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西南林业大学生态与环境学院导师教师师资介绍简介-李新荣

本站小编 Free考研考试/2021-11-13

李新荣




restoration on soil hydraulic properties in revegetation-stabilized desert ecosystems. GEOPHYSICAL RESEARCH LETTERS, 34: L24S22.
[103] Zheng JG, He MZ, Li XR, ChenYW, Li XJ, Liu LC. 2008. Effects of Salsola passerina shrub p个人经历:
李新荣,男,1966年生。1995年在莫斯科大学生物系地植物专业获博士学位。1998年被中科院兰州沙漠研究所晋升为研究员、博导。现为中科院寒区旱区环境与工程研究所研究员(2级)、博导、生态与农业研究室主任、中国科学院沙坡头沙漠研究试验国家站站长,生物逆境生理生态实验室主任。国家****基金获得者、国家自然科学基金创新研究群体负责人国家重点基础研究发展计划973项目首席科学家、人事部“新世纪百千****才工程”国家级人选、国务院政府津贴获得者。
先后在澳大利亚联邦科工组织水土所(1999,11-2001,03)、美国宾夕法尼亚州立大学(2002,11-2003,04)、德国柏林工业大学(2004, 11-2005, 02)进修和高访。获德国Stiftung Alfried Krupp Kolleg的年度高级研究员研究奖在格拉夫斯沃德大学进行合作研究(2009,10 – 2010,09)。
目前为中国地理学会自然地理专业委员会副主任、中国地理学会沙漠分会副理事长、中国生态学会常务理事、中国生态学会长期生态学专业委员会委员、全国防沙治沙标准化技术委员会委员、全国防沙治沙暨沙产业学会理事、中国植物学会植物生态学专业委员会委员、中国草地资源管理委员会常务理事和联合国荒漠化防治独立专家,以及《中国沙漠》副主编、《植物生态学报》、《干旱区资源与环境》、《甘肃科学学报》、Environmental Management (SCI)、Journal of Arid Land Research (SCI)和Science in Cold and Arid Regions等编委。
主要从事荒漠化过程与机理、荒漠生态恢复和干旱区生态水文学等研究。提出了沙化草地恢复的理论假说和土壤质地决定着沙区植被格局的观点,论证了沙漠化过程中植被的时空替代规律,认为土壤生境的恢复是生态系统水平恢复的重要标志;揭示了干旱沙区土壤水循环的植被调控机理,理论回答了干旱沙区通过人工促进生态恢复是可行的等重要科学问题;系统研究了生物土壤结皮在温性荒漠生态水文过程中的作用及其机理,提出了生物土壤结皮维系着荒漠生态系统健康持续,决定着沙地人工植被演替的观点。发表论文300余篇,SCI收录130余篇,出版专著6部,国家发明专利3件。
主持项目:
先后主持国家自然科学基金重大研究计划项目、重点基金、****基金、基金委创新研究群体、面上基金,以及科技部国家科技支撑、973项目等国家级项目30余项。
作为主持人获得国家科技进步二等奖(2009)1项、宁夏回族自治区科技进步一等奖(2007)1项和甘肃省自然科学一等奖(2008)1项、第七届全国优秀科技工作者奖(2016)、中国科学院中国生态系统研究网络杰出贡献奖1项(2014)。获甘肃省科技进步二等奖2项。
学术论文:
[1] Li XR*, Song G, Hui R, Wang ZR. 2017. Precipitation and topsoil attributes determine the species diversity and distribution patterns of crustal communities in desert ecosystems. Plant and Soil, DOI 10.1007/s11104-017-3385-8
[2] Li XR*, Zhang DH, Zhang F, Zhang P. 2017. The eco-hydrological threshold for evaluating the stability of sand-binding vegetation in different climatic zones. Ecological Indicators, 83: 404-415.
[3] Li XR*, Gao YH, Su JQ, Jia RL, Zhang ZS. 2014. Ants mediate soil water in arid desert ecosystems: mitigating rainfall interception induced by biological soil crusts? Applied Soil Ecology, 78: 57-64.
[4] Li XR*, Zhang ZS, Tan HJ, Gao YH, Liu LC, Wang XP. 2014. Ecological restoration and recovery in the wind-blown sand hazard areas of northern China: relationship between soil water and carrying capacity for vegetation in the Tengger Desert. Science in China (C), 57: 539-548.
[5] Li XR*, Zhang ZS, Huang L, Wang XP. 2013. Review of the ecohydrological processes and feedback mechanisms controlling sand-binding vegetation systems in sandy desert regions of China, Chinese Science Bulletin, 58: 1-14.
[6] Li XR*, P. Zhang, YG Su, RL Jia. 2012. Carbon fixation by biological soil crusts following stabilization of sand dune in arid desert regions of China: a four-year field study, Catena, 97: 119-126.
[7] Li XR*, Jia RL, Chen YW, Huang L. 2011. Association of ant nests association with successional stages of soil crusts in the Tengger desert, Northern China, Applied Soil Ecology, 47: 59-66.
[8] Li XR*, Tian F, Jia RL, Zhang ZS, Liu LC. 2010. Do biological soil crusts determine vegetation changes in sandy deserts? Implications for managing artificial vegetation, Hydrological Processes, 24: 3621-3630.
[9] Li XR*, He MZ, Stefan Z, Li XJ, Liu LC. 2010. Micro-geomorphology determines community structure of BSCs at small scale, Earth Surface Processes and Landforms, 35: 932-940.
[10] Li XR*, Tan HJ, He MZ, Wang XP, Li XJ. 2009. Patterns of shrub species richness and abundance in relation to environmental factors on the Alxa Plateau: Prerequisites for conserving shrub diversity in extreme arid desert regions, Science in China Ser. D Earth Sciences, 52: 669-680.
[11] Li XR*, Kong DS, Tan HJ, Wang XP. 2007. Changes in soil and in vegetation following stabilisation of dune in southeastern fringe of the Tengger Desert, China, Plant and Soil, 300: 221-231.
[12] Li XR*, He MZ, Duan ZH, Xiao HL, Jia XH. 2007. Recovery of topsoil physicochemical properties in revegetated sites in the sand-burial ecosystems of the Tengger Desert, northern China, Geomorphology, 88: 254-265.
[13] Li XR*, Chen YW, Su YG, Tan HJ. 2006. Effects of biological soil crust on desert insect diversity: evidence from the Tengger Desert of northern China, Arid Land Research and Management, 20 (4). 1-18.
[14] Li XR*, Xiao HL, He MZ, Zhang JG. 2006. Sand barriers of Straw checkerboard for habitat restoration in extremely arid desert region of China, Ecological Engineering, 28: 149-157.
[15] Li XR*, Jia XH, Dong GR. 2006. Influence of desertification on vegetation pattern variations in the cold semi-arid grasslands of Qinghai-Tibet Plateau, Northwest China, Journal of Arid Environments. 64: 505-522.
[16] Li XR*, Jia XH, Long LQ, Stefan Z. 2005. Effects of biological soil crusts on seed bank, germination and establishment of two annual plant species in the Tengger Desert (N China), Plant and Soil, 277: 375-385.
[17] Li XR*. 2005. Influence of variation of soil spatial heterogeneity on vegetation restoration, Science in China Ser. D Earth Sciences, 48: 2020-2031.
[18] Li XR*, Chen YW, Yang LW. 2004. Cryptogam Diversity and Formation of Soil Crusts in Temperate Desert, Annals of Arid Zone, 43: 335-353.
[19] Li XR*, Xiao HL, Zhang JG, Wang XP. 2004. Long-term Ecosystem Effects of Sand-binding Vegetation in Shapotou Region of Tengger Desert, Northern China, Restoration Ecology, 12: 376-390.
[20] Li XR*, Zhang ZS, Zhang JG, Jia XH. 2004. Association between vegetation pattern and soil properties in the southeastern Tengger desert, China, Arid Land Research and Management. 18: 369-383.
[21] Li XR*, Ma FY, Xiao HL, Wang XP, Kim KC. 2004. Long-term effects of revegetation on soil water content of sand dunes in arid region of northern China. Journal of Arid Environments. 57:1-16.
