(2) Lang*, X., H.–J. Wang, and D. Jiang, Extraseasonal ensemble numerical predictions of winter climate over China, Chinese Science Bulletin, 2003, 48, 2121−2125.

(3) Otterå*, O. H., H. Drange, M. Bentsen, N. G. Kvamstø, and D. Jiang, The sensitivity of the present-day Atlantic meridional overturning circulation to freshwater forcing, Geophysical Research Letters, 2003, 30, 1898, doi:10.1029/2003GL017578.

(4) Xue*, F., D. Jiang, X. Lang, and H.–J. Wang, Influence of the Mascarene high and Australian high on the the summer monsoon in East Asia: Ensemble simulation, Advances in Atmospheric Sciences, 2003, 20, 799−809.

(5) 姜大膀*, 王会军, 郎咸梅, 全球变暖背景下东亚气候变化的最新情景预测, 地球物理学报, 2004, 47, 590−596.

(6) 姜大膀*, 王会军, 郎咸梅, SRES A2情景下中国气候未来变化的多模式集合预测结果, 地球物理学报, 2004, 47, 776−784.

(7) 姜大膀*, 王会军, H. Drange, 郎咸梅, 耦合模式长期积分中东亚夏季风与ENSO联系的不稳定性, 地球物理学报, 2004, 47, 976−981.

(8) 郎咸梅*, 王会军, 姜大膀, 应用九层全球大气格点模式进行的跨季度短期气候预测系统性试验, 地球物理学报, 2004, 47, 19−24.

(9) Otterå*, O. H., H. Drange, M. Bentsen, N. G. Kvamstø, and D. Jiang, Transient response of the Atlantic meridional overturning circulation to enhanced freshwater input to the Nordic Seas-Arctic Ocean in the Bergen Climate Model, Tellus, 2004, 56A, 342−361.

(10) Jiang*, D., and H.–J. Wang, Natural interdecadal weakening of East Asian summer monsoon in the late 20th century, Chinese Science Bulletin, 2005, 50, 1923−1929.

(11) Jiang*, D., H.–J. Wang, and X. Lang, Evaluation of East Asian climatology as simulated by seven coupled models, Advances in Atmospheric Sciences, 2005, 22, 479−495.

(12) Jiang*, D., H.–J. Wang, Z. L. Ding, X. Lang, and H. Drange, Modeling the middle Pliocene climate with a global atmospheric general circulation model, Journal of Geophysical Research, 2005, 110, D14107, doi: 10.1029/2004JD005639.

(13) Jiang*, D., and Z. Zhang, Paleoclimate modelling at the Institute of Atmospheric Physics, Chinese Academy of Sciences, Advances in Atmospheric Sciences, 2006, 23, 1040−1049.

(14) Jin*, L., H.–J. Wang, F. H. Chen, and D. Jiang, A possible impact of cooling over the Tibetan Plateau on the mid-Holocene East Asian monsoon climate, Advances in Atmospheric Sciences, 2006, 23, 543−550.

(15) Zhang*, Z. S., H.–J. Wang, and D. Jiang, Impact of topography and land-sea distribution on East Asian paleoenvironmental patterns, Advances in Atmospheric Sciences, 2006, 23, 258−266.

(16) Ju*, L., H.–J. Wang, and D. Jiang, Simulation of the last glacial maximum climate over East Asia with a regional climate model nested in a general circulation model, Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 248, 376−390.

(17) Wang*, H.–J., J. Han, Q. Zhang, J. Sun, and D. Jiang, Breif review of some CLIVAR-related studies in China, Advances in Atmospheric Sciences, 2007, 24, 1037−1048.

(18) Zhang*, Z. S., H.–J. Wang, Z. T. Guo, and D. Jiang, What triggers the transition of palaeoenvironmental patterns in China, the Tibetan Plateau uplift or the Paratethys Sea retreat? Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 245, 317−331.

(19) Zhang*, Z. S., H.–J. Wang, Z. T. Guo, D. Jiang, Impacts of tectonic changes on the reorganization of the Cenozoic paleoclimatic patterns in China, Earth and Planetary Science Letters, 2007, 257, 622−634.

