Details of the Researcher

PHOTO

Keiichiro Kanemoto
Section
Graduate School of Environmental Studies
Job title
Associate Professor
Degree

  • 博士(学術)(東北大学)

  • 修士(学術)(東北大学)

  • 学士(経済学)(埼玉大学)

e-Rad No.
20736350

Committee Memberships 7

  • The Taskforce on Nature-related Financial Disclosures (TNFD) Nature Data Public Facility

    2024/08 - Present

  • 日本LCA学会 国際委員会 委員

    2023/05 - Present

  • 日本LCA学会 広報委員会 委員

    2023/05 - Present

  • 文部科学省 科学技術・学術政策研究所 科学技術予測センター 科学技術専門家ネットワーク・専門調査員

    2022/05 - Present

  • 農林水産省委託 令和3年度食育活動の全国展開委託事業(「持続可能な食を支える食育の推進」に係る検討-フードガイドの見直しに向けた検討及び事例収集) 環境を視野に入れたフードガイド策定に向けたワーキンググループ委員

    2021/10 - Present

  • Journal of Environmental Management (Impact Factor: 6.789) 編集委員

    2019/09 - Present

  • Journal of Economic Structures 編集委員

    2016/07 - 2020

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Professional Memberships 5

  • International Society for Industrial Ecology

    2012 - Present

  • International Input-Output Association

    2012 - Present

  • 環太平洋産業連関分析学会

    2012 - Present

  • 日本LCA学会

    2010 - Present

  • 環境経済政策学会

    2008 - Present

Research Areas 1

  • Environmental science/Agricultural science / Recycling systems and society /

Awards 10

  1. Highly Cited Researcher in the field of Cross-Field

    2023/11 Clarivate Analytics

  2. Highly Cited Researcher in the field of Cross-Field

    2022/11 Clarivate Analytics

  3. The Young Scientists’ Award

    2022/04 the Minister of Education, Culture, Sports, Science and Technology

  4. Highly Cited Researcher in the field of Cross-Field

    2021 Clarivate Analytics

  5. Highly Cited Researcher in the field of Cross-Field

    2020 Clarivate Analytics

  6. Young Researcher’s Award

    2020 The Institute of Life Cycle Assessment, Japan

  7. Outstanding Reviewer for Environmental Research Letters

    2019 IOP Publishing

  8. Highly Cited Researcher in the field of Cross-Field

    2019 Clarivate Analytics

  9. Outstanding Reviewer for Environmental Research Letters

    2018 IOP Publishing

  10. Highly Cited Researcher in the field of Cross-Field

    2018 Clarivate Analytics

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Papers 55

  1. Potential impact of abiotic resource use considering country-specific supply chain: consumption-based characterization and normalization utilizing a multi-regional input–output model

    Ryosuke Yokoi, Keiichiro Kanemoto, Norihiro Itsubo, Masaharu Motoshita

    The International Journal of Life Cycle Assessment 2025/05/05

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1007/s11367-025-02481-4  

    ISSN: 0948-3349

    eISSN: 1614-7502

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    Abstract Purpose Life cycle impact assessment (LCIA) quantifies the potential impacts of environmental loads in the characterization step and evaluates their significance in the normalization step. This study develops consumption-based characterization factors (CFs) and normalization values (NVs) for abiotic resource use using a multi-regional input–output model. Consumption-based accounting in these steps is critical for ensuring consistency between the scope of these steps in LCIA and the overall evaluation scope of the life cycle assessment (LCA) study. Methods We calculated the consumption-based CFs and NVs for the target year 2015, covering 189 countries and regions for 29 mineral resources and three fossil fuels. These calculations were based on estimates of induced mine production and the adoption of country-level mine production-based CFs. The mining sector in the Eora multi-regional input–output database was disaggregated using country-level mine production data and trade statistics, enabling the estimation of induced mine production for each consuming country. A user cost model was adopted to calculate country-level mine production-based CFs. Results and discussion Consumption-based CFs varied significantly, with the maximum values being up to 3,300 times higher than the minimum, depending on the consuming countries. This highlights the importance of considering supply chain differences when assessing the potential impacts of abiotic resource use. The USA had the largest consumption-based NVs, followed by China and Brazil, with fossil fuels as the primary contributing resources. Some countries (e.g., Japan and Germany) exhibited notably higher consumption-based NVs compared to mine production-based NVs, reflecting their scarcity of primary resources in-country and underscoring the relevance of consumption-based NVs. Compared to previous studies with lower resolution for target resources, the consumption-based NVs developed in this study, which differentiate a greater variety of resources, offer more plausible results and enable more flexible analyses targeting specific resources. Conclusions Consumption-based accounting of the potential impacts associated with resource use can support LCA practitioners in conducting region-specific analyses without the need to identify mining countries for abiotic resources. The findings can also be utilized to analyze the responsibilities of consuming countries, sustainable supply chain management, and country-level supply risk assessments. Future work should focus on improving the disaggregation of metal-related sectors using smelter, refinery, and manufacturing data.

