研究队伍
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简历:2015.1-至今:中国科学院西北生态环境资源研究院, 寒旱区水文与水土资源研究室, 研究员,博导 2008.5-2014.12:中国科学院寒区旱区环境与工程研究所, 寒旱区水文与水土资源研究室, 副研究员,硕导 2002.12-2008.4:中国科学院寒区旱区环境与工程研究所, 寒旱区水文与水土资源研究室, 助理研究员 1999.6-2002.11: 中国科学院兰州沙漠研究所研究所, 寒旱区水文与水土资源研究室, 研究实习员 1996.3-1999.5:中国科学院兰州沙漠研究所研究所, 沙坡头站, 研究实习员 2001.9-2006.5:中国科学院大学, 中国科学院寒区旱区环境与工程研究所,自然地理, 理学博士 1991.9-1995.7, 宁夏大学(农学院), 林学, 农学学士 研究领域:自然地理学(干旱区环境、沙漠与沙漠化) 生态学(树木年轮学、森林生态学、恢复生态学) 职称:
研究员
职务:获奖及荣誉:代表论著:
期刊论文:
1.Che CW, Xiao SC*, Peng XM, et al. 2023. Radial growth of Korshinsk peashrub and its response to drought in different sub-arid climate regions of northwest China. Journal of Environmental Management, 326:116708 2.Peng XM, Xiao SC, Yang B, et al. 2022. Water allocation and climate-impacted riparian forest dynamics in the Ejina Oasis, Northwest China. Dendrochronologia, 76:126001 3.Che CW, Xiao SC*, Ding AJ, et al. 2022. Growth response of plantations Hippophae rhamnoides Linn. on different slope aspects and natural Caragana opulens Kom. to climate and implications for plantations management. Ecological Indicators, 138:108833 4.Che CW, Xiao SC*, Ding AJ, et al. 2022. The Characteristics of Radial Growth and Ecological Response of Caragana korshinskii Kom. Under Different Precipitation Gradient in the Western Loess Plateau, China. Front. Plant Sci. 13:862529. 5.Xiao SC*, Peng XM, Tian QY, et al. 2021. Drought variation recorded by growth rings of the shrub Sabina vulgaris in the middle Qilian Mountains, northwest China. Dendrochronologia,66:125813 6.Ding AJ,Xiao SC*,Tian QY,et al. 2021. Correcting eccentric growth rings using basal area increment: a case study for a desert shrub in northwestern china. Tree-ring research, 77(1): 1–9. 7.Ding AJ,Xiao SC*,Peng XM,et al. Shrub-rings used to reconstruct drought history of the central Alxa desert, northwest China. Int J Climatol. 2021,41:4957–4965. 8.Peng XM, Yang B, Xiao SC, et al. 2021. Hydroclimate Correlations Between the Alxa Desert and Adjacent Mountains in Northwestern China: Evidence From Meteorological and Tree-Ring Data. Journal of Geophysical Research: Atmospheres, 126, https://doi.org /10.1029/ 2021JD035006 9.Teng ZY, Xiao SC, Chen XH, et al. 2021. Soil bacterial characteristics between surface and subsurface soils along a precipitation gradient in the Alxa Desert, China. J Arid Land ,13(3): 257–273 10.Xiao SC*, Ding AJ, Tian