(20) Jiang*, D., Projected potential vegetation change in China under the SRES A2 and B2 scenarios, Advances in Atmospheric Sciences, 2008, 25, 126−138.

(21) Jiang*, D., Z. L. Ding, H. Drange, and Y. Gao, Sensitivity of East Asian climate to the progressive uplift and expansion of the Tibetan Plateau under the mid-Pliocene boundary conditions, Advances in Atmospheric Sciences, 2008, 25, 709−722.

(22) Jiang*, D., Vegetation and soil feedbacks at the last glacial maximum, Palaeogeography, Palaeoclimatology, Palaeoecology, 2008, 268, 39−46.

(23) Jiang*, D., Y. Zhang, and J. Sun, Ensemble projection of 1–3°C warming in China, Chinese Science Bulletin, 2009, 54, 3326−3334.

(24) Jiang*, D., and X. Lang, Last glacial maximum East Asian monsoon: Results of PMIP simulations, Journal of Climate, 2010, 23, 5030−5038.

(25) Wang*, T., H.–J. Wang, and D. Jiang, Mid-Holocene East Asian summer climate as simulated by the PMIP2 models, Palaeogeography, Palaeoclimatology, Palaeoecology, 2010, 288, 93−102.

(26) Jiang*, D., X. Lang, Z. Tian, and D. Guo, Last glacial maximum climate over China from PMIP simulations, Palaeogeography, Palaeoclimatology, Palaeoecology, 2011, 309, 347−357.

(27) Jiang*, D., Y. Zhang, and X. Lang, Vegetation feedback under future global warming, Theoretical and Applied Climatology, 2011, 106, 211−227.

(28)  Yan*, Q., Z. S. Zhang*, H.–J. Wang, D. Jiang, and W. P. Zheng, Simulation of sea surface temperature changes in the middle Pliocene warm period and comparison with reconstructions, Chinese Science Bulletin, 2011, 56, 890−899.

(29) Yue, X., H.–J. Wang*, H. Liao, and D. Jiang, Simulation of the direct radiative effect of mineral dust aerosol on the climate at the last glacial maximum, Journal of Climate, 2011, 24, 843−858.

(30) Jiang*, D., X. Lang, Z. Tian, and T. Wang, Considerable model–data mismatch in temperature over China during the mid-Holocene: Results of PMIP simulations, Journal of Climate, 2012, 25, 4135−4153.

(31) Wang*, H.–J., J. Q. Sun, H. P. Chen, Y. L. Zhu, Y. Zhang, D. Jiang, X. Lang, K. Fan, E. T. Yu, and S. Yang, Extreme climate in China: Facts, simulation and projection, Meteorologische Zeitschrift, 2012, 21, 279−304.

(32)  Zhang*, R., D. Jiang, X. Liu, and Z. Tian, Modeling the climate effects of different subregional uplifts within the Himalaya-Tibetan Plateau on Asian summer monsoon evolution, Chinese Science Bulletin, 2012, 57, 4617−4626.

(33) Jiang*, D., Z. Tian, and X. Lang, Mid-Holocene net precipitation changes over China: Model–data comparison, Quaternary Science Reviews, 2013, 82, 104−120.

(34) Jiang*, D., X. Lang, Z. Tian, and L. Ju, Mid-Holocene East Asian summer monsoon strengthening: Insights from Paleoclimate Modeling Intercomparison Project (PMIP) simulations, Palaeogeography, Palaeoclimatology, Palaeoecology, 2013, 369, 422−429.

(35) Jiang*, D., and Z. Tian, East Asian monsoon change for the 21st century: Results of CMIP3 and CMIP5 models, Chinese Science Bulletin, 2013, 58, 1427−1435.

(36) Lu*, H., S. Yi, Z. Liu, J. A. Mason, D. Jiang, J. Cheng, T. Stevens, Z. Xu, E. Zhang, L. Jin, Z. Zhang, Z. Guo, Y. Wang, and B. Otto-Bliesner, Variation of East Asian monsoon precipitation during the past 21 k.y. and potential CO2 forcing, Geology, 2013, 41, 1023−1026.

