application [J]. Trans. Atmos. Sci., 2015, 38(2):267-272
    [54] SHI C H, GUO D, XU J J, et al. The latitudinal structure of recent changes in the boreal Brewer-Dobson circulation [J]. Atmos. Chem. Phys. Discuss., 2015, 15(17):24403-24417
    [55] WEI K, M TAKAHASHI, CHEN W. Long-term changes in the relationship between stratospheric circulation and East Asian winter monsoon [J]. Atmos. Sci. Lett., 2015, 16:359-365
    [56] NATH D, CHENW, WANG L, MA Y. Planetary wave reflection and its impact on tropospheric cold weather over Asia during January 2008 [J]. Adv. Atmos. Sci., 2014, 31(4):851-862
    [57] NATH D, CHEN W. Impact of planetary wave reflection on tropospheric blocking over the Urals-Siberia region in January 2008 [J]. Adv. Atmos. Sci., 2016, 33(3):309-318
    [58] SHI C H, LI H, ZHENG B, et al. Stratosphere-troposphere exchange corresponding to a deep convection in warm sector and abnormal subtropical front induced by a cutoff low over East Asia [J]. Chin. J. Geophys., 2014, 57(1):21-30
    [59] CHEN D, LÜ D R, CHEN Z Y. Simulation of the stratosphere-troposphere exchange process in a typical cold vortex over northeast China [J]. Sci. China:Earth Sci., 2014, 57(7):1452-1463
    [60] XU P, TIAN W, ZHANG J, et al. A simulation study of the transport of the stratospheric ozone to the troposphere over the northwest side of the Tibetan Plateau in spring [J]. Acta Meteor. Sin., 2015, 73(3):529-545
    [61] YANG Q, TIAN W, LONG X, et al. Transport of dust aerosols from troposphere to stratosphere over Qinghai-Xizang Plateau [J]. Plat. Meteor., 2014, 33(4):887-899
    [62] ZHANG J, TIAN W, LONG X, et al. Fact and simulation of dust aerosol transported to stratosphere during a strong dust storm in South Xinjiang [J]. Plat. Meteor., 2015, 34:991-1004
    [63] TIAN H, TIAN W, LUO J, et al. Characteristics of water vapor distribution and variation in upper troposphere and lower stratosphere over Qinghai-Xizang Plateau [J]. Plat. Meteor., 2014, 33(1):1-13
    [64] LIU W, TIAN W, SHU J, et al. Effects of quasi-biennual oscillation on tropical tropopause and deep convective activities[J]. Adv. Earth Sci., 2015, 30(6):724-736
    [65] SHI C H, CHANG S J, SHENG X Y, et al. The effects of cloud top above tropopause events on the structures of the upper troposphere and lower stratosphere in summer over East Asia [J]. Trans. Atmos. Sci., 2015, 38(6):804-810
    [66] ZHENG B, SHI C H. Factors contributing to linear trends of the tropical tropopause height and causes of their interannual variability from 1979 to 2011 [J]. J. Trop. Meteor., 2015, 31(3):300-309
    [67] ZHANG Y, ZHANG S, HUANG C, et al. The interaction between the tropopause inversion layer and the inertial gravity wave activities revealed by radiosonde observations at a midlatitude station [J]. J. Geophys. Res. Atmos., 2015, 120:8099-8111
    [68] Zhang Y H, Zhang S D, Huang C M, et al. Diurnal variations of the planetary boundary layer height estimated from intensive radiosonde observations over Yichang, China[J]. Sci. China:Tech. Sci., 2014, 57:2172-2176
    [69] KONG W, YI F. Convective boundary layer evolution from lidar backscatter and its relationship with surface aerosol concentration at a location of a central China megacity [J]. J. Geophys. Res. Atmos., 2015, 120:7928-7940
    [70] LIU F C, YI F. Lidar-measured atmospheric N2 vibrational-rotational Raman spectra and consequent temperature retrieval [J]. Opt. Exp., 2014, 22(23):27833-27844
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  • 收稿日期:  2016-05-31
  • 刊出日期:  2016-09-15

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