[22] Li XR*, Zhou HY, Wang XP, Zhu YG, O’Conner PJ. 2003. The effects of sand stabilization and re-vegetation on cryptogam species diversity in Tengger Desert, Northern China. Plant and Soil, 251: 237-245.
[23] Li XR*, Wang XP, Li T, Zhang JG. 2002. Microbiotic crust and its effect on vegetation and habitat on artificially stabilized desert dunes in Tengger Desert, North China. Biology and Fertility of Soils, 35: 147-154.
[24] Li XR*. 2001. Study on shrub community diversity of Ordos plateau, Inner Mongolia, Northern China. Journal of Arid Environments, 47: 271-279.
[25] Li XR*, Zhang JG, Wang XP, Liu LC. 2000. Study on soil microbiotic crust and its influences on sand fixing vegetation in arid desert region, Acta Botanica Sinica. 42: 965-970.
[26] Song G, Li XR*, Hui R. 2017. Effect of biological soil crusts on seed germination and growth of an exotic and two native plant species in an arid ecosystem. PLos one. Doi.org/10.1371/journal.pone.**.
[27] Song G, Li XR*, Hui R. 2017. Biological soil crusts determine the germination and growth of two exotic plants. Ecology and Evolution, doi: 10.1002/ece3.3477.
[28] Park Chan-Ho, Li XR, Jia RL, and Hur Jae-Seoun, 2017. Combined application of cyanobacteria with soil fixing chemicals for rapid induction of biological soil crust formation. Arid Land Research and Management, 31: 81-93.
[29] Lu Y, Li XR, He MZ, Zeng FJ, Li XY. 2017. Accumulation of heavy metals in native plants growing on mininginfluenced sites in Jinchang: a typical industrial city (China). Environ Earth Sci 76:446.
[30] Park Chan-Ho, Li XR, Zhao Y, Jia RL, Hur Jae-Seoun. 2017. Rapid development of cyanobacterial crust in the field for combating desertification. PLos one, https://doi.org/10.1371/journal.pone.**.
[31] Jia XH, Li YS, Wu B, Zhou YY, Li XR. 2017. Effects of plant restoration on soil microbial biomass in an arid desert in northern China. Journal of Arid Environments, 144: 192-200.
[32] Zhang DH, Li XR*, Zhang F, Zhang ZS, Chen YL. 2016. Effects of rainfall intensity and intermittency on woody vegetation cover and deep soil moisture in dryland ecosystems, Journal of Hydrology, 543:270-282.
[33] He MZ, Song X, Tian FP, Zhang K, Zhang ZS, Chen N, Li XR. 2016. Divergent variations in concentrations of chemical elements among shrub organs in a temperate desert. Scientific Reports. 6: 20124. DOI: 10.1038/srep20124.
[34] He MZ, Dijkstra FA, Zhang K, Tan HJ, Zhao Y, Li XR. 2016. Influence of life form, taxonomy, climate and soil properties on shoot and root concentrations of 11 elements in herbaceous plants in a temperature desert. Plant and Soil, 398: 339-350.
[35] Wang J, Bao JQ, Li XR*, Liu YB. 2016. Molecular Ecology of nifH Genes and Transcripts Along a Chronosequence in Revegetated Areas of the Tengger Desert. Microbial Ecology, 71: 150-163.
[36] Li XJ, Li XR, Wang XP, Yang HT. 2016. Changes in soil organic carbon fractions after afforestation with xerophytic shrubs in the Tengger Desert, northern China, European Journal of Soil Science, 67: 184-195.
[37] Zhang ZS, Zhao Y, Li XR, Huang L, Tan HJ. 2016. Gross rainfall amount and maximum rainfall intensity in60-minute influence on interception loss of shrubs: a 10-year observation in the Tengger Desert. Scientific Reports, 6:26030.
[38] Hui R, Li XR, Zhao RM, Liu LC, Li G, Wei YP. 2015. Damage and recovery from enhanced UV-B exposure in Bryum argenteum and Didymodon vinealis from biological soil crusts. Fresenius Environmental Bulletin. 24: 939-946.
[39] Yin HX, Yan X, Shi Y, Qian CJ, Li ZH, Zhang W, Wang LR, Li Y, Li XZ, Chen GX, Li XR, Nevo E, Ma XF. The role of East Asian monsoon system in shaping population divergence and dynamics of a constructive desert shrub Reaumuria soongarica, Scientific Reports, 2015, DOI: 10.1038/srep1582.
[40] Liu YB, Li XR, Chen GX, Liu ML. 2015. Epidermal micromorphology andmesophyll structure of Populus euphratica heteromorphic leaves at different development stages. PLOS One. DOI:10.1371/journal.pone.**.
[41] Liu ML, Li XR, Liu YB, Shi YL, Ma XF. 2015. Analysis of differentially expressed genes under UV-B radiation in the desert plant Reaumuria soongorica. Gene, 574:265-272.
[42] Bao JQ, Wang J, Li XR*, Zhang ZS, Su JQ. 2015. Age-related changes in photosynthesis and water relations of revegetated Caragana korshinskii in the Tengger desert, Northern China. Trees, 29: 1749–1760.
[43] Huang L, Zhang ZS, Li XR. 2015. The extrapolation of the leaf area-based transpiration of two xerophytic shrubs in a revegetated desert area in the Tengger Desert, China. Hydrology Research. 46: 389-399.
[44] Wang J, Bao JQ, Su JQ, Li XR, Chen GX. 2015. Impact of inorganic nitrogen additions on microbes in biological soil crusts. Soil Biology & Biochemistry, 88:303-313.
[45] Zhao X, Shi Y, Liu Y, Jia RL, Li XR. 2015. Osmotic Adjustment of Soil Biocrust Mosses in Response to Desiccation Stress. Pedosphere, 25: 459–467.
[46] Grishkan I, Jia RL, Li XR. 2015. Influence of sand burial on cultivable micro-fungi in habiting biological soil crusts. Pedobiologia.
[47] Kidron, J, Li XR, Jia RL, Gao YH, Zhang P. 2015. Assessment of carbon gains from biocrusts inhabiting a dunefield in the Negev Desert. Geoderma, 253-254: 102-110.
[48] Zhao Y, Li XR, Zhang P, Huang L. 2015. Effects of Vegetation Reclamation on Temperature and Humidity Properties of a Dumpsite: A Case Study in the Open Pit Coal Mine of Heidaigou. Arid Land Research and management. 29:375–381.
[49] Grishkan I, Jia RL, Kidron G, Li XR. 2015. Cultivable Microfungal Communities Inhabiting Biological Soil Crusts in the Tengger Desert, China. Pedoshere. 25: 351–363.
[50] He MZ, Zhang K, Hu R. Tan HJ, Su JQ, Wang J, Huang L, Zhang YF, LI XR. 2015. Nutrient levels within leaves, stems, and roots of the xeric species Reaumuria soongorica in relation to geographical, climatic, and soil conditions. Ecology and Evolution. doi: 10.1002/ece3.1441.
[51] Hui R, Li XR, Zhao RM, Liu LC, Gao YH, Wei YP. 2015. UV-B radiation suppresses chlorophyll fluorescence, photosynthetic pigment and antioxidant systems of two key species in soil crusts from the Tengger Desert, China. Journal of Arid Environments 113: 6-15.
[52] Jia RL, Li XR, Liu LC, Pan YX, Gao YH, Wei YP. 2014. Effects of sand burial on dew deposition on moss soil crust in arevegetated area of the Tengger Desert, northern China. Journal of Hydrology, 519: 2341-2349.
[53] Yang HT, Liu LC, Li XR, Wei YP, Li XJ, Jia RL. 2014. Water Repellency of Biological Soil Crusts and Influencing Factors on the Southeast Fringe of the Tengger Desert, northern China. Soil Science.
[54] He MZ, Dijkstra FA, Zhang K, Li XR, Tan HJ, Gao YH, Li G. 2014. Leaf nitrogen and phosphorus of temperate desert plants in response to climate and soil nutrient availability. Scientific Reports, 4: 6932.
[55] Park CH, Li XR, Jia RL, Hur JS. 2014. Effects of Superabsorbent Polymer on Cyanobacterial Biological Soil Crust Formation in Laboratory. Arid Land Research and Management DOI: 10.1080/**.2014.928835.