QY, et al. 2019. Site- and species-specific climatic responses of two co-occurring shrubs in the temperate Alxa Desert Plateau, northwest China. Science of the Total Environment, 667:77–85 11.Xiao SC*, Peng XM, Tian QY, et al., 2019. Stem radial growth indicate the options of species, topography and stand management for artificial forests in the western Loess Plateau, China. Sciences in Cold and Arid Regions, 11(3): 226 −238 12.Tian QY, He ZB, Xiao SC, et al. 2018. Growing Season Stem Water Status Assessment of Qinghai Spruce through the Sap Flow and Stem Radial Variations in the Qilian Mountains of China. Forests, 9:2; doi:10.3390/f9010002 13.Peng XM, Xiao SC*, Cheng GD, et al. 2017. Human activity impacts on the stem radial growth of Populus euphratica riparian forests in China’s Ejina Oasis, using tree-ring analysis. Trees, 31:379-392 14.Peng XM, Xiao SC*, Cheng GD, et al. 2017. Human activity impacts on the stem radial growth of Populus euphratica riparian forests in China’s Ejina Oasis, using tree-ring analysis. Trees, 31:379-392 15.Xiao SC*, Peng XM, Tian QY. 2016. Climatic and human drivers of recent lake-level change in East Juyan Lake, China. Regional Environmental Change, 16(4): 1063-1073; DOI 10.1007/s10113-015-0822-1 16.Xiao SC*, Xiao HL, Peng XM, et al. 2015. Dendroecological assessment of Korshinsk peashrub (Caragana korshinskii Kom.) from the perspective of interactions among growth, climate, and topography in the western Loess Plateau, China, Dendrochronologia, 33: 61~68 17.Xiao SC*, Xiao HL, Peng XM, et al. 2015.Hydroclimate-driven changes in the landscape structure of the terminal lakes and wetlands of the China's Heihe River Basin , Environmental Monitoring and Assessment, 187(1): 4091 18.Xiao SC*, et al. 2014. Intra-annual stem diameter growth of Tamarix ramosissima and association with hydroclimatic factors in the lower reaches of China's Heihe River. Journal of Arid Land. 6(4): 498-510; doi: 10.1007/s40333-013-0248-x 19.Xiao SC*, et al. 2014. Daily and Seasonal Stem Radial Activity of Populus euphratica and its association with hydroclimatic factors in the lower reaches of China's Heihe River Basin. Environmental Earth Sciences. 