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史刚荣简介
史刚荣,男,汉族,1968 年7 月生。bd官方登录页面 生命科学学院教授,硕士研究生导师。2009 年获南京农业大学理学博士学位(植物学专业)。兼任《Environmental Science and Pollution Research》编辑。主要研究领域包括植物生理生态学、植物逆境生理学和污染生态学等。在退化生态系统恢复演替过程中优势树种的解剖生态学、耐重金属能源植物的筛选及其耐性机理以及花生镉积累品种间差异的生理机制等方面有较为系统的研究。主持国家自然科学基金面上项目3项。以第一作者或通讯作者发表学术论文60余篇,其中SCI 论文30 篇。参编“十二五”规划教材2部。
(一) 学习经历
2006年9月至2009 年6月 南京农业大学植物学专业 博士研究生
1997年9月至2001 年3月 西北师范大学植物学专业 硕士研究生
1988年9月至1992 年6月 西北师范大学生物教育专业 大学本科
(二) 工作经历
2001年9月至今 bd官方登录页面 讲师、副教授、教授。主要从事植物学等课程的教学与研究工作。主讲课程包括本科生的《植物学》、《生态学》、《植物生理学》以及研究生的《生物学研究课题设计与论文写作》、《植物发育生物学》和《生命科学研究进展》。
1992 年7 月至2001 年9月 甘肃省陇西师范学校助理讲师、讲师。从事中师《生物学》的教学工作。先后被评为“甘肃省骨干教师”、“定西地区学科带头人”、“定西地区学科骨干教师”。
(三) 科研项目
1. 利用转录组与蛋白组关联分析揭示花生镉吸收转运的分子机制。国家自然科学基金面上项目。项目编号:31671599。起止年月:2017.1—2018.12. 主持人,经费:25万元。
2. 植物根系形态对镉的可塑性响应机制:避逆还是觅食?国家自然科学基金面上项目。项目编号:31370515。起止年月:2014.1—2017.12. 主持人,经费:75万元。
3. 花生镉污染预防品种筛选与籽粒富镉生理机制研究。 国家自然科学基金面上项目。项目编号:31171464。起止年月:2012.1—2015.12. 主持人,经费:64万元。
4. 镉污染土地资源利用---能源植物大麻耐镉种质资源的筛选与生长调控。国家自然科学基金,项目编号:40971296,起止年月:2010.1—2012.12。主要参与人。经费:40万元。
5. 花生籽粒镉积累及其在品种间差异的生理机制。安徽省自然科学基金,项目编号:11040606M87,起止年月:2011.1—2012.12。主持人,经费:5万元。
6. 多变低水环境下根系生长、功能的调控及其机制。黄土高原土壤侵蚀与旱地农业国家重点实验室开放基金 (重点项目) 。项目编号:10501-277,起止年月:2011.1—2012.12。主持人,经费:8万元。
(四) 主要论文
1. Shi G, Cai Q. Cadmium tolerance and accumulation in eight potential energy crops. Biotechnology Advances, 2009, 27(5): 555-561.
2.Shi G*, Sun L, Wang X, Liu C. Leaf responses to iron nutrition and low cadmium in peanut: anatomical properties in relation to gas exchange. Plant and Soil, 2014, 375(1-2): 99-111.
3. Su Y, Wang X, Liu C, Shi G*. Variation in cadmium accumulation and translocation among peanut cultivars as affected by iron deficiency. Plant and Soil, 2013, 363(1-2): 201-213.
4. Su G, Li F, Lin J, Liu C, Shi G*. Peanut as a potential crop for bioenergy production via Cd-phytoextraction: A life-cycle pot experiment. Plant and Soil, 2013, 365(1-2):337-345.
5. Liu C, Guo J, Cui Y, L� T, Zhang X, Shi G*. Effects of cadmium and salicylic acid on growth, spectral reflectance and photosynthesis of castor bean seedlings. Plant and Soil, 2011, 344(1-2), 131-141.
6. Su Y, Liu J, Lu Z, Wang X, Zhang Z, Shi G*. Effects of iron deficiency on subcellular distribution and chemical forms of cadmium in peanut roots in relation to its translocation. Environmental and Experimental Botany, 2014, 97: 40-48.
7. Shi G*, Xia S, Ye J, Huang Y, Liu C, Zhang Z. PEG-simulated drought stress decreases cadmium accumulation in castor bean by altering root morphology. Environmental and Experimental Botany, 2015, 111: 127-134.
8. Xia S, Wang X, Su G, Shi G*. Effects of drought on cadmium accumulation in peanuts grown in a contaminated calcareous soil. Environmental Science and Pollution Research, 2015, 22(23): 18707-18717.
9. Xia S, Deng R, Zhang Z, Liu C, Shi G*. Variations in the accumulation and translocation of cadmium among pak choi cultivars as related to root morphology. Environmental Science and Pollution Research, 2016, 23(10): 9832–9842.
10. Yu R, Xia S, Liu C, Zhang Z, Shi G*. Variations in root morphology among 18 herbaceous species and their relationship with cadmium accumulation. Environmental Science and Pollution Research, 2017, 24(5): 4731-4740.