[56] Li JH, Li XR*, Zhang P. 2014. Micro-morphology, ultrastructure and chemical composition changes of Bryum argenteum from a desert biological soil crust following one-year desiccation. The Bryologist 117: 232-240.
[57] Zhao Y, Li XR, Zhang ZS, Hu YG, Chen YL. 2014. Biological soil crusts influence carbon relase resposes following rainfall in a temperate desert, northern China. Ecological Research Doi: 10.1007/s11284-014-1177-7.
[58] Huang L, Zhang ZS, Li XR. 2014. The extrapolation of the leaf area-based transpiration of two xerophytic shrubs in a revegetated desert area in the Tengger Desert, China. Hydrology Research. doi: 10.2166/nh.2014.171.
[59] Huang L, Zhang ZS, Li XR. 2014. Soil CO2 concentration in biological soil crusts and its driving factors in a revegetated area of the Tengger Desert, Northern China. Environmental Earth Science. DOI 10.1007/s12665-013-3000-0.
[60] Huang L, Zhang ZS, Li XR. 2014. Carbon fixation and its influence factors of biological soil crusts in a revegetated area of the Tengger Desert, northern China. Arid Land Research. doi: 10.1007/s40333-014-0027-3
[61] Li JH, Li XR*, Chen CY. 2014. Degradation and reorganization of thylakoid protein complexes of Bryum argenteum in response to dehydration and rehydration. The Bryologist. 117: 110-118.
[62] Liu YB, Liu ML, Li XR, Cao B, Ma XF. 2014. Identification of Differentially Expressed Genes in Leaf of Reaumuria soongorica under PEG-Induced Drought Stress by Digital Gene Expression Profiling. PLOS ONE, 9: e94277.
[63] Liu YM,Yang HY, Li XR, Xing ZS. 2014. Effects of biological soil crusts on soil enzyme activities in revegetatedareas of the Tengger Desert, Applied Soil Ecology, 80: 6-14.
[64] Yang HT, Li XR, Wang ZR, Jia RL, Liu LC, Chen YL, Wei YP, Gao YH, Li G. 2014. Carbon sequestration capacity of shifting sand dune after establishing new vegetation in the Tengger Desert, northern China. Science of the total Environment 478: 1-11.
[65] Hui R, Li XR*, Jia RL, Liu LC, Zhao RM, Zhao X, Wei YP. 2014. Photosynthesis, fluorescence, soluble protein content and chloroplast ultrastructure of two moss crusts from the Tengger Desert with contrasting sensitivity to supplementary UV-B radiation. Photosynthetica, 52: 36-49.
[66] Pan YX, Wang XP, Li XR, Zhang YF, Hu R, Zhang H. 2014. The influence of Caragana korshinskii shrub on soil and hydrologic properties in a revegetation-stabilized desert ecosystem. Hydrological Sciences Journal, 59: 1925-1934.
[67] Yang HT, Li XR, Liu LC, Gao YH, Li G, Jia RL. 2013. Soil water repellency and influencing factors of Nitraria tangutorun nebkhas at different succession stages. Journal of Arid Land, doi: 10.1007/s40333-013-0199-2.
[68] Zhao Y, Li XR, Zhang ZS, Hu YG, Wu P. 2014. Soil-Plant Relationships in the Hetao Irrigation Region Drainage Ditch Banks, Northern China. Arid Land Research and Management, 28(1): 74-86.
[69] Lu Y, Li XR, He MZ, Zeng FJ. 2013. Behavior of native species Arrhenatherum elatius (Poaceae) and Sonchus transcaspicus (Asteraceae) exposed to a heavy metal – polluted field: plant meat concentration, phytotoxicity, and detoxification responses. International Journal Phytoremediation, 15: 924-937.
[70] Liu YM, Li XR*, Xing ZS, Zhao X, Pan YX. 2013. Responses of soil microbial biomass and community composition to biological soil crusts in the revegetated areas of the Tengger Desert. Applied Soil Ecology, 65: 52-59.
[71] Liu ML, Li XR, Liu YB, Cao B. 2013. Regulation of flavanone 3-hydroxylase gene involved in the flavonoid biosynthesis pathway in response to UV-B radiation and drought stress in the desert plant, Reaumuria soongorica. Plant Physiology and Biochemistry, 73: 161-167.
[72] Zhao X, Yang XJ, Shi Y, Chen GX, Li XR. 2013. Protein and lipid characterization of wheat roots plasma membrane damaged by Fe and H2O2 using ATR-FTIR method. Journal of Biophysical Chemistry, 4: 28-35.
[73] Zhang ZS, Li XR, Nowak RS, WuP, Gao YH, Zhao Yang, Huang L, Hu YG, Jia RL. 2013. Effect of sand-stabilizing shrubs on soil respiration in a temperate desert. Pant and Soil, 367: 449-463.
[74] Li XJ, Zheng JG, Li XR, Tan HJ, Pan YX, Wei YP. 2013. Responses of runoff, sedimentation, and induced nutrient loss to vegetation change in the Tengger Desert, northern China. Soil Research, 51: 124-132.
[75] Hui R, Li XR*, Chen CY, Zhao X, Jia RL, Liu LC, Wei YP. 2012. Responses of photosynthetic properties and chloroplast ultrastructure of Bryum argenteum from a desert biological soil crust to elevated ultraviolet-B radiation. Physiologia Plantarum 147: 489-501.
[76] Shi Y, Yan X, Zhao PS, Yin HX, Zhao X, Xiao HL, Li XR, Chen GX, Ma XF. 2013. Transcriptomic Analysis of a Tertiary Relict Plant, Extreme Xerophyte Reaumuria soongorica to Identify Genes Related to Drought Adaptation. POLS. DOI: 10.1371/journal.pone.**
[77] Chen YW, Li XR. 2012. Spatiotemporal Distribution of Nests and Influence of Ant (Formica cunicularia Lat.) Activity on Soil Property and Seed Bank after Revegetation in the Tengger Desert. Arid Land Research and Management, 26: 365-378.
[78] Zhang ZS, Dong XJ, Liu YB, Li XR, Jia RL, Hu YG, He MZ, Huang L. 2012. Soil oxidases recovered faster than hydrolases in a 50-year chronosequence of desert revegetation. Plant and Soil DOI 10.1007/s11104-012-1162-2.
[79] Su JQ, Li XR, LI XJ, Feng L. 2012. Effects of additional N on herbaceous species of desertified steppe in arid regions of China: a four-year field study. Ecological Research DOI 10.1007/s11284-012-0994-9
[80] Gao YH, Li XR*, Liu Lc, Jia RL, Yang HT, Li G, Wei YP. 2012. Seasonal variation of carbon exchange from a revegetation area in a Chinese desert, Agriculture, Forest Meteorology, 156: 134-142.
[81] Su YG, Li XR, Qi PC, Chen YW. 2012. Carbon exchange responses of cyanobacterial-algal crusts to dehydration, air temperature, and CO2 concentration, Arid Land Research and Management, 26: 44-58.
[82] Feng L, Li XR, Zhang JG, Li XJ, Su JQ. 2012. Vegetation Alteration in response to highway construction in the desertified steppe zone of the Tengger Desert, north China, Arid Land Research and Management, 26: 59-78.
[83] Liu YB, Li XR, Liu ML, Cao B, Tan HJ, Wang J, Li XJ. 2012. Responses of three different ecotypes of reed (phragmites communis Trin.) to their natural habitats: leaf surface micro-morphology, anatomy, chloroplast ultrastructure and physio-chemical characteristics, Plant Physiology and Biochemistry, 51: 159-167.
[84] Jia RL, Li XR, Liu LC, Gao YH, Zhang XT. 2012. Differential wind tolerance of soil crust mosses explains their micro-distribution in nature, Soil Biology & Biochemistry, 45: 31-39.
[85] Chen GX, Komatsuda T, Ma JF, Nawrath C, Pourkheirandish M, Tagiri A, Hu YG, Sameri M, Li XR, Zhao X, Liu YB, Li C, Ma XY, Wang AD, Nair S, Wang N, Miyao A, Sakuma S, Yamaji N, Zheng XT, Nevo E. 2011. An ATP-binding cassette subfamily G full transporter is essential for the retention of leaf water in both wild barley and rice, PNAS, 108: 12354-12359.
