WEI Shu-he
·Personal:
Name/titles/position: Dr. WEI Shu-he, Professor
Date/place of birth: Feb. 1970;
Nationality: P.R.China
Sex, civil status: Male; married
Home address:
Work address: Key Laboratory of Pollution Ecology and Environmental Engineering,
Tel: +86-24-83970382
Fax: +86-24-83970436
E-mail:shuhewei@iae.ac.cn; shuhewei@yahoo.com.cn
·Education:
Ph.D. 2004. Ecology (Major in Pollution Ecology).
·M.S. 2001. Agronomy.
B.S. 1992. Agronomy.
Professional Experience:
·Postdoctor. May, -November, 2010.
·Visiting Scholar. July 2006—July, 2007, Biogeochemistry of Trace Metals, Soil & Water Science Dept, Institute of Food & Agricultural Sciences, University of Florida
·July 2004—present, Professor, Phytoremediation, Institute of Applied Ecology of Chinese Academy of Sciences
·August 1992—August 2001, Assistant Professor, Rice Physiology and Nutrition, Rice Institute of Liaoning Province Academy of Agriculture of China
Professional Affiliations:
·Member, International Association for Ecology (INTECOL)
·Vice president, Soil Environment Committee, Soil Science Society of China
·Member,Young Scientist Work Committee of Chinese Natural Resource Association
· Member, Science Committee of Institute of Applied Ecology, Chinese Academy of Sciences
·Member of the council, Soil Science Society of Liaoning Province, China
Award
1). 2010
2).Youth Science and Technology Award,
3).Visiting Scholar Award, Chinese
4). International Conference Award, W.C.Wang Education Foundation, Hong Kong, July 6-11, 2009,
First Prize (3rd Accomplisher)
5). First grade award of Natural Science of Laoning Province, China.2008. The 5th contributor. Project: Occuring mechanism and remediation principle of heavy metal contaminated soil.
6). Second grade award of Science and Technology of Laoning Province, China.2006.The 2th contributor. Project: Phytoremediation of technology and application of contaminated soil.
7). Second grade award of Science and Technology of Laoning Province, China.2005. The 6th contributor. Project: Manufacture and application of complex flocculation reagent qualified with eco-safe and high efficient.
8). Second grade award of the National Animal Husbandry and Fishing Bumper Harvest award, Ministry of Agriculture, China. 2000. Project title: Technology of high rice yields with economically watering.
Editor
·International Research Journal of Geology and Mining(IRJGM),In English
·Acta Ecologica Sinica, Guest Editor, In English
Editorial Board Membership
·Journal of Environmental Studies, In English
·Global Journal of Environmental Science and Technology, In English
·Journal of Agro-Environment Science, in Chinese
·Environmental Science and Technology, in Chinese
Reviewers for Peer Refereed Journals:
·In English:
1).Joural of Hazardous Materials
2).Journal of Environmental Quality
3).Chemosphere
4).Science of the Total Environment
5).Environmental Science and Pollution Research
6).Physilogogia plantarum
7).International Journal of Phytoremediation
8).European Journal of Soil Biology
9).Archives of Environmental Contamination and Toxicology
10).Journal of Experimental Botany
11).Waste Management
12).Scientific Research and Assays
13).Bentham Science Publishers
14).Environmental Earth Sciences
15).International Journal of Plant Physiology and Biochemistry
16).International Research Journal of Plant Science
17).Fresenius Environmental Bulletin
18).Journal of Environmental Chemistry and Ecotoxicology
19).Frontiers of Envoirnmental Science & Engineering in China
20).Science Asia
·In Chinese:
1).China Environmental Science
2). Chinese Journal of Environmental Engineering
3). Chinese Journal of Applied Ecology
4). Chinese Journal of Ecology
5).Scientia Agricultura Sinica
6). Acta Ecologica Sinica
7). ACTA Scientiae Circumstantiae
8). Environmental Science
9).Journal of Agro-Environment Science
10).Acta Hytoecologica Sinica
11). Journal of Ecology and Rural Environment
12).Journal of Zhejiang University Agriculture and Life Science
Funding as Principal Investigator
