一、基本情況
侯俊,男,博士,長江大學(xué)農(nóng)學(xué)院副教授、博士生導(dǎo)師/碩士生導(dǎo)師,農(nóng)業(yè)農(nóng)村部生物有機(jī)肥創(chuàng)制重點(diǎn)實(shí)驗(yàn)室特聘研究員,中國農(nóng)業(yè)技術(shù)推廣協(xié)會生物有機(jī)肥料專業(yè)委員會常務(wù)理事,湖北省有機(jī)農(nóng)業(yè)研究會常務(wù)理事。
主要研究方向?yàn)椋核攫B(yǎng)分綜合管理、稻-漁種養(yǎng)的生態(tài)平衡、農(nóng)業(yè)廢棄物處理及新型肥料的研發(fā)。
主講課程有《肥料生產(chǎn)與加工》和《植物營養(yǎng)學(xué)》。近5年以第一或者通訊作者在國內(nèi)外刊物公開發(fā)表學(xué)術(shù)論文30余篇,其中《Field Crops Research》《Journal of Cleaner Production》《Energies》《Journal of Plant Nutrition》《Environmental Pollution》等SCI期刊收錄10篇,《植物營養(yǎng)與肥料學(xué)報(bào)》《水土保持學(xué)報(bào)》和《中國農(nóng)業(yè)科學(xué)》等中文核心期刊10篇;授權(quán)或公開新型肥料的發(fā)明專利/實(shí)用新型專利8項(xiàng)。《Journal of Cleaner Production》《Science of The Total Environment》和《Plant and Soil》多家SCI源期刊的通訊審稿人。湖北仙桃稻蝦科技小院負(fù)責(zé)人,2022年被教育部評為國家級科技小院;浙江衢州生豬科技小院成員。
二、學(xué)習(xí)工作經(jīng)歷
2002.9 —2006.7 長江大學(xué) 學(xué)士
2006.7 —2010.9 湖北祥云(集團(tuán))化工股份有限公司 營銷公司工作
2010.9 —2013.7 山東農(nóng)業(yè)大學(xué) 攻讀碩士
2013.9 —2017.7 中國農(nóng)業(yè)大學(xué) 攻讀博士
2023.9 —2024.6 北京大學(xué) 訪問學(xué)者
2017.9 —至今 長江大學(xué)農(nóng)學(xué)院 任教
三、主持與承擔(dān)的科研課題
1, 國家自然科學(xué)基金,潛育化條件下稻蝦共作根際-土壤促進(jìn)氮素吸收利用的生理生態(tài)機(jī)制(32372821)50萬, 2024.1-2027.12,主持,
2, 湖北省重點(diǎn)研發(fā)計(jì)劃(2023BBB082),一種基于提質(zhì)增效的綠色功能型有機(jī)肥關(guān)鍵技術(shù)研究,18萬 , 2021.11-2025.6,參與
3,湖北省重點(diǎn)研發(fā)計(jì)劃(2022BBA002),高檔優(yōu)質(zhì)輕簡栽培水稻新品種選育, 8萬 ,2022.7-2024.6,參與
4,農(nóng)業(yè)農(nóng)村部廢棄物肥料化利用重點(diǎn)實(shí)驗(yàn)室(KLFAW202201),功能膜覆蓋好氧堆肥溫室氣體減排性能及優(yōu)化技術(shù)研究,3萬,2022.11-2024.10,主持
5,農(nóng)業(yè)農(nóng)村部生物有機(jī)肥創(chuàng)制重點(diǎn)實(shí)驗(yàn)室(331182022318),生物有機(jī)肥在水稻上的應(yīng)用效果科研合作協(xié)議,1萬,2023.3-2024.2,主持
6, 衢州市政府采購項(xiàng)目(衢農(nóng)合2021-27),衢州市農(nóng)業(yè)碳中和碳賬戶樣品測試(委托)合同,10萬,2022.10-2023.4,主持
7, 衢州市政府采購項(xiàng)目(衢農(nóng)合2022-31),衢州市碳賬戶核算及減排固碳技術(shù)研究,20萬,2022.12-2023.11,參與
8, 衢州市政府采購項(xiàng)目(衢農(nóng)合2021-37),科技小院建設(shè)及種養(yǎng)殖一體化,20萬,2021.12-2022.10,參與
9,主持湖北省教育廳項(xiàng)目1項(xiàng),主教育部重點(diǎn)實(shí)驗(yàn)室開放基金1項(xiàng)目。
四、發(fā)表的論文
[1] Li J.T., Ding Z.J., Ma X.W., Cao Y.X., Ma Z.Y., Qian Y.H., Yao H.Y., Hou J. *, Cao B. *, 2024. One-time contact application of controlled-release urea and optimized method improved rice yield and nitrogen use efficiency with 50% nitrogen input. Agronomy 14, 781. https://doi.org/10.3390/agronomy14040781
[2] Hu R. Ding Z.J., Tian Y.B., Cao Y.X., Hou J. *, Wang X.X. *, 2024. Localized nitrogen supply
facilitates rice yield and nitrogen use efficiency by enabling root-zone nitrogen distribution and root growth. Front. Sustain. Food Syst. 8:1326311. doi: 10.3389/fsufs.2024.1326311
[3] Hu R, Xiao D.K., Ding Z.J., Cao Y.X., Hou J. *, Wang X.X. *, 2023. Effects of local nitrogen supply and nitrogen fertilizer variety coupling on rice nitrogen transport and soil nitrogen balance in paddy fields. Frontiers in Sustainable Food Systems, 7. 7:1252324. doi: 10.3389/fsufs.2023.1252324
