湖南農業大學農學院教授
基本介紹
- 中文名:黃敏
- 國籍:中國
- 民族:漢族
- 職稱:教授
簡歷,所獲榮譽,所撰書籍,代表性論文,承擔的課題,
- 2017年12月-現在
教授
湖南農業大學·農學院
中國·長沙 - 2017年9月-2018年8月
來訪研究員
康奈爾大學·農業和生命科學學院
美國·伊薩卡,紐約 - 2014年10月-2017年12月
副教授
湖南農業大學·農學院
中國·長沙 - 2014年1月-2014年9月
副教授
廣西大學·農業學院
中國·南寧 - 2012年4月-2013年12月
助理教授
廣西大學·農業學院
中國·南寧 - 2008年9月-2011年12月
湖南農業大學
作物栽培學與耕作學·博士
中國·湖南長沙 - 2005年9月-2008年6月
廣西大學
作物栽培與耕作學·碩士
中國·廣西南寧 - 2001年9月-2005年6月
浙江師範大學·學士
生物科學
中國·金華,浙江省
2017年2月
獲教育部科技進步獎二等獎
2014年6月
湖南省優秀博士論文
《Advances in Machine-Transplanted Double-Seaon Rice Research》2019年8月,出版商:中南大學出版社,ISBN:978-7-5487-3713-1
1.The activity ratio of glutamine synthetase to sucrose synthase: A physiological feature explaining the variation in grain nitrogen-based protein content of rice
2.Amylose Content and Starch Granule Size in Rice Grains are Affected By Growing Season
3.Delayed transplanting reduced grain yield due to low temperature stress at anthesis in machine-transplanted late-season rice
4.Printed sowing improves grain yield with reduced seed rate in machine- transplanted hybrid rice
5.Grain filling of early-season rice cultivars grown under mechanical transplanting
6.Decreasing hill density combined with increasing nitrogen rate led to yield decline in hybrid rice under low-light conditions
7.Availability of existing early-season rice cultivars as resources for selecting high-yielding short-duration cultivars of machine-transplanted late-season rice
8.Contrasting change in biomass translocation with environment in two rice hybrids
9.Quantifying accumulation characteristics of glutelin and prolamin in rice grains
10.Grain yield and nitrogen utilization in response to reducing nitrogen rate in hybrid rice transplanted as single seedlings
11.Physiological Processes Contributing to the Difference in Grain Amino Acid Content between Two Hybrid Rice (Oryza sativa L.) Cultivars
12.Yield performance of machine-transplanted double-season rice grown following oilseed rape
13.Dense planting with reducing nitrogen rate increased grain yield and nitrogen use efficiency in two hybrid rice varieties across two light conditions
14.Yield performance of early-season rice cultivars grown in the late season of double-season crop production under machine-transplanted conditions
15.Increased Grain Amino Acid Content in Rice with Earthworm Castings
16.Continuous applications of biochar to rice: Effects on grain yield and yield attributes
17.Amino acid content in rice grains is affected by high temperature during the early grain-filling period
18.Contrasting responses of grain yield to reducing nitrogen application rate in double- and single-season rice
19.No-tillage effects on grain yield and nitrogen requirements in hybrid rice transplanted with single seedlings: Results of a long-term experiment
20.No-tillage increases nitrogen scavenging by fallow weeds in a double-season rice cropping system in China
21.Continuous applications of biochar to rice: Effects on nitrogen uptake and utilization
22.Yield effect of applying earthworm castings produced during the oilseed rape-growing season in riceoilseed rape cropping fields to rice
23.Integrating mechanization with agronomy and breeding to ensure food security in China
24.Whyhigh grain yield can be achieved in single seedling machine-transplanted hybrid rice under dense planting conditions
25.The potential of naturally occurring fallow weeds to scavenge nitrogen in rice cropping systems
26.Improving nitrogen management for zero-tillage rice in China
27.Earthworm responses to cropping rotation with oilseed rape in no-tillage rice fields and the effects of earthworm casts on human-essential amino acid content in rice grains
28.Increased hill density can compensate for yield loss from reduced nitrogen input in machine-transplanted double-cropped rice
29.Agronomic performance of late-season rice in South China
30.Increasing wall thickness is more effective than increasing diameter for improving breaking resistance of rice internode
31.Changes in Rice Yield Stability in Southern China from 1949 to 2015
32.Urea application promotes amino acid metabolism and membrane lipid peroxidation in Azolla
33.Higher yields of hybrid rice do not depend on nitrogen fertilization under moderate to high soil fertility conditions
34.Yield potential and stability in super hybrid rice and its production strategies
35.Interaction of Changes in pH and Urease Activity Induced by Biochar Addition Affects Ammonia Volatilization on an Acid Paddy Soil Following Application of Urea
36.Effects of single basal application of coated compound fertilizer on yield and nitrogen use efficiency in double-cropped rice
