光谱技术与反刍动物甲烷排放的精确监测

doi:10.3964/j.issn.1000-0593(2009)03-0740-05

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摘要：目前所公布的反刍动物CH₄排放量仅是一个估计值，因为影响反刍动物CH₄排放的因素较多，使目前所应用的动物CH₄排放监测技术都存在较大的不确定性。被发展起来的监测CH₄排放的方法都不能准确的监测反刍动物CH₄的排放量和动态，不同的测定方法所得结果差异较大，反刍动物CH₄排放的精确监测是一个较难的技术问题。相比而言，光谱技术监测反刍动物CH₄排放是近年来发展较快、测试结果准确的技术手段。采用改进的红外光谱CH₄测量系统，激光技术和近红外光谱传感系统可以实现反刍动物在舍饲条件下及自然放牧状态下CH₄排放动态、排放量的精确监测。因此光谱技术是反刍动物CH₄监测前沿技术，对精确预测动物CH₄排放，提出减排方案具有重要作用。

关键词：CH₄;反刍动物;气体吸收光谱;激光技术;光纤传感器

Abstract：The increase in atmospheric CH₄ concentration, on the one hand through the radiation process, will directly cause climate change, and on the other hand, cause a lot of changes in atmospheric chemical processes, indirectly causing climate change. The rapid growth of atmospheric methane has gained attention of governments and scientists. All countries in the world now deal with global climate change as an important task of reducing emissions of greenhouse gases, but the need for monitoring the concentration of methane gas, in particular precision monitoring, can be scientifically formulated to provide a scientific basis for emission reduction measures. So far, CH₄ gas emissions of different animal production systems have received extensive research. The methane emission by ruminant reported in the literature is only estimation. This is due to the various factors that affect the methane production in ruminant, there are various variables associated with the techniques for measuring methane production, the techniques currently developed to measure methane are unable to accurately determine the dynamics of methane emission by ruminant, and therefore there is an urgent need to develop an accurate method for this purpose. Currently, spectroscopy technique has been used and is relatively a more accurate and reliable method. Various spectroscopy techniques such as modified infrared spectroscopy methane measuring system, laser and near-infrared sensory system are able to achieve the objective of determining the dynamic methane emission by both domestic and grazing ruminant. Therefore spectroscopy technique is an important methane measuring technique, and contributes to proposing reduction methods of methane.

Key words：Methane;Ruminant;Gas-absorb spectrum;Laser technology;Fiber transducer

收稿日期: 2007-11-22 修订日期: 2008-03-01

中图分类号:	S8
	X8
	O43

通讯作者: 龙瑞军 E-mail: longrj@lzu.edu.cn

引用本文:

尚占环¹,郭旭生²,龙瑞军^1* . 光谱技术与反刍动物甲烷排放的精确监测[J]. 光谱学与光谱分析, 2009, 29(03): 740-744.
SHANG Zhan-huan¹,GUO Xu-sheng²,LONG Rui-jun^1*. Spectroscopy Technique and Ruminant Methane Emissions Accurate Inspecting. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(03): 740-744.