[86] Liu YM, Li XR*, Jia RL, Huang L, Zhou YY, Gao YH. 2011. Effects of biological soil crusts on soil nematode communities following dune stabilization in the Tengger Desert, northern China, Applied Soil Ecology, 49: 118-124.
[87] Su YG, Zhao X, Li AX, Li XR, Huang G. 2011. Nitrgen fixation in biological soil crusts from the Tengger desert, northern China, European Journal of Soil Biology, 47: 182-187.
[88] Su YG, Li XR, Cheng YW, Zhang ZS, Lu Y. 2011. Carbon fixation of cyanobacteria-algal crusts after desert fixation and its implication to soil organic carbon accumulation in desert, Land Degradation and Management.
[89] Shi YL, An LZ, Li XR, Huang CH, Chen GX. 2011. The octadecanoid signaling pathway participates in the chilling-induced transcription of u-3 fatty acid desaturases in Arabidopsis, Plant Physiology and Biochemistry, 49: 208-215
[90] Lu Y, Li XR, He MZ, Zhao X, Liu YB, Cui Y, Pan YX, Tan HJ. 2010. Seedlings growth and antioxidative enzymes activities in leaves under heavy metal stress differ between two desert plants:a perennial (Peganum harmala) and an annual (Halogeton glomeratus) grass, Acta Physiol. Plant , 32: 583-590.
[91] Liu YB. Li XR, Tan HJ, Liu ML, Zhao X. Wang J. 2010. Molecular characterization of RsMPK2, a C1 subgroup mitogen-activated protein kinase in the desert plant Reaumuria soongorica, Plant Physiology and Biochemistry, 48: 836-844.
[92] Huang L, Zhang ZS, Li XR. 2010. Sap flow of Artemisia ordosica and the influence of environmental factors in a revegetated desert area: Tengger Desert, China, Hydrological Processes 24: 1248-1253.
[93] Wang J, Li XR, Liu Y, Zhao X. 2010. Characterization of programmed cell death induced by salt stress in Thellungiella halophila suspension cell culture. Journal of Plant Physiology, 167: 1145-1151.
[94] Zhang ZS, Li XR, Liu LC, Jia RL, Zhang JG, Wang Tao. 2009. Distribution, biomass, and dynamics of roots in a revegetated stand of Caragana korshinskii in the Tengger Desert, northwestern China, Journal of Plant Research, 122:109–119.
[95] Su YG, Li XR, Zheng JG, Huang G. 2009. The effect of biological soil crusts of different successional stages and conditions on the germination of seeds of three desert plants, Journal of Arid Environments, 73: 931-936.
[96] Zhang PD, Yang YL, Shi J, Zheng YH, Wang LH, Li XR. 2009. Opportunities and challenges for renewable energy policy in China, Renewable and Sustainable Energy Reviews 13: 439–449.
[97] Ma QL, Wang JH, Li XR, Zhu SJ, Liu HJ, Zhan KJ, 2009. Long-term changes of Tamarix-vegetation in the oasis-desert ecotone and its driving factors: implication for dryland management, Environmental Earth Science.
[98] Zhao X, Tan HJ, Liu YB, Li XR, Chen GX. 2009. Effect of salt stress on growth and osmotic regulation in Thellungiella and Arabidopsis callus, Plant Cell Tissue and Organ Culture 98:97-103.
[99] Zhang ZS, Li XR, Wang T, Wang XP, 2008. Distribution and Seasonal Dynamics of Roots in a Revegetated Stand of Artemisia ordosica Kracsh. in the Tengger Desert (North China). Arid Land Research and Management, 22: 195-211.
[100] Zhang ZS, Liu LC, Li XR, Zhang JG, He MZ, Tan HJ. 2008. Evaporation properties of a revegetated area of the Tengger, Desert, North China, Journal of Arid Environments, 72: 967-973.
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[102] Wang XP, Young MH, Yu L, Li XR, Zhang ZS. 2008. Long-term effects of atches on the microscale heterogeneity of soil in a mountain grassland, China. Journal of Arid Environments, 72: 150-161.
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[113] Liu YB, Wang G, Liu J, Zhao X, Tan H, Li XR. 2007. Anatomical, morphological and metabolic acclimation in the resurrection plant Reaumuria soongorica during dehydration and rehydration. Journal of Arid Evironments. 70: 183–194.
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[116] Liu LC, Li SZ, Duan ZH, Wang T, Li XR. 2006. Effects of microbiotic crust on dew deposition in the restored vegetated areas at Shapotou, northern China, Journal of Hydrology, 238: 331-337.
[117] Wang XP, Li XR, Zhang JG, Zhang ZS, Berndtsson R. 2005. Measurement of rainfall interception by xerophytic shrubs in re-vegetated sand dunes, Hydrological Sciences, 50: 897-910.
[118] Zhang JG, Li XR, Wang XP, Wang G. 2004. Ecological adaptation strategies of Annual Plants in Artificial Vegetation-Stabilized Sand Dune in Shapotou Region. Science in China (Series D), 47(supp.I): 50-60.
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[122] Duan ZH, Xiao XH, Li XR, Dong ZB. 2004. Evolution of soil properties on stabilized sands in the Tengger Desert, China. Geomorphology, 59: 237-246.
[123] Duan ZH, Xiao HL, Dong ZB, Li XR, Wang G. 2004. Combined effect of nitrogen-phosphorus-Potassium fertilizer and water on spring wheat yield in an arid desert region. Communications in Soil Science and Plant Analysis, 35: 161-175.
[124] Wang XP, Kang ES, Zhang JG, Li XR, Berndtsson R. 2004. Evapotranspiration of A. ordosica vegetation in stabilized arid desert dune in Shapotou, China. Arid Land Research and Management, 18: 63-76.
[125] Wang XP, Brown-Mitic CM, Kang ES, Zhang JG, Li XR.2004. Evapotranspiration of Caragana korshinskii communities in a revegetated desert area: Tengger Desert, China. Hydrological Processes, 18: 3293-3303.
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[127] Xue SJ, An LZ, Feng HY, Wang XL, Li XR. 2002. The seasonal effects of water stress on Ammopiptanthus mongolicus in desert environment. Journal of Arid Environments, 51: 437-447.
[128] Li T, Xiao HL, Li XR. 2001. Modeling the effects of crust on rain infiltration in vegetated sand dunes in arid desert, Arid Land Research and Management, 15: 41-48.
[129] 李新荣, 张志山, 刘玉冰, 王新平, 刘立超, 陈国雄.长期生态学引领了中国沙区的生态重建与恢复. 中国科学院院刊, 2017. 32: 790-797.
[130] 李新荣, 周海燕,王新平,刘立超,张景光,陈国雄,张志山,刘玉冰,谭会娟,高艳红. 中国干旱沙区的生态重建与恢复: 沙坡头站60年重要研究进展综述. 中国沙漠, 2016. 36(2): 247-264.
[131] 张定海,李新荣,陈永乐. 腾格里沙漠人工固沙植被区固沙灌木影响深层土壤水分的动态模拟研究. 生态学报, 2016, 36(11): 3274-3279.
[132] 高艳红, 李新荣, 刘立超,贾荣亮,杨昊天,赵洋,陈永乐,李培广,李刚. 腾格里荒漠红砂-珍珠群落CO2收支变化及其不同观测方法间的比较,生态学报, 2015, 35(7):2085-2093.
苏洁琼,李新荣,鲍婧婷. 温性荒漠草原不同功能型草本植物对氮沉降的响应. 兰州大学学报(自然科学版), 2015. 51(5): 683-690.
[133] 李新荣, 张志山, 谭会娟, 高艳红, 刘立超, 王新平. 我国北方风沙危害区生态重建与恢复: 腾格里沙漠土壤水分与植被承载力的探讨. 中国科学: 生命科学, 2014. 44(3): 257-266.
[134] 李新荣, 赵洋, 回嵘, 高艳红, 苏洁琼. 中国干旱区恢复生态学研究进展、趋势评述. 地理科学进展, 2014. 33(11): 1-9.