  2. Accuracy of rubber-related deforestation maps

    Nguyen Tien Hoang, Peter Potapov, Pontus Olofsson, Keiichiro Kanemoto

    2025/01/17

    Publisher: Springer Science and Business Media LLC

    DOI: 10.21203/rs.3.rs-5834237/v1  

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    Abstract <p>Accurate mapping of rubber plantations is essential to understanding where deforestation due to rubber production occurs. Wang et al.1 produced 10-meter resolution maps of mature rubber with a reported high overall classification accuracy (OA = 0.95 ± 0.02), indicating that more than 4 million hectares of forests have been converted to rubber plantations in Southeast Asia and parts of China since 1993. However, we have serious concerns about the accuracy of these maps, as our analysis indicates that the area estimates by Wang et al.1 are significantly inflated. This observation underscores the need for caution in using these high-resolution maps for specific applications, such as assessing deforestation linked to rubber consumption under the EU regulation on deforestation-free products.</p>

  3. Systematic Underreporting in Corporate Scope 3 Disclosure

    Xinmeng Li, Yuya Katafuchi, Daniel Moran, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    2024/10/22

    Publisher: Springer Science and Business Media LLC

    DOI: 10.21203/rs.3.rs-3670939/v2  

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    Abstract <p>Scope 3 emissions, which encompass both direct emissions and induced emissions along upstream supply chains, have emerged as an important metric for evaluating corporate responsibility toward climate change. Scope 3 targets are being evaluated as a core element of decarbonization plans in many economically important jurisdictions. Yet robust Scope 3 reporting has been challenging due to varying system boundaries, diverging emission factors used for estimation, and the general absence of compliance audits. To overcome these limitations, and understand the efficacy of voluntary reporting, here we establish a consistent, independent estimate of Scope 3 emissions at the firm level using a new enterprise-level global supply chain database. We find that, collectively, company self-reported Scope 3 emissions may be underestimated by nearly 50%, or 0.75 Gt C, compared to our estimate using a harmonized approach.</p>

  4. Global Freight Transport Emissions Responsibility Peer-reviewed

    Jacob Fry, Keiichiro Kanemoto, Alastair Fraser, Keisuke Nansai

    Environmental Science &amp; Technology 58 (43) 19231-19242 2024/10/18

    Publisher: American Chemical Society (ACS)

    DOI: 10.1021/acs.est.4c05658  

    ISSN: 0013-936X

    eISSN: 1520-5851

  5. Environmental footprinting in health care: a primer Peer-reviewed

    Jacob Fry, Angie Bone, Keiichiro Kanemoto, Carolynn L Smith, Nick Watts

    Medical Journal of Australia 221 (9) 464-467 2024/10/17

    Publisher: Wiley

    DOI: 10.5694/mja2.52481  

    ISSN: 0025-729X

    eISSN: 1326-5377

  6. Construction of Enterprise-Level Global Supply Chain Database

    Yuya Katafuchi, Xinmeng Li, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    2024/03/04

    DOI: 10.21203/rs.3.rs-3651986/v2  

  7. Scope 3 Emissions of 2,000 Companies and 19,000 Subsegments

    Xinmeng Li, Yuya Katafuchi, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    2023/11/28

    DOI: 10.21203/rs.3.rs-3670939/v1  

  8. Reply to Bawa and Liu: Want sustainable food? Embrace complexity Peer-reviewed

    Nguyen Tien Hoang, Oliver Taherzadeh, Haruka Ohashi, Yusuke Yonekura, Shota Nishijima, Masaki Yamabe, Tetsuya Matsui, Hiroyuki Matsuda, Daniel Moran, Keiichiro Kanemoto

