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个人简介李隆,男,博士,中国农业大学二级教授,博士生导师。一直从事间套作体系资源高效利用及长期效应研究工作。曾主持完成国家自然科学基金面上项目5项和重点项目1项,主持完成国家973计划、科技支撑计划、重点研发计划等国家级项目的课题多项,以及中德和欧盟等国际合作项目。现主持国家自然科学基金重点项目1项,国家重点研发专项项目1项。曾兼任联合国粮农组织农业生态顾问(2017),国际学术刊物Journal of Plant Physiology编委(2011-2015),Frontiers in Agricultural Science and Engineering (FASE) 副主编(2018 - 2021)和中国生态学学会农业生态专业委员会秘书长(2015-2022)。现兼任Plant and Soil,Ecosphere和Farming Systems等国际刊物的编委。在包括《美国科学院院刊》(PNAS),Nature Sustainability, Trends in Ecology and Evolution, Trends in Plant Science, New Phytologist, Field Crops Research, Plant and Soil,中国生态农业学报,土壤学报,植物营养与肥料学报等国内外学术刊物发表论文150多篇。出版专著《间套作体系豆科作物固氮生态学原理与应用》。爱思唯尔2020年、2021年和2022年中国高被引学者。先后获得国家科技进步奖1项和省部级奖励6项。主讲本科生必修课“生物多样性科学导论”和究生选修课“生物多样性与应用” ORCID iD:https://orcid.org/0000-0003-0523-3308
发表的主要论文(标*为通讯作者): 1. Zhang WP, Fornara D, Yang H, Yu RP, Callaway R, Li L* (2023)Plant litter strengthens positive biodiversity–ecosystem functioning relationships over time. Trends in Ecology & Evolution doi: 10.1016/j.tree.2022.12.008. 2. Yu R-P, Su Y, Lambers H, van Ruijven J, An R, Yang H, Yin X-T, Xing Y, Zhang W-P and Li, L* (2023), A novel proxy to examine interspecific phosphorus facilitation between plant species. New Phytologist, 239: 1637-1650. https://doi.org/10.1111/nph.19082 3. Wu JP, Bao XG, Zhang JD, Lu BL, Callaway RM, Fornara DA, Li L* (2023) Temporal and spatial effects of crop diversity on soil carbon and nitrogen storage and vertical distribution. Soil and Tillage Research 235 Doi: 10.1016/j.still.2023.105913 4. Su Y, Yu RP, Xu HS, Sun JH, Zhao JH, Zhang WP, Yang H, Surigaoge S, Callaway RM, Li L.* (2023) Crop cultivar mixtures stabilize productivity, partly via facilitation, when conditions are less benign. Field Crops Research 302 Doi: 10.1016/J.Fcr.2023.109046 5. Yang H, Zhang WP, Yu RP, Su Y, Surigaoge S, Wang PX, Yang X, Lambers H, Li, L.* (2023) Trade-offs and synergies of plant traits co-drive efficient nitrogen use in intercropping systems. Field Crops Research 302 Doi: 10.1016/J.Fcr.2023.109093 6. Zhang, G. Z., Yang, H., Zhang, W. P.,Bezemer, T. M.,Liang, W. J., Li, Q., Li, L.* (2023) Interspecific interactions between crops influence soil functional groups and networks in a maize/soybean intercropping system. Agriculture Ecosystems & Environment 355. Doi: 10.1016/j.agee.2023.108595 7. An R, Yu RP, Xing Y, Zhang JD, Bao XG, Lambers H, Li L.* (2023) Enhanced phosphorus-fertilizer-use efficiency and sustainable phosphorus management with intercropping. Agronomy for Sustainable Development 43 (5) Doi: 10.1007/S13593-023-00916-6 8. Xing Y, Yu RP, An R, Yang N, Wu JP, Ma HY, Zhang JD, Bao XG, Lambers H, Li L.* (2023) Two pathways drive enhanced nitrogen acquisition via a complementarity effect in long-term intercropping. Field Crops Research 293 Doi: 10.1016/j.fcr.2023.108854 9. Zhang WP, Li ZX, Gao SN, Yang H, Xu HS, Yang X, Fan HX, Su Y, Surigaoge S, Weiner J, Fornara D, Li L* (2023) Resistance vs. surrender: Different responses of functional traits of soybean and peanut to intercropping with maize. Field Crops Research doi: 10.1016/j.fcr.2022.108779 10. Zhao JH, Bedoussac L, Sun JH, Chen W, Li WQ, Bao XG, van der Werf W, Li L* (2023) Competition-recovery and overyielding of maize in intercropping depend on species temporal complementarity and nitrogen supply. Field Crops Researchdoi: 10.1016/j.fcr.2023.108820 11. Yang H, Xu HS, Zhang WP, Li ZX, Fan HX, Lambers H, Li L* (2022) Overyielding is accounted for partly by plasticity and dissimilarity of crop root traits in maize/legume intercropping systems. Functional Ecology doi: 10.1111/1365-2435.14115 12. Wu JP, Bao