杨洪坤
学历/学位:博士 Degree:Doctor
职称/职务:副教授 Associate professor
硕导/博导:硕导 Category:Master’s Supervisor
研究方向:作物栽培学与耕作学
团队类型:教学科研型 Class of teachers: Teaching and scientific research
E-mail:yhk159357@163.com
杨洪坤,博士,副教授,硕博连读毕业于南京农业大学作物栽培学与耕作学专业,联合培养于澳大利亚联邦科工(CSIRO)农业与食品研究所。主要从事小麦高产理论与栽培调控研究。先后主持国家自然科学基金、四川省科技厅项目2项,获得授权发明专利2项,四川省主推技术2项,十四五规划教材1本。在FoodRes Int、Int J Biol Macromol、Field Crops Res、Soil & Till Res等国际知名刊物发表论文23篇,其中以第一作者发表中科院一区TOP论文8篇。
主要教学成果
主要讲授《作物栽培学》《作物生产综合实践》《作物高产理论与实践》《作物学综合试验》《农学概论》等。
402cc永利安全线路双一流农学专业国际化课程:作物栽培学(全英文)
https://www.icourse163.org/course/SAU1-1461333168?from=searchPage
专著教材
1.《农学概论》(第三版),李天主编,全国高等农林院校“十二五”规划教材,北京:中国农业出版社,参编;
2.《作物栽培学各论》南方本(第三版)全国高等农林院校“十四五”规划教材,北京:中国农业出版社,2023.11出版,参编;
主研项目
1.国家自然基金青年基金二氢赤霉素提高秸秆覆盖小麦分蘖成穗的ABA/GA调控机制2022-2025,在研
2.四川省科技厅项目氮素影响小麦籽粒淀粉结构改良川酒风味品质的作用机理2021-2023,已结题
人才培养
贺鹏,已毕业,硕士20级,在读期间以第一作者发表SCI论文1篇,卓越-梯队2篇,读博;
谢炜,在读,硕士21级,在读期间以第一作者发表SCI论文1篇,中文核心3篇,获得国家奖学金;
指导本科生:9人
主要学术成果
[1]Yang, H.K.Gaoqiong Fan(*). Regulating the composition and secondary structure of wheat protein through canopy shading to improve dough performance and nutritional index.Food Res Int.(2023). 113399 (一区TOP, IF=8.2)
[2]Yang, H.K.Gaoqiong Fan(*).Shading affects the starch properties and digestibility by regulating photosynthetic light response of wheat flag leaves.Int. J. Biol.Macromol. 284 (2022): 108573.(一区TOP, IF=8.023)
[3]Yang, H.K.Gaoqiong Fan(*), et al. Maize straw mulching with no-tillage increases fertile spike and grain yield of dryland wheat by regulating root-soil interaction and nitrogen nutrition[J].Soil & Tillage Res. 2023, 228: 105652 (一区TOP, IF=7.4).
[4]Yang, H.K.Gaoqiong Fan(*), et al. The combined effects of maize straw mulch and no-tillage on grain yield and water and nitrogen use efficiency of dry-land winter wheat (Triticum aestivumL).Soil & Tillage Res. 2020, 197: 104485. (一区TOP, IF=5.4).
[5]Yang, H.K. Gaoqiong Fan(*).Maize straw mulching with uniconazole application increases the tillering capacity and grain yield of dryland winter wheat (Triticum aestivumL.).Field Crops Research284 (2022): 108573. (一区TOP, IF=6.145).
[6]Yang, H.K., Meng Y.L(*)., Integrated soil-cotton system management enhances triacylglycerol yield and favorable fatty acid profile [J].Industrial crops and products, 2018;177(177): 393-403. (一区TOP, IF=4.2)
[7]Yang, H.K. Gaoqiong Fan(*), et al. Agronomic and physiological traits associated with genetic phosphorus use efficiency improvement of wheat grown in a purple lithomorphic soil [J].The Crop Journal, 2021 (一区TOP, IF=4.3)
[8]Yang, H.K. Gaoqiong Fan(*), et al. Straw mulch-based no-tillage increases tillering capability of dryland wheat by reducing asymmetric competition between main stem and tillers[J].The Crop Journal,2021 (一区TOP, IF=4.3)
[9]Yang H.K, Hu W, Zhao J, et al. Genetic improvement combined with seed ethephon priming improved grain yield and drought resistance of wheat exposed to soil water deficit at tillering stage[J].Plant Growth Regulation, 2021, 95(3): 399-419.(3区, IF=3.2)
[10]Yang H.K, Mo P, Chen Y, et al. Genetic progress in grain yield, radiation and nitrogen use efficiency of dryland winter wheat in Southwest China since 1965: progress and prospect for improvements[J].Crop Sci,2021. .(二区, IF=2.7)
[11]Yang, H.K.,Chen, B.L., Ma, Y.N., Liu, J.R., Lv, F.J., Chen, J., Meng, Y.L., Wang, Y.H., Zhou, Z.G. How integrated management strategies promote protein quality of cotton embryos: High levels of soil available N, N assimilation and protein accumulation rate [J].Frontiers in plant science, 2016; 7:1118. (二区, IF=4.1)
[12]Yang, H.K., Meng Y.L., Chen B.L., Zhang X.Y, Wang Y.H., Zhao W.Q, and Zhou Z.G.,Integrated management strategies increase productivity of cottonseed: the importance of carbohydrate supply[J].Frontiers in plant science, 2017; 8:48. (二区, IF=4.1)
[13] Hu T,Yang H.K,Zhang K, et al. Effects of different altitudes on the structure and properties of potato starch[J].Frontiers in Plant Science, 2023, 14: 1111843.