    Proceedings of the National Academy of Sciences 120 (48) 2023/11/20

    Publisher: Proceedings of the National Academy of Sciences

    DOI: 10.1073/pnas.2317233120  

    ISSN: 0027-8424

    eISSN: 1091-6490

  9. Mapping Natural Product Biosynthetic Hotspots: Prioritizing Conservation for Medicinal Resources

    Muhamad Fahmi, Kojiro Takanashi, Yusuke Kakei, Yasuhiro Kubota, Keiichiro Kanemoto

    2023/08/14

    Publisher: Cold Spring Harbor Laboratory

    DOI: 10.1101/2023.08.12.553062  

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    Abstract Background Natural products (NPs) are vital for promoting human health. Given the increasing threats of biodiversity loss and ecosystem degradation, understanding the geographical hotspots of NPs is essential to strategically prioritize areas for conservation, ensuring the sustained availability of these invaluable medicinal resources. Methods We constructed a global diversity map for 1,434 woody angiosperm species, each represented by existing genomic or transcriptomic data. We curated a list of 166 enzymes essential for the biosynthesis and structural diversity of NPs, and identified geographical hotspots of NPs by averaging enzyme presence across the grids. We also examined the distribution pattern of each enzyme. To gain deeper insights into NP distribution patterns, we performed a comparative analysis of enzyme groups responsible for the biosynthesis of two pharmacologically significant compounds with distinct biosynthetic pathways, shikonin derivatives and benzylisoquinoline alkaloids. Findings Our study reveals a correlation between NP hotspots and biodiversity hotspots, with a subset of markers displaying unique, region-specific patterns. Comparative analysis of enzymes for shikonin derivatives and benzylisoquinoline alkaloids biosynthetic pathways shows similar pattern, with the former demonstrating a unique and region-specific distribution. Interpretation Our findings emphasize the importance of preserving biodiversity hotspots for sustaining NP-based medicinal resources. Additionally, the specific distribution of certain enzyme markers, such as those related to shikonin derivatives, suggests that some NPs may necessitate targeted conservation strategies. This study provides a foundational roadmap for identifying the geographical hotspots of NPs and developing targeted conservation strategies. Funding Japan Society for the Promotion of Science through the Grant-in-Aid for Scientific Research (A) 20H00651.

  10. Mapping potential conflicts between global agriculture and terrestrial conservation. International-journal Peer-reviewed

    Nguyen Tien Hoang, Oliver Taherzadeh, Haruka Ohashi, Yusuke Yonekura, Shota Nishijima, Masaki Yamabe, Tetsuya Matsui, Hiroyuki Matsuda, Daniel Moran, Keiichiro Kanemoto

    Proceedings of the National Academy of Sciences of the United States of America 120 (23) e2208376120 2023/06/06

    DOI: 10.1073/pnas.2208376120  

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    Demand for food products, often from international trade, has brought agricultural land use into direct competition with biodiversity. Where these potential conflicts occur and which consumers are responsible is poorly understood. By combining conservation priority (CP) maps with agricultural trade data, we estimate current potential conservation risk hotspots driven by 197 countries across 48 agricultural products. Globally, a third of agricultural production occurs in sites of high CP (CP > 0.75, max = 1.0). While cattle, maize, rice, and soybean pose the greatest threat to very high-CP sites, other low-conservation risk products (e.g., sugar beet, pearl millet, and sunflower) currently are less likely to be grown in sites of agriculture-conservation conflict. Our analysis suggests that a commodity can cause dissimilar conservation threats in different production regions. Accordingly, some of the conservation risks posed by different countries depend on their demand and sourcing patterns of agricultural commodities. Our spatial analyses identify potential hotspots of competition between agriculture and high-conservation value sites (i.e., 0.5° resolution, or ~367 to 3,077km2, grid cells containing both agriculture and high-biodiversity priority habitat), thereby providing additional information that could help prioritize conservation activities and safeguard biodiversity in individual countries and globally. A web-based GIS tool at https://agriculture.spatialfootprint.com/biodiversity/ systematically visualizes the results of our analyses.