XG, Zhang JD, Lu BL, Zhang WP, Callaway RM, Li L* (2022)Temporal stability of productivity is associated with complementarity and competitive intensities in intercropping. Ecological Applications doi: 10.1002/eap.2731 13. Yu RP, Yang H, Xing Y, Lambers H, Li L* (2022) Belowground processes and sustainability in agroecosystems with intercropping. Plant and Soil doi: 10.1007/s11104-022-05487-1 14. Li XF, Wang ZG, Bao XG, Sun JH, Yang SC, Wang P, Wang CB, Wu JP, Liu XR, Tian XL, Wang Y, Li JP, Wang Y, Xia HY, Mei PP, Wang XF, Zhao JH, Yu RP, Che ZX, Gui LG, Callaway RM, Tilman D, Li L* (2021) Long-term increased grain yield and soil fertility from intercropping. Nature Sustainability 4, 943 - 950 15. Yu R, Lambers H, Callaway R, Wright A, Li L* (2021) Belowground facilitation and trait matching: two or three to tango? Trends in Plant Science 26 (12):1227-1235. 16. Yu R. Zhang WP, Fornara D, Li L.* 2021 Contrasting responses of nitrogen: Phosphorus stoichiometry in plants and soils under grazing: A global meta- analysis. Journal of Applied Ecology 2021, 58:964–975. 17. Zhang W, Gao SN, Li ZX, Xu HS, Yang H., Yang X., Fan HX, Su Y, Fornara D, Li L* Shifts from complementarity to selection effects maintain high productivity in maize/legume intercropping systems. Journal of Applied Ecology 2021, 58:2603–2613. 18. Mei P, Wang P, Yang H, Gui L, Christie P, Li L.* Maize/faba bean intercropping with rhizobial inoculation in a reclaimed desert soil enhances productivity and symbiotic N2 fixation and reduces apparent N losses. Soil & Tillage Research 2021, 105145. 19. 5. Yang H, Zhang W, Li L*. Intercropping: feed more people and build more sustainable agroecosystems. Frontiers of Agricultural Science and Engineering 2021, 8(3): 373‒386 20. Yu RP, Zhang WP, Dario A. F., Li L* 2020 Contrasting responses of nitrogen: phosphorus stoichiometry in plants and soils under grazing: a global meta-analysis. Journal of Applied Ecology doi: 10.1111/1365-2664.13808 21. Yu RP, Li XX, Xiao ZH, Lambers H, Li L.* (2020) Phosphorus facilitation and covariation of root traits in steppe species. New Phytologist 226:1285-1298. 22. Callaway R.M.*, Li L.* (2020) Decisions, decisions, decisions: Plant roots detect and respond to complex environmental cues. New Phytologist 226: 11-12. 23. Yu RP, Zhang WP, Yu YC, Yu SB, Lambers H, Li L.* (2020) Linking shifts in species composition induced by grazing with root traits for phosphorus acquisition in a typical steppe in Inner Mongolia. Science of the Total Environment 712: 136495. 24. Liu YX, Sun JH, Zhang FF, Li L.* (2020) The plasticity of root distribution and nitrogen uptake contributes to recovery of maize growth at late growth stages in wheat/maize intercropping. Plant and Soil 447: 39-53. 25. Stomph T.J, Dordas C, Baranger A, Rijk J.D, Dong B, Evers J, Gu CF, Li L, Simon J, Jensen E.S, Wang Q, Wang YY, Wang ZS, Xu HS, Zhang CC, Zhang LZ, Zhang WP, Bedoussac L, Van der Werf W. (2020) Designing intercrops for high yield, yield stability and efficient use of resources: Are there principles? Advances in Agronomy 160(1): 1-50. 26. Zou XJ, Sun ZX, Yang N, Zhang LZ, Sun WT, Niu SW, Li L. (2019). Interspecific root interactions enhance photosynthesis and biomass of intercropped millet and peanut plants. Crop & Pasture Science 70(3): 234-243. 27. Tian XL, Wang CB, Bao XG, Wang P, Li XF, Yang SC, Li L. 2019 Crop diversity facilitates soil aggregation in relation to soil microbial community composition driven by intercropping. Plant and Soil. 2019;436(1-2):173-92. 