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王 琦
2024年01月01日 17:14 点击:[]
姓 名:
王琦
性 别:
男
学 位:
博士研究生
职 务:
教授
教育访学经历
工作经历
2017.12 - 今, 甘肃农业大学, 草业学院, 教授;
2023.02-2023.08, University of Almería, Spain, 访问学者;
2016.12-2017.6, Virginia Polytechnic Institute and State University, USA, 访问学者;
2010.10 -2011. 10, Lincoln University, New Zealand, 访问学者;
2009.08-2012.10,中国科学院,寒区旱区环境与工程研究所,博士后;
2006.12-2017.12, 甘肃农业大学, 草业学院, 副教授;
2003.06 -2006.12, 甘肃农业大学, 草业学院, 讲师;
1997.03-1997.07,清华大学,水利水电学院,访问学者;
1999.12-2000.12,甘肃省水利水电学校, 农田水利教研室, 讲师;
1994.07-1999.12,甘肃省水利水电学校, 农田水利教研室, 助教。
教育经历
2005.09-2008.06,中国科学院,寒区旱区环境与工程研究,博士,生态学;
2000.09-2003.06,甘肃农业大学,农学院,硕士,作物栽培学与耕作学;
1990.09-1994.06,甘肃农业大学,水利水电系,学士,农田水利工程。
研究方向
牧草和作物节水灌溉
教学工作
研究生教学
专业英语、草坪科学与管理、草学研究前沿
本科教学
草坪灌排水工程学、草坪工程监理、草坪工程学、农田水利学
科研项目
1. 2021.01-2024.12,国家自然科学基金地区项目: 秸秆碎片-土壤结皮覆盖垄沟集雨种植减少土壤蒸发和侵蚀机理及模式, 42061050,43万元,在研,主持;
2. 2017.01-2020.12,国家自然科学基金地区项目: 坡地生物炭垄沟集雨种植的系统效率和关键技术研究,41661059,50万元,在研,主持;
3. 2015.01-2018.12,国家自然科学基金地区项目: 坡地打结沟垄集雨种植的系统效率和关键技术研究,41461062,51万元,结题,主持;
4. 2012.01-2015.12,国家自然科学基金地区项目: 沟垄集雨种植可持续发展机理及优化设计,41161090,43万元, 结题,主持;
5. 2023.01-2024.12,甘肃省自然基金: 半干旱区秸秆碎片-土壤结皮覆盖垄沟集雨种植模式研究,22JR5RA849,6万元,在研,主持。
6. 2016.01-2019.12,国家自然科学基金: 基于自毒效应的兰州百合连作障碍机制及自毒物质降解菌的研究,31560380,51万元,在研,参与。
7. 2023.01-2025.12,甘肃省科技重大专项:中巴伊经济走廊新垦绿洲地力与产能 协同提升技术集成与示范,22ZD6WA036,300万元,在研,参与。
代表性成果
著作
《草坪工程监理》, 中国林业出版社,国家林业局普通高等教育“十三五”规划教材,2017,主编,ISBN: 978-7-5038-8991-2.
专利
王琦,刘青林, 张恩和. 免耕播种燕麦与多年生牧草间作的栽培方法,国家发明专利. ZL 2015 1 0091628.1.
王琦,刘青林,张恩和. 半干旱区生物可降解地膜的覆盖种植方法, 国家发明专利. ZL 2013 1 0313875.2.
张恩和,王琦, 刘青林,刘朝巍,王田涛,俞华林,尹辉. 留茬免耕播种春小麦方法. 国家发明专利,ZL 2011 1 0142573.4.
获奖
李广、闫丽娟、王琦、陈国鹏、罗永忠、马维伟、王均,“作物气候资源高效利用的精准定量研究”获甘肃省高等学校科研优秀成果一等奖,证书号2017KYCGA-031,排名3-7.
张恩和、王慧珍、张新慧、刘青林、王琦、王田涛. “当归连作障碍的根际作用机制及生态扰动对策”获甘肃省高等学校科研优秀成果三等奖,证书号2016KYCG-223,排名5-6.