[4] Ding Z.J., Li J.T., Huang F., Hu R., Peng S.B., Huang J.L., Hou J. *, Zhou J.L., Li C.F. *, Su B., Xu M.J., 2023. One-time root-zone fertilization of controlled-release urea increases nitrogen use efficiency while reducing nitrogen loss risk in a ratoon rice field under two irrigation practices. Nutr Cycl Agroecosyst, https://doi.org/10.1007/s10705-023-10328-3
[5] Hu R, Xiao D.K., Ding Z.J., Cao Y.X., Hou J. *, Wang X.X. *, 2023. Effects of local nitrogen supply and nitrogen fertilizer variety coupling on rice nitrogen transport and soil nitrogen balance in paddy fields. Frontiers in Sustainable Food Systems, 7. 7:1252324. doi: 10.3389/fsufs.2023.1252324
[6] Hu R., Ding Z.J., Li T.Y., Zhang D.Y., Tian Y.B., Cao Y.X., Hou J*, 2022. Optimizing nitrogen application for Chinese ratoon rice based on yield and reactive nitrogen loss. Agriculture, 12, 1064.
[7] Hu R. Ding Z.J., Tian Y.B., Cao Y.X., Hou J. *, Wang X.X. *, 2024. Localized nitrogen supply
facilitates rice yield and nitrogen use efficiency by enabling root-zone nitrogen distribution and root growth. Front. Sustain. Food Syst. 8:1326311. doi: 10.3389/fsufs.2024.1326311
[8] Hou J.*, Tian Y.B., Zhou J.L., Liu K.W., Cao Bing*, 2023. An environmental and economic assessment of sustained cleaner production for double rice from the combination of controlled-released urea and water-saving irrigation. Journal of Cleaner Production, 383, 135467.
[9] Ding Z.J., Li J.T., Hu R., Xiao D.K., Huang F., Peng S.B., Huang J.L., Li C.F., Hou J*, Tian Y.B., Zhou J.L., Cao B. *, 2022. Root-zone fertilization of controlled-release urea reduces nitrous oxide emissions and ammonia volatilization under two irrigation practices in a ratoon rice field. Field Crops Research, 287, 10863.
[10] Hou J*, Zhang D.Y., Zhu J.Q., 2021. Nutrient accumulation from excessive nutrient surplus caused by shifting from rice monoculture to rice-crayfish rotation. Environmental Pollution, 271, 116367. doi:10.1016/j.envpol.2020.116367
[11] Hou J*, Styles D., Cao Y.X., Ye X.X., 2021. The sustainability of rice‐crayfish coculture systems: a mini review of evidence from Jianghan plain in China. Journal of the Science of Food and Agriculture, 101, 3843–3853. DOI 10.1002/jsfa.11019
[12] Hou J*, David S., Zhang W.F., 2021. Improving nutrient and economic efficiency of dairy intensification depends on intensive use of scattered cropland. Sustainable Production and Consumption, 30,454–466.
[13] Hou J*, Wang X., Xu Q., Cao Y.X., Zhang D.Y., Zhu J.Q., 2021c. Rice-crayfish systems are not a panacea for sustaining cleaner food production. Environmental Science and Pollution Research, 28, 22913–22926.
[14] Ding Z.J., Hu R., David S., Wang X.L., Tian Y.B., Cao Y.X., Hou J*, 2020. Optimized ratoon rice system to sustain cleaner food production in Jianghan Plain, China: a comprehensive emergy assessment. Environmental Science and Pollution Research, 29(17): 24639-24650. doi:org/10.1007/s11356-021-17747-1
[15] Hou J*, Zhang D.Y., Zhou J.L., Xu Z., Mou P., Cao Y.X., Zhu J.Q., 2021. Oxygenated compound fertilizer improved rice yield by empowering soil aeration. Communications in Soil Science and Plant Analysis, 52(15), 1798–1810.