(37) Sui*, Y., D. Jiang, and Z. Tian, Latest update of the climatology and changes in the seasonal distribution of precipitation over China, Theoretical and Applied Climatology, 2013, 113, 599−610.

(38) Tian*, Z., and D. Jiang, Mid-Holocene ocean and vegetation feedbacks over East Asia, Climate of the Past, 2013, 9, 2153−2171.

(39) Zhang, R., Q. Yan, Z. S. Zhang*, D. Jiang, B. L. Otto-Bliesner, A. M. Haywood, D. J. Hill, A. M. Dolan, C. Stepanek, G. Lohmann, C. Contoux, F. Bragg, W.-L. Chan, M. A. Chandler, A. Jost, Y. Kamae, A. Abe-Ouchi, G. Ramstein, N. A. Rosenbloom, L. Sohl, and H. Ueda, Mid-Pliocene East Asian monsoon climate simulated in the PlioMIP, Climate of the Past, 2013, 9, 2085−2099.

(40) Sui, Y., X. Lang, and D. Jiang*, Time of emergence of climate signals over China under the RCP4.5 scenario, Climatic Change, 2014, 125, 265−276.

(41) Zhang*, R., and D. Jiang, Impact of vegetation feedback on the mid-Pliocene warm climate, Advances in Atmospheric Sciences, 2014, 31, 1407−1416.

(42) Gao*, Y., H.–J. Wang, and D. Jiang, An intercomparison of CMIP5 and CMIP3 models for interannual variability of summer precipitation in Pan-Asian monsoon region, International Journal of Climatology, 2015, 35, 3770−3780.

(43) Jiang*, D., G. Yu, P. Zhao, X. Chen, J. Liu, X. Liu, S. Wang, Z. Zhang, Y. Yu, Y. Li, L. Jin, Y. Xu, L. Ju, T. Zhou, and X. Yan, Paleoclimate modeling in China: A review, Advances in Atmospheric Sciences, 2015, 32, 250−275.

(44) Jiang*, D., Z. Tian, and X. Lang, Mid-Holocene global monsoon area and precipitation from PMIP simulations, Climate Dynamics, 2015, 44, 2493−2512.

(45) Jiang*, D, Z. Tian, X. Lang, M. Kageyama, and G. Ramstein, The concept of global monsoon applied to the last glacial maximum: A multi-model analysis, Quaternary Science Reviews, 2015, 126, 126−139.

(46) Li, X., D. Jiang*, Z. Zhang, R. Zhang, Z. Tian, and Q. Yan, Mid-Pliocene westerlies from PlioMIP simulations, Advances in Atmospheric Sciences, 2015, 32, 909−923.

(47) Sui, Y., X. Lang, and D. Jiang*, Temperature and precipitation signals over China with a 2 °C global warming, Climate Research, 2015, 64, 227−242.

(48) Yan, Q., Z. Zhang*, H.–J. Wang, and D. Jiang, Simulated warm periods of climate over China during the last two millennia: The Sui-Tang warm period versus the Song-Yuan warm period, Journal of Geophysical Research: Atmospheres, 2015, 120, 2229−2241.

(49)  Zhang*, R., D. Jiang, and Z. Zhang, Causes of mid-Pliocene strengthened summer and weakened winter monsoons over East Asia, Advances in Atmospheric Sciences, 2015, 32, 1016−1026.

(50) Zhang*, R., D. Jiang, Z. Zhang, and E. Yu, The impact of regional uplift of the Tibetan Plateau on the Asian monsoon climate, Palaeogeography, Palaeoclimatology, Palaeoecology, 2015, 417, 137−150.

(51) Jiang*, D., Z. Tian, and X. Lang, Reliability of climate models for China through the IPCC Third to Fifth Assessment Reports, International Journal of Climatology, 2016, 36, 1114−1133.

(52) Jiang*, D, Y. Sui, and X. Lang, Timing and associated climate change of a 2°C global warming, International Journal of Climatology, 2016, 36, 4512−4522.