李广、闫丽娟、罗永忠、聂志刚、刘强、王琦、马维伟,“旱地小麦产量形成协同模型开发与推广应用”获甘肃省科技进步二等奖,证书号2015-J2-046-R6,排名6-9.
发表论文
第一作者
1. Wang Q, Zhao X, Li F, Zhao W, Awuku I, Ma W, Liu Q, Liu B, Cai T, Liu Y, Li X, 21. Wang Q, Zhao X, Li F, Zhao W, Awuku I, Ma W, Liu Q, Liu B, Cai T, Liu Y, Li X, 2025. Optimized parameters for SCS-CN model in runoff prediction in ridge-furrow rainwater harvesting in semiarid regions of China. Agric Water Manag, 310, 109363. (IF6.5) 1区
2.Wang Q, Zhang D, Zhou X, Mak-Mensah E, Zhao X, Zhao W, Wang X, Stellmach D, Liu Q, Li X, Li G, Wang H, Zhang K, 2022. Optimum planting configuration for alfalfa production with ridge-furrow rainwater harvesting in a semiarid region of China. Agric Water Manag, 266, 107594. (IF6.608) 1区
3.Wang Q, Wang X, Zhang D, Zhou X, Mak-Mensah E, Zhao X, Zhao W, Ghanney P, Haider F U, Liu Q, Li G, Li X, Li Y, Majeed Y, 2022. Selection of suitable type and application rate of biochar for alfalfa (Medicago sativa L.) productivity in ridge-furrow rainwater-harvesting in semiarid regions of China. Field Crops Res, 277, 108428. (IF: 6.145) 1区
4.Wang Q, Li F, Zhao X, Zhao W, Zhang D, Zhou X, David S, Wang X, Liu Q, Li X, Li G, Wang H, Zhang K, Chen J, 2021. Runoff and nutrient losses in alfalfa (Medicago sativa L) production with tied-ridge-furrow rainwater harvesting on sloping land. Int. Soil Water Conserv. Res, 10:308-323. (IF: 7.481) 1区
5. Wang Q, Zhang DK, Zhou XJ, Liu JR, Liu QL, Li XL, David S, Zhang YS and Zhang R (2019). Comparing yield, quality, water use efficiency, and value between fodder and grain produced using ridge-furrow rainwater harvesting in a semiarid region. Crop Sci., 59: 2214-2226. (IF: 1.878) 3区
6. Wang Q, Li F, Zhang D, Liu Q, Li G, Liu X, Li X, Chen J, (2018). Sediment control and fodder yield increase in alfalfa (Medicago sativa L) production with tied-ridge-furrow rainwater harvesting on sloping land. Field Crops Res, 225:55–63. (SCI) (IF: 3.127) 1区
7. Wang Q, Song X, Li F, Hu G, Liu Q, Zhang E, Wang H, Davies R, (2015). Optimum ridge-furrow ratio and suitable ridge-mulching material for Alfalfa production in rainwater harvesting in semi-arid regions of China. Field Crops Res, 180:186–196. (SCI) (IF: 2.976)1区
8. Wang Q, Ren X, Song X, Hu G, Zhang E, Wang H, Maureen V, (2015). The optimum ridge-furrow ratio and suitable ridge-covering material in rainwater harvesting for oats production in semiarid regions of China. Field Crops Res, 172:106-118. (SCI) (IF: 2.976) 1区
9.Wang Q, Cameron K, Buchan G, Zhao L, Zhang E, Smith N & Carrick S (2012). Comparison of lysimeters and porous ceramic cups for measuring nitrate leaching in different soil types. New Zealand Journal of Agricultural Research, 55(4): 333-345. (SCI) (IF: 0.839)4区
10. Wang Q, Li FR, Zhang EH, Li G, Vance M (2012). The effects of irrigation and nitrogen application rates on yield of spring wheat (longfu-920), and water use efficiency and nitrate nitrogen accumulation in soil. Aust. J. Crop Sci., 6(4): 662-672.
