光谱学与光谱分析 |
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Application of Near-Infrared Reflectance Spectroscopy in Grass Breeding with Space Flight Mutagenesis |
REN Wei-bo1,3,HAN Jian-guo1,ZHANG Yun-wei1*,GUO Hui-qin2 |
1. Institute of Grassland Science, China Agricultural University, Beijing 100094, China 2. Institute of Bioengineering,Inner Mongolia Agricultural University, Huhhot 010018, China 3. Grassland Research Institute, Chinese Academy of Agriculture Sciences, Huhhot 010010, China |
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Abstract Near infrared reflectance spectroscopy is a new fast and efficient analysis method. It has been wildly used in many areas such as evaluation of feedstuff, assessment of soil fertilizer and so on. In the present paper, the principle, technique method and merits of NIRS were introduced. The potential application of NIRS in grass breeding with space flight mutagenesis was discussed in areas such as analysis of grass nutrition, estimate of secondary metabolism compounds, forecast of disease and insects resistance, and evaluation of abiotic stress. The conclusion is that application of NIRS in grass breeding with space mutagenesis is significant in both academic and technical areas because it not only improves the efficiency of mutation selection but helps uncover the mechanism of space mutation breeding.
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Received: 2006-09-09
Accepted: 2006-12-16
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Corresponding Authors:
ZHANG Yun-wei
E-mail: zywei@126.com
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[1] ZHANG Zi-yi, CHEN Xue-xiu,REN Peng(张子仪,陈雪秀,任 鹏). Analytical Technology of Near Infrared Spectroscopy(近红外光谱分析技术). Beijing: China Agricultural Press(北京:中国农业出版社),1992. [2] Norris K H, Bames R F, et al. J. Animal Sci., 1976, 43(4): 897. [3] Williams P C, Norris K H. Near-Infrared Technology: In the Agricultural and Food Industries, St. Paul. Mina: American Association of Cereal Chemist,2001. 43. [4] Batten G D. Australian J. of Experimental Agriculture, 1998, 38(7): 697. [5] WANG Yi-lin, YANG Qun, YANG De(王怡林,杨 群,杨 德). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(6): 1057. [6] YANG Qun, WANG Yi-lin, YANG Ai-ming, et al(杨 群,王怡林,杨爱明,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(3): 438. [7] SU Cai-zhu, YIN Ping-he(苏彩珠,尹平河). Phys. Tes. and Chem. Anal. Part B: Chemistry(理化检验—化学分册),2003,39(2):126. [8] Norris K H. Applied Spectroscopy Reviews, 1992,27(4): 325. [9] Williams P C. Cereal Chem., 1982, 59: 473. [10] XU Guang-tong, YUAN Hong-fu, LU Wan-zhen(徐广通,袁洪福,陆婉珍). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2000,20(2): 134. [11] FAN Shi-fu(范世福). Analytical Instrumentation(分析仪器), 1991, (3): 83. [12] Cyranoski D. Nature,2001, 410: 857. [13] Dennis N, Ding Y M. Science,2002,296: 1788. [14] JIANG Xin-cun(蒋兴村). Satellite Application(卫星应用), 1996, 4(3): 21. [15] MI Shi-jun, HAO Zai-bin(密士军,郝再彬). Heilongjiang Agricultural Science(黑龙江农业科学),2002, (4): 31. [16] LI Cong, WANG Zhao-qing(李 聪,王兆卿). Pratacultural Sci.(草地学报),2002(supp.), 61. [17] Xu Y Y, Jia J F, Wang J B, et al. Grass and Forage Science(草业科学), 1999, 54: 371. [18] HAN Lei, SUN Zhen-yuan, et al(韩 雷, 孙振元, 等). Pratacultural Science(草业科学),2004,21(5): 17. [19] REN Wei-bo, HAN Jian-guo, ZHANG Yun-wei, et al(任卫波, 韩建国, 张蕴薇,等). Acta Agrestia Sinica(草地学报),2006, 14(2): 112. [20] REN Wei-bo, HAN Jian-guo, ZHANG Yun-wei, et al(任卫波, 韩建国, 张蕴薇,等). Pratacultural Science(草业科学),2006,23(3): 72. [21] Williams P C, Stevnson S G, et al. J. Sci. Fd. Agric., 1978,29: 285. [22] Dowell F E, Ram M S, Seitz L M. Cereal Chemistry, 1999, 76(4): 573. [23] WU Jian-guo, SHI Chun-hai(吴建国,石春海). J. Plant Genetic Resources(植物遗传资源学报),2003, 4(1): 68. [24] Velasco L, Becker H C. Euphytica, 1998, 101: 221. [25] Coleman S W,Murray I. Animal Feed Science and Technology, 1993, 44: 237. [26] Flinn P C, Heazlewood P G. RIRDC Publication,2000. [27] Brown W F, Moore J E, Kunkle W E, et al. Journal of Animal Science, 1990, 68: 1416. [28] Windlham W R, Fales S L, Hoveland C S. Crop Sci., 1998, 38: 705. [29] Roberts C A, Beuselinck P R, et al. Crop Sci., 1993, 33: 675. [30] Clark D H, Ralphs M H, Lamb R C. Agron. J., 1987, 79: 485. [31] Velasco L, Matthaus B, Mollers C. Crop Sci., 1998, 38: 1650. [32] Velasco L, Mollers C. Crop Sci., 1998, 38: 1645. [33] Roberts C A, Marek S M, Wang L, et al. Crop Science, 1994, 34: 1070. [34] Rutherford R S, Van S J. J. Chem. Ecology, 1996,22: 681. [35] WU Xiu-qin, JIN Da-sheng, LIU Xu-ming(吴秀琴,金达生,刘旭明). Journal of China Agriculture Science(中国农业科学),1995,28:92. [36] Wang S M, Wan C G, Wang Y R. J. Arid Environments.,2004, 56: 525. [37] Singh T N. Nature New Biol., 1972,236: 188. [38] Borman H C, Janshan E V N. J. Physiol. Plant., 1980, 48: 491. [39] Lachno D R, Baker D A. Physiol. Plant, 1986, 68: 215. [40] Wu J G, Shi C H, Zhang X M. Field Crops Res.,2002, 75(1): 1. [41] Halgerson J M, Sheaffer C C, Hesterman O B, et al. Agron. J., 1995, 87: 1227. [42] Hattey J A, Sabbe W E, Basten G D, et al. Soil Sci. Plant Anal., 1994,25: 1185. [43] Clark D H, Cary E E, Mayland H F. Agron. J., 1989, 81: 91. [44] Clark D H, Mauland H F, Lamb R C. Agrion. J., 1987, 79: 485. |
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