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[1] WEI Xiu-li, LU Yi-huai, GAO Min-guang, et al(魏秀丽，陆亦怀，高闽光，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2007, 27(4): 668.
[2] ZHANG Xiu-jun(张秀君). Journal of Shenyang College of Eduction(沈阳教育学院学报), 2004, 6(1): 132.
[3] ZHANG Ren-jian, WANG Ming-xing, LI Jing, et al(张仁健，王明星，李晶，等). Climatic and Environmental Research(气候与环境研究), 1999, 4(2): 192.
[4] FANG Jing-yun, CHEN An-ping, PENG Chang-hui, et al. Science, 2001, 292: 2320.
[5] Khalil M A K, Shearer M J. Chemosphere, 1993, 26: 1.
[6] TAO Zhan(陶战). Agro-Environmental Protection(农业环境保护), 1993, 12(5): 193.
[7] DONG Hong-min, LIN Er-da, YANG Qi-chang(董红敏，林而达，杨其长). Rural Eco-Environment(农村生态环境), 1995, 11(3): 4.
[8] ZHANG Yun-tao, FANG De-luo(张运涛，方德罗). Chinese Journal of Animal Science(中国畜牧杂志), 1999, 35(1): 47.
[9] Mills J A N, Kebreab E, Yates C M, et al. J. Anim. Sci., 2003, 81: 31.
[10] Mcclinton L. National Hog Farmer, 2004, 49: 14.
[11] HE Yong-hui, WANG Qing-hua, LI Jie(贺永惠，王清华，李杰). Journal of Yellow Cattle Science(黄牛杂志), 2001, 27(5): 47.
[12] LI Jian-xin, GAO Teng-yun(李新建，高腾云). Ecology of Demestic Animal(家畜生态), 2002, 23(4): 67.
[13] Holter J B, Young A J. Journal of Dairy Science, 1992, 75(8): 2165.
[14] HAO Xian-jun, HONG Jian-ping, GAO Wen-jun(郝鲜俊，洪坚平，高文俊). Guizhou Agricultural Science(贵州农业科学), 2007, 35(1): 111.
[15] Miller T T, Wolin M J, Zhao H, et al. Appl. Environ. Microbiol., 1986, 51: 201.
[16] Ferry G G. Crit. Rev. Biochem., 1992, 27: 473.
[17] Dimarco A A, Bobik T A, Wolfe R S. Ann. Rev. Biochem., 1990, 59: 355.
[18] Vogels G D, Hoppe W F, Stumm C K. Appl. Environ. Microbiol., 1980, 40: 608.
[19] Whitelaw F G, Eadie J M, Bruce L A, et al. Br. J. Nutr., 1984, 52: 261.
[20] Krumholz L R, Forsberg C W, Veira D M. Can. J. Microbiol., 1983, 29: 676.
[21] AN Juan, ZHAO Xiao-chuan(安娟，赵晓川). Feed Industry(饲料工业), 2006, 27(13): 57.
[22] HAO Zheng-li, LIU Shi-min, MENG Xian-zheng(郝正里，刘世民，孟宪政). Ruminant Natrition(反刍动物营养学). Lanzhou: Gansu National Press(兰州: 甘肃民族出版社), 2000. 5.
[23] ZHANG Xiao-qing, JIN Yan-mei, NA Ri-su(张晓庆，金艳梅，那日苏). Acta Ecoliae Animalis Domestic(家畜生态学报), 2006, 27(6): 1.
[24] WANG Cheng-jie, WANG Shi-ping, ZHOU He(王成杰，汪诗平，周禾). Acta Prataculture Sinica(草业学报), 2006, 15(1): 113.
[25] YOU Yu-bo, DONG Hong-min(游玉波，董红敏). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报), 2006, 22(Supp.2): 193.
[26] Harper L A, Denmead O T, Freney J R, et al. Journal of Animal Science, 1999, 77(6): 1392.
[27] Benchaar C, R ivest J, Pomar C, et al. Journal of Animal Science, 1998, 76(2): 617.
[28] FAN Xia, DONG Hong-min, HAN Lu-jia(樊霞，董红敏，韩鲁佳). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报), 2004, 20(4): 250.
[29] McLean J A, Tobin G. Animal and Human Calorimetry. New York: Cambridge University Press, 1987.
[30] Kelly J M, Kerrigan B, Milligan L P, et al. Can. J. Anim. Sci., 1994, 74: 65.
[31] Leuning R, Baker S K, Jamie I M, et al. Atmospheric Environment, 1999, 33: 1357.
[32] Islam M, Abe H, Hayashi Y, et al. Small Ruminant Research, 2000, 38: 165.
[33] Lassey K R, Walker C F. Chemosphere-Global Change Science, 2001, 3: 367.
[34] DONG Hong-min, LI Yu-e, LIN Er-da(董红敏，李玉娥，林而达). Chinese Journal of Agrometeorology(中国农业气象), 1996, 17(4): 44.
[35] LUO Yong, MAO Xiao-bo, HUANG Jun-jie(罗勇，毛晓波，黄俊杰). Instrument Technique and Sensor(仪表技术与传感器), 2007, 8(4-6): 55.
[36] KAN Rui-feng, LIU Wen-qing, ZHANG Yu-jun, et al(阚瑞峰，刘文清，张玉钧，等). Journal of Atmospheric and Environmental Optics(大气与环境光学学报), 2007, 2(3): 203.
[37] XU Liang, LIU Jian-guo, GAO Min-guang, et al(徐亮，刘建国，高闽光，等). Infrared Technology(红外技术), 2007, 29(4): 239.
[38] LI Li, ZHANG Yu, SONG Zhen-yu, et al(李黎，张宇，宋振宇，等). Infrared(红外), 2007, 28(9): 29.
[39] WANG Yi-ding, ZHONG Hong-jie, JIN Qin-han, et al(王一丁，钟宏杰，金钦汉，等). Jilin Normal University Journal(Natural Science Edition)(吉林大学学报·自然科学版), 2001, (4): 68.
[40] DONG Lei, MA Wei-guang, YI Wang-bao, et al(董磊，马维光，尹王保，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(3): 473.
[41] WANG Shi-mei, LIU Wen-qing, LIU Jian-guo, et al(汪世美，刘文清，刘建国，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2006, 26(2): 221.
[42] ZHANG Li-ping, ZHANG Fan(张立萍，张帆). Safety in Coal Mines(煤矿安全), 2005, 36(7): 1.
[43] WANG Yan-ju, WANG Yu-tian, WANG Zhong-dong(王艳菊，王玉田，王忠东). Piezoel Ectectrics & Acoustooptics(压电与声光), 2007, 29(2): 148.
[44] Dubaniewicz T H, Chilton J E, Dobroski H Jr. IEEE Transcation on Industry Application, 1993, 29(4): 740.
[45] FENG Ming-kun, SUI Cheng-hua(丰明坤，随成华). Optoelectronic Technology & Information(光电子技术与信息), 2003, 16(6): 27.