11. Wang Q, Li F, Zhao L, Zhang E, Shi S, Zhao W, Song W, Vance M (2010). Effects of Irrigation and Nitrogen Application Rates on Nitrate Nitrogen Distribution and Leaching, Wheat Yield and Nitrogen Uptake on a Recently Reclaimed Sandy Farmland. Plant Soil, 337: 325 – 339. (SCI) (IF: 2.773)1区
12. Wang Q, Zhang E, Li F, Li F (2008). Runoff efficiency and the technique of micro-water harvesting with ridges and furrows for potato production in semi-arid areas. Water Resour. Manage., 22:1431-1443. (SCI) (IF: 1.350)2区
13.王琦, 师尚礼, 曹文侠. 当前国际草田耕作面临的威胁及采取对策.草地学报, 2017, 25(1): 26-31.
14. 王琦, 张恩和, 师尚礼, 等. 陶瓷杯与蒸渗仪测定硝态氮和氨态氮淋溶的比较.干旱区地理, 2015, 28(2): 298-304.
15. 王琦, 孙永胜, 王田涛, 等. 灌溉与施氮对黑河中游新垦沙地春小麦生长特性、耗水量及产量的影响.干旱区地理, 2009, 32(2): 240- 248.
16. 王琦, 李锋瑞. 灌溉与施氮对黑河中游新垦农田土壤硝态氮积累及氮素利用率的影响. 生态学报, 2008, 28(5): 1-12.
17. 王琦, 李锋瑞, 张智慧. 灌溉与施氮对黑河中游新垦沙地农田土壤硝态氮动态的影响. 环境科学, 2008, 29(7): 291 - 299. (EI)
18. 王琦, 李锋瑞, 赵文智. 黑河绿洲新垦沙地农田灌溉与施氮量对春小麦产量及水分利用效率的影响. 农业工程学报, 2007, 23 (12): 51 - 57. (EI)
19. 王琦, 张恩和, 李凤民, 等. 不同土壤保水剂对春小麦种植、树苗移栽与树木育苗的影响. 水土保持通报, 2007, 27 (6): 131 - 136.
20. 王琦, 张恩和, 龙瑞军, 等. 不同灌溉方式对紫花苜蓿生长性能及水分利用效率的影响. 草业科学, 2006, 23 (9): 75 - 78.
21. 王琦, 张恩和, 李凤民, 等. 半干旱黄土高原沟垄微型集雨产流特征与马铃薯种植技术. 生态学杂志, 2005, 24 (11): 1283 - 1286.
22. 王琦, 张恩和, 李凤民, 等. 半干旱地区沟垄微型集雨种植马铃薯最优沟垄比的确定. 农业工程学报, 2005, 21(2):38-41. (EI)
23.王琦, 张恩和, 李凤民. 半干旱地区膜垄和土垄的集雨效率和不同集雨时期土壤水分比较. 生态学报, 2004, 24(8):1816 -1819.