1). National Science & Technology Pillar Program during the Twelfth Five-Year Plan Period‘resource application and demonstration of sludge and life solid waste in village’ (Grant No. 2012BAC17B04), January 2012—December 2014, 8050 K RMB
2).Hi-tech research and development program of
3).Natural Science Foundation of Liaoning Province, China ‘identification of Cd low accumulating green Chinese onion’(Grant No. 201102224) ,January 2012—December 2013, 50 K RMB
4). National Natural Science Foundation of China ‘main mechanism of Solanum nigrum hyperaccumulating Cd’ (Grant No. 31070455), January 2011—December 2013, 340 K RMB
5). National Natural Science Foundation of China ‘main rhizospherial mechanism of phytoremediating Cd contaminated soil in
6). Sino-Russia Government Scientific & Technology Cooperation Project ‘plant-microbial combine remediation heavy metal contaminated soil’(Grant No.13-33), January 2010—December 2010. Mutual visit programme
7). Natural Science Foundation of Liaoning Province of China ‘Screening Cd low accumulation rice cultivar from
8). Scientific Research Foundation for the Returned Overseas Chinese Scholars of Ministry of Education of China ‘mechanism of plant-microbial combine remediating Cd contaminated soil’, January 2009—December 2010, 20 K RMB
9). Key Foundation of Key Laboratory of Terrestrial Ecological Process, Institute of Applied Ecology, Chinese Academy of Sciences‘main principal of phytoremediating heavy metal contaminated soil’. August 2008—August 2010, 200 K RMB
10). Sub-class project of Hi-tech research and the development program of China ‘key technology of remediating combine polluted vegetable soil’(Grant No.2006AA06Z386), January 2006—June 2012, 990 K RMB
Funding as Important Executor
1). Key Project of National Natural Science Foundation of
2).
3). National Natural Science Foundation of China for the overseas young scientist grant (No. 20428707). January 2005—December 2007. 400 Thousand Yuan RMB
4). Key Project of National Natural Science Foundation of
5). outstanding Young Scientists Award from the National Natural Science Foundation of China (approved No. 20225722). January 2003—December 2006. 1 Million Yuan RMB
6). Knowledge-Innovation Project (KZCX2-SW-416) supported by
International Collaboration
1).
2).
3). Graduate
4).
5).University of
International presentations
1).July 6-11, 2009, International Conference on Plants & Environmental Pollution. Erciyes University, Kayseri /Turkey. Oral presentation: Screening of plants to remedy heavy metal contaminated soil and their strengthening measurements
2). Oct. 18-21,2008, 3rd International Conference on Soil Pollution and Remediation,
3).Sep. 13-15, 2007, International Symposium on Green Technology and Ecosystem Health, Linan,
Professional Interest:
Land pollution and its effects on health; Hyperaccumulators screening; ·Phytoremediation of heavy metals and PAHs contaminated soils; Environmental Fate of Pharmaceuticals and Personal Care Products (PPCPs); Rhizosphere processes of hyperaccumulation; ·Molecular basis of hyperaccumulation
Main academic points and contributions:
1).Established a system screening method of heavy metal accumulator plant, and the invention patent based on this idea has been authorized by
2). Consummated the main judge standard of hyperaccumulator, i.e. typical concentration property, translocation property, tolerance property and enhancement factor property, rather than only two standards as common accepted as typical concentration property and translocation property;
3). Proposed the theory that hyperaccumulator can also be found in unpolluted site. For the first time in the world systematicly identified hyperaccumulative plants based on weed species, and discovered 3 hyperaccumulators and 4 accumulators to Cd, which is a great breakthrough in phytoremediation theory and practice;
4). Named rhizosphere of plant as a special “ecological remediation unit” in contaminated soil and summarized its mechanism;
5). Proposed the idea treating the biomass of phytoremediation, i.e. keep it in ore mining tailing pool, which may be a better method to resolve the problem.