  11. Drivers of household carbon footprints across EU regions, from 2010 to 2015 Peer-reviewed

    Jemyung Lee, Yosuke Shigetomi, Keiichiro Kanemoto

    Environmental Research Letters 18 (4) 044043-044043 2023/04/13

    Publisher: IOP Publishing

    DOI: 10.1088/1748-9326/acc95e  

    eISSN: 1748-9326

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    Abstract Urban regions are responsible for a significant proportion of carbon emissions. The carbon footprint (CF) is a practical measure to identify the responsibility of individuals, cities, or nations in climate change. Numerous CF studies have focused on national accounts, and a few combined consumer consumption and global supply chains to estimate additionally detailed spatial CF. However, the drivers of temporal change in detailed spatial CF are largely unknown, along with regional, spatial, and socioeconomic disparities.&amp;#xD;Here, we uncovered the drivers of changes in household CFs in EU regions, at the finest scale currently available, between 2010 and 2015. This study mapped the household CFs of 83 macro-regions across 27 EU nations and identified the driving factors underlying their temporal change. We combined multi-regional input-output tables and micro-consumption data from 275,247 and 272,045 households in 2010 and 2015, respectively. We decomposed EU regional CF, employing Structural Decomposition Analysis, into five driving factors: emission intensity, supply chain structure, population, per capita consumption, and final demand share. For a deeper assessment of changes in the contribution of consumption patterns, we further categorized the regional CF into 15 factors, including 11 per capita consumption categories. We found that household CF drivers vary depending on region, population density, income, and consumption patterns. &amp;#xD;Our results can help policymakers adopt climate policies at the regional level by reflecting on the residents' socioeconomic, spatial, and consumption conditions, for further ambitious climate actions.

  12. Japanese urban household carbon footprints during early-stage COVID-19 pandemic were consistent with those over the past decade Peer-reviewed

    Yin Long, Yoshikuni Yoshida, Yida Jiang, Liqiao Huang, Wentao Wang, Zhifu Mi, Yosuke Shigetomi, Keiichiro Kanemoto

    npj Urban Sustainability 3 (1) 2023/03/29

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1038/s42949-023-00095-z  

    eISSN: 2661-8001

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    Abstract As urbanization accelerates worldwide, substantial energy and services are required to meet the demand from cities, making cities major contributors to adverse environmental consequences. To bridge the knowledge gap in the absence of fine-grained city-level climate protection measures due to data availability and accuracy, this study provides a detailed carbon emission inventory for analyzing the monthly fluctuations based on citizens’ daily consumption behaviors. Here, carbon emissions embodied in approximately 500 household consumption items were calculated in 47 prefectural-level cities in Japan from 2011 to June 2021. We analyzed the results considering the regional, seasonal, demand, and emission way-specific aspects, and compared the emission before and during the COVID-19 pandemic. Notably, the carbon footprints during the pandemic were consistent with the previous level despite downtrends in specific categories. This study provides an example of utilizing city-level emission data to improve household green consumption behavior as references for enriching city-level decarbonization paths.

  13. National high-resolution cropland classification of Japan with agricultural census information and multi-temporal multi-modality datasets Peer-reviewed

    Junshi Xia, Naoto Yokoya, Bruno Adriano, Keiichiro Kanemoto

    International Journal of Applied Earth Observation and Geoinformation 117 103193-103193 2023/03

    Publisher: Elsevier BV

    DOI: 10.1016/j.jag.2023.103193  

    ISSN: 1569-8432

  14. Differentiated responsibilities of US citizens in the country’s sustainable dietary transition Peer-reviewed

    Oliver Taherzadeh, Keiichiro Kanemoto

    Environmental Research Letters 17 (7) 074037-074037 2022/07/01

    Publisher: IOP Publishing

    DOI: 10.1088/1748-9326/ac7600  

    eISSN: 1748-9326

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    Abstract If widely adopted, the ‘planetary health diet’ (PHD), proposed by the EAT-Lancet Commission, would help to meet ambitious sustainability goals currently jeopardised by excessive and resource intensive food demand. To date, convergence of nations to the PHD has been assessed using average food consumption patterns, overlooking the influence of different consumers within this context. Using self-reported dietary intake data from a snapshot survey of the US we reveal the differentiated responsibilities of US citizens within the country’s adoption of the PHD otherwise hidden by use of country averaged dietary intake data. We show how such a granular analysis of food consumption patterns is critical to identify levers in the sustainable food transition of nations. By combining 7418 individual food intake reports from a representative cross section of the United States (US) with commodity-level impact data we estimate the overshoot of US dietary patterns in relation to the PHD and their impacts across the climate, water and land system. The net environmental impacts of PHD adoption across the US population are quantified based on realistic dietary shifts. We estimate that US overshoot of the PHD is responsible for 70% of the US dietary greenhouse gas (GHG) footprint. However, over 60% of this burden could be eliminated by just 10% of the US population following the PHD. Although we estimate PHD adoption will more than half the US dietary GHG footprint and land footprint, we find it may have unintended consequences on water demand due to increased tree nut consumption. Across almost all food categories, we show that the food choices of the top tier of consumers in the US create, and must bridge the PHD gap. As such, actions by these consumers will be of major consequences to the speed and direction of the country’s sustainable dietary transition. To avoid environmental trade-offs, dietary policies must be scrutinised across multiple sustainability criteria.