(53)  Li*, S., D. Jiang, Y. Lian, and Y. Yao, Interdecadal variations of cold air activities in Northeast China during springtime, Journal of Meteorological Research, 2016, 30, 645−661.

(54) Liu, Y., and D. Jiang*, Mid-Holocene permafrost: Results from CMIP5 simulations, Journal of Geophysical Research: Atmospheres, 2016, 121, 221−240.

(55) Liu, Y., and D. Jiang*, Last glacial maximum permafrost in China from CMIP5 simulations, Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, 447, 12−21.

(56) Shi, J., Q. Yan*, D. Jiang, J. Min, and Y. Jiang, Precipitation variation over eastern China and arid central Asia during the past millennium and its possible mechanism: Perspectives from PMIP3 experiments, Journal of Geophysical Research: Atmospheres, 2016, 121, 11989−12004.

(57) Tian*, Z., and D. Jiang, Revisiting last glacial maximum climate over China and East Asian monsoon using PMIP3 simulations, Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, 453, 115−126.

(58)  Zhang*, R., Z. Zhang, D. Jiang, Q. Yan, X. Zhou, and Z. Cheng, Strengthened African summer monsoon in the mid-Piacenzian, Advances in Atmospheric Sciences, 2016, 33, 1061−1070.

(59) Li*, H., H.–J. Wang, and D. Jiang, Influence of October Eurasian snow on winter temperature over Northeast China, Advances in Atmospheric Sciences, 2017, 34, 116−126. 

(60) Shi, J., Q. Yan*, H.–J. Wang, D. Jiang, J. Min, and Y. Jiang, Investigating dynamic mechanisms for synchronous variation of East Asian and Australian summer monsoons over the last millennium, Palaeogeography, Palaeoclimatology, Palaeoecology, 2017, 480, 70−79.

(61) Tian*, Z., T. Li, D. Jiang, and L. Chen, Causes of ENSO weakening during the mid-Holocene, Journal of Climate, 2017, 30, 7049−7070.

(62) Wang, X., D. Jiang*, and X. Lang, Future extreme climate changes linked to global warming intensity, Science Bulletin, 2017, 62, 1673−1680.

(63) Yang, K., and D. Jiang*, Interannual climate variability change during the medieval climate anomaly and little ice age in the PMIP3 last millennium simulations, Advances in Atmospheric Sciences, 2017, 34, 497−508.

(64) Zhang*, R., D. Jiang, Z. Zhang, Z. Cheng, and Q. Zhang, Comparison of the climate effects of surface uplifts from the northern Tibetan Plateau, the Tianshan, and the Mongolian Plateau on the East Asian climate, Journal of Geophysical Research: Atmospheres, 2017, 122, 7949−7970.

(65) Hu, Q., D. Jiang*, X. Lang, Sources of moisture for different intensities of summer rainfall over the Chinese Loess Plateau during 1979–2009, International Journal of Climatology, 2018, 38, e1280−e1287.

(66) Hu, Q., D. Jiang*, X. Lang, and B. Xu, Moisture sources of the Chinese Loess Plateau during 1979–2009, Palaeogeography, Palaeoclimatology, Palaeoecology, 2018, 509, 156−163.

(67) Jiang*, D., Y. Sui, X. Lang, and Z. Tian, Last glacial maximum and mid-Holocene thermal growing season simulations, Journal of Geophysical Research: Atmospheres, 2018, 123, 11466−11478.

(68) Li, X., D. Jiang*, Z. Tian, and Y. Yang, Mid-Pliocene global land monsoon from PlioMIP1 simulations, Palaeogeography, Palaeoclimatology, Palaeoecology, 2018, 512, 56−70.

(69) Liu, S., D. Jiang*, and X. Lang, A multi-model analysis of moisture changes during the last glacial maximum, Quaternary Science Reviews, 2018, 191, 363−377.

(70) Liu, Y., and D. Jiang*, Mid-Holocene frozen ground in China from PMIP3 simulations, Boreas, 2018, 47, 498−509.