6).Identified 1 Cd excluder plant and 1 cultivar of Chinese cabbage with Cd low accumulation.
7). Constructed a series of technology to phyto-remedy the soil contaminated by Cd and PAHs, then produce Chinese cabbage simultaneously.
Invention Patents Authorized by
1). A modifier to remedy heavy metal and PAHs combine polluted soil and its application
Inventers: Shuhe Wei, Chuanjie Yang, Qixing Zhou, Rui Liu
Patent number: ZL200910013169.X
Authorized date: April 25, 2012
2). A method to clean Cd contaminated soil by a species of plant belonging to Compositae family.
Inventers: Shuhe Wei and Qixing Zhou
Patent number: ZL200610047846.6
Authorized date: May 12, 2010
3). Screening method of plants accumulating heavy metals.
Inventers: Shuhe Wei and Qixing Zhou
Patent number:ZL03133731.7
Authorized date: Mar 26, 2008
4). A method to clean Cd contaminated soil by a species of plant belonging to Solanaceae family.
Inventers: Shuhe Wei and Qixing Zhou
Patent number: ZL200410021546.1
Authorized date: Feb 27,2008
4). A method to clean Cd contaminated soil by a species of plant belonging to Cruciferae family.
Inventers: Qixing Zhou and Shuhe Wei
Patent number: ZL200410020981.2
Authorized date: Feb 27,2008
Content of Publication
Edited Books:
1) Zhou Qixing, Wei Shuhe, Zhang Qianru. Ecological remediation. Chinese Environmental Science Press,
2) Luo Yongming, Pan Genxing, Chen Tongbin, Zhu Yongguan, Zhou Dongmei, Wu Qitang, Wei Shuhe. Main Soil Environmental Problem and Countermeasure in
Book Chapters:
1).Xiangfeng Zeng, Alexandra Lynn, Shuhe Wei*, Jun Wang. Plant metabolomics and its application to explore metal toxicity mechanism. pp:89-106 in Gupta Dharmendra Kumar and Chatterjee Soumya. Heavy Metal Remediation: Transport and Accumulation in Plant. Nova Science Publishers, Inc. New York. 2014.(pp:1-260)
2). Wei Shuhe, Zhou Qixing. Chapter 3. Trace elements in agro-ecosystems. pp. 55-79. In: Prasad M.N.V. (Ed.) Trace Elements as Contaminants and Nutrients: Consequences in Ecosystems and Human Health. John Wiley & Sons, Inc Press. 2008.
3).Wei Shuhe, Zhou Qixing. Soil environmental problems and ecological countermeasures about Northeastern Region of China. pp. 43-48. In: Luo Yongming (Ed.) Main Soil Environmental Problem and Countermeasure in
4). Wei Shuhe. Chapter 4. Phytoremediation —basic method of ecological remediation. pp. 112-157. In: Zhou Qixing, Wei Shuhe, Zhang Qianru (Ed.) Ecological remediation. Chinese Environmental Science Press,
5). Wei Shuhe, Zhou Qixing and Song Yufang. Chapter 4. Phytoremediation of contaminated soils. pp.134-205. In: Zhou Qixing & Song Yufang (Eds.) Remediation of Contaminated Soils: Principles and Methods, Science Press,
Articles in refereed international journals (31 First and corresponding authors):
1.Wei Shuhe, Ji Dandan, Twardowska Irena,Li Yunmeng, Zhu Jiangong. Effect of different Effect of different nitrogenous nutrients on the cadmium hyperaccumulation efficiency of Rorippa globosa (Turcz.) Thell. Environmental Science and Pollution Research. 2015, 22: 1999-2007
2.WeiShuhe, Anders Iwona, Feller Urs. Selective uptake, distribution and redistribution of 109Cd, 57Co, 65Zn, 63Ni and 134Cs via xylem and phloem in the heavy metal hyperaccumulator Solanum nigrum L. Environmental Science and Pollution Research. 2014,21:7624-7630
3.Wei Shuhe,Zeng Xiangfeng,Wang Shanshan,Zhu Jiangong,Ji Dandan,Li Yunmeng,Jiao Hongjing. Hyperaccumulative property of Solanum nigrum L. to Cd explored from cell membrane permeability, subcellular distribution, and chemical form. Journal of Soils and Sediments. 2014, 14: 558-566,2.134
4 Liu Rui, Xiao Nan, Wei Shuhe*, Zhao Lixing, An Jing. Rhizosphere effects of PAH-contaminated soil phytoremediation using a special plant named Fire Phoenix. Science of The Total Environment. 2014,473-474:350-358,3.245
5.Wei Shuhe,Twardowska Irena. Main rhizosphere characteristics of the Cd hyperaccumulator Rorippa globosa (Turcz.) Thell. Plant and Soil. 2013, 372:669-681,2.715
6.Wei Shuhe, Wang Shanshan, Li Yunmeng, Zhu Jiangong. Root system responses of hyperaccumulator Solanum nigrum L. to Cd. Journal of Soils and Sediments.2013, 13:1069–1074
7.Zhan Jie, Wei Shuhe*, Niu Rongcheng, Li Yunmeng, Wang Shanshan, Zhu Jiangong. Identification of rice cultivar with exclusive characteristic to Cd using a field-polluted soil and its foreground application. Environmental Science and Pollution Research. 2013, 20:2645–2650,2.713
8. Wei Shuhe, Clark Gary , Doronila Augustine Ignatius , Jin Jian , Monsant Alison Carol. Cd Hyperaccumulative Characteristics of Australia Ecotype Solanum Nigrum L. and Its Implication in Screening Hyperaccumulator. International Journal of Phytoremediation. 2013, 15(3): 199-205
9. Wei Shuhe, Li Yunmeng, Zhan Jie, Wang Shanshan, Zhu Jiangong. Tolerant mechanisms of Rorippa globosa (Turcz.) Thell. hyperaccumulating Cd explored from root morphology. Bioresource Technology. 2012, 118: 455–459,4.698
10. Li Xuhui, Zhou Qixing, Wei Shuhe, Ren Wenjie. Identification of cadmium-excluding welsh onion (Allium fistulosum L.) cultivars and their mechanisms of low cadmium accumulation. Environmental Science and Pollution Research. 2012, 19:1773–1780
11. Wei Shuhe, Zhu Jiangong, Zhou Qixing, Zhan Jie. Fertilizer amendment for improving the phytoextraction of cadmium by a hyperaccumulator Rorippa globosa (Turcz.) Thell. Journal of Soils and Sediments. 2011,11:915–922
12.Wei Shuhe, Zhan Jie, Zhou Qixing, Niu Rongcheng, Li Yunmeng, Wang Shanshan. Effect of Environmentally Friendly Amendment on a Newly Found Accumulator Kalimeris integrifolia Turcz. ex DC. Phytoremediating Cd-Contaminated Soil. Water, Air & Soil Pollution. 2011,218(1-4): 479-486
13. Li Xuhui, Zhou Qixing, Wei Shuhe, Ren Wenjie, Sun Xiaoyin. Adsorption/desorption of carbendazim and cadmium on two typical soils as affected by temperature in northeastern China. Geoderma.2011, 160(3-4): 347-354
14.Sun Ruilian, Zhou Qixing, Wei Shuhe. Cadmium accumulation in relation to organic acids and non-protein thiols in leaves of the new-found Cd-hyperaccumulator Rorippa globosa and the Cd-accumulating plant Rorippa islandica. Journal of Plant Growth Regulation. 2011, 30(1): 83-91
15. Yang CJ, Zhou QX, Wei SH, Hu YH, Bao YY. Chemical-assisted phytoremediation of Cd-PAHs contaminated soils using Solanum Nigrum L. International Journal of Phytoremediation, 2011,13:818–833
16. Wei Shuhe, Zhou Qixing,Zhan Jie, Wu Zhijie, Sun Tieheng, Lyubu Yelena, Prasad M.N.V. Poultry manured Bidens tripartite L. extracting Cd from soil - potential for phytoremediating Cd contaminated soil. Bioresource Technology, 2010,101: 8907-8910
17. Wei Shuhe, Wang shanshan, Zhou Qixing, Zhan Jie, Ma Lihui, Wu Zhijie, Sun Tieheng, Prasad M.N.V. Potential of Taraxacum mongolicum Hand-Mazz for accelerating phytoextraction of cadmiumin combination with eco-friendly amendments, Journal of Hazardous Materials. 2010, 181: 480-484
18. Wei Shuhe, Li Yunmeng, Zhou Qixing, Srivastava Mrittunjai, Chiu Siuwai, Zhan Jie, Wu Zhijie, Sun Tieheng. Effect of fertilizer amendments on phytoremediation of Cd-contaminated soil by a newly discovered hyperaccumulator Solanum nigrum L. Journal of Hazardous Materials. 2010,176: 269-273,3.940
19. Wei Shuhe, Ma Lena Q., Saha Uttam, Mathews Shiny, Sundaram Sabarinath, Rathinasabapathi Bala, Zhou Qixing. Sulfate and glutathione enhanced arsenic accumulation by arsenic hyperaccumulator Pteris vittata L. Environmental Pollution. 2010,158:1530-1535,3.624
20. Liu Weitao, Zhou Qixing, Zhang Yinlong, Wei Shuhe. Lead accumulation in different Chinese cabbage cultivars and screening for pollution-safe cultivars. Journal of Environmental Management.2010, 91: 781-788
21. Wei Shuhe, Hu Yahu, Srivastava Mrittunjai, Zhou Qixing, Niu Rongcheng, Li Yunmeng, Wu Zhijie, Sun Tieheng. Seed germination of a newly discovered hyperaccumulator Solanum nigrum L. affected by illumination and seed-soaking reagent. Journal of Hazardous Materials. 2009,170:1256-1259
22. Wei Shuhe, Niu Rongcheng, Srivastava Mrittunjai, Zhou Qixing, Wu Zhijie, Sun Tieheng, HuYahu, Li Yunmeng, Bidens tripartite L.: A Cd-accumulator confirmed by pot culture and site sampling experiment. Journal of Hazardous Materials. 2009,170:1269-1272
23. Wei Shuhe, Zhou Qixing, Saha Uttam Kumar, XiaoHong, Hu Yahu, Ren Liping, Ping Gu. Identification of a Cd accumulator Conyza canadensis. Journal of Hazardous Materials. 2009, 263:32-35
24. Wei Shuhe, Zhou Qixing, Srivastava Mrittunjai, Xiao Hong, Yang Chuanjie, Zhang Qianru. Kalimeris integrifolia Turcz. ex DC.: An accumulator of Cd. Journal of Hazardous Materials. 2009, 162:1571-1573
25. Wei Shuhe, Zhou Qixing, Xiao Hong, Yang Chuanjie, Hu Yahu, Ren Liping. Hyperaccumulative property comparison of 24 weed species to heavy metals using a pot culture experiment. Environmental Monitoring and Assessment. 2009, 152:299-307
26. Wei Shuhe, Zhou Qixing, Mathews Shiny. A newly found cadmium accumulator - Taraxacum mongolicum. Journal of Hazardous Materials. 2008, 159:544-547. , IF:2.975
27.Wei Shuhe, Silva Jaime A. Teixeira Da, Zhou Qixing. Agro-improving method of phytoextracting heavy metal contaminated soil. Journal of Hazardous Materials. 2008,150:662-668
28. Wei Shuhe, Zhou Qixing, Saha Uttam Kumar. Hyperaccumulative characteristics of weed species to heavy metals. Water Air & Soil Pollution. 2008,192:173-181
29.Wei Shuhe, Zhou Qixing. Screen of Chinese weed species for cadmium tolerance and accumulation characteristics. International Journal of Phytoremediation.2008. 10:584-597
30. Cui Shuang, Zhou Qixing, Wei Shuhe, Zhang Wei,
31. Sun Yuebing , Zhou Qixing , Wei Shuhe, Ren Liping. Growth responses of the newly-discovered Cd-hyperaccumulator Rorippa globosa and its accumulation characteristics of Cd and As under joint stress of Cd and As. Frontiers of Environmental Science & Engineering in China, 2007 1(1):107-113.
32. Wei Shuhe, Zhou Q, Koval PV. Flowering stage characteristics of cadmium hyperaccumulator Solanum nigrum L. and their significance to phytoremediation. Science of the Total Environment. 2006, 369:441-446
33. Wei Shuhe, Zhou Qixing. Phytoremediation of Cadmium-contaminated soils by Rorippa globosa using two-phase planting. Environmental Science & Pollution Research. 2006, 13:151-155
34. Wei Shuhe, Zhou Qixing and Wang Xin. Identification of weed plants excluding the uptake of heavy metals. Environmental International. 2005, 31:829-834
35. Wei Shuhe, Zhou Qixing, Wang Xin, Zhang Kaisong,Guo Guanlin, Ma Lena. A newly-discovered Cd-hyperaccumulator Solanum nigrum L. Chinese Science Bulletin. 2005, 50:33-38
36. Wei Shuhe, Zhou Qixing. Identification of weed species with hyperaccumulative characteristics of heavy metals. Progress in Natural Science. 2004, 14:495-503
37. Wei Shuhe, Zhou Qixing, Wang Xin,
Articles in refereed Chinese journals:
1). Niu Rongcheng, Wei Shuhe, Zhou Qixing,Zhan Jie, Li Yunmeng, Wang Shanshan,Zhang Lidan, Wang Xiaojing. Advances of plant-microbe remediation of contaminated soil with heavy metal. World Sci-Tech Research and Development. 2010,32(5),663-666,680 (Corresponding author)
2). Hu Yahu, Wei Shuhe, Zhou Qixing, Zhan Jie, Niu Rongcheng, Li Yunmeng, Wamg Shanshan. Application of chelator in phytoremediation of heavy metals contaminated soils: a review. Journal of Agro-Environment Science. 2010,29(11):2055-2063 (Corresponding author)
3). Yang Chuanjie, Wei Shuhe, Zhou Qixing, Hu Yahu, Niu Rongcheng. Effects of illumination and seed-soaking reagent on seed germination of Solanum nigrum. Chinese Journal of Applied Ecology. 2009,20:1248-1252.(Corresponding author)
4). Yang Chuanjie, Wei Shuhe, Zhou Qixing. Advances of enhanced phytoremediation of heavy metals and PAHs in contaminated soils. World Sci-Tech Research and Development. 2009,31:332-337. (Corresponding author)
5).Yang Chuanjie, Wei Shuhe, Zhou Qixing, Zhang Lei, Bao Yanyu, Gu Ping, Ren Liping, Liu Rui. Promotion effects of exogenous amino acids on phytoremediation of Cd-PAHs contaminated soils by using hyperaccumulator plant Solanum nigrum. Chinese Journal of Ecology. 2009,28(9):1829-1834
6).Wei Shuhe, Zhou Qixing, Ren Liping. Hyperaccumulative characteristics of Rorippa globosa to heavy metals. Progress in Natural Science. 2008, 16: 45-51.
7). Wei Shuhe, Yang Chuanjie, Zhou Qixing. Hyperaccumulative characteristics of 7 widely distributed weed species in composite family especially Bidens pilosa to heavy metals. Environmental Science. 2008, 29:2912-2918.
8). Zhou Qixing, An Xinlong. Wei Shuhe Heavy metal pollution ecology of macro-fungi:research advances and expectation. Chinese Journal of Applied Ecology. 2008, 19:1848-1853.
9). Zhou Qixing, Wei Shuhe,Diao Chunyan. Basic principles and research progresses in ecological remediation of contaminated soils. Journal of Agro-Environment Science. 2007, 26:419-424.
10). Zhou Qixing, Wei Shuhe. Agricultural environmental research and its develop trend in the world. Crops. 2006, 2:1-3.
11). Wei Shuhe, Zhou Qixing, Pavel V. Koval, Galina A. Belogolova phytoremediation of organic pollutants-contaminated environment: a research review. Chinese Journal of Ecology. 2006, 25:716-721.
12). Wei Shuhe, Zhou Qixing, Wang Xin. Cadmium-hyperaccumulator Solanum nigrum L. and its accumulating characteristics. Environmental Science. 2005, 26:167-171.
13). Wei Shuhe, Zhou Qixing, Liu Rui. Utilization of weed resource in the remediation of soils contaminated by heavy metals. Journal of Natural Resource. 2005, 20:432-440.
14). Wei Shuhe, Zhou Qixing, Wang Xin,
15). Wei Shuhe, Zhou Qixing, Wang Xin,
16). Wei Shuhe, Zhou Qixing. Discussion on basic principles and strengthening measurements for phytoremediation of soils contaminated by heavy metals. Chinese Journal of Ecology. 2004, 23:65-72.
17). Zhang Kaisong, Zhou Qixing, Wei shuhe, Ren Liping. Performance of a novel combined flocculant HECES.Chinese Journal of Applied Ecology. 2003,14:789-793.
18). Wei Shuhe, Zhou Qixing,Zhang Kaisong,Liang Jidong. Roles of rhizosphere in remediation of contaminated soils and its mechanisms.Chinese Journal of Applied Ecology. 2003,14:143-147.
19). Wei Shuhe, Zhou Qixing, Wang Xin. Characteristics of 1 8 Species of W eed Hyperaccumulating Heavy M etals in Contaminated Soils. Journal of Basic Science and Engineering. 2003,11:152-160.
20). Wei Shuhe, Chen Wenfu, Xu Zhengjin, Wang Jianlin. Review of rice yield index research. Reclaiming and Rice Cultivation. 2001, supplement:1-2.
21). Wang Jianlin, Xu Zhengjing, Wei Shuhe. Progress on rice plant type breeding with emphases in characteristics of physiology and ecology.
22). Wang Jianlin,Li Yanming, Wei Shuhe.General situation of wheat seed grouting characteristic and its breeding assessment.
23). Han Chunlei, Wei Shuhe. Dry matter accumulation dynamics and distribution of photosynthate production of high yield rice population.
24). Wei Shuhe, Hou Shougui,Liu Xianping,Zhou Jibin, Han Chunlei. Effect of coated carbamide on rice production in a field experiment. Reclaiming and Rice Cultivation.1997, 1:14-15.
25). Han Chunlei, Hou Shougui, Liu Xianping, Wei Shuhe. Effect of cultivation technology on rice quality and its yield relationships.
26). Han Chunlei, Wang Yusan, Zhou Jibin, Wei Shuhe. A high yield rice cultivation technology with wide space planting using rice seedlings germinated in earthen trays. Chinese Rice. 1997, 6:42-47.
27). Han Chunlei, Wei Shuhe. Characteristics of high yield rice canopy and its relationship with grain yield. Liaoning Agriculture Science.1996, 3:24-27.
