光谱学与光谱分析 |
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Spectroscopy Technique and Ruminant Methane Emissions Accurate Inspecting |
SHANG Zhan-huan1,GUO Xu-sheng2,LONG Rui-jun1* |
1. College of Pastoral Agriculture Science and Technology, Lanzhou University, Lanzhou 730020, China 2. School of Life Science, Lanzhou University, Lanzhou 730000, China |
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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.
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Received: 2007-11-22
Accepted: 2008-03-01
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Corresponding Authors:
LONG Rui-jun
E-mail: longrj@lzu.edu.cn
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