28. Liu YX, Sun JH, Zhang FF, Li L. 2019 The plasticity of root distribution and nitrogen uptake contributes to recovery of maize growth at late growth stages in wheat/maize intercropping. Plant and Soil. https://doi.org/10.1007/s11104-019-04034-9 29. Zou XJ, Sun ZX, Yang N, Zhang LZ, Sun WT, Niu SW, Li L. 2019. Interspecific root interactions enhance photosynthesis and biomass of intercropped millet and peanut plants. Crop & Pasture Science 70(3): 234-43. 30. Dong N, Tang MM, Zhang WP, Bao XG, Wang Y, Christie P, Li L. 2018. Temporal Differentiation of Crop Growth as One of the Drivers of Intercropping Yield Advantage. Sci Rep-UK. 2018; 8. 31. Li XF, Wang CB, Zhang WP, Wang LH, Tian XL, Yang SC, Li L. 2018. The role of complementarity and selection effects in P acquisition of intercropping systems. Plant and Soil 422 (1-2): 479-93. 32. Zhang WP, Liu GC, Sun JH, Fornara D, Zhang LZ, Zhang FF, Li L. 2017. Temporal dynamics of nutrient uptake by neighbouring plant species: evidence from intercropping. Functional Ecology 31(2): 469-479. 33. Li, B., Li, Y. Y., Wu, H. M., Zhang, F. F., Li, C. J., Li, X. X., ... & Li, L. 2016. Root exudates drive interspecific facilitation by enhancing nodulation and N2 fixation. Proceedings of the National Academy of Sciences of USA, 113 (23) 6496-6501. http://www.pnas.org/content/113/23/6496 34. Qiu, M. J. & Li, L. (2016) Perspectives for intercropping in modern agriculture. EC Agriculture. ECO.01 (2016): 01-02 35. Xue, Y., Xia, H., Christie, P., Zhang, Z., Li, L., & Tang, C. (2016). Crop acquisition of phosphorus, iron and zinc from soil in cereal/legume intercropping systems: a critical review. Annals of Botany, mcv182. 36. Liu Y.X., Zhang W.P., Sun JH, Li XF, Christie P., Li L. 2015. High morphological and physiological plasticity of wheat roots is conducive to higher competitive ability of wheat than maize in intercropping systems. Plant and Soil 397:387-399. DOI 10.1007/s11104-2654-7 37. Zhang W.P., Liu G.C., Sun J.H., Zhang L.Z., Weiner J., Li L. 2015. Growth trajectories and interspecific competitive dynamics in wheat/maize and barley/maize intercropping. Plant and Soil 397: 227-238 DOI 10.1007/s11104-015-2619-x. 38. Wang Z.G., Bao X.G., Li X.F., Jin X., Zhao J.H., Sun J.H., Christie P., Li L., 2015. Intercropping maintains soil fertility in terms of chemical properties and enzyme activities on a timescale of one decade. Plant and Soil 391: 265-282. 39. Zhang W., Ahanbieke P., Wang B.J., Gan Y.W., Li L.H., Christie P., Li L., 2015. Temporal and spatial distribution of roots as affected by interspecific interactions in a young walnut/wheat alley cropping system in northwest China. Agroforestry Systems 89: 327-343. 40. Brooker R.W., Bennett A.E., Cong W.F., Daniell T.J., George T.S., Hallett P.D., Hawes C., Iannetta P.P.M., Jones H.G., Karley A.J., Li L., McKenzie B.M., Pakeman R.J., Paterson E., Schob C., Shen J.B., Squire G., Watson C.A., Zhang C.C., Zhang F.S., Zhang J.L., White P.J., 2015. Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology. New Phytologist 206: 107-117. 41. Cong W.F., Hoffland E., Li L., Janssen B.H., van der Werf W., 2015a. Intercropping affects the rate of decomposition of soil organic matter and root litter. Plant and Soil 391: 399-411. 42. Cong W.F., Hoffland E., Li L., Six J., Sun J.H., Bao X.G., Zhang F.S., van der Werf W., 2015b. Intercropping enhances soil carbon and nitrogen. Global Change Biology 21: 1715-1726. 43. Li L., Tilman D., Lambers H., Zhang F.S., 2014. Plant diversity and overyielding: insights from belowground facilitation of intercropping in agriculture. New Phytologist 203: 63-69. 