(71) Su, B., D. Jiang*, R. Zhang, P. Sepulchre, and G. Ramstein, Difference between the North Atlantic and Pacific meridional overturning circulation in response to the uplift of the Tibetan Plateau, Climate of the Past, 2018, 14, 751−762.

(72) Sui, Y., X. Lang, and D. Jiang*, Projected signals in climate extremes over China associated with a 2°C global warming under two RCP scenarios, International Journal of Climatology, 2018, 38, e678−e697.

(73) Tian*, Z., T. Li, and D. Jiang, Strengthening and westward shift of the tropical Pacific Walker circulation during the mid-Holocene: PMIP simulation results, Journal of Climate, 2018, 31, 2283−2298.

(74) Tian*, Z., D. Jiang, Strengthening of the East Asian winter monsoon during the mid-Holocene, The Holocene, 2018, 28, 1443−1451.

(75) Wang*, L., W. Jiang, D. Jiang, Y. Zou, Y. Liu, E. Zhang, Q. Hao, D. Zhang, D. Zhang, Z. Peng, B. Xu, X. Yang, and H. Lv, Prolonged heavy snowfall during the Younger Dryas, Journal of Geophysical Research: Atmospheres, 2018, 123, 13748−13762.

(76) Wang, N., D. Jiang*, and X. Lang, Northern westerlies during the last glacial maximum: Results from CMIP5 simulations, Journal of Climate, 2018, 31, 1135−1153.

(77) Wang, N., D. Jiang*, and X. Lang, Metric-dependent tendency of tropical belt width changes during the last glacial maximum, Journal of Climate, 2018, 31, 8527−8540.

(78) Wang, X., D. Jiang*, and X. Lang, Climate change of 4°C global warming above pre-industrial levels, Advances in Atmospheric Sciences, 2018, 35, 757−770.

(79) Xiao*, J., S. Zhang, J. Fan, R. Wen, D. Zhai, Z. Tian, and D. Jiang, The 4.2 ka event: multi-proxy records from a closed lake in the northern margin of the East Asian summer monsoon, Climate of the Past, 2018, 14, 1417−1425.

(80) Xu*, B., L. Wang, Z. Gu, Q. Hao, H. Wang, G. Chu, D. Jiang, Q. Liu, and X. Qin, Decoupling of climatic drying and Asian dust export during the Holocene, Journal of Geophysical Research: Atmospheres, 2018, 123, 915−928.

(81) Yu*, E., R. Zhang, D. Jiang, G. Ramstein, Z. Zhang, and J. Sun, High-resolution simulation of Asian monsoon response to regional uplift of the Tibetan Plateau with regional climate model nested with global climate model, Global and Planetary Change, 2018, 169, 34−47.

(82) Zhang*, R., D. Jiang, G. Ramstein, Z. Zhang, P. C. Lippert, and E. Yu, Changes in Tibetan Plateau latitude as an important factor for understanding East Asian climate since the Eocene: A modeling study, Earth and Planetary Science Letters, 2018, 484, 295−308.

(83) Zhang*, R., D. Jiang, and Z. Zhang, Effects of the uplifts of the main and marginal Tibetan Plateau on the Asian climate under modern and ~30 Ma boundary conditions, Palaeogeography, Palaeoclimatology, Palaeoecology, 2018, 510, 15−25.

(84) Zhang*, R., Z. Zhang*, and D. Jiang, Global cooling contributed to the establishment of a modern-like East Asian monsoon climate by the early Miocene, Geophysical Research Letters, 2018, 45, 11941−11948.

(85) Huang, X., D. Jiang, X. Dong, S. Yang*, B. Su, X. Li, Z. Tang, and Y. Wang, Northwestward migration of the northern edge of the East Asian summer monsoon during the mid-Pliocene warm period: Simulations and reconstructions, Journal of Geophysical Research: Atmospheres, 2019, 124, 1392−1404.

(86) Jiang*, D., Y. Liu, and X. Lang, A multi-model analysis of glacier equilibrium line altitudes in western China during the last glacial maximum, Science China Earth Sciences, 2019, 62, 1241−1255.

