보도자료
소관기관 | 한국표준과학연구원 |
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KRISS Technology Enhances Measurement Reliability of Methane Gas Emissions from Rice Paddy Fields | |
KRISS Technology Enhances Measurement Reliability of Methane Gas Emissions from Rice Paddy Fields - KRISS-NCAM joint research team proposes method of correcting methane emissions from rice paddy soil - - Results validate emissions of greenhouse gases and enhance reliability of greenhouse monitoring for agriculture, forestry and livestock industries - The joint research team of Dr. Namgoo Kang from the Korea Research Institute of Standards and Science (KRISS, President Hyun-min Park) and Dr. Minseok Kang from the National Center for Agro Meteorology (NCAM, Chairperson Jong-ho Park) developed a novel technology that enhances the reliability of measurement of methane emissions from rice paddy fields. △ Dr. Namgoo Kang, a team leader of the Measurement Instrumentation and Data Verification Research Team, is developing technology to correct the measurement of methane emissions from the rice paddy soil. Methane is a greenhouse gas with 25 times the greenhouse effect per unit material compared to carbon dioxide. Since methane accounts for about 30% of greenhouse gas emissions in the domestic agriculture sector, accurate measurement of methane emissions from rice paddy soil is essential to establish effective policies in response to climate change. The world’s most widely used method for measuring methane emissions from rice paddy soil is a chamber method. This method involves installing box-shaped chambers at regular intervals on the soil and calculating the amount of methane collected per unit area and time. However, emission levels may be distorted as continuous monitoring is not possible, and the results are limited to the confined areas within chambers. The eddy covariance method*, which addresses the limitations of the chamber method, allows continuous measurement of methane emissions from rice paddy soil in open and wide spaces. The problem is that although the measurement results may be affected by the height of installed measurement equipment depending on soil conditions, the related research and guidelines are not enough. That’s why the chamber method is still being used to calculate country-specific emission factors for registration in the database of the United Nations Framework Convention on Climate Change (UNFCCC). * Eddy covariance method: A method for measuring and calculating vertical turbulent fluxes of trace gases (carbon dioxide, methane, etc.) in the atmosphere at high speed (10 times per second) △ Methane flux observation system based on the eddy covariance method installed at the rice paddy field in Cheorwon, Gangwon-do Province Using eddy covariance data collected from rice paddy soil in Cheorwon, Gangwon-do Province in 2020 and 2021, the KRISS-NCAM joint research team identified the difference in measurement results due to changes in observation height for the first time and proposed a method for correction. The basis of this achievement is the technology of using methane reference gas developed by KRISS for precise calibration of both the chamber method and the eddy covariance method. This is the first research to which the internationally recognized standard was applied for measuring methane emissions from the rice paddy soil. △ The rice paddy field with the methane flux observation system installed based on both the chamber method and the eddy covariance method The results can be applied to verify the data on national greenhouse gas emissions and enhance data reliability through a mutual comparison of the chamber method and the eddy covariance method. In addition, it can contribute to improving measurement accuracy and integrating data in various greenhouse gas observation networks around the world. Dr. Namgoo Kang, a team leader of the Measurement Instrumentation and Data Verification Research Team and a professor of Precision Measurement Major in the University of Science and Technology, said, “The eddy covariance method is a core strategic technology that will establish itself as a global standard technology supplementing the chamber method. Our results will contribute to the establishment and the implementation of plans to achieve carbon neutrality across agriculture, forestry, and livestock industries at the national level by 2050.” △ Dr. Namgoo Kang is inspecting the correction system for methane emissions from the rice paddy soil. The joint research team plans to continue their research, focusing on the potential of the eddy covariance method in forestry, horticultural and livestock industries. Specifically, they will develop a customized quality management technology for smart agriculture in order to enable accurate monitoring of greenhouse gases. Supported by KRISS as well as the Rural Development Administration’s Low-Carbon Green Rice Production Technology Development Program and New Agriculture and Climate Response Program, the study was published in Agricultural and Forest Meteorology (IF 6.424), a leading international journal in the field of agrometeorology, on March 15. |
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