44. Wang B.J., Zhang W., Ahanbieke P., Gan Y.W., Xu W.L., Li L.H., Christie P., Li L., 2014. Interspecific interactions alter root length density, root diameter and specific root length in jujube/wheat agroforestry systems. Agroforestry Systems 88: 835-850. 45. Wang Z.G., Jin X., Bao X.G., Li X.F., Zhao J.H., Sun J.H., Christie P., Li L., 2014b. Intercropping Enhances Productivity and Maintains the Most Soil Fertility Properties Relative to Sole Cropping. PLoS ONE 9 (12): e113984. Doi:10.1371/journal.pone.0113984. 46. Xia H.Y., Zhao J.H., Sun J.H., Xue Y.F., Eagling T., Bao X.G., Zhang F.S., Li L., 2014. Maize grain concentrations and above-ground shoot acquisition of micronutrients as affected by intercropping with turnip, faba bean, chickpea, and soybean (vol 56, pg 823, 2013). Science China-Life Sciences 57, 362-362. 47. Yan S., Du X.Q., Wu F., Li L., Li C.Y., Meng Z., 2014. Proteomics insights into the basis of interspecific facilitation for maize (Zea mays) in faba bean (Vicia faba)/maize intercropping. Journal of Proteomics 109, 111-124. 48. Zhang D.S., Zhang L.Z., Liu J.G., Han S., Wang Q., Evers J.C., Liu J., van der Werf W., Li L., 2014. Plant density affects light interception and yield in cotton grown as companion crop in young jujube plantations. Field Crops Research 169, 132-139. 49. Shen, J. B., Li C. J., Mi, G. H., Li, L., Yuan, L. X., Jiang, R. F., and Zhang, F. S. 2013. Maximizing root/rhizosphere efficiency to improve crop productivity and nutrient use efficiency in intensive agriculture of China. Journal of Experimental Botany 64: 1181–1192 50. Xia, H.Y., Zhao, J.H., Sun, J.G., Bao, X.G., Christie, P., Zhang, F.S., Li, L. (2013). Dynamics of root length and distribution and shoot biomass of maize affected by intercropping with different companion crops and phosphorus application rates. Field Crops Research 150:52-62. 51. Xia, H.Y., Zhao, J.H., Sun, J.H., Xue, Y.F., Eagling, Tristan., Bao, X.G., Zhang, F.S. & Li, L. (2013). Maize grain concentrations and above-ground shoot acquisition of micronutrients as affected by intercropping with turnip, faba bean, chickpea, and soybean. Science China Life Science 56:823-834. 52. Xia, H.Y., Wang, Z.G., Zhao, J.H., Sun, J.H., Bao, X.G., Christie, P., Zhang, F.S., Li, L. (2013). Contribution of interspecific interactions and phosphorus application to sustainable and productive intercropping systems. Field Crops Research 154:53-64. 53. Zhang, W., Ahanbieke, P., Wang, B.J., Xu, W.L., Li, L., H., Christie, P., Li, L. (2013). Root distribution and interactions in jujube tree/wheat agroforestry system. Agroforest Systems 87:929-939. 54. Zhang, Y.K., Chen, F.J., Li, L., Chen, Y.H., Liu, B.R., Hou, Y,L., Yuan, L.X., Zhang, F.S., Mi G.H. (2012). The role of maize root size in phosphorus uptake and productivity of maize/faba bean and maize/wheat intercropping systems. Sci China Life Sci 55: 993-1001. 55. Li, B., Krumbein, A., Neugart, S., Li L., Schreiner, M. (2012). Mixed cropping with maize combined with moderate UV-B radiations lead to enhanced flavonoid production and root growth in faba bean. Journal of Plant Interactions 7(4): 333-340. 56. Li, L., Rengel, Z. (2012). Soil Acidification as Affected by Phosphorus Sources and Interspecific Root Interactions between Wheat and Chickpea. Communications in Soil Science and Plant Analysis 43(13): 1749-1756. 57. Mao, L., Zhang, L.Z., Li, W.Q., van der Werfd, W., Sun, J.H., Spiertzd, H., Li, L. (2012). Yield advantage and water saving in maize/pea intercrop. Field Crops Research 138: 11-20. 58. Mei, P.P., Li, L., Gui, L.G., Wang, P., Christie, P. (2012). Maize/faba bean intercropping with rhizobia inoculation enhances productivity and recovery offertilizer P in a reclaimed desert soil. Field Crops Research 130: 19-27. 