72: 609-621 20.Cheng GD, Li X, Xiao SC et al. Integrated study of the water–ecosystem–economy in the Heihe River Basin. National Science Review,1: 413–428, 2014; doi: 10.1093/ nsr/nwu017 21.Xiao SC*, et al. 2008. Comprehensive Assessment of Water Security for Inland Watersheds in the Hexi Corridor, Northwest China. Environ Geol, 55(2):369-376 22.Peng XM,Xiao SC*, Xiao HL. 2013. The preliminary dendrochronological studies on Populus euphratica in the lower reaches of Heihe Rvier basin, northwest China. Dendrochronologia, 31: 242-249 23.Xiao SC*, Xiao HL, Dong ZB, et al. 2012. Dry/wet variation recorded by shrub tree-rings in the central Badain Jaran Desert of northwestern China, Journal of Arid Environments, (87): 85~94 24.Xiao SC*, Li JX, Xiao HL, et al. 2008. Comprehensive Assessment of Water Security for Inland Watersheds in the Hexi Corridor, Northwest China. Environ Geol, 55(2):369-376 25.Xiao SC* & Xiao HL. 2007. Radial growth of Tamarix ramosissima responds to changes in the water regime in an extremely arid region of northwestern China. Environ Geol, 53(3):543-552. 26.Xiao SC*, Xiao HL, Kobayashi Osamu, et al. 2007. Dendroclimatological investigations of sea buckthorn (Hippophae rhamnoides) and reconstruction of the equilibrium line altitude of the July First Glacier in the Western Qilian Mountains, northwestern China. TREE-RING RESEARCH, 63(1):15-26 27.Xiao SC*, Xiao HL,Si JH, et al. 2005. Lake level changes recorded by tree rings of lakeshore shrubs: a case study at the Lake West-Juyan, Inner Mongolia, China. Journal of Integrative Plant Biology, 47 (11): 1303-1314. 28.滕泽宇,肖生春,陈小红等. 2021. 阿拉善荒漠5种灌丛下土壤细菌特征.中国沙漠, 41(4):34-44. 29.肖生春,彭小梅,丁爱军等. 2020. 中国寒旱区灌木年轮学研究进展. 地球科学进展, 35(6):561-567. 30.常亚斌, 朱睿, 肖生春等. 2020. 1980-2015 年阿拉善盟沙地面积变化及其驱动因子. 中国沙漠, 40(6):82-90. 31.韩超, 肖生春, 丁爱军等. 2020. 腾格里沙漠南缘青海云杉和油松年轮记录的气候变化.40(2):50-58 32.肖生春, 颜长珍, 田永祯等. 2019. 阿拉善高原沙漠化土地防治区划与治理对策. 中国沙漠,39(5):182-192 33.韩超, 肖生春, 丁爱军等. 2019. 阿拉善荒漠及周边山区树木年轮学研究进展. 高原气象, 38(1):217-225 34.丁爱军, 肖生春, 彭小梅等. 2018. 霸王(Sarcozygium xanthoxylon)灌木年轮记录的1902-2015年阿拉善荒漠中部气候干湿变化.中国沙漠,32(2):401-409 35.万纬,颜长珍, 肖生春等. 2018. 近40年来阿拉善高原沙漠化过程、格局与驱动机制研究. 中国沙漠,38(1): 17- 29 36.万炜,肖生春,陈小红等. 2018. 无人机遥感在野外植被盖度调查中的应用. 干旱区资源与环境,32(9): 150- 156 37.肖生春, 陈小红, 丁爱军. 2017. 近现代阿拉善荒漠气候变化与环境演变机制研究进展.中国沙漠, 37(6): 1102- 1110 38.田全彦, 肖生春, 彭小梅等. 2015.胡杨(Populus euphratica)与柽柳(Tamarix ramosissima)径向生长特征对比. 中国沙漠,35 (6): 1512-1519 39.肖生春, 肖洪浪, 卢琦等. 2013. 中国沙漠(地)生态系统水文调控功能及其服务价值评估. 中国沙漠,33 (5): 1568-1576 40.肖生春, 肖洪浪, 彭小梅. 2013. 梭梭(Haloxylon ammodendron Bunge)不宜用于树木年轮学研究.中国沙漠, 33(6):1692-1698 41.彭小梅, 肖生春, 肖洪浪. 2013. 