37.Rice Yield and the Fate of Fertilizer Nitrogen as Affected by Addition of Earthworm Casts Collected from Oilseed Rape Fields: A Pot Experiment
38.Morphological and physiological traits of seeds and seedlings in two rice cultivars with contrasting early vigor
39.Temperature-Related Yield Constraints of Early-Rice in South China: A Cross-Location Analysis
40.The solar radiation-related determinants of rice yield variation across a wide range of regions
41.Rhizosphere processes associated with the poor nutrient uptake in no-tillage rice (Oryza sativa L.) at tillering stage
42.Long-term effect of no-tillage on soil organic carbon and nitrogen in an irrigated rice-based cropping system
43.Potential Yield Increase of Hybrid Rice at Five Locations in Southern China
44.Leaf photosynthetic performance related to higher radiation use efficiency and grain yield in hybrid rice
45.Factors contributing to the superior post-heading nutrient uptake by no-tillage rice
46.Improving physiological N-use efficiency by increasing harvest index in rice: A case in a super hybrid cultivar Guiliangyou 2
47.Characterizing N uptake and use efficiency in rice as influenced by environments
48.Root Morphology Was Improved in a Late-Stage Vigor Super Rice Cultivar
49.No-tillage effect on rice yield in China: A meta-analysis
50.Comparisons of yield performance and nitrogen response between hybrid and inbred rice under difference ecological conditions in south China
51.Nitrogen Uptake and Utilization by No-Tillage Rice under Different Soil Moisture Conditions – A Model Study under Simulated Soil Conditions
52.Biochar Improves Sugarcane Seedling Root and Soil Properties Under a Pot Experiment
53.Raising potential yield of short-duration rice cultivars is possible by increasing harvest index
54.Fertilizer nitrogen uptake by rice increased by biochar application
55.Effects of no-tillage on rhizosphere soil nutrient contents and root lipid peroxidation and antioxidative properties of irrigated rice
56.Quantifying the effect of biochar amendment on soil quality and crop productivity in Chinese rice paddies
57.Tillering responses of rice to plant density and nitrogen rate in a subtropical environment of southern China
58.Changes in soil microbial properties with no-tillage in Chinese cropping systems
59.Impact of temperature changes on early-rice productivity in a subtropical environment of China
60.Yield gap analysis of super hybrid rice between two subtropical environments
61.Comparisons of Yield and Growth Behaviors of Hybrid Rice Under Different Nitrogen Management Methods in Tropical and Subtropical Environments
62.Tillering dynamics of hybrid rice in tropical and sub-tropical environments
63.On-farm assessment of effect of low temperature at seedling stage on early-season rice quality
64.Effect of wide plant spacing on yield formation of hybrid rice in sub-tropical environment of southern China
65.Chlorophyll meter-based nitrogen management for no-till direct seeded rice
66.Yield formation strategies of a loose-panicle super hybrid rice
67.Internal nitrogen efficiency of super hybrid rice grown under different tillage and crop establishment methods
68.Improvement in super hybrid rice: A comparative study between super hybrid and inbred varieties
69.Performance of super hybrid rice cultivars grown under no-tillage and direct seeding
70.Effect of tillage on soil and crop properties of wet-seeded flooded rice
71.Relationship Between Grain Yield and Yield Components in Super Hybrid Rice
72.Yield Component Differences between Direct-Seeded and Transplanted Super Hybrid Rice
73.Significance, progress and prospects for research in simplified cultivation technologies for rice in China
74.No-tillage and direct seeding for super hybrid rice production in rice–oilseed rape cropping system
75.Changes in some physiological characteristics after full heading stage in flag leaves of super high-yielding inbred rice
76.Comparison of grain filling characteristics between two super rice cultivars with remarkable difference in grain weight
承擔的課題
- 2018年1月-2021年12月
優質水稻儲備量易位與抗倒伏性的關係及其對氮肥的回響
供資:749900·國家自然科學基金·31771722
首席調查員:黃敏·湖南農業大學
共同調查員:鄒應斌·尹小紅·曹放波·陳佳娜 - 2017年7月-2020年12月
雙季水稻機械化生產關鍵技術
供資:4910000·中國科技部·2017YFD0301503
首席調查員:黃敏·湖南農業大學
共同調查員:鄭華斌·宋海星·許莉·劉龍生·李祖生·范曉兵·熊海蓉·李海林·曹方波·柳蘭芳·陳玉梅·張明
中學機構:衡陽農業科學院·岳陽農業科學院 - 2016年6月-2020年12月
特殊用途水稻優質的生理基礎
供資:850000·中國科技部·2016YFD030050903
首席調查員:黃敏·湖南農業大學
共同調查員:楊樹英·熊遠福·熊海蓉 - 2015年1月-2018年12月
施用生物炭對水稻氮肥利用效率的影響及機理
供資:570000·國家自然科學基金·31460332
首席調查員:江立庚·廣西大學
共同調查員:黃敏·秦華東·肖巧珍
中學機構:湖南農業大學 - 2014年1月-2016年12月
與免耕水稻養分吸收相關的根際過程
供資:210000·國家自然科學基金·31301267
首席調查員:黃敏·廣西大學
共同調查員:江立庚