通讯作者
1. Awuku I, Zhao X, Azim R, Wang Q, Qadeer A, Ma W, Li X, Liu Q, 2026. Structural equation modelling for sustainable land management: Assessing ridge-furrow rainwater harvesting and chopped straw effects on soil moisture dynamics and sainfoin yield in semi-arid slopes. Comput Electron Agric, 246, 111654. (IF8.9) 1区
2. Qadeer A, Wang Q, Azim R, Zhao X, Ma W, Awuku I, Li F, Liu Q, Liu Y, Liu B, Li X, Sanaullah M, Wakeel A, Bibi S. Structural equation modeling revealed optimized ridge-furrow configuration integrated with straw-soil crust enhancing carbon sequestration and sainfoin yield in semiarid agroecosystems. Comput Electron Agric, 244, 111520. (IF8.9) 1区
3.Awuku I, Zhao X, Azim R, Wang Q, Qadeer A, Ma W, Li X, Liu Q, 2026. Sediment yield prediction in ridge-furrow rainwater harvesting using coupled USLE–SCS-CN model on the Loess Plateau, China. Soil Tillage Res, 256, 106923. (IF6.8) 1区
4.Azim R, Wang Q, Li X, Qadeer A, Zhao X, Awuku I, Ma W, Liu Q, Liu Y, Liu B, 2025. Suitable ridge width and straw length for alfalfa production under ridge-furrow rainwater harvesting compacted with chopped straw-soil crust in semiarid regions. Plant Soil, 1-20. (IF4.1) 2区
5. Ma W, Wang Q, Mak‑Mensah E, Zhao X, Qi W, Zhu J, Azim R, Zhou X, Zhang D, Liu B, Liu Q, Li X, 2025. Ecological risk assessment of emerging contaminants on soil and terrestrial ecosystems (2005–2024): a bibliometric and scientometric review. Environ. Geochem. Health, 47(5), 179. (IF3.8) 4区
6. Zhang X, Nian L, Li L, Liu X, Wang Q, 2025. Soil nematodes regulate ecosystem multifunctionality under different zokor mounds in Qinghai–Tibet Alpine grasslands. Biology, 14, 1200
7. Zhao X, Wang Q, Qadeer A, Sun Y, Azim R, Awuku I, Masoumkhani F, Ma W, Liu Q, Cui X, Dong H, Li X, Liu B, 2025. Optimized length and application rate of chopped straw for alfalfa production in ridge-furrow rainwater-harvesting in semi-arid regions in China. Agric Water Manag, 311, 109393. (IF5.9) 1区
8. Azim R, Wang Q, Mak-Mensah, E, Zhou X, Zhang D, Zhao X, Qi W, Zhu J, Ma W, Sadiq M, Liu B, 2024. Soil desiccation in the context of vegetation restoration: A scientometric analysis. Land Degrad Dev, 35(15): 4364-4378. (IF3.6) 2区
9. Zhao X, Mak-Mensah E, Zhao W, Wang Q, Zhou X, Zhang D, Zhu J, Qi W, Liu Q, Li X, Li X, 2024. Optimized ridge-furrow technology with biochar amendment for alfalfa yield enhancement and soil erosion reduction based on a structural equation model on sloping land. Agric Water Manag, 298, 108866. (IF5.9) 1区
10. Azim R, Wang Q, Sadiq M, Zhou X, Zhang D, Zhao X, Xu Y, Sun Y, Qi W, Zhu J, Ma W, Liu B, Gillani S F A, Ahmed S, 2024. Exploring the potential of straw and biochar application on soil quality indicators and crop yield in semi‑arid regions. J Soil Sci Plant Nutr, 24:1907–1923. (IF3.4) 3区