59. Li, C.J., Li, Y.Y., Yu, C.B., Sun, J.H., Christie, P., An, M., Zhang, F.S., Li, L. (2011). Crop nitrogen use and soil mineral nitrogen accumulation under different crop combinations and patterns of strip intercropping in northwest China. Plant Soil 342(1-2): 221-231. 60. Li, Q.Z., Sun, J.H., Wei, X.J., Christie, P., Zhang, F.S., Li, L. (2011). Overyielding and interspecific interactions mediated by nitrogen fertilization in strip intercropping of maize with faba bean, wheat and barley. Plant Soil 339(1-2): 147-161 61. Li, L., Sun, J.H., Zhang, F.S. (2011). Intercropping with wheat leads to greater root weight density and larger below-ground space of irrigated maize at late growth stages. Soil Science and Plant Nutrition 57: 61-67. 62. Li, C.J., Saeed, M., Li, L., Partley ,J. (2011). Effects of wheat crop density on growth of ryegrass. Allelopathy Journal 27 (1): 43-54. 63. Yu, C.B., Li, Y.Y., Li, C.J., Sun, J.H., He, X.H., Zhang, F.S., Li, L. (2010). An improved nitrogen difference method for estimating biological nitrogen fixation in legume-based intercropping systems. Biology and Fertility of Soils 46: 227-235. 64. Li, Y.Y., Yu, C.B., Cheng, X., Li, C.J., Sun, J.H., Zhang, F.S., Lambers, H., Li, L. (2009). Intercropping alleviates the inhibitory effect of N fertilization on nodulation and symbiotic N2 fixation of faba bean. Plant and Soil 323:295–308. 65. Zhou, L.L., Cao, J., Zhang, F.S., Li, L. (2009). Rhizosphere acidification of faba bean, soybean and maize.Science of the Total Environment407,:4356-4362. 66. Zhang, H.Y., Schonhof, I., Krumbein, A., Gutezeit, B., Li, L., Stützel, H., Schreiner, M. (2008). Water supply and growing season influence glucosinolate concentration and composition in turnip root (Brassica rapa ssp. rapifera L.). Journal of Plant Nutrition and Soil Science 171: 255-265. 67. Li,S., Schonhof, I., Krumbein, A., Li, L.,Stützel, H., Schreiner, M. (2007). Glucosinolate concentration in turnip (Brassica rapa ssp. rapifera L.) roots as affected by nitrogen and sulfur supply. Journal of Agricultural and Food Chemistry 55 (21), 8452-8457. 68. Li, L., Li, S.M., Sun, J.H., Zhou, L.L., Bao, X.G., Zhang, H.G., Zhang, F.S. (2007). Diversity enhances agricultural productivity via rhizospher phosphorus facilitation on phosphorus-deficient soils. Proceedings of the National Academy of Sciences USA (PNAS) 104: 11192-11196. 69. Song,Y.N., Marschner, P., Li, L., Bao, X.G., Sun, J.H., Zhang, F.S. (2007). Community composition ammonia-oxidizing bacteria in the rhizosphere of intercropped wheat, maize and faba bean. Biology and Fertility of Soils 44:307-314. 70. Song, Y.N., Zhang, F.S., Marschner, P., Fan, F.L., Gao, H.M., Bao, X.G., Sun J.-H., Li L. (2007). Effect of intercropping on crop yield and chemical and microbiological properties in rhizosphere of wheat, maize and faba bean. Biology and Fertility of Soils 43: 565-574. 71. Chen, Y.X., Zhang, F.S., Tang, L., Zheng, Y., Li, Y.J., Christie, P. and Li, L. (2007). Wheat powdery mildew and foliar N concentrations as influenced by N fertilization and belowground interactions with intercropped faba bean. Plant Soil 291: 1-13. 72. Fan, F.L., Zhang, F.S., Song, Y.N., Sun, J.H., Bao, X.G., Guo, T.W., Li, L. (2006). Nitrogen fixation of faba bean (Vicia faba L.) interacting with a non-legume in two contrasting intercropping systems. Plant and Soil 283: 281-292. 73. Li, L., Sun, J.H., Zhang, F.S., Guo, T.W., Bao, X.G., Smith, A.F., Smith S. (2006). Root distribution and interactions between intercropped species. Oecologia 147: 280-290 74. Li, W.X., Li, L., Sun, J.H., Zhang, F.S., Bao, X.G., Peng, A., Tang, C. (2005).Effects of intercropping and nitrogen application on nitrate present in the profile of an Orthic Anthrosol in Northwest China. Agriculture, Ecosystems and Environment 105: 483-491. 75. Xiao, Y.B., Li, L., Zhang, F.S. (2004). Effect of root contact on interspecific competition and N transfer between wheat and faba bean using direct and indirect 15N techniques. Plant and Soil 262: 45-54. 76. Li, S.M., Li, L., Zhang, F.S. and Tang, C.X. (2004). Acid phosphatase role in chickpea/maize intercropping. Annals of Botany 94: 297-303. 77. Li, L., Tang, C., Rengel, Z. and Zhang, F.S. (2004). Calcium, magnesium and microelement uptake as affected by phosphorus sources and interspecific root interactions between wheat and chickpea. Plant and Soil 261: 29-37. 78. Lu, S.H., Liu, X.J., Li, L., Zhang, F.S, Zeng, X.Z. and Tang, C. (2004). Effect of manganese spatial distribution in the soil profile on wheat growth in rice-wheat rotation. Plant and Soil 261:39-46. 79. Zhang, F.S., Shen, J.B., Li, L. and Liu X. (2004). An overview of rhizosphere processes related with plant nutrition in major cropping systems in China. Plant and Soil 260:89-99. 80. Zheng, Y., Zhang, F.S., Li, L. (2003). Iron Availability as Affected by Soil Moisture in Intercropped Peanut and Maize. Journal of Plant Nutrition 26:2425-2437. 81. Li, L., Tang, C., Rengel, Z. and Zhang, F.S. (2003). Chickpea facilitates phosphorus uptake by intercropped wheat from an organic phosphorus source. Plant and Soil 248:297-303. 82. Zhang, F.S. and Li, L. (2003). Using competitive and facilitative interactions in intercropping systems enhances crop productivity and nutrient-use efficiency. Plant and Soil 248:305-312. 83. Li, W.X., Li, L., Sun, J.H., Zhang, F.S. and Christie, P. (2003). Effects of Nitrogen and phosphorus fertilizers and intercropping on uptake of nitrogen and phosphorus by wheat, maize and faba bean. Journal of Plant Nutrition 26 (3): 629-642. 84. Li, L., Zhang, F.S., Li, X.L., Christie, P., Yang, S.C. and Tang, C. (2003). Interspecific facilitation of nutrient uptakes by intercropped maize and faba bean. Nutrient Cycling in Agroecosystems 65: 61-71. 85. Sun, H.G., Zhang, F.S., Li, L. and Tang, C. (2002). The morphological changes of wheat genotypes as affected by the levels of localized phosphate supply. Plant and Soil 245: 233-238. 86. Li, L., Sun, J.H., Zhang, F.S., Li, X.L., Yang, S.C. and Rengel Z. (2001) Wheat/maize or wheat/soybean strip intercropping. I. Yield advantage and interspecific interactions on nutrients. Field Crops Research 71(2): 123-137. 87. Li, L., Sun, J.H., Zhang, F.S., Li, X.L., Rengel, Z. and Yang, S.C. (2001). Wheat/maize or soybean strip intercropping. II. Recovery or compensation of maize and soybean after wheat harvesting. Field Crops Research 71(3): 173-181. 88. Zhang, F.S., Li, L., Sun, J.H. (2001). Contribution of above- and below-ground interactions to intercropping. In Horst et al. (eds) Plant Nutrition – Food security and sustainability of agroecosystems. Kluwer Academic Publishers pp979 – 980. 89. Li, L., Yang, S.C., Li, X.L., Zhang, F.S. and Christie, P. (1999). Interspecific complementary and Competitive interactions between intercropped maize and faba bean. Plant and Soil 212: 205-214. 中文文章 1 李隆. 间套作强化农田生态系统服务功能的研究进展与应用展望*[J]. 中国生态农业学报, 2016, 24(4):403-415. 2. 柳欣茹, 包兴国, 王志刚, & 李隆. (2016). 灌漠土上连续间作对作物生产力和土壤化学肥力的影响. 土壤学报, 53(4)951-962. 3. 唐明明; 董楠; 包兴国; 卢秉林; 张炜平; 张美俊; 章芳芳; 李隆. 西北地区不同间套作模式养分吸收利用及其对产量优势的影响[J]. 中国农业大学学报, 2015, 20(5):48-56. 4. 甘雅文, 李隆, 李鲁华,等. 南疆核桃与小麦间作系统种间根直径及比根长空间分布特征[J]. 西北农业学报, 2015, 24(5):56-63. 5. 甘雅文, 李隆,李鲁华,等. 南疆核桃间作冬麦复合系统根系分布特征研究[J]. 