[14] Chen, B. L(#).,Yang, H. K(#)., Ma, Y. N., Liu, J. R., Lv, F. J., Chen, J., Meng, Y. L., Wang, Y. H., Zhou, Z. G.Effect of shading on yield, fiber quality and physiological characteristics of cotton subtending leaves on different fruiting positions [J].Photosynthetica, 2016: 1-11. (二区, IF=1.7)
[15] Chen, B. L(#).,Yang, H. K(#)., Song W.C., Liu C.Y., Xiu J., Zhao W.Q., Zhou, Z. G.Effect of N fertilization rate on soil alkali-hydrolyzable N, subtending leaf N concentration, fiber yield, and quality of cotton,The Crop Journal, 2016: 52-64.
[16] Xiaoyu Xu.,Yang, H. K., Surinder Singh., Peter Sharp., Qing Liu.Genetic manipulation of non-classic oilseed plants for enhancement of their potential as a biofactory for triacylglycerol production[J].Engineering,2018, 4(4): 523-533
[17] Zhang X,Yang, H. K.,Zahoor R, et al. Integrated soil-cotton management system enhances nitrogen use efficiency under different soil fertility levels[J].Archives of Agronomy and Soil Science, 2020, 66(13): 1845-1860.
[18] Zhang X,Yang H,Snider J L, et al. A comparative study of integrated crop management system vs. conventional crop management system for cotton yield and fiber quality with respect to fruiting position under different soil fertility levels[J].Frontiers in plant science, 2018, 9: 958.
[19] Shi Z, Liu Y, Hu Z,Yang, H. K,Yang P.H(*). Effect of radiation processing on phenolic antioxidants in cereal and legume seeds: A review[J].Food Chemistry, 2022: 133661.
[20] WANG C, DU Y M, ZHANG J X,Yang, H. K(*).Effects of exposure of the leaf abaxial surface to direct solar radiation on the leaf anatomical traits and photosynthesis of soybean (Glycine maxL.) in dryland farming systems[J].PHOTOSYNTHETICA, 2021, 59(4): 496-507.(二区, IF=3.2,通讯作者)
[21] Chen Y, Chen H, Chen R,Yang, H.K., Zheng, T, Huang, X.L, Fan G.Q., The Impacts of Nitrogen Accumulation, Translocation, and Photosynthesis on Simultaneous Improvements in the Grain Yield and Gluten Quality of Dryland Wheat[J].Agronomy, 2023, 13(5): 1283.
[22] Ning S, Zhao L, Li S,Yang, H.K., Liu D.C.,Delays in heading and improvements in both spikelet number and spike length are associated with the Aegilops tausschii photoperiod-sensitive ppd-D1b allele[J].Cereal Research Communications, 2022: 1-9.
[23] Chen Y, Wang K, Chen H, Yang, H.K, Zheng, T, Huang, X.L, Fan G.Q., Simultaneously genetic selection of wheat yield and grain protein quality in rice–wheat and soybean–wheat cropping systems through critical nitrogen efficiency-related traits[J].Frontiers in Plant Science, 2022, 13: 899387.
[24] ZHAO W, YAN Q,Yang, H.K.,, et al. Effects of mepiquat chloride on yield and main properties of cottonseed under different plant densities[J].Journal of Cotton Research, 2019, 2: 1-10.
[25] Li, J.; Ma, H.; Ma, H.; Lei, F.; He, D.; Huang, X.;Yang, H.K.Fan, G. Comprehensive Effects of N Reduction Combined with Biostimulants on N Use Efficiency and Yield of the Winter Wheat–Summer Maize Rotation System. Agronomy 2023, 13, 2319.
[26] Xie. W.,Yang, H.KFan, G. Straw mulching combined with phosphorus fertilizer increases fertile florets by enhancing the utilization efficiency of assimilates and photosynthesis.Agronomy2023, .(二区, IF=3.2,通讯作者)
中文核心
[1]张常赫,戴艳娇,杨洪坤等.不同栽培方式对长江下游棉田资源利用效率的影响[J].作物学报,2015,41(07):1105-1111.
[2]沈天垚,杜祥备,杨洪坤等.麦棉两熟种植模式对棉仁脂肪及蛋白质代谢的影响[J].作物学报,2015,41(08):1237-1245.
[3]伍晓轩,杨洪坤,朱杰等.不同有机肥种类配施化学氮肥对丘陵旱地小麦产量和籽粒蛋白质品质的影响[J].402cc永利安全线路学报,2019,37(03):283-287+295.DOI:10.16036/j.issn.1000-2650.2019.03.001.
[4]张雪,杨洪坤,郑亭等.外源ABA对两粒色小麦品种穗发芽及品质的影响[J].中国农业科学,2020,53(23):4750-4763.
[5]向晓玲,陈松鹤,高仁才,吴东明,陈艳琦,杨洪坤&樊高琼.(2021).麦-玉轮作玉米秸秆还田与施氮对后茬玉米产量和养分吸收的影响.华北农学报(01),169-176.
[6]陈艳琦,刘琼,边巴拉姆,陈松鹤,张恒,李朝苏... &樊高琼.(2021).施氮量对稻茬弱筋小麦原粮品质及大曲品质的影响.华北农学报(S1),297-305.
[7]张恒,陈艳琦,任杰莹等.西南麦区小麦苗期氮高效品种筛选及指标体系构建[J].402cc永利安全线路学报,2022,40(01):10-18+27.DOI:10.16036/j.issn.1000-2650.202106013.
[8]刘琼,陈艳琦,陈松鹤等.施氮量对川西平原酿酒小麦原粮及其酿酒品质的影响[J].麦类作物学报,2022,42(03):325-334.
[9]刘琼,陈艳琦,陈松鹤,杨洪坤,马宏亮,赵佳蓉... &樊高琼.(2022).施氮量对川西平原酿酒小麦原粮及其酿酒品质的影响.麦类作物学报(03),325-334.
[10]刘琼,杨洪坤,陈艳琦等.施氮量对糯和非糯小麦原粮品质、酿酒品质及挥发性风味物质的影响[J].作物学报,2023,49(08):2240-2258.
[11]李俊积,马海艳,马宏亮,杨洪坤,樊高琼.配施增效助剂对四川旱地小麦的减氮效应研究[J].水土保持学报,2023,37(03):312-318.DOI:10.13870/j.cnki.stbcxb.2023.03.040.
[12]贺鹏,谢炜,马宏亮,贺鹏,谢炜,马宏亮,陈昊岚,邹乔生,艾代龙,杨洪坤.秸秆覆盖与施磷显著提高丘陵旱地小麦花后根尖质子动力势[J].植物营养与肥料学报,2023,29(07):1237-1249.
[13]贺鹏,谢炜,马宏亮,樊高琼,杨洪坤.秸秆覆盖与施磷对西南冬小麦叶肉导度和CO2同化效率的影响[J].生态学报, 2023,43(23): 9674-9685.
[14]谢炜,贺鹏,马宏亮,樊高琼,杨洪坤.秋闲期秸秆覆盖与施磷对冬小麦氮素吸收利用的影响[J/OL].作物学报,1-13[2024-01-05]
[15]李俊积,马海艳,祝婷婷等.增效助剂对夏玉米减氮稳产的效应研究[J].核农学报,2023,37(11):2305-2314.
[16]艾代龙,雷芳,邹乔生,杨洪坤,樊高琼.秸秆覆盖与施氮对丘陵旱地小麦根系构型改善及H+、NO3-吸收与利用的影响[J].中国农业科学,2023,56(21):4192-4207.
[17]谢炜,贺鹏,马宏亮,樊高琼,杨洪坤.秸秆覆盖与施磷对旱地小麦小花发育与结实特性的影响[J/OL].麦类作物学报,1-8[2024-01-05]
四川省主推技术
樊高琼,杨洪坤,郑亭.旱地小麦秸秆覆盖蓄水保墒水肥高效利用绿色生产技术
樊高琼,杨洪坤,郑亭.稻茬麦抗湿耕作栽培技术
国家发明专利
[1]杨洪坤.一种确定西南丘陵旱地冬小麦-夏玉米最优蓄水保墒小麦水肥高效利用的方法[P] CN ZL 201910389992.4. 2019-07-19.
[2]杨洪坤.一种改良的种子粗酶液提取方法[P]:CN 201510191095.4. 2016-07-22.
[3]杨洪坤.一种确定西南丘陵旱地冬小麦-夏玉米最优蓄水保墒小麦水肥高效利用的方法[P] CN ZL 201910389992.4