11. Qi W, Wang Q, Mak-Mensah E, Zhu J, Zhang D, Zhou X, Zhao X, Xu Y, Sun Y, Liu Q, Li X, Li X, 2024. Effects of Soil Physicochemical Properties on Maize, Wheat, and Soybean Yields in Maize‑Wheat and Maize‑Soybean Intercropping Systems in China: a Meta‑analysis. J Soil Sci Plant Nutr, 24:21–29. (IF3.9) 3区
12. Zhu J, Wang Q, Qi W, Zhao X, Xu Y, Sun Y, Zhang D, Zhou X, Mak-Mensah E, 2023. Exploring the potential of biochar and mulched drip irrigation with plastic film on crop yields in water-stressed regions: a global meta-analysis. J Soil Sci Plant Nutr, 23:2970–2980. (IF3.9) 2区
13. Zhao X, Wang Q, Zhou X, Mak-Mensah E, Zhang D, Xu Y, Sun Y, Zhu J, Qi W, Liu Q, Zhang K, 2023. Effects of Ridge-Furrow Rainwater Harvesting with Biochar-Soil Crust Mulching on Soil Properties, Nutrients, and Alfalfa Fodder Yield in a Semiarid Agroecosystem. J Soil Sci Plant Nutr, 23:3137–3148. (IF3.54) 2区
14. Mak-Mensah E, Zhao W, Zhou X, Zhang D, Zhao X, Wang Q, Obour PB, 2023. Impact of maize straw biochar and tied-ridge-furrow rainwater harvesting on soil erosion and soil quality in a semiarid region. Soil Use Manage, 39(4), 1304–1320, (IF3.8) 3区
15. Zhang D, Mak-Mensah E, Zhou X, Wang Q, Obour P B, 2023. Impact of plastic film with wheat straw mulching on maize water use efficiency, evapotranspiration, and grain yield in Northern China: a meta‑analysis. J Soil Sci Plant Nutr, 23:867–880. (IF3.6) 2区
16. Zhou X, Wang Q, Zhang D, Mak-Mensah E, Zhao X, Wang X, Zhao W, Liu Q, Liu X, 2023. Impact of ridge‑furrow rainwater harvesting with biochar application on soil hydrothermal condition, nutrient, and alfalfa fodder yield in the loess plateau in China. J Soil Sci Plant Nutr, 23, 719–733, (IF3.6) 2区
17. Zhou X, Wang Q, Zhang D, Mak-Mensah E, Zhao X, Xu Y, Liu X, Liu Q, Li X, 2022. Effects of ridge‑furrow rainwater harvesting with biochar application on soil physical properties and alfalfa fodder yield in semiarid region in China. J. Soils Sediments, 23(2), 1008–1022, (IF: 3.536) 3区
18. Zhang D, Wang Q, Zhou X, Mak-Mensah E, Zhao W, Zhao X, Wang X, Liu Q, 2022. Suitable biochar type and optimum ridge width for sainfoin production in ridge‑furrow rainwater harvesting in the Loess Plateau in China. J. Soils Sediments, 23(3), 206–222, (IF: 3.536) 3区
19. Mak-Mensah E, Zhao W, Zhou X, Zhang D, Zhao X, Wang Q, Obour P B, 2023. Influence of tied‑ridge with maize straw biochar on alfalfa fodder yield, nutritional quality, and production economics. J Soil Sci Plant Nutr, 23, 339–350. (IF: 3.61) 3区.
20. Mak-Mensah E, Zhao W, Zhou X, Zhang D, Zhao X, Wang Q, Obour P B, 2022. Effects of ridge‑furrow rainwater harvesting with maize straw biochar on fodder yield and water use efficiency of alfalfa in semiarid regions of China. J. Soils Sediments, 22, 2750–2764 , (IF: 3.536) 2区
21. Mak-Mensah E, Yeboah F K, Obour P B, Usman S, Essel E, Bakpa E P, Zhang D, Zhou X, Wang X, Zhao X, Zhao W, Wang Q, Adingo S, Ahiakpa J K, 2022. Integration of ridge and furrow rainwater harvesting systems and soil amendments improve crop yield under semi-arid conditions. Paddy Water Environ, 20, 287–302 . (IF: 1. 554) 4区