西北农业学报, 2015, 24(3):102-110. 6. 柴博, 李隆, 杨思存,等. 玉米/鹰嘴豆间作条件下不同施磷量对灌耕灰钙土无机磷组分的影响[J]. 干旱地区农业研究, 2015, 33(1):85-90. 7. 吴科生, 宋尚有, 李隆,等. 氮肥和接种根瘤菌对豌豆/玉米间作产量和水分利用效率的影响[J]. 中国生态农业学报, 2014, 22(11):1274-1280. 8. 左元梅, 张立祯, 李隆. 西北干旱区利用间套作促进能源植物的高产高效[J]. 生命科学, 2014(5):447-450. 9. 王宝驹, 李隆, 李鲁华,等. 南疆枣麦间作系统中根长密度、根表面积密度分布特征[J]. 西北农业学报, 2014, 23(3):67-73. 10. 吴科生, 宋尚有, 李隆,等. 施氮和豌豆/玉米间作对土壤无机氮时空分布的影响[J]. 中国生态农业学报, 2014, 22(12):1397-1404. 11. 党小燕,刘建国,帕尼古丽,王江丽,危常州,李隆.棉花间作模式中作物养分竞争吸收和积累动态的研究[J].植物营养与肥料学报,2013,19(1):166-174. 12. 夏海勇, 赵建华, 孙建好, 薛艳芳, Tristan Eagling, 包兴国, 张福锁, 李隆.油菜、蚕豆、鹰嘴豆和大豆对间作玉米籽粒Fe,Mn,Cu和Zn浓度及地上部累积量的影响[J].中国科学:生命科学,2013,43(7):557-568. 13. 陈远学, 李隆, 汤利, 郑毅, 李勇杰, 张朝春, 张福锁.小麦/蚕豆间作系统中施氮对小麦氮营养及条锈病发生的影响[J].核农学报, 2013,27(7):1020-1028. 14. 索东让, 李隆,孙宁科, 吴海燕.河西走廊制种田与生产田玉米需肥特点比较[J].植物营养与肥料学报,2013,19(4):816-823. 15. 张义凯, 陈范骏, 李隆, 陈燕华, 刘丙然, 周玉玲, 袁力行, 张福锁, 米国华.不同类型的玉米根系对间作体系磷高效吸收以及生产力的影响[J].中国科学:生命科学,2012,42(10):841-849. 16. 党小燕, 刘建国, 帕尼古丽, 王江丽, 危常州, 李隆.不同棉花间作模式中作物养分吸收和利用对间作优势的贡献[J]. 中国生态农业学报,2012,20(5):513-519. 17. 夏志敏, 周建斌, 梅沛沛, 王平, 桂林国, 李隆.玉米与蚕豆秸秆配施对秸秆分解及土壤养分含量的影响[J].应用生态学报,2012,23(1):103-108. 18. 夏志敏, 梅沛沛, 王平, 桂林国, 李隆, 周建斌.新垦灰钙土蚕豆/玉米间作系统土壤活性有机碳、氮的时空变异研究[J].土壤通报,2012,43(2):336-341. 19. 赵建华,孙建好,李隆,李伟绮.改变玉米行距种植对豌豆/玉米间作体系产量的影响[J].中国农业生态学报,2012,20(11):1451-1456. 20. 王平, 梅沛沛, 李隆, 张万政, 王晓凤, 桂林国.施磷对玉米与蚕豆间作体系养分吸收的影响[J].宁夏农林科技, 2012,53(12):92-95. 21. 党小燕, 刘建国, 帕尼古丽·阿汗别克, 王江丽, 危常州, 张立祯, 李隆.不同作物与棉花间作对棉纤维品质的影响[J].中国棉花,2011,38(12):18-20. 22. 李淑敏,李隆.蚕豆/玉米间作接种AM真菌和根瘤菌对外源有机磷利用的影响[J].农业现代化研究,2011,32(2):243-247. 23. 李玉英, 胡汉升, 程序, 孙建好, 李隆.种间互作和施氮对蚕豆/玉米间作生态系统地上部和地下部生长的影响[J].生态学报, 2011,31(6):1617-1630. 24. 李玉英,庞发虎,孙建好,李隆,程序.根系分隔和施氮对蚕豆/玉米间作体系根系分布和形态的影响[J]. 中国农业大学学报,2010, 15( 4) : 13-19. 25. 李秋祝,于常兵,胡汉升,孙建好,陈伟,李隆.不同竞争强度间作体系氮素利用和土壤剖面无机氮分布差异[J]. 植物营养与肥料学报, 2010,16(4):777-785. 26. 兰玉峰,夏海勇,刘红亮,杨思存,宋建国,李隆. 施磷对西北沿黄灌耕灰钙土玉米/鹰嘴豆间作产量及种间相互作用的影响[J]. 中国生态农业学报, 2010,18(5): 917−922. 27. 余常兵,孙建好,李隆.种间相互作用对作物生长及养分吸收的影响[J]. 植物营养与肥料学报, 2009,15(1):1-8. 28. 李玉英,孙建好,余常兵,程序,张福锁,李隆. 施氮量和蚕豆/玉米间作对土壤无机氮时空分布的影响[J]. 植物营养与肥料学报, 2009,15 (4) : 815 – 823. 29. 李玉英,孙建好,李春杰,李隆,程序,张福锁. 施氮对蚕豆/玉米间作系统蚕豆农艺性状及结瘤特性的影响[J]. 中国农业科学, 2009,42(10):3467-3474. 30. 李玉英,宋玉伟,程序,孙建好,刘吉利,李隆. 施氮对灌漠土春玉米干物质积累和氮素吸收利用动态的影响[J]. 中国农业大学学报, 2009,14 (1) :61-65. 31. 李玉英,余常兵,孙建好,李春杰,李隆,程序. 蚕豆/玉米间作系统经济生态施氮量及对氮素环境承受力[J]. 农业工程学报, 2008,24(3):223-227. 32. 苗锐,张福锁,李隆. 玉米/蚕豆、小麦/蚕豆和大麦/蚕豆间作体系地上部、地下部生物量及作物含氮量分析[J]. 中国农学通报, 2008,24(7):148-151. 33. 房增国,左元梅,李隆,张福锁.灭菌土壤玉米2花生混作对花生铁营养的影响研究[J].中国生态农业学报,2004,12(4):98-101. 34. 房增国,左元梅,李隆,张福锁.玉米—花生混作体系中不同施氮水平对花生铁营养及固氮的影响[J],植物营养与肥料学报,2004, 10(4):386~390. 35. 李淑敏,李隆,张福锁.丛枝菌根真菌和根瘤菌对蚕豆吸收磷和氮的促进作用[J].中国农业大学学报,2004,9(1):11~15. 36. 肖焱波,李隆,张福锁. 两种间作体系中养分竞争与营养促进作用研究[J].中国生态农业学报,2004,12(4):86-89. 37. 叶优良,包兴国,宋建兰,孙建好,李隆,张福锁,李庆江,周丽莉.长期施用不同肥料对小麦玉米间作产量、氮吸收利用和土壤硝态氮累积的影响[J],植物营养与肥料学报,2004, 10(2):113~119. 38. 李淑敏,李隆,张福锁.玉米/鹰嘴豆间作对有机磷利用差异的研究[J].中国农业科技导报,2004, 6(3):45~49. 39. 王晓丽,李隆,江荣风, 张福锁. 玉米/空心菜间作降低土壤及蔬菜中硝酸盐含量的研究[J].环境科学学报,2003, 4:463~467. 40. 吴华杰,李隆,张福锁.水稻/小麦间作中种间相互作用对镉吸收的影响[J].中国农业科技导报, 2003,5(3):44~48. 41. 肖焱波, 李隆,张福锁.小麦//蚕豆间作中的种间氮营养差异比较研究[J].植物营养与肥料学报, 2003,9(4):396~400. 42. 肖焱波,李隆, 张福锁.接种不同根瘤菌对间作蚕豆和小麦生长的促进作用研究[J].农业现代化研究, 2003.24(4):275~277. 43. 肖焱波,李隆,张福锁.豆科//禾本科间作系统中氮营养研究进展[J].中国农业科技导报,2003,5(6):44~49. 44. 叶优良,孙建好,李隆,张福锁.灌水对大麦/玉米带田土壤矿质氮影响的研究[J],水土保持学报, 2003,17(1):107~111. 45. 李隆,李晓林,张福锁.间作充分利用土壤资源的机制,在李春俭主编:“土壤与植物营养研究新动态(第四卷)”,中国农业大学出版社,2001,p181-197. 46. 左元梅,李隆,张福锁,李晓林.根系分泌物促进间作作物营养效应研究进展,在李春俭主编:“土壤与植物营养研究新动态(第四卷)”[M].中国农业大学出版社,2001.198-210. 47. 李文学,孙建好,李隆,张福锁.不同施肥处理与间作形式对带田中玉米产量及氮营养状况的影响[N],中国农业科技导报,2001,3(3):36-39. 48. 李隆,李晓林,张福锁,杨思存.小麦/大豆间作条件下作物养分吸收利用对间作优势的贡献[N].植物营养与肥料学报,2000,6(2): 140-146. 49. 李隆,李晓林,张福锁.小麦/大豆间作中小麦对大豆磷吸收的促进作用[N].生态学报,2000,20(4): 629-633. 50. 