| 光谱学与光谱分析 |
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| Effect of Strengthening Solar Ultraviolet B Band Irradiation on Oat (Avena Sativa L. )Yield and Its Components in Qing Tibetan Plateau |
| WANG Sheng-yao1,2,WANG Kun1*,ZHAO Yong-lai2,XIN You-jun2 |
1. The Institute of Grassland Research of Animal Scientific College of China Agricultural University,Beijing 100094, China
2. The General Station of Grassland of Qinghai Province,Xining 810008, China |
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Abstract Stratospheric ozone depletion occurs mainly over polar regions during the spring when the solar Ultraviolet B-band (280-315 nm, UV-B) radiation is most intense in a year,but over the Qing Tibetan Plateau region, the highest intensity is from June to September when the amount of UV-B radiation reaching the regions is more than that in the adjacent areas lying in the same latitude by 10%. From June to September is just the time of plant’s germination, development, and reproduction in the alpine region. UV-B radiation may alter the reproduction of the forage plant, oat (Avena sativa.), which plays the vital role in developing indigenous herdsman’s animal husbandry industry. The responses of oat yield and its components to the enhanced ultraviolet B band irradiation under the field condition were surveyed. The effect shows that the grain yield is decreased significantly by strengthened UV-B irradiation, and at the same time the main consequence is the decrease in both the number of ears per square meter and the number of grains per ear, but the weight of 1 000 grains appears not significantly different. Compared with the same respective location in a spikelet, the grain weight is decreased significantly under the treated condition, mostly because of the decreases in the number of the third and forth floret grain and the grain weight at those respective positions, and the percentage of the first and second floret grain and their weight are evidently approved on the contrary.
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Received: 2007-10-08
Accepted: 2008-01-12
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Corresponding Authors:
WANG Kun
E-mail: wangkun@cau.edu.cn
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[1] GUO Song,ZHOU Xiu-yi(郭 松, 周秀骥). Chinese Science Bulletin(科学通报), 1994, 39(1):17.
[2] ZHOU Xiu-yi,LUO Chao, LI Wei-qi(周秀骥, 罗 超,李维奇). Chinese Science Bulletin(科学通报), 1995, 40(15): 1396.
[3] WANG Chuan-hai, ZHENG You-fei, WAN Chang-jian(王传海, 郑有飞, 万长建). Agricultural Environment Conservation(农业环境保护), 2000, 19(4): 221.
[4] LI Yuan, WANG Xun-ling(李 元, 王勋陵). Academic of Environment Science(环境科学学报), 1998, 18(5): 44.
[5] WANG Chuan-hai, YAN Pei-jun(王传海, 严培君). Chinese Agricultural Science Bulletin(中国农学通报), 2004, 20(3): 80.
[6] YAN Bin, DAI Qiu-jie(晏 斌, 戴秋杰). Academic of Plant Physiology(植物生理学报), 1996, 22(4): 35.
[7] LI Shao-shan(李韶山). Academic of Laser Biology(激光生物学报), 2000, 9(1): 61.
[8] Caldwell M M, Flint S D. Climatic Change, 1994, 28(4): 375.
[9] LIU Yu, LI Wei-liang(刘 煜, 李维亮). Acta Meteorologica Sinica(气象学报), 2001, 59(1): 23.
[10] WANG Chuan-hai, ZHENG You-fei, HE Yu-hong(王传海,郑有飞, 何雨红). Journal of Nanjing Institute of Meteorology(南京气象学院学报), 2000, 23(2): 12.
[11] WANG Chuan-hai, ZHENG You-fei, HE Du-liang(王传海, 郑有飞, 何都良). Journal of Agro-Environment Science(农业环境科学学报), 2003,22(2):147.
[12] ZHANG Rong-gang, HE Yu-hong, ZHENG You-fei(张荣刚,何雨红,郑有飞). Chinese J. of Agrmeteorology(中国农业气象), 2003, 24(2): 24.
[13] Van T K. Crop Science, 1976, 16: 715.
[14] LI Yuan,WANG Xun-ling(李 元, 王勋陵). Academic of Environment Science(环境科学学报), 1998, 18(5): 504.
[15] LU Feng, XIAO Jie, LIN Pei-ying, et al(陆 峰, 肖 杰, 林培英, 等). Spectroscopy and Spectral Analysis(光谱与光谱分析),2004, 24(1): 82.
[16] LI Yuan, HE Yong-mei, ZU Yan-qun(李 元, 何永美, 祖艳群). Chinese Journal of Applied Ecology(应用生态学报), 2006, 17(1): 123.
[17] ZHAO Ping, ZENG Xiao-ping,SONG Gu-chou(赵 平,曾小平,孙谷畴). J. Appl. Environ. Biol.(应用与环境生态学报),2004, 10(1): 122.
[18] Zu Y Q, Li Y, Chen H Y. Enviromental and Experimental Botany, 2004, 50: 87.
[19] Searles P S, Flint S D, Diaz S B, et al. J. Ecology, 2002, 90(2): 704.
[20] REN Wei-bo, HAN Jian-guo, ZHANG Yun-wei, et al(任卫波, 韩建国, 张蕴微, 等). Spectroscopy and Spectral Analysis(光谱与光谱分析),2008, 28(2): 303.
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