[135] 苏洁琼, 李新荣, 鲍婧婷. 施氮对荒漠化草原土壤理化性质及酶活性的影响.应用生态学报, 2014. 25(3): 664-670.
[136] 刘艳梅, 杨航宇, 李新荣. 生物土壤结皮对干旱区土壤微生物生物量的影响.土壤学报, 2014. 51(2): 394-401.
[137] 回嵘, 李新荣, 赵锐明, 赵昕. UV-B 辐射对生物结皮层藓类植物生理生化指标的影响. 干旱区地理, 2014. 37(6): 1-9.
[138] 赵昕, 杨小菊, 石摇勇, 何明珠, 谭会娟, 李新荣. 盐胁迫下荒漠共生植物红砂与珍珠的根茎叶中离子吸收与分配特征. 生态学报, 2014. 34: 963-972.
[139] 赵昕, 石勇, 张继伟, 李新荣. 盐胁迫下珍珠猪毛菜根茎叶矿质离子吸收与分配的响应. 干旱区研究, 2014. 36(6): 1086-1092.
[140]高艳红, 李新荣, 刘立超, 贾荣亮, 杨昊天. 腾格里荒漠红砂-珍珠群落CO2收支变化及其不同观测方法间的比较. 生态学报, 2014. DOI:10.5846/stxb6.
[141] .杨昊天, 李新荣, 刘立超, 贾荣亮, 王增如, 李小军, 李刚. 腾格里沙漠东南缘四种灌木的生物量预测模型. 中国沙漠, 2013. 33(6): 1699-1704.
[142] 回嵘, 李新荣, 陈翠云, 赵锐明, 赵昕, 李培广. UV-B 辐射增强对土生对齿藓 (Didymodon vinealis)结皮生理代谢及光系统相关蛋白表达的影响. 生态学杂志, 2013. 32(3): 583-590.
[143] 杨昊天, 李新荣, 王增如, 贾荣亮, 刘立超, 高艳红, 李刚. 荒漠草地4 种灌木生物量分配特征. 中国沙漠, 2013. 33(5): 1340-1348.
[144] 谭会娟, 李新荣, 刘玉冰, 赵昕. 盐胁迫下红砂愈伤组织抗氧化能力与耐盐性研究. 中国沙漠, 2013. 33: 549-553.
[145] 杨小菊, 赵昕, 殷恒霞, 赵鹏善, 李新荣. 盐胁迫对二穗短柄草幼苗生长及不同器官中盐离子稳态的影响. 西北植物学报, 2013. 33(2): 371-377.
[146] 杨小菊, 赵昕, 石勇, 李新荣. 盐胁迫对砂蓝刺头不同器官中离子分布的影响. 草业学报, 2013. 22(4): 116-122.
[147] 苏洁琼, 李新荣, 杨昊天, 张珂, 杨小菊. 施肥对荒漠化草原草本植物种群密度和生物量的影响. 中国沙漠, 2013. 33: 696-702.
[148] 李新荣, 张志山, 黄磊, 王新平. 我国沙区人工植被系统生态-水文过程和互馈机理研究评述. 科学通报, 2013. 58: 397-410.
[149] 刘艳梅, 李新荣, 赵昕, 张鹏, 回嵘. 生物土壤结皮对荒漠土壤线虫群落的影响. 生态学报, 2013. 33(9): 2816-2824.
[150] 张鹏, 李新荣, 何明珠, 李小军, 高艳红. 冬季低温及模拟升温对生物土壤结皮固氮活性的影响.生态学杂志,2012.31(7):1653-1658.
[151] 张鹏, 李新荣, 张志山, 潘艳霞, 刘艳梅, 苏洁琼. 腾格里沙漠东南缘生物土壤结皮的固氮潜力.应用生态学报, 2012.23(8): 2157-2164.
[152] 贾晓红, 李新荣, 周玉燕, 李元寿. 干旱沙区人工固沙植被演变过程中土壤有机碳氮储量及其分布特征. 环境科学,2012.33(3):938-945.
[153] 回嵘, 李新荣, 贾荣亮, 赵昕, 刘立超. 隐花植物对UV-B 辐射响应和适应机制的研究进展. 干旱区地理,2012.35(4):623-630.
[154] 回嵘, 李新荣, 贾荣亮, 赵昕, 刘艳梅, 陈翠云. 增强UV-B 辐射对真藓结皮生理特性的影响.生态学杂志,2012.31(1):38-43.
[155] 刘艳梅, 李新荣, 何明珠, 贾荣亮, 李小军, 张志山. 生物土壤结皮对土壤微生物量碳的影响. 中国沙漠,2012.32(3): 669-674.
[156] 石勇, 杨小菊, 赵昕, 李新荣.逐渐干旱胁迫下生物土壤结皮中土生对齿藓和真藓信号转导物质的响应. 生态学杂志,2012.31(5):1136-1142.
[157] 石勇, 赵昕, 贾荣亮, 李新荣.逐渐干旱胁迫下生物土壤结皮中真藓和土生对齿藓的活性氧清除机制. 中国沙漠,2012. 32(3):683-688.
[158] 陈翠云, 赵昕, 李新荣.干旱胁迫下牛心朴子的渗透调节机制研究. 中国沙漠,2012. 32(5):1275-1282.
[159] 陈翠云, 李新荣, 赵昕. 脱水过程中两种结皮藓类植物的光合特性. 生态学杂志, 2012.31(12):3064-3069.
[160] 苏洁琼, 李新荣, 冯丽, 回嵘, 黄磊. 草原化荒漠草本植物对人工施加磷素的响应. 生态学报,2012. 32(1):0093-0100.
[161] 苏洁琼, 李新荣, 回嵘, 赵洋, 刘艳梅. 氮沉降对荒漠化草原草本植物物种多样性和群落组成的影响. 西北植物学报,2012.32(4):795-801.
[162] 苏延桂, 李新荣, 贾晓红, 李爱霞, 陈应武. 温带荒漠区藻结皮固氮活性沿时间序列的变化. 中国沙漠,2012. 32(2): 421-428.
[163] 鲁艳, 李新荣, 何明珠, 冯丽, 曾凡江. 镍、铜对矿业废弃地先锋植物盐生草和骆驼蓬抗氧化物质和渗透调节物质积累的影响. 中国沙漠,2012. 32(6):1681-1691.
[164] 鲁艳, 李新荣, 何明珠, 冯丽, 黄磊, 曾凡江. Ni 和Cu 胁迫对骆驼蓬抗氧化酶活性的影响. 草业学报,2012.21(3):147-155.
[165] 刘玉冰, 李新荣, 谭会娟, 李小军.荒漠地区两种生态型芦苇叶片的抗氧化生理特性分析. 中国沙漠,2011. 31(2):277-282.
[166] 刘玉冰, 李新荣, 周生荟, 谭会娟, 李小军. 3种不同生境芦苇叶表皮微形态和叶绿体结构特征分析.中国沙漠,2011.31(4):873-877.
[167] 王新平, 李新荣, 潘颜霞, 王正宁, 全桂静, MeleG,TedeschiA. 我国温带荒漠生物土壤结皮孔隙结构分布特征.中国沙漠,2011.31(1):58-62.
[168] 刘立超, 杨昊天, 李新荣, 高艳红, 贾荣亮.土壤斥水性及其生态水文效应研究进展. 地球科学进展,2011.26(9):926-932.
[169] 贾晓红, 李新荣, 李元寿, 周玉燕.腾格里沙漠东南缘白刺种群性状对沙埋的响应. 生态学杂志,2011.30(9):1851-1857.
[170] 谭会娟, 李新荣, 赵昕, 刘玉冰.红砂愈伤组织适应盐胁迫的渗透调节机制研究. 中国沙漠,2011.31(5):1119-1123.
[171] 王进, 李新荣. 盐胁迫对盐芥悬浮培养细胞超微结构的影响. 中国沙漠, 2011. 31(4): 878-883.
[172] 冯丽, 李新荣, 郭群, 张景光, 张志山. 腾格里沙漠东南缘公路对路域植被物种组成的影响. 应用生态学报,2011.22(5):1114-1120.