艾为党,李晓林,左元梅,李隆.玉米、花生根间菌丝桥对氮传递的研究[N].作物学报,2000,26(4):473-481. 51. 李隆,张福锁.间套作种植体系中的植物营养问题,在冯锋,张福锁和扬新泉编著,植物营养研究-进展与展望[M].中国农业大学出版社,2000,P97-113。 52. 李隆,左元梅,刘永秀,李晓林,张福锁.根际生态系统理论在我国农业高产高效中的作用—— 间套种作物种间的根际生态效应的发现及应用前景[N].中国农业科技导报,2000. 53. 李隆,杨思存,孙建好,李晓林,张福锁.小麦/大豆间作中作物种间的竞争作用和促进作用[N].应用生态学报,1999,10(2): 197-200. 54. 李隆,杨思存,孙建好,李晓林,张福锁.小麦/大豆间作条件下作物养分吸收积累动态的研究[N].植物营养与肥料学报,1999,5(2): 163-171. 55. 艾为党,张俊伶,李隆,李晓林.黑麦草/红三叶草根系间菌丝桥传递磷的研究[N].草业学报,1999,7(3):14-20. 56. 艾为党,张俊伶,李隆,李晓林,冯固.三叶草体内磷通过菌丝桥向黑麦草的传递研究[N].应用生态学报,1999,10(5):615-618. 57. 李隆,李晓林.间作作物氮素营养研究进展[R],中国土壤学会,1998. 58. 李隆,金绍龄.小麦/玉米间作作物养分资源吸收和利用效率[R],在“迈向21世纪的土壤与植物营养科学”,1997. 59. 金绍龄,李隆,张丽慧.小麦玉米带田作物PK营养特点研究[N].甘肃农业科技,1997. 60. 李隆,金绍龄,张丽慧,索东让,马永泰,吴国菁,王平,孙宁科.小麦、玉米带田中光捕获、利用及干物质积累特点[N],西北农业大学学报,24(5):42-48. 61. 金绍龄,李隆,张丽慧,马永泰,索东让,吴国菁,王平.小麦/玉米带田作物氮营养特点[N].西北农业大学学报,1996,24(5):35-41. 62. 金绍龄,李隆,张丽慧,马永泰,索东让,吴国菁,王平.小麦/玉米带田土壤肥力变化及培肥. I. 肥力变化及各种肥料对作物产量的影响[N].西北农业大学学报,1996,24(5):49-54. 63. 张丽慧,金绍龄,李隆,马永泰,索东让,吴国菁,孙宁科.小麦/玉米带田土壤肥力变化及培肥. II. 不同肥料对土壤养分含量变化的影响[N].西北农业大学学报,1996,24(5):55-60. 64. 李隆,金绍龄,张丽慧,孙宁科,马永泰,索东让,吴国菁.小麦/玉米带田不同用量氮肥残及回收率[N],西北农业大学学报,1996,24(5):61-67. 65. 李隆,金绍龄,张丽慧,吴国菁,马永泰,孙宁科,索东让.小麦/玉米带田玉米施氮时期的定量研究[N].西北农业大学学报,1996,24(5):68-74. 66. 索东让,孙宁科,吴国菁,马永泰,李隆,张丽慧,金绍龄.小麦/玉米带田磷肥分配方式及后效研究[N].西北农业大学学报,1996,24(5):75-79. 67. 李隆.植物营养模拟模型研究现状与展望,在张福锁等主编,“土壤与植物营养研究新动态”(第三卷)[M]. 中国农业出版社,1995,185-204. 68. 李隆.肥料在甘肃粮食生产中的贡献率[N].甘肃农业科技,1995,10:27-29. 69. 李隆,金绍龄.间作作物营养与施肥的几个问题,在中国植物营养与施肥学会主编,“现代农业中的植物营养与施肥”[M].中国农业科技出版社,1995. 70. 李隆.影响磷肥后效的一些因子,在徐明岗主编,现代土壤科学研究[M],中国农业科技出版社,1995,602-604. 71. 李隆,邱进怀.小麦地膜玉米带田玉米施氮时期对产量及吸氮生理的影响[N],西北农业学报,1993,2(1):51-55. 72. 金绍龄,张丽慧,李隆.小麦玉米带田一种作物施用氮肥对配对作物氮营养的影响[N],西北农业学报,1993,2(3):1-6. 73. 金绍龄,张丽慧,李隆.春小麦花前氮营养在籽粒氮营养中的作用[N],甘肃农业科技,1993,(12):28-30. 74. 李隆.浅析有机、无机肥在我省农田养分平衡中的作用[N].甘肃农业科技(增刊),1992. 75. 李隆.肥料试验中应用的单形格子设计及其统计分析[N].土壤通报,1992,6: 275-276. 76. 李隆.三因子混料试验数学模型的等产线绘制BASIC程序设计[N].甘肃农业科技(增刊),1991. 77. 李隆,邱进怀,包兴国.武威川水区小麦玉米带田土壤氮素转化与平衡初探[N],甘肃农业科技,1990(1):24-27. 78. 邱进怀,李隆,包兴国.平川灌区带田培肥节能高产栽培模式研究[N].甘肃农业科技,1990,10:24-26. 79. 李隆.用数学方法研究土壤理化性质与肥力状况关系的初步尝试[N].甘肃农业科技,1988,4. 80. 李隆.应用模糊综合评判评价土壤养分状况的初步尝试[M].甘肃省农科院建院30周年论文集,1988.
专著: 李隆著.间套作体系豆科作物固氮生态学原理与应用[M]. 中国农业大学出版社,2013, 60.6万字.
参编专著: Li, L., Zhang, L.Z. and Zhang, F.S. Crop Mixtures and the Mechanisms of Overyielding. In:Levin S.A.(ed.) Encyclopedia of Biodiversity. Second edition [M]. 2013, 2:382-395. Waltham, MA: Academic Press. 李春俭主编《高级植物营养学》(第一版),中国农业大学出版社,2009 李春俭主编《高级植物营养学》(第二版),中国农业大学出版社,2015 李隆,张福锁.间套作增产和资源高效利用的地下部种间互作机制,中国当代生态学研究-生物多样性保育卷(李文华主编)[M].科学出版, 2013, 230 - 238,1万字. Li L & Zhang FS. Productivity and Interspecific Interactions in Intercropping. In KG Saxen & KS Rao, Soil Biodiversity: Inventory, Functions and Management. Bishen Singh Mahendra Pal Singh. 2016 Li Long, Zhang Weiping, and Zhang Lizhen, How above-ground interspecific interactions between intercropped species contribute to overyielding and efficient resource utilization: A review of research in China. In Luo Shiming & Stephen R. Gliessman (eds) Agroecology in China: Science, Practice, and Sustainable Management. CRC Press, Taylor & Francis Group Luqi Huang, Lanping Guo, Sheng Wang, Wisheng Tang, Ling Tong, Long Li, et al., Chapter 4. Technology and Perspective of Sustainable Biodiversity Utilization. In Li Wenhua (editor) Contemporary Ecology Research in China. Springer 2016.
教学科研概况社会职务Plant and Soil 编委(Consulting Editor, 2018.10 – 现在) Ecosphere编委(Agroecosystems Track, 2020.10-现在) Farming Systems编委(2023-现在) Frontiers of Agricultural Science and Engineering 副主编(2018 – 2021) 活动动态研究领域主要研究领域包括3个方面: (1)作物多样性与农田生态系统功能; (2)植物种间相互作用的地下部过程; (3)间套作资源高效利用的机制。
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