地球生命科学(B)
セッション小記号 地球生命科学複合領域・一般(CG)
セッションID B-CG04
タイトル 和文 Methane in terrestrial and aquatic ecosystems: from microbes to the atmosphere
英文 Methane in terrestrial and aquatic ecosystems: from microbes to the atmosphere
タイトル短縮名 和文 Methane: from microbes to the atmosphere
英文 Methane: from microbes to the atmosphere
代表コンビーナ 氏名 和文 Daniel EPRON
英文 Daniel EPRON
所属 和文 Kyoto University
英文 Kyoto University
共同コンビーナ 1 氏名 和文 浅川 晋
英文 Susumu Asakawa
所属 和文 名古屋大学
英文 Nagoya University
共同コンビーナ 2 氏名 和文 坂部 綾香
英文 Ayaka Sakabe
所属 和文 京都大学
英文 Kyoto University
共同コンビーナ 3 氏名 和文 Patra Prabir
英文 Prabir Patra
所属 和文 Research Institute for Global Change, JAMSTEC
英文 Principal Scientist at Research Institute for Global Change, JAMSTEC and Professor at Research Institute for Humanity and Nature
発表言語 E
スコープ 和文
Methane is an important anthropogenic greenhouse gas. The rise of atmospheric CH4 concentration has accelerated these last 10 years, challenging our ability to meet the goal of the Paris agreement to limit climate warming to less than 2 degrees, and leading to the launch of the Global Methane Pledge during the COP26 in 2021. There is still a large gap between bottom-up and top-down estimates of the global CH4 budget, with natural emissions being recognized as the greatest source of uncertainty: clarifying the role of terrestrial ecosystems in its balance is essential for understanding and predicting global warming.
The purpose of the session is to bring together scientists working on methanogenic and methanotrophic microorganisms and communities, measuring methane fluxes from soil, vegetation and at the ecosystem scale, and modelling the methane transport and methane budget at different spatial scales to enhance our understanding of methane sources and sinks, and their responses to changing environmental conditions, in terrestrial and aquatic ecosystems, including but not limited to forests, grasslands, wetlands, freshwater bodies, mangroves and other coastal areas and agricultural lands.
英文
Methane is an important anthropogenic greenhouse gas. The rise of atmospheric CH4 concentration has accelerated these last 10 years, challenging our ability to meet the goal of the Paris agreement to limit climate warming to less than 2 degrees, and leading to the launch of the Global Methane Pledge during the COP26 in 2021. There is still a large gap between bottom-up and top-down estimates of the global CH4 budget, with natural emissions being recognized as the greatest source of uncertainty: clarifying the role of terrestrial ecosystems in its balance is essential for understanding and predicting global warming.
The purpose of the session is to bring together scientists working on methanogenic and methanotrophic microorganisms and communities, measuring methane fluxes from soil, vegetation and at the ecosystem scale, and modelling the methane transport and methane budget at different spatial scales to enhance our understanding of methane sources and sinks, and their responses to changing environmental conditions, in terrestrial and aquatic ecosystems, including but not limited to forests, grasslands, wetlands, freshwater bodies, mangroves and other coastal areas and agricultural lands.
発表方法 口頭および(または)ポスターセッション
招待講演 Hojeong Kang (Yonsei University)
時間 講演番号 タイトル 発表者
口頭発表 5月31日 PM1
13:45 - 14:00 BCG04-01 Microbial mechanism for the diverse responses of methane dynamics to nitrogen enrichment in soil ecosystems Hojeong Kang
14:00 - 14:15 BCG04-02 タイ国ゴムプランテーション土壌のメタン酸化ポテンシャル 村瀬 潤
14:15 - 14:30 BCG04-03 Methane fluxes, methanogenic, and methanotrophic activities, and microbial compositions in mangrove forests of Taiwan Yo-Jin Shiau
14:30 - 14:45 BCG04-04 Nationwide monitoring of forest soil methane and carbon dioxide fluxes in Japan 橋本 昌司
14:45 - 15:00 BCG04-05 Estimation of Methane Emissions from Eutrophic Lake of Japan Using Satellite Observation and Machine Learning Method 小田 理人
講演番号 タイトル 発表者
ポスター発表 5月31日 PM3
BCG04-P01 Seasonality of temperature sensitivity of methane emissions from natural wetlands Jinshuai Li
BCG04-P02 Seasonal changes in methane emission from an agricultural pond with controlled water level 坂部 綾香
BCG04-P03 Topography and vegetation-based estimates of soil methane flux in a complex forested watershed Sumonta Kumar Paul
BCG04-P04 Meta-analysis of the effects of nitrogen additions on CH4 oxidation in forest soils Chaelee Park
BCG04-P05 Fertilization decreases soil methane sink in a rubber plantation Daniel EPRON
BCG04-P06 Clarifying the origin of CH4 emission hot spots in upper tree trunks: Local genesis or axial transport 持留 匠
BCG04-P07 Spatiotemporal variability of methane fluxes from tree stems in an upland forest Nathan COUSTEUR