(87) Liu, S., D. Jiang*, and X. Lang, Mid-Holocene drylands: A multi-model analysis using Paleoclimate Modelling Intercomparison Project Phase III (PMIP3) simulations, The Holocene, 2019, 29, 1425−1438.

(88) Ramstein*, G., Y. Godderis, Y. Donnadieu, P. Sepulchre, F. Fluteau, Z. Zhang, R. Zhang, B. Su, D. Jiang, M. Schuster, and J. Besse, Some illustrations of large tectonically driven climate changes in Earth history, Tectonics, 2019, 38, 4454−4464.

(89) Wang, X., D. Jiang*, and X. Lang, Extreme temperature and precipitation changes associated with four degree of global warming above pre-industrial levels, International Journal of Climatology, 2019, 39, 1822−1838.

(90) Xu*, B., Z. Gu, L. Wang, Q. Hao, H. Wang, G. Chu, Y. Lv, and D. Jiang, Global warming increases the incidence of haze days in China, Journal of Geophysical Research: Atmospheres, 2019, 124, 6180−6190.

(91) Zhang*, R., and D. Jiang, Modeling the Asian aridity during the early Cenozoic, Acta Geologica Sinica (English Edition), 2019, 93, 80−82.

(92) Zhang*, R., D. Jiang, and Z. Zhang, Vegetation and ocean feedbacks on the Asian climate response to the uplift of the Tibetan Plateau, Journal of Geophysical Research: Atmospheres, 2019, 124, 6327−6341.

(93) Zhang*, R., D. Jiang, Z. Zhang, Q. Yan, and X. Li, Modeling the late Pliocene global monsoon response to individual boundary conditions, Climate Dynamics, 2019, 53, 4871−4886.

(94) Zhou, X., D. Jiang*, and X. Lang, A multi-model analysis of ‘Little Ice Age’ climate over China, The Holocene, 2019, 29, 592−605. 

(95) Jiang*, D., D. Si, and X. Lang, Evaluation of East Asian summer climate prediction from the CESM large-ensemble initialized decadal prediction project. Journal of Meteorological Research, 2020, 34, 252−263.

(96) Jiang*, D., D. Hu, Z. Tian, and X. Lang, Differences between CMIP6 and CMIP5 models in simulating climate over China and the East Asian monsoon, Advances in Atmospheric Sciences, 2020, 37, 1102−1118.

(97) Liu, S., D. Jiang*, and X. Lang*, The weakening and eastward movement of ENSO impacts during the last glacial maximum, Journal of Climate, 2020, 33, 5507−5526

(98) Si*, D., D. Jiang, and H. Wang, Intensification of the Atlantic multidecadal variability since 1870: Implications and possible causes, Journal of Geophysical Research: Atmospheres, 2020, 125, e2019JD030977.

(99) Su*, B., D. Jiang, and R. Zhang, Modulation of orbitally forced ENSO variation by Tibetan Plateau topography, Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, 556, 109874.  

(100) Tian*, Z., and D. Jiang, Weakening and eastward shift of the tropical Pacific Walker circulation during the last glacial maximum, Boreas, 2020, 49, 200−210.

(101) Wang, N., D. Jiang*, and X. Lang*, Mechanisms for spatially inhomogeneous changes in East Asian summer monsoon precipitation during the mid-Holocene, Journal of Climate, 2020, 33, 2945−2965.

(102)  Wang, N., D. Jiang*, and X. Lang, Seasonality in the response of East Asian westerly jet to the mid-Holocene forcing, Journal of Geophysical Research: Atmospheres, 2020, 125, e2020JD033003.

(103)  Wang*, X., X. Lang*, and D. Jiang, Linkage of future regional climate extremes to global warming intensity, Climate Research, 2020, 81, 43–54.

(104) Zhou, X., D. Jiang*, and X. Lang, Unstable relationship between the Pacific Decadal Oscillation and eastern China summer precipitation: Insights from the Medieval Climate Anomaly and Little Ice Age, The Holocene, 2020, 30, 799−809. 