  15. Multi-perspective Structural Analysis of Supply Chain Networks Peer-reviewed

    Tesshu Hanaka, Keiichiro Kanemoto, Shigemi Kagawa

    Economic Systems Research 34 (2) 199-214 2022

    DOI: 10.1080/09535314.2021.1883552  

    ISSN: 0953-5314

    eISSN: 1469-5758

  16. Monthly direct and indirect greenhouse gases emissions from household consumption in the major Japanese cities Peer-reviewed

    Yin Long, Yida Jiang, Peipei Chen, Yoshikuni Yoshida, Ayyoob Sharifi, Alexandros Gasparatos, Yi Wu, Keiichiro Kanemoto, Yusuke Shigetomi, Dabo Guan

    Scientific Data 8 (301) 2021

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1038/s41597-021-01086-4  

    eISSN: 2052-4463

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    <title>Abstract</title>Urban household consumption contributes substantially to global greenhouse gases (GHGs) emissions. Urban household emissions encompass both direct and indirect emissions, with the former associated with the direct use of fossil fuels and the latter with the emissions embodied in the consumed goods and services. However, there is a lack of consistent and comprehensive datasets outlining in great detail emissions from urban household consumption. To bridge this data gap, we construct an emission inventory of urban household emissions for 52 major cities in Japan that covers around 500 emission categories. The dataset spans from January 2011 to December 2015 and contains 12,384 data records for direct emissions and 1,543,128 records for indirect emissions. Direct emission intensity is provided in g-CO2/JPY to facilitate both future studies of household emission in Japan, as well as act as a reference for the development of detailed household emission inventories in other countries.

  17. Consumption in the G20 nations causes particulate air pollution resulting in two million premature deaths annually Peer-reviewed

    Keisuke Nansai, Susumu Tohno, Satoru Chatani, Keiichiro Kanemoto, Shigemi Kagawa, Yasushi Kondo, Wataru Takayanagi, Manfred Lenzen

    Nature Communications 12 (6286) 2021

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1038/s41467-021-26348-y  

    eISSN: 2041-1723

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    Abstract Worldwide exposure to ambient PM2.5 causes over 4 million premature deaths annually. As most of these deaths are in developing countries, without internationally coordinated efforts this polarized situation will continue. As yet, however, no studies have quantified nation-to-nation consumer responsibility for global mortality due to both primary and secondary PM2.5 particles. Here we quantify the global footprint of PM2.5-driven premature deaths for the 19 G20 nations in a position to lead such efforts. G20 consumption in 2010 was responsible for 1.983 [95% Confidence Interval: 1.685–2.285] million premature deaths, at an average age of 67, including 78.6 [71.5–84.8] thousand infant deaths, implying that the G20 lifetime consumption of about 28 [24–33] people claims one life. Our results indicate that G20 nations should take responsibility for their footprint rather than focusing solely on transboundary air pollution, as this would expand opportunities for reducing PM2.5-driven premature mortality. Given the infant mortality footprint identified, it would moreover contribute to ensuring infant lives are not unfairly left behind in countries like South Africa, which have a weak relationship with G20 nations.

  18. Quantifying the Carbon Footprint Reduction Potential of Lifestyle Choices in Japan Peer-reviewed

    Yosuke Shigetomi, Keiichiro Kanemoto, Yuki Yamamoto, Yasushi Kondo

    Environmental Research Letters 16 (6) 064022 2021

  19. Negligible impacts of early COVID-19 confinement on household carbon footprints in Japan Peer-reviewed

    Yin Long, Dabo Guan, Keiichiro Kanemoto, Alexandros Gasparatos

    One Earth 4 (4) 553-564 2021

    Publisher: Elsevier BV

    DOI: 10.1016/j.oneear.2021.03.003  

    ISSN: 2590-3322

  20. Mapping the deforestation footprint of nations reveals growing threat to tropical forests Peer-reviewed

    Nguyen Tien Hoang, Keiichