光谱学与光谱分析 |
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Application and Prospect of Spectroscopy in the Turfgrass Quality Evaluation Program |
WANG Lei1,2,WANG Kun1* |
1. Department of Grassland Science, Animal Science and Technology College, China Agricultural University, Beijing 100094, China 2. Forestry College, Inner Mongolia Agricultural University, Hohhot 010018, China |
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Abstract In the process of protection and improvement of the city ecological environment, the turfgrass’ role cannot be substituted. Many researches on turfgrass have been made in terms of ecology, physiology and biotechnology, but still revealed the insufficiency regarding the research on turfgrass quality evaluation program. Particularly, the judgment method used in the turfgrass quality evaluation program often lacked the objective basis. The spectral analysis is the method based on the materials emission or absorption of electromagnetic radiation as well as the mutual relation between material and the electromagnetic radiation. There are many merits during the spectral analysis: timeliness, operation simplicity, cost low cost, no sample consumption and so on. As one kind of effective, convenient and objective analysis means, spectroscopy has found certain applications in the turfgrass field, such as turfgrass coverage degree, turfgrass colour and lustre, turfgrass disease and turfgrass uniformity, thereby, the application of spectral technology in turfgrass quality evaluation could ensure the result with rationalism and standardization. At the same time, it is expected that various analysis software,models and new instruments to be applied to the turfgrass field are going to be improved. Furthermore, it is hoped that the spectrum technology is to be applied widely in turfgrass science study.
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Received: 2007-03-29
Accepted: 2007-06-29
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Corresponding Authors:
WANG Kun
E-mail: wangkun@cau.edu.cn
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[1] Dernoeden P H, Carro ll M J, Krouse J M. Crop Science, 1993, 33: 1055. [2] Fidanza M A, Dernoeden P H. Crop Science., 1996, 36: 1620. [3] Turgeon A J. Turfgrass Management. Englewood Cliffs. New Jersey: Prentice-Hall. Inc., 1996. 36. [4] MAO Pei-sheng, HAN Jian-guo, PU Xin-chun, et al(毛培胜,韩建国,浦心春,等). Grassland of China(中国草地), 1997, 19(2): 36. [5] OUYANG Di-mei, DING Shao-jiang, ZHU Wei-hua, et al(欧阳底梅, 丁少江, 朱伟华, 等). Pratacultural Science(草业科学), 2005, 22(3): 98. [6] JIANG Hai-dong, CAO Wei-xing, WANG Ju-bin(江海东,曹卫星,王举斌). Ptatacultural Science(草业科学), 1998, 15(2): 55. [7] Cohen M J, Dabral S, Graham W D, et al. Environmental Monitoring and Assessment, 2006. 116: 1/3: 427. [8] Shepherd K D, Palm C A, Gachengo C N, et al. Agronomy Journal. 2003, 95(5): 1314. [9] Ian R, Rodriguez, Grady L. Agronomy Journal, 2000, 92: 423. [10] Thosmas Fermanian, Mark S Chmidt, Siddhartha. 2003 Illinois Turfgrass Research Report. 2003. 8. [11] WANG Jia-zhen(王加甄). Grassland and Turf(草原与草坪), 2005, (2): 15. [12] LI Min-zan(李民赞). Technology of Spectroscopy and Its Applications(光谱分析技术及其应用). Beijing: Science Press(北京: 科学出版社), 2006. 2. [13] Marten G C, Shenk J S, Barton Ⅱ F E. Agric. Handb., 1985, 643(6): 43. [14] Rinehart G J, Baird J H, Calhoun R N, et al. International Turfgrass Society, 2001, 9: 705. [15] TANG Yan-lin, HUANG Jing-feng, WANG Xiu-zhen(唐延林,黄敬峰,王秀珍). Scientia Agrucultural Sinica(中国农业科学), 2004, 37(1):29. [16] LI Minzan. Proceeding of International Conference on Environmental Engineering in Agricultural System, Kanazawa, Japan, September 12-15, 2005. 1. [17] Pitman W D, Piacitelli C K, Aiken G E, et al. Agronomy Journal, 1991, 83(1): 103. [18] Lila M, Furstoss V, Bertrand D. Proceedings of the XVI International Grassland Congress, 4-11 October 1989, Nice, France, 1989, 1429. [19] Wachendorf M, Ingwersen B, Taube F. Grass and Forage Science, 1999, 54(1): 87. [20] Fermanian Thosmas, Schmidt Mark. Siddhartha., 2002 Illinois Turfgrass Research Report, 2002. 14. [21] LIU Zhan-yu, HUANG Jing-feng, WU Xin-hong, et al(刘占宇, 黄敬峰, 吴新宏, 等). Chinese Journal of Applied Ecology(应用生态学报), 2006, 17(6): 955. [22] ZHOU Jia-xiang, ZHU Jian-jun, ZUO Ting-ying(周家香, 朱建军, 左廷英). Mine Surveying(矿山测量), 2006, 1: (13-14): 50. [23] ZHANG You-jing, HUANG Hao, MA Xue-mei(张友静, 黄 浩, 马雪梅). Geography and Territorial Resarch(地理与地理信息科学), 2006, 22(3): 35. [24] ZHAO Chun-jiang, LIU Liang-yun, ZHOU Han-chang(赵春江,刘良云,周汉昌). Optical Technique(光学技术), 2004, 30(3):324. [25] White R H, Engelke M C, Morton S J, et al. Crop Sci., 1992, 32: 251. [26] XUE Li-hong, CAO Wei-xing, LUO Wei-hong(薛利红,曹卫星,罗卫红). Journal of Plant Ecology(植物生态学报), 2004, 28(2): 172. [27] YANG Min-hua, LIU Liang-yun, LIU Tuan-jie(杨敏华,刘良云,刘团结). Acta Geodaetica et Cartographica Sinica(测绘学报), 2002, 31(4): 316. [28] James A Murphy, Gregory Castano, et al. The Third Annual RUTGERS Turfgrass Symposium, January 21, 1994, New Brunswick, 1994. 1. [29] Couillard A A, Turgeon A J, Shenk J S, et al. Hort Science, 1994, 29: 249. [30] Hill N S, Petersen J C, Shelby R A, et al. Crop Sci., 1987, 27: 1291. [31] Roberts C A, Barton F E II, Moore K J. Agronomy. Journal, 1988, 80: 737. [32] Brown R B, Steckler J, Anderson G W. Transactions of the Ameerican Society of Agricultural Engineers, 1994, 37(1): 297. [33] Vrindts E, De Baerdemaeker J, Romom H. Proceedings of the 2nd European Conference on Precision Agriculture, Odense, Denmark. Sheffield, UK: Sheffield Academic Press, 1999. 257. [34] Wang Ning, Zhang Naiqian, Dowell Floyd E, et al. Proceedings of 99 International Conference on Agriculture Engineering, Beijing, China, 1999. 38. [35] MAO Wen-hua, WANG Yue-qing, WANG Yi-ming, et al(毛文华,王月青,王一鸣, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(6): 984. [36] Shepard D P, Dipaola J M, Burns J C, et al. Agronomy Abstracts, 1990, 11: 182. [37] Narra S, Fermanian T W, Swiader J M. Crop Science, 2005, 45(1): 266. [38] Boval M, Coates D B, Lecomte P, et al. Animal Feed Science and Technology, 2004, 114: 1/4: 19. [39] Villamarin B, Fernandez E, Mendez, J. Journal of AOAC-International, 2002, 85(3): 541. [40] Liu H Q, Huete A R. Remote Sensing, 1995, 33: 357. [41] Pravdova V, Walczak B. Analytica Chimica Acta, 2001, 450: 131. [42] Pirie A, Balwant Singh, Kamrunnahar Islam. Australian Journal of Soil Research, 2005, 43(6): 713. |
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