[173] 张鹏, 李新荣, 贾荣亮, 胡宜刚, 黄磊.沙坡头地区生物土壤结皮的固氮活性及其对水热因子的响应.植物生态学报,2011.35(9):906-913.
[174] 张鹏, 李新荣, 胡宜刚, 黄磊, 冯丽, 赵洋. 湿润持续时间对生物土壤结皮固氮活性的影响.生态学报,2011.31(20):6116-6124.
[175] 贺郝钰, 苏洁琼, 黄磊, 贾荣亮, 李新荣.火因子对荒漠化草原草本层片植物群落组成的影响.生态学报,2011.31(2):0364-0370.
[176] 鲁艳, 李新荣, 何明珠, 苏延桂, 曾凡江.不同浓度Ni、Cu 处理对骆驼蓬光合作用和叶绿素荧光特性的影响.应用生态学报,2011.22(4):936-942.
[177] 鲁艳, 李新荣, 何明珠, 苏延桂, 曾凡江. 重金属对盐生草光合生理生长特性的影响.西北植物学报,2011.31(2):0370-0376.
[178] 马全林, 李新荣, 刘有军, 张德魁, 何明珠. 土壤质地与埋深对白刺群落主要伴生植物出苗的影响研究.中国沙漠,2011.31(6):1423-1429.
[179] 苏延桂, 李新荣, 赵昕,李爱霞,陈应武. 不同类型生物土壤结皮固氮活性及对环境因子的响应研究.地球科学进展,2011.26(3):0332-0338.
[180] 苏延桂, 李新荣, 张志山, 陈应武,鲁艳.干旱人工植被区藻结皮光合固碳的时间效应研究.土壤学报,2011.48(3):570-577.
[181] 苏延桂, 李新荣, 赵昕, 王正宁. 紫外辐射增强对不同发育阶段荒漠藻结皮光合作用的影响.中国沙漠,2011.31(4):889-893.
[182] 贾荣亮, 李新荣, 谭会娟. 沙埋干扰去除后生物土壤结皮光和生理恢复机制.中国沙漠, 2010.30(6):1299-1304.
[183] 谭会娟, 贾荣亮, 刘玉冰, 赵昕, 李新荣. NaCI胁迫下红砂愈伤组织中主要离子累积特征的研究. 中国沙漠, 2010.30(6): 1305-1310.
[184] 苏洁琼, 李新荣, 李小军. 草原化荒漠植被草本层片植物对人工施加氮素的响应. 中国沙漠, 2010.30(6):1336-1341.
[185] 苏洁琼, 李新荣, 贺郝钰. 沙坡头地区草本植物层片对施加氮素的响应. 生态学杂志, 2010.29(2):309-313.
[186] 贺郝钰, 李新荣, 李小军. 荒漠植被草本层片植物对火因子的响应. 中国沙漠,2010.30(4):0885-0891.
[187] 苏延桂, 李新荣.温度和CO2浓度升高对荒漠藻结皮光合作用的影响. 应用生态学报, 2010.21 (9):2217-2222.
[188] 苏延桂, 李新荣. 不同演替序列的藻结皮净光和速率日变化特征. 兰州大学学报(自然科学版), 2010. S1: 1-5.
[189] 李新荣, 谭会娟, 何明珠, 王新平, 李小军. 阿拉善高原灌木种的丰富度和多度格局对环境因子变化的响应:极端干旱荒漠地区灌木多样性保育的前提.中国科学D辑:地球科学,2009. 39(4):504-515.
[190] 李新荣, 张志山, 王新平, 刘立超, 黄磊. 干旱区土壤植被系统恢复的生态水文学研究进展.中国沙漠, 2009. 29(5):845-852.
[191] 李新荣, 张元明, 赵允格. 生物土壤结皮研究:进展、前沿与展望. 地球科学进展,2009.24 (1): 11-25.
[192] 鲁艳, 何明珠, 赵昕, 刘玉冰, 谭会娟, 李新荣. 镍对高冰草幼苗生长及活性氧代谢的影响. 生态学杂志, 2009.28(11):2208-2212.
[193] 冯丽, 张景光, 张志山, 郭群, 李新荣. 腾格里沙漠人工固沙植被中油蒿的生长及生物量分配动态. 植物生态学报,2009.33(6):1132-1139.
[194] 郑敬刚, 张本昀, 何明珠, 保平, 张宝华, 李新荣.灌丛化对贺兰山西坡草场土壤异质性的影响.干旱区研究, 2009.29(1):26-32.
[195] 郑敬刚, 吴国玺, 何明珠, 李新荣.阿拉善荒漠区植物多样性与土壤理化性质相关性研究. 干旱区资源与环境,2009. 23(3):151-156.
[196] 冷疏影, 李新荣, 李彦, 许皓, 康慕谊, 江源, 殷秀琴, 陶岩, 辛未冬. 我国生物地理学研究进展. 地理学报. 2009. 64(9):1039-1047.
[197] 李新荣, 陈应武,贾荣亮. 生物土壤结皮:荒漠昆虫食物链的重要构建者,中国沙漠, 2008, 28(2): 245-248.
[198] 李新荣. 干旱沙区土壤空间异质性变化对植被恢复的影响, 中国科学D辑, 2005, 35: 361-370.
[199] 李新荣, 贾晓红. 腾格里沙漠东南缘荒漠植被格局与土壤资源关系的研究,草地学报, 2005 13(supp.): 37-43.
[200] 李新荣, 肖洪浪,腾格里沙漠沙坡头地区固沙植被对生物多样性长期恢复的影响, 中国沙漠, 2005, 25: 173-181.
[201] 陈应武, 李新荣,苏延桂等. 2007,腾格里沙漠人工植被区掘穴蚁(Formica cunicularia)的生态功能.生态学报. 27(4):1508-1514.
[202] 贾晓红, 李新荣, 陈应武. 2007.腾格里沙漠东南缘白刺灌丛地土壤性状的特征.干旱区地理.30 (4):25-33.
[203] 贾晓红, 李新荣等. 2007,干旱沙区植被恢复中土壤颗粒分形特征.地理研究26(3):518-525.
[204] 贾晓红, 李新荣等.2007,干旱沙区植被恢复中土壤碳氮变化规律研究.植物生态学报.31 (1):66-74.
[205] 李小军, 谭会娟, 张志山, 李新荣. 2007,油蒿不同步费水分关系研究.中国沙漠,27(3):448-453.
[206] 苏延桂, 李新荣, 陈应武, 谭会娟, 贾荣亮.2007,生物土壤结皮对荒漠土壤种子库和种子萌发的影响.生态学报, 27(3):938-946.
[207] 苏延桂, 李新荣, 黄刚等.2007,实验室条件下两种生物土壤结皮对荒漠植物种子萌发的影响. 生态学报,27 (5): 1845-1851.
[208] 苏延桂, 李新荣, 贾荣亮, 潘颜霞.2007.腾格里沙漠东南缘苔藓结皮对荒漠土壤种子库的影响.应用生态学报, 18(3 ):504-508.
[209] 刘玉冰, 张腾国, 李新荣. 红砂(Reaumuria soongorica)忍耐极度干旱的保护机制: 叶片脱落和茎中蔗糖累积. 中国科学C 辑生命科学 2006,36(4): 328-333. EI
[210] 王新平, 肖洪浪, 张景光. 李新荣. 荒漠地区生物土壤结皮的水文物理特征分析. 水科学进展, 2006, 17(5): 592-598. EI
[211] 张志山, 李新荣, 张景光. 用Minirhizotrons 观测柠条(Caragana korshinskii Kom)根系生长动态. 植物生态学报, 2006, 30(3): 457-464.
[212] 张志山, 李新荣, 王新平. 沙漠人工植被蒸渗池测定及蒸腾量推算. 草业学报, 2006, 15(6): 32-37.
[213] 贾晓红, 李新荣, 陈英武. 植被恢复对旱区表土颗粒中有机碳和氮分布的影响. 中国环境科学, 2006,26(5): 560-564.
[214] 贾晓红, 李新荣, 张景光. 沙冬青灌丛地的土壤颗粒大小分形维数空间变异性分析. 生态学报, 2006, 26(9): 2827-2833.