树木年轮轮宽年表建立方法研究进展.中国沙漠,33(3):857-865 42.肖生春,肖洪浪,彭小梅. 2012. 黑河下游胡杨季节尺度径向生长变化研究. 冰川冻土, 34(3):607-613 43.肖生春, 肖洪浪, 蓝永超等. 2011. 近50年来黑河流域水资源问题与流域集成管理. 中国沙漠,31(2):529-535 44.肖生春,肖洪浪,司建华等. 2010. 胡杨径向生长日变化特征分析. 冰川冻土,32(4):816-823 45.肖洪浪, 肖生春, 董治宝等. 2010. 库姆塔格沙漠地区土壤及分布特征.中国沙漠, 30(4):837-843 46.肖生春, 肖洪浪. 2008. 黑河流域水环境演变及其驱动机制研究进展.地球科学进展, 23(7):748-755 47.肖生春, 肖洪浪. 2008. 两千年来黑河流域水资源平衡估算与下游环境演变驱动分析.冰川冻土,30(5):733-739 48.肖生春&肖洪浪. 2006. 极端干旱区湖岸柽柳径向生长对水环境演变的响应.北京林业大学学报(自然版),28(2):39~45 49.肖生春,肖洪浪,宋耀选等. 2006. 荒漠植被红砂(Reaumurta soongorica)水热响应的年轮学研究.中国沙漠,26(4):548~552 50.肖生春,肖洪浪,肖笃宁,周茅先.2006.额济纳蒙古族民间景观格局反映的区域环境状况. 冰川冻土, 28(4):492~499 51.肖生春,肖洪浪,司建华等. 2005.干旱区多枝柽柳的生长特性. 西北植物学报, 25(5): 1012~1016 52.肖生春,肖洪浪,周茅先等. 2004. 近百年来西居延海湖泊水位变化的湖岸林树轮记录. 冰川冻土,26(5):557~562 53.肖生春, 肖洪浪,宋耀选等. 2004. 2000年来黑河流域中下游水土资源利用与下游环境演变.中国沙漠, 24(4):405~408. 54.肖生春,肖洪浪. 2004. 近百年来人类活动对黑河流域水环境的影响.干旱区资源与环境,18(4):57~62. 55.肖生春,肖洪浪. 2004. 历史时期额济纳地区农牧业变迁与人地关系演进.中国沙漠,24(4):448~450 56.肖生春,肖洪浪, 段争虎. 2004. 干旱沙漠地区春小麦的水分与氮肥利用效率研究. 中国沙漠, 24(3):360~364 57.肖生春, 肖洪浪. 2003. 黑河流域环境演变因素研究.中国沙漠, 23(4):385~390. 专著: 肖洪浪,肖生春著. 2020. 黑河流域水循环特征与生态综合治理成效评估.科学出版社 荒漠生态系统服务功能监测与评估技术研究项目组. 2016. 荒漠生态系统服务功能评估与服务价值研究(第二版,第五章水文功能撰稿). 北京:科学出版社 库姆塔格沙漠综合科学考察队.2017. 库姆塔格沙漠综合自然地理图集(土壤部分撰稿).北京:中国地图出版社 库姆塔格沙漠综合科学考察队. 2012. 库姆塔格沙漠研究(负责第7章撰稿). 北京:科学出版社 程国栋,肖洪浪,陈亚宁著. 2012. 中国西部典型内陆河生态水文研究(负责第1、7章撰稿和全书统稿). 北京:气象出版社 程国栋主编. 2012. 中国西部生态修复试验示范研究集成(负责第3章撰稿和全书统稿). 北京:科学出版社 程国栋,肖洪浪主编. 2009. 中国内陆河流域水-生态-经济系统综合管理:黑河流域典型研究(负责第4章和全书统稿). 北京:科学出版社 承担科研项目情况:1.主持国家自然科学基金面上项目“阿拉善高原西风-季风交互作用机制的树轮气候学研究”(42171031;2022-2025)。 2.主持国家基金委面上项目“黄土高原西部人工林适宜性和稳定性的树轮学评价” (41977419;2020-2023)。 3.主持国家自然科学基金面上项目“阿拉善荒漠灌木年轮学研究”(41471082,2015-2018)。 4.主持国家自然科学基金黑河重大研究计划培育项目“黑河下游尾闾湖水环境演变及湿地结构响应机制研究”(91125020;2012-2014)。 5.主持国家自然科学基金面上项目“黑河下游优势灌木日-季节尺度径向生长的年轮学基础研究”(40971032;2010-2012)。 6.主持国家科技重点研发计划课题“内蒙古干旱荒漠区沙化土地形成机制与演变趋势研究”(2016YFC0501001;2016-2020)。 7.执行负责国家科技支撑计划课题“黄土丘陵-风沙区生态修复技术集成与试验示范”(2011BAC07B05;2011-2014)。 8.主持国家科技基础性工作专项课题“库姆塔格沙漠土壤科学考察”(2006FY110800-03; 2007-2010)。 9.主持国家林业公益性行业科研专项“荒漠生态系统水文调控功能监测与评估技术研究”(201004010-05; 2010-2012)。 10.主持中国科学院“西部之光”交叉团队项目-重点实验室合作研究专项“荒漠河岸林水分利用策略及其对水分条件的适应机制”(2020-2022)。 11.主持中国科学院科技服务网络计划(STS 计划)项目“丝绸之路经济带的内陆河流域生态恢复技术应用”第4课题“风沙防护与生态修复关键技术”(2015-2017) 12.主持中国科学院科技服务网络计划(STS 计划)课题“黑河流域生态综合治理工程生态成效评估”(KFJ-EW-STS-005-02;2014-2016) 13.主持横向地方委托项目“兰州南北两山运行管理绩效评价研究项目之生态服务价值评价项目”(2018-2020) |
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