[16] ] Xu Q., Peng X., Guo H.L., Che Y., Dou Z., Xing Z.P., Hou J., David S., Gao H., Zhang H.C., 2022. Rice-crayfish coculture delivers more nutrition at a lower environmental cost, Sustainable Production and Consumption 29, 14–24.
[17] 曹玉賢, 朱建強(qiáng), 侯俊*, 2020. 中國再生稻的產(chǎn)量差及影響因素, 中國農(nóng)業(yè)科學(xué), 53 (4): 707–719.
[18] 肖大康, 丁紫娟, 胡仁, 楊朔, 聶璽斌, 黃飛, 劉若偉, 侯俊*, 張衛(wèi)峰, 趙帥翔*, 2022. 不同地力水平和施氮量下水稻優(yōu)質(zhì)高產(chǎn)的氮肥有機(jī)替代比例. 植物營養(yǎng)與肥料學(xué)報(bào) 28(10): 1804–1815.
[19] 徐洲, 張雯, 左萃宸, 王瑞, 丁紫娟, 胡 敏, 侯俊*, 葛永虎, 2019. 增氧型復(fù)混肥的制備及對稻田土壤有效養(yǎng)分的影響的研究, 磷肥與復(fù)肥, 2019, 34(12):10–12.
[20] 侯俊*,徐洲,張丁月,朱建強(qiáng), 2020. 增氧型復(fù)混肥提高土壤氧化還原電位促進(jìn)水稻養(yǎng)分吸收. 植物營養(yǎng)與肥料學(xué)報(bào), 26(8): 1546–1555
[21] 張丁月,楊亞珍,劉凱文,朱建強(qiáng),侯俊*, 2020. 不同施肥模式下稻 - 蝦共作的氮磷平衡及效益分析. 中國土壤與肥料, 4:124–129.
[22] 張丁月, 侯俊*, 葉新新,2020. 水產(chǎn)養(yǎng)殖降低水體氨氮方法及建議. 河北漁業(yè), 7:57-60.
[23] 丁紫娟,胡仁,徐洲,張丁月 ,曹玉賢,田應(yīng)兵*,侯俊*,2022. 一次性根區(qū)施控釋尿素對再生稻生長及產(chǎn)量的影響. 中國土壤與肥料, 22(2) : 106–119.
[24] 張丁月, 張衛(wèi)峰, 曹玉賢, 朱建強(qiáng), 郜紅建, 葉新新, 侯俊*,2022. 中國稻漁種養(yǎng)系統(tǒng)水稻產(chǎn)量差及影響因素的整合分析. 江蘇農(nóng)業(yè)科學(xué), 50(2):88–95.
[25] 丁紫娟,徐洲,田應(yīng)兵,劉凱文, 張丁月, 朱建強(qiáng), 侯俊*, 2021. 再生稻干濕交替灌溉與根區(qū)分層施氮減少溫室氣體排放. 灌溉排水學(xué)報(bào) , 40(7): 51–58.
[26] 葛永虎, 黃飛, 肖大康, 聶璽斌, 楊朔, 丁紫娟, 李錦濤, 郜紅建, 葉新新, 梅軍, 章葉飛, 侯俊*, 2022. 不同氮肥種類對稻蝦共作水稻生長和田面水水質(zhì)的影響. 中國稻米, 28(4): 50–54.
[27] 黃飛,聶璽斌, 楊朔, 丁紫娟, 李錦濤, 郜紅建, 葉新新, 葛永虎*, 梅軍, 曹玉賢, 侯俊, 2022. 不同施氮量下稻蝦共作產(chǎn)量與田面水水質(zhì)特征. 中國稻米, 28(2): 51–55.
五、授權(quán)專利
1 侯俊; 丁紫娟; 徐洲; 一種智能干濕交替灌溉裝置, 2023-10-20, 中國, ZL202222646392.1 (專利)
2 張丁月; 侯俊; 張懷勝; 徐洲; 一種深層水水質(zhì)檢測及取樣裝置, 2018-08-31, 中國, 201821430579.5. (專利)
3 何文祥;侯俊;孔小雁;袁軍委;林思遠(yuǎn);一種摻混肥檢測系統(tǒng), 2022-12-09, 中國, 218002704 U.
4 喬月; 王瑞; 張丁月; 張懷勝; 朱建強(qiáng); 侯俊; 一種適用于小龍蝦養(yǎng)殖溝塘底水改良的水循環(huán)裝置, 2018-07-04, 中國, 201821056304.X. (專利)
5 張丁月; 侯俊; 徐洲; 朱建強(qiáng); 一種小龍蝦養(yǎng)殖箱裝置, 2019-08-13, 中國, 201 910746064 .9.
6 丁紫娟; 侯俊; 羅巧. 一種實(shí)驗(yàn)廢棄物回收裝置, 2020-08-25, 中國,ZL 2019 22030029.7