[215] 贾晓红, 李新荣, 张志山. 沙冬青群落区土壤有机炭、氮含量的空间异质性分析. 应用生态学报, 2006,17(12): 2266-2270.
[216] 苏延桂, 李新荣, 张景光. 生物土壤结皮对土壤种子库的影响. 中国沙漠,2006, 26(6): 997-1001.
[217] 何明珠, 李新荣, 张景光. 土壤生物结皮蒸散特征研究. 中国沙漠, 2006,26(2): 159-164.
[218] 陈应武, 李新荣, 张景光. 昆虫寄生对柠条种子命运的影响. 中国沙漠, 2006,26(6): 1015-1019.
[219] 肖洪浪, 李新荣. 沙坡头站雨养人工生物防护体系水平衡研究五十年, 中国沙漠, 2005, 25(2):166-172.
[220] 贾晓红, 李新荣, 肖洪浪. 沙坡头地区农田灌溉和施肥对氮淋溶量影响的研究,中国沙漠, 2005,25(2):223-227. 2005, 25(8): 1974-1980.
[221] 马骥, 李新荣, 李俊祯, 张景光. 西北荒漠区6 种珍稀濒危植物的种子微形态特征, 中国沙漠, 2005, 25(2): 275-280.
[222] 贾晓红, 李新荣, 肖洪浪, 张景光, 李珂. 干旱沙区春小麦灌溉量研究, 干旱地区农业研究, 2005, 23(4): 158-164.
[223] 马风云, 李新荣, 张景光, 李爱霞. 沙坡头固沙植被若干土壤物理因子的空间异质性研究, 中国沙漠, 2005, 25(2): 207-215.
[224] 张志山, 李新荣, 王新平. 沙漠人工植被区的蒸发蒸腾, 生态学报, 2005, 25(10): 2484-2490.
[225] 贾晓红, 李新荣. 黄灌沙区农田耕层土壤性状空间异质性分析, 水土保持学报, 2005, 19 (5): 101-104.
[226] 周海燕, 张景光, 李新荣, 王新平, 赵亮, 龙利群. 生态脆弱带不同区域近缘优势灌木的生理生态学特性, 生态学报, 2005, 25 (1): 168-175.
[227] 周海燕, 李新荣, 樊恒文, 王新平, 谭会娟, 李爱霞. 极端条件下几种锦鸡儿属灌木的生理特性. 中国沙漠, 2005, 25 (2): 182-190.
[228] 张景光, 王新平, 李新荣, 张志山, 王刚等. 荒漠植物生活史对策研究进展与展望. 中国沙漠, 2005, 25(3): 306-314.
[229] 张景光, 张志山, 王新平, 李新荣, 王桑, 马风云. 沙坡头人工固沙区一年生植物小画眉草繁殖分配研究, 中国沙漠, 2005, 25(2): 202-206.
[230] 张志山, 王新平, 李新荣, 张景光. 沙漠人工植被区土壤蒸发测定, 中国沙漠,2005, 25(2): 243-248.
[231] 赵良菊, 肖洪浪, 李新荣, 罗芳, 李守中. 灌水量对土壤水肥分布与春小麦水分利用效率的影响, 中国沙漠, 2005, 25(2): 256-261.
[232] 谭会娟, 周海燕, 李新荣, 张志山. 珍稀濒危植物半日花光合作用日动态变化的初步研究, 中国沙漠, 2005, 25 (2): 262-267.
[233] 王新平, 张志山, 张景光, 李新荣, 潘颜霞, 康尔泗. 荒漠植被影响土壤水文过程研究述评. 中国沙漠, 2005,25 (2):196-201.
[234] 贾晓红, 周海燕, 李新荣. 无灌溉人工固沙区土壤有机碳及氮含量变异的初步结论, 中国沙漠, 2004,24(4): 437-441.
[235] 王新平, 康尔泗, 张景光, 李新荣. 草原化荒漠带人工固沙植丛区土壤水分动态. 水科学进展, 2004, 15(2): 216-222. EI
[236] 张景光, 李新荣, 王新平, 王刚. 沙坡头人工植被区一年生植物的生态适应对策. 中国科学, 2004, 33(增): 48-56. EI
[237] 肖洪浪, 程国栋, 李新荣, 宋耀选, 王新平. 腾格里沙漠东南缘人工生态系统40a 生土水文变化初研. 中国科学, 2004, 33 (增): 66-72. EI
[238] 肖洪浪, 李新荣, 宋耀选, 李守忠. 土壤-植被系统演变对生物防沙工程的影响, 林业科学, 2004, 40 (1): 24-30.
[239] 张景光, 杨根生, 王新平, 李新荣. 拟建大柳树灌区对生态环境的影响研究.中国沙漠, 2004, 24 (2): 227-234.
[240] 王新平, 康尔泗, 张景光, 李新荣. 荒漠地区主要固沙灌木的降水截留特征.冰川冻土, 2004, 26 (1): 89-94.
[241] 陈应武, 窦彩虹, 张新虎, 李新荣. 梨瘿螨的为害对梨叶片几种生理生化指标的影响.兰州大学学报(自然科学版), 2004, 40 (1): 68-71.
[242] 张志山, 魏兴琥, 李新荣, 王新平, 谢忠奎. 黄土高原西北部集雨水利用的投资与效益分析. 水科学进展, 2003, 15 (6): 813-818. EI
[243] 白学良, 王瑶, 徐杰, 李新荣, 张景光. 沙坡头地区固定沙丘结皮层藓类植物的繁殖和生长特.中国沙漠, 2003, 23 (2): 171-173.
[244] 龙利群, 李新荣. 土壤微生物结皮对两种一年生植物幼苗存活和生长的影响.中国沙漠, 2003, 23 (6): 656-660.
[245] 肖洪浪, 李新荣, 段争虎, 李涛, 李守中. 流沙固定过程中土壤-植被系统演变. 中国沙漠, 2003, 23 (6): 605-611.
[246] 刘立超, 安兴琴, 李新荣, 杨保, 王涛. 宁夏盐地沙尘暴特征分析. 中国沙漠,2003, 23 (1): 33-37.
[247] 靳鹤龄, 李新荣, 龚家栋. 藏东“三江”流域土地沙漠化成因及防治对策.中国沙漠, 2003, 23 (1): 28-32.
[248] 王新乎, 李新荣, 康尔泗, 张景光, 周海燕, 杨诗秀, 雷志栋. 腾格里沙漠东南缘人工植被区降水入渗与再分配规律研究. 生态学报, 2003, 23 (6):1234-1241.
[249] 张志山, 李新荣, 蔺海明, 谢忠奎, 魏兴琥. 集雨微灌对春小麦产量灌浆和水分利用效率的影响. 兰州大学学报(自然科学版), 2003, 39(6):85-89.
[250] 贾晓红, 李新荣, 王新平, 樊恒文, 赵金龙. 流沙固定过程中土壤性质变异初步研究. 水土保持学报, 2003, 17(4): 46-50.
[251] 肖洪浪, 李新荣, 段争虎, 李涛, 李守忠. 流沙固定过程中土壤-植被系统演变对水环境的影响. 土壤学报, 2003, 40(6): 809-814.
[252] 刘立超, 王桂芳, 马风云, 李新荣, 王涛, 张文喅. 沙漠化逆转过程中地表热量平衡的试验观测研究. 兰州大学学报(自然科学版), 2003,38(增):18-22.
[253] 马风云, 王桂芳, 刘立超, 李新荣, 石莎. 沙坡头人工植被区拧条种子萌发与幼苗生长特征. 兰州大学学报(自然科学版), 2003,38(增):33-38.
[254] 王新平, 康尔泗, 李新荣, 张景光. 荒漠地区土壤初始状况对水平入渗的影响. 地球科学进展, 2003, 18 (4): 592-596.
[255] 刘树华, 张景光, 刘昌明, 李新荣, 文平辉, 刘立超, 王会肖. 荒漠下垫面陆面过程和大气边界层相互作用敏感性实验. 中国沙漠,2002,22(6):636-644.