(105)  Zhou, X., X. Lang*, and D. Jiang, Teleconnections between the Atlantic Multidecadal Oscillation and eastern China summer precipitation during the Medieval Climate Anomaly and Little Ice Age, The Holocene, 2020, 30, 16941705.

(106) Chen, W., D. Jiang*, X. Lang, and Z. Tian, Understanding the cold biases of CMIP5 models over China with weather regimes, Advances in Climate Change Research, 2021, 12, 373–383.

(107) Hu*, Q., D. Jiang, X. Lang, and S. Yao, Moisture sources of summer precipitation over eastern China during 1979–2009: A Lagrangian transient simulation, International Journal of Climatology, 2021, 41, 1162–1178.

(108) Huang, X., S. Yang*, A. Haywood, D. Jiang, Y. Wang, M. Sun, Z. Tang, and Z. Ding, Warming-induced northwestward migration of the Asian summer monsoon in the geological past: Evidence from climate simulations and geological reconstructions, Journal of Geophysical Research: Atmospheres, 2021, 126, e2021JD035190.

(109) Liu, S., X. Lang, and D. Jiang*, Time-varying responses of dryland aridity to external forcings over the last 21 ka, Quaternary Science Reviews, 2021, 262, 106989.

(110) Liu, Z., X. Lang, and D. Jiang*, Impact of stratospheric aerosol injection geoengineering on the summer climate over East Asia, Journal of Geophysical Research: Atmospheres, 2021, 126, e2021JD035049.

(111) Miao*, J., and D. Jiang*, Multidecadal variations in the East Asian winter monsoon and their relationship with the Atlantic multidecadal oscillation since 1850, Journal of Climate, 34, 7525–7539.

(112) Si*, D., Y. Ding, and D. Jiang, A low-frequency downstream development process leading to the outbreak of a mega-cold wave event in East Asia, Journal of the Meteorological Society of Japan, 2021, 99, 1185–1200.

(113) Si*, D., D. Jiang, and Y. Ding, Synergistic impacts of the Atlantic and Pacific Oceans on interdecadal variations of summer rainfall in Northeast Asia, Journal of Meteorological Research, 2021, 35, 844–856.

(114) Si*, D., D. Jiang, A. Hu, and X. Lang, Variations in Northeast Asian summer precipitation driven by the Atlantic multidecadal oscillation, International Journal of Climatology, 2021, 41, 1682–1695.

(115) Si*, D., D. Jiang, X. Lang, and S. Fu, Unprecedented North American snowstorm and East Asian cold wave in January 2016: Critical role of the Arctic atmospheric circulation, Atmospheric Science Letters, 2021, 22, e1056.

(116) Wang, X., D. Jiang*, and X. Lang, Future changes in aridity index at two and four degrees of global warming above preindustrial levels, International Journal of Climatology, 2021, 41, 278–294.

(117) Wu, B., X. Lang, and D. Jiang*, Koppen climate zones in China over the last 21,000 years, Journal of Geophysical Research: Atmospheres, 2021, 126, e2020JD034310.

(118) Wu, B., X. Lang, and D. Jiang*, Migration of the northern boundary of the East Asian summer monsoon over the last 21,000 years, Journal of Geophysical Research: Atmospheres, 2021, 126, e2021JD035078.

(119) Yao, S., D. Jiang*, and Z. Zhang, Moisture sources of heavy precipitation in Xinjiang characterized by meteorological patterns, Journal of Hydrometeorology, 2021, 22, 2213–2225.

(120) Yao, S., D. Jiang*, and Z. Zhang, Lagrangian simulations of moisture sources for Chinese Xinjiang precipitation during 1979–2018, International Journal of Climatology, 2021, 41, E216–E232.

(121) Zhang*, R., D. Jiang, and Z. Cheng, Holocene precipitation changes in northeastern China from CCSM3 transient climate simulations, The Holocene, 2021, 31, 66–72.

(122) Zhang*, R., D. Jiang, Z. Zhang, and C. Zhang, Effects of Tibetan Plateau growth, Paratethys Sea retreat and global cooling on the East Asian climate by the early Miocene, Geochemistry, Geophysics, Geosystems, 2021, 22, e2021GC009655.