22. Mak-Mensah E, Zhang D, Zhou X, Zhao X, Wang X, Zhao W, Wang Q, Ahiakpa JK, 2022. Effect of co‑application of ridge‑furrow rainwater harvesting and mulching on fodder yield, quality, and soil desiccation in alfalfa (medicago sativa) production. J Soil Sci Plant Nutr, 22, 2587–2602, (IF: 3.610) 2区,
23. Zhao W, Mak-Mensah E, Wang Q, Wang X, Zhang D, Zhou X, Zhao X, Chen J, Liu Q, Li X, 2022. Effects of ridge‑furrow rainwater‑harvesting with biochar application on sediment control and alfalfa (Medicago sativa L.) fodder yield increase in semiarid regions of China. J. Soils Sediments. (IF: 3.536) 2区
24. Mak-Mensah E, Sam F E, Safnat Kaito I O I, Zhao W, Zhang D, Zhou X, Wang X, Zhao X, Wang Q. 2021. Influence of tied-ridge with biochar amendment on runoff, sediment losses, and alfalfa yield in northwestern China. Peer J. (IF: 2.984) 3区
25. Mak-Mensah E, Obour P B, Wang Q, 2021. Influence of tied-ridge-furrow with inorganic fertilizer on grain yield across semiarid regions of Asia and Africa: A meta-analysis. Peer J. (IF: 2.984) 3区
26. Mak-Mensah E, Obour P B, Essel E, Wang Q, Ahiakpa JK, 2021. Influence of plastic film mulch with biochar application on crop yield, evapotranspiration, and water use efficiency in northern China: A meta-analysis. Peer J. (IF: 2.984) 3区
28. Zhang D, Wang Q, Zhou X, Liu Q, Wang X, Zhao X, Zhao W, He C, Li g, Li G, Chen J, 2020. Suitable furrow mulching material for maize and sorghum production with ridge-furrow rainwater harvesting in semiarid regions of China. Agric Water Manag. 228, 105928. (IF: 4.021) 1区
28. Zhang D, Wang Q, Li G, Li X, David S, 2019. Optimum ridge width and suitable mulching material for sainfoin production with ridge–furrow rainwater harvesting in semiarid regions of China. Arid Land Res. Manage, 33(3): 274-296. (IF:1.148) 4区
29. 朱进辉, 赵武成, Erastus Mak‑Mensah, 王琦, 张登奎, 周旭娇, 赵晓乐, 戚文佳, 马文, 崔循臻, 李旭春, 刘冰. 生物炭施加垄沟集雨种植对水土流失及紫花苜蓿草产量的影响.草地学报, 2024, 32(05):1314-1326.
30.孙元伟, 吕陇, 王琦, 赵晓乐, 张登奎, 周旭姣, 崔循臻, 2023. 紫花苜蓿/豆科牧草间作的生态效益分析. 草地学报, 31(3): 884-892.
31.王小赟, 王琦, 张登奎, 周旭姣, 赵武成, 赵晓乐, 刘青林, 崔循臻.生物炭-土壤结皮覆盖垄沟种植对土壤水肥、紫花苜蓿品质和产量的影响.草业科学, 2023, 40(04):1014-1026.
32.吕陇, 张登奎, 王琦, 张晓娟, 赵武成, 王小赟, Erastus Mak-Mensah, 崔循臻, 周旭姣, 赵晓乐.三叶草活覆盖对杂草、捕食性节肢动物和作物产量的影响.生态学杂志, 2023, 42(12):2944-2952。
33.赵武成, 王琦, 王小赟, 赵晓乐, 张登奎, 周旭姣, 买小虎, 陈瑾. 基于修正SCS-CN模型集雨垄径流预测. 水土保持学报, 2021, 35(2): 96-105.
34.周旭姣, 王琦, 张登奎, 王小赟, 赵武成, 赵晓乐, 雷俊. 基于SCS-CN 模型的半干旱黄土高原区秸秆炭覆盖集雨垄径流预测. 干旱区地理, 2021. 44(1):99-108.
35. 赵晓乐, 王琦, 张登奎, 周旭姣, 王小赟, 赵武成, 陈瑾, 雷俊. 坡地打结垄沟集雨种植对泥沙、养分流失和紫花苜蓿草产量的影响.草业学报, 2020, 29(11): 102-117.
36.张登奎, 王琦, 周旭姣, 王小赟, 赵晓乐, 赵武成, 雷俊. 生物炭覆盖垄沟集雨种植对集雨垄径流、土壤水热和红豆草产量的影响. 中国生态农业学报, 2020, 28(2): 272-285.
37.周旭姣, 王琦, 张登奎, 尹鑫卫, 李晓玲, 刘青林, 贾生海. 垄沟集雨种植对土壤水热效应及紫花苜蓿产量的影响.草业学报, 2019, 28(11): 60-74.
38.王小赟, 王琦, 张登奎, 赵晓乐, 赵武成. 生物炭土壤结皮覆盖垄沟集雨种植对红豆草根系和根瘤特征的影响. 草地学报, 2019, 27(5): 1328-1338.
39.尹鑫卫, 王琦, 李晓玲, 吴雪. 半干旱区垄沟集雨系统点尺度土壤水分动态随机模拟. 生态学报, 2019, 39(1): 320-332.
40.尹鑫卫, 李晓玲, 王琦, 张永梅. 垄沟集雨系统Laio 土壤水分动态随机模型参数敏感性分析及优化[J]. 中国生态农业学报, 2018, 26(5): 746-758.
41.李富春, 王琦, 张登奎, 刘青林, 张恩和, 陈瑾. 坡地打结垄沟集雨对水土流失、紫花苜蓿干草产量和水分利用效率的影响. 水土保持学报, 2018, 32(1): 147 -156.
42.李富春, 王琦, 张登奎, 张恩和, 刘青林, 王鹤龄. 沟覆盖材料对垄沟集雨种植土壤水分和玉米根系分布的影响. 干旱地区农业研究, 2017, 35(1), 33-40.
43.宋兴阳, 王琦, 李富春, 胡广荣, 张登奎, 张恩和, 刘青林, 王鹤龄. 覆盖材料和沟垄比对土壤水分和紫花苜蓿干草产量的影响. 生态学报, 2017, 37(3), 798-809.
44.胡广荣, 王琦, 宋兴阳, 李富春, 张登奎, 张恩和, 刘青林, 王鹤龄. 沟覆盖材料对垄沟集雨种植土壤温度、作物产量和水分利用效率的影响. 中国生态农业学报2016, 24(5): 590-599.
45.任祥, 王琦, 张恩和, 师尚礼, 王鹤龄, 刘青林. 覆盖材料和沟垄比对燕麦产量和水分利用效率的影响. 中国生态农业学报, 2014, 22(8): 945-954.
46.李富春, 任祥, 王琦, 张恩和, 霍海丽, 王鹤龄. 沟垄集雨种植对燕麦根系分布特征的影响. 生态学杂志, 2013, 32(11):2966-2972.
47.霍海丽, 王琦, 张恩和, 师尚礼, 王田涛, 刘青林. 灌溉和施磷对紫花苜蓿干草产量及营养成分的影响. 水土保持研究, 2014, 21(1): 117-121.
48.霍海丽, 王琦, 师尚礼, 张恩和, 王田涛, 刘青林. 灌溉和施磷对紫花苜蓿分枝数、干草产量及水分利用效率的影响. 土壤通报, 2013, 44(4): 924-930.
49.霍海丽, 王琦, 师尚礼, 张恩和, 王田涛, 刘青林. 灌溉和施磷对紫花苜蓿土壤水分动态及根重的影响. 水土保持通报, 2013, 33(4): 159-165.
50.霍海丽, 王琦, 张恩和, 师尚礼, 任祥, 王鹤龄, 王田涛, 刘青林. 不同集雨种植方式对半干旱区紫花苜蓿种植的影响. 应用生态学报, 2013, 24(10): 2770-2778.
奖励与荣耀
李广、闫丽娟、王琦、陈国鹏、罗永忠、马维伟、王均,“作物气候资源高效利用的精准定量研究”获甘肃省高等学校科研优秀成果一等奖,证书号2017KYCGA-031,排名3-7.
张恩和、王慧珍、张新慧、刘青林、王琦、王田涛. “当归连作障碍的根际作用机制及生态扰动对策”获甘肃省高等学校科研优秀成果三等奖,证书号2016KYCG-223,排名5-6.
李广、闫丽娟、罗永忠、聂志刚、刘强、王琦、马维伟,“旱地小麦产量形成协同模型开发与推广应用”获甘肃省科技进步二等奖,证书号2015-J2-046-R6,排名6-9.
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