按PI研究组

PI组长:
       曹林奎  教授

组员:
       赵琦 沙之敏

研究方向:
       稻田生态系统碳氮循环

主要研究领域:
      以稻田生态系统为研究对象,基于生态学理论,应用土壤生态学和植物营养学的技术手段,研究稻田生态系统养分循环规律与面源污染发生机制,为优化我国稻田养分管理、构建稻田生态种养模式等提供理论依据和技术支撑。

代表性成果:      

1、主要研究项目:

(1)国家重点研发计划课题(NO.2016YFD0801106).面源与重金属复合污染综合防控技术集成与示范.2016.01-2020.12

(2)科技部星火计划重点项目(NO.2015GA680004).基于面源污染控制的稻田生态种养技术示范与推广.2015.01-2017.12

(3)国家自然科学基金面上项目(NO.31770482)稻蛙共作系统蛙行为对甲烷排放的影响及其机理研究. 2018.01-2021.12

(4)国家自然科学基金面上项目(NO.41771279).横断山脉地区蚯蚓的物种分化和地理分布格局研究.2018.01-2021.12.

(5)国家自然科学基金青年项目(NO.31401967).海南岛环毛类蚯蚓的种群遗传分化与系统发生地理学研究. 2015.01-2017.12

(6)国家自然科学基金青年项目(NO.31601825).大豆离子组对有机肥施用的响应机制研究.2017.01-2019.12

(7)上海市农业农村委专项(SHXM-00-20190527-3010).农业源大气氨排放监测评估.2019.07-2020.06

(8)上海市科委长三角合作项目(NO.16295810300).土壤环境综合治理关键技术研发及区域示范应用.2016.07-2018.06

2、成果专利与奖励:

(1)一种控制稻田面源污染的生态拦截阻断系统.授权号:ZL201410625297.0

(2)一种降低大豆体内铯含量的方法.授权号:ZL201410789050.2

(3)有机肥高效利用的大豆品种的筛选方法.授权号:ZL201510067560.3

(4)大豆镉高富集品种的筛选方法.授权号:ZL20151005237.3

(5)一种利用丛枝状菌根菌降低大豆中镉含量的方法.授权号:ZL201510264518.0

(6)2005年主持项目“现代农业科学创新人才培养模式的研究与实践”获上海市教学成果一等奖

(7)2013年主编教材《农业生态学原理》获金沙2004路线js5第十四届优秀教材特等奖

(8)2019年获金沙2004路线js5第三届青年教师教学竞赛三等奖

3、代表论著:

(1)Nitrogen leakage in a rice-duck co-culture system with different fertilizer treatments in China. Science of the Total Environment.2019,686:555-567.

(2)A reduced phosphorus application rate using a mycorrhizal plant as the preceding crop maintains the soybean seeds’ nutritional quality. Journal of Agriculture and food chemistry.2019,67:32-42.

(3)Effects of different lipid contents on growth of earthworms and the products during vermicomposting. Waste Management & Research.2019,1-7.

(4)New earthworm species of the genus Amynthas from Hainan Island, China (Megascolecidae, Clitellata).Zootaxa.2018,4496(1):279-286.

(5)Comparison of the abundance and community structure of N-cycling bacteria in paddy rhizosphere soil under different rice cultivation patterns. Int. J. Mol. Sci.,2018,19(12),3772:1-19.  

(6)Effects of different fertilizers on methane emissions and methanogenic community structures in paddy rhizosphere soil. Science of the Total Environment. 2018, 627: 770-781.

(7)Four new species of genus Amynthas and Metaphire Sims & Easton, 1972 (Oligochaeta, Megascolecidae) in Hainan Island, China. Annales Zoologici.2017,67(2):221-227.

(8)Variations in nutrient and trace element composition of rice in an organic rice-frog coculture system. Scientific Reports. 2017, 7: 15706.

(9)Assessing environmental impacts of organic and inorganic fertilizer on daily and seasonal Greenhouse Gases effluxes in rice field. Atmospheric Environment. 2017, 155: 119-128.

(10)The dynamic state of the ionome in roots, nodules and shoots of soybean under different nitrogen status and at different growth stages. J. Plant Nutr. Soil Sci., 2016,8:1-11.

(11)Modeling the effects of alternative fertilization methods on nitrogen loading in rice production in Shanghai. Science of the Total Environment. 2016, 566-567: 1595-1603.

(12)Assessing impacts of alternative fertilizer management practices on both nitrogen loading and greenhouse gas emissions in rice cultivation. Atmospheric Environment. 2015, 119: 393-401.

(13)Quantifying nitrogen loading from a paddy field in Shanghai, China with modified DNDC model. Agriculture, Ecosystems and Environment. 2014, 197:212–221.

(14)Use of fluorescence-based sensors to determine the nitrogen status of paddy rice. Journal of Agricultural Science. 2013, 151: 862-871.

(15)Effect of fertilization on composition and spatial distribution of dissolved organic nitrogen in paddy soil-microbial systems. Plant soil and environment. 2012, 58 (3): 128-134.

(16)主编《现代农业与生态文明》,北京:科学出版社,2017

(17)主编《农业生态学原理》,上海:金沙2004路线js5出版社,2011

(18)主编《都市农业导论》,上海:上海科学技术出版社,1999

 

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