11. Shi G*, Xia S, Liu C, Zhang Z. Cadmium accumulation and growth response to cadmium stress of eighteen plant species. Environmental Science and Pollution Research, 2016, 23(22): 23071-23080.
12. Yu R, Li D, Du X, Xia S, Liu C, Shi G*. Comparative transcriptome analysis reveals key cadmium transport-related genes in roots of two pak choi (Brassica rapa L. ssp. chinensis) cultivars. BMC genomics, 2017, 18(1): 587.
13. Shi G, Cai Q. Leaf plasticity in peanut (Arachis hypogaea L.) in response to heavy metal stress. Environmental and Experimental Botany, 2009, 67(1): 112-117.
14. Lu Z, Zhang Z, Su Y, Liu C, Shi G*. Cultivar variation in morphological response of peanut roots to cadmium stress and its relation to cadmium accumulation. Ecotoxicology and Environmental Safety, 2013, 91: 147-155.
15. Shi G*, Su G, Lu Z, Liu C, Wang X. Relationship between biomass, seed components and seed Cd concentration in various peanut (Arachis hypogaea L.) cultivars grown on Cd-contaminated soils. Ecotoxicology and Environmental Safety, 2014, 110: 174-181.
16. Yu R, Tang Y, Liu C, Du X, Miao C, Shi G*. Comparative transcriptomic analysis reveals the roles of ROS scavenging genes in response to cadmium in two pak choi cultivars. Scientific reports, 2017, 7(1): 9217.
17. Chen C, Xia S, Deng R, Liu C, Shi G*. AhIRT1 and AhNRAMP1 metal transporter expression correlates with Cd uptake in peanuts under iron deficiency. PloS One, 2017, 12(10): e0185144.
18. Shi G, Liu C, Cui M, Ma Y, Cai Q. Cadmium tolerance and bioaccumulation of 18 hemp accessions. Applied Biochemistry and Biotechnology, 2012, 168(1), 163-173.
19. Zhang Z, Liu C, Wang X, Shi G*. Cadmium-induced alterations in morpho- physiology of two peanut cultivars differing in cadmium accumulation. Acta Physiologiae Plantarum, 2013, 35(7): 2105-2112.
20. Shi GR, Cai QS. Photosynthetic and anatomic responses of peanut leaves to zinc stress. Biologia Plantarum, 2009, 53(2): 391-394.
21. Shi G, Cai Q, Liu C, Wu L. Silicon alleviates cadmium toxicity in peanut plants in relation to cadmium distribution and stimulation of antioxidative enzymes. Plant Growth Regulation, 2010, 61(1):45-52.
22. Shi G, Cai Q, Liu Q, Wu L. Salicylic acid-mediated alleviation of cadmium toxicity in hemp plants in relation to cadmium uptake, photosynthesis and antioxidant enzymes. Acta Physiologiae Plantarum, 2009, 31(5): 969-977.
23. Shi GR, Cai QS. Photosynthetic and anatomic responses of peanut leaves to cadmium stress. Photosynthetica, 2008, 46(4): 627-630.
24. Shi G*, Zhang Z, Liu C. Silicon influences cadmium translocation by altering subcellular distribution and chemical forms of cadmium in peanut roots. Archives of Agronomy and Soil Science, 2017, 63(1): 117-123.
25. Liu C, Yu R, Shi G*. Effects of drought on the accumulation and redistribution of cadmium in peanuts at different developmental stages. Archives of Agronomy and Soil Science, 2017, 63(8): 1049-1057.
26. Shi G, Liu C, Cai Q, Liu Q, Hou C. Cadmium accumulation and tolerance of two safflower cultivars in relation to photosynthesis and antioxidantive enzymes. Bulletin of Environmental Contamination and Toxicology. 2010, 85(3): 256-263.
27. Shi G, Cai Q. Zinc tolerance and accumulation in eight oil crops. Journal of Plant Nutrition, 2010, 33(7): 982-997.
28. Su Y, Zhang Z, Su G, Liu J, Liu C, Shi G*. Genotypic differences in spectral and photosynthetic response of peanut to iron deficiency. Journal of Plant Nutrition, 2015, 38(1): 145-160.
29. Shi G*, Zhu-Ge F, Liu Z, Le L. Photosynthetic responses and acclimation of two castor bean cultivars to repeated drying–wetting cycles. Journal of Plant Interactions, 2014, 9(1): 783-790.
30. Liu CF, Li YH, Shi GR*. Utilize heavy metal-contaminated farmland to develop bioenergy. Advanced Materials Research, 2012, 414: 254-261.
31. Jiang L, Shi G, Ding Y, Lou L, Cai Q. Differential responses of two bamboo species (Phyllostachys auresulcata `spectabilis‘ and Pleioblastus chino `hisauchii‘) to excess copper. BioEnergy Research, 2013, 6:1223–1229.
(五) 著作与教材
1、《植物学》(第二版),副主编,2013年,中国农业科学技术出版社(普通高等教育农业部“十二五”规划教材)
2、《植物学实验技术》(第二版),参编,2013年,中国农业科学技术出版社(普通高等教育“十二五”规划教材)
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