[256] 张景光, 李新荣, 王新平, 李金贵, 赵亮, 王刚. 人工固沙区-年生植物小画眉草种群异速生长动态研究. 中国沙漠,2002,22(6):607-611.
[257] 龙利群, 李新荣. 微生物结皮对两种-年生植物种子萌发和出苗的影响. 中国沙漠,2002,22(6):581-585.
[258] 马凤云, 李新荣, 龙利群, 张景光. 沙坡头地区人工植被油蒿种群结构与更新的研究. 中国沙漠,2002,22(6):571-575.
[259] 樊恒文, 肖洪浪, 段争虎, 李新荣, 李涛, 李金贵. 中国沙漠地区降尘特征与影响因素分析. 中国沙漠,2002,22(6):559-565.
[260] 杜岳, 姚德良, 李新荣, 谢正桐, 张景光. 考虑生物结皮影响的陆气湍流模式研究. 中国沙漠,2002,22(6):545-552.
[261] 张迎梅, 包新康, 虞闰六, 李新荣. 宁夏沙坡头荒漠生态环境鸟类季节性消长研究中国沙漠,2002,22(6):541-544.
[262] 王新平, 李新荣, 张景光. 沙坡头人工植被固沙区天然降水的入渗和分配研究. 中国沙漠,2002,22(6):534-540.
[263] 樊恒文, 贾晓红, 张景光, 马凤云, 李新荣. 干旱区土地退化与荒漠化对土壤碳循环的影响. 中国沙漠,2002,22(6):525-533.
[264] 王新平, 李新荣, 康尔泗, 李金贵, 张景光, 刘立超. 沙坡头地区固沙植物油蒿、柠条蒸散状况的研究. 中国沙漠,2002,22(4):363-367.
[265] 张景光, 周海燕, 王新平, 李新荣, 王刚. 沙坡头地区一年生植物的生理生态特性研究. 中国沙漠,22(4):350-353.
[266] 王新平, 李新荣, 张景光, 周海燕, Berndtsson R. 沙漠地区人工固沙植被对土壤温度与土壤导温率的影响. 中国沙漠,2002,22(4):344-349.
[267] 姚德良, 李家春, 杜岳, 李新荣, 张景光. 沙坡头人工植被区陆气耦合模式及生物结皮与植被演变的机理研究. 生态学报,2002,22(4):452-460.
[268] 王新平, 李新荣, 康尔泗, 布斯坦 A, 帕思特纳克 D. 干旱沙区滴灌条件下水盐运移过程试验研究. 干旱地区农业研究,2002,20(3):44-48.
[269] 虞闰六, 包新康, 张迎梅, 李新荣. 宁夏沙坡头地区环境结构变化与鸟类生物多样性. 兰州大学学报(自然科学版) ,2002,38(6):78-83.
[270] 刘立超, 李新荣, 冯金朝, 刘树华. 一种适合干旱地区的陆面过程模式-LSPM 的介绍. 中国沙漠,2001,21(3):317-320.
[271] 刘树华, 李新荣, 刘立超, 张景光. 陆面过程参数化模式的研究. 中国沙漠,2001,21(3):303-311.
[272] 姚德良, 朱进生, 谢正桐, 李新荣, 张景光, 刘立超. 土壤水盐运动模式研究及其在干旱区农田的应用. 中国沙漠,2001,21(3):286-290.
[273] 王新平, 张景光, 李新荣, 李金贵. 沙坡头地区多年降水分布特征、趋势及其变率. 中国沙漠,2001,20(3):260-264.
[274] 姚德良, 李家春, 李新荣, 张景光, 刘立超. 干旱区陆面过程野外观测研究.中国沙漠,2001,21(3):254-259.
[275] 张景光, 李新荣, 王新平, 王刚, 李金贵, 王宗灵. 沙坡头地区固定沙丘一年生植物小画眉草种群动态研究. 中国沙漠,2001,21(3):232-235.
[276] 陶玲, 任珺, 李新荣, 刘新民. 中国珍稀濒危荒漠植物保护等级的定量研究.林业科学,2001,37(1):52-60.
[277] 李新荣, 马凤云, 龙立群, 贾晓红. 沙坡头地区固沙植被土壤水分动态研究.中国沙漠, 2001, 21(3):217-222.
[278] 李新荣, 贾玉奎, 龙利群, 王新平, 张景光. 干旱半干旱地区土壤微生物结皮的生态学意义及若干研究进展. 中国沙漠, 2001, 21: 4-11.
[279] 李新荣. 试论鄂尔多斯高原灌木多样性的若干特点. 资源科学, 2000. 22(3):54-59.
[280] 李新荣, 张景光, 刘立超等.我国干旱沙漠地区人工植被与环境演变过程中植物多样性的研究. 植物生态学报, 2000. (03): 257-261.
[281] 李自珍, 李新荣. 生态位的数学模型及进展. 兰州大学学报(自然科学版).2000.supp (36): 93-97.
[282] 李新荣, 赵雨兴, 杨志忠等.毛乌素沙地飞播植被与生境演变的研究. 植物生态学报. 1999. 23(2): 116-124.
[283] 李新荣.俄罗斯平原针-阔林过渡带森林群落组成结构与物种多样性的研究.生物多样性, 1999. 7(4): 291-296.
[284] 李新荣.俄罗斯平原针阔混交林群落的灌木层植物种间相关研究. 生态学报,1999. 19(1): 55-60.
[285] 李新荣, 张景光, 李玉俊等.我国北方荒漠化地区主要灌木种的物候学研究.自然资源学报, 1999. 14(2): 128-134.
[286] 李新荣, 张新时.鄂尔多斯高原荒漠化草原与草原化荒漠灌木类群生物多样性的研究. 应用生态学报, 1999. 10(6): 665-669.
[287] 李新荣. 1998. 我国珍稀荒漠灌木半日花的适宜气候生态引种区的研究. 生态学杂志 17(2): 16-19.
[288] 李新荣, 陈仲新, 陈旭东. 1998. 鄂尔多斯高原西部几种荒漠灌丛群落种间联结关系的研究. 植物学通报 15(1): 56-62.
[289] 李新荣, 刘新民, 杨正宇. 1998. 鄂尔多斯高原荒漠化草原与草原化荒漠灌木类群与环境关系的研究. 中国沙漠 18(2): 123-130.
[290] 李新荣, 石庆辉, 张景光等. 1998. 沙坡头地区人工植被演变过程中生物多样性变化的研究. 中国沙漠 18(Supp.4): 23-29.
[291] 张景光, 李新荣, 刘新民.沙坡头地区固定沙丘油蒿生长动态研究. 中国沙漠,1998. 18(Suup.4): 74-77.
[292] 李新荣.毛乌素沙地灌木资源区系特征及其保护对策. 自然资源学报, 1997.12(2): 146-151.
[293] 李新荣, 董学军, 周海鹰. 鄂尔多斯高原不同地带灌木生态适应对策的初步研究. 中国沙漠,1997. 17(Supp.3): 42-48.
出版专著:
[1] 李新荣,张志山,刘玉冰,李小军,杨昊天著, 《中国沙区生态恢复与重建的生态水文学基础》, 2016, 北京: 科学出版社
[2] 李新荣,回嵘,赵洋著, 《中国沙区生物土壤结皮生态生理学研究》, 2016, 北京: 高等教育出版社
[3] 李新荣著,《荒漠生物土壤结皮生态水文学研究》,2012,北京: 高等教育出版社
[4] 李新荣,李小军,刘光秀编著,《中国寒旱区荒漠植物图鉴》,2011,北京:科学出版社
[5] 李新荣,金炯编著,《中国沙漠治理与研究50年》,2005,北京:海洋出版社
[6] 卢 琦,李新荣,肖洪浪编著,《荒漠生态系统观测方法》,2004,北京:中国环境科学出版社
出版专利:
[1] 李新荣,赵洋,张志山,贾荣亮. 一种区分生物土壤结皮及其下层土壤呼吸的方法.发明专利(ZL.6)
[2] 李新荣,张志山. 一种干旱沙区固沙植物栽植方法.发明专利(ZL3.X)
[3] 王增如,李新荣,杨昊天,高艳红. 野外全自动增减雨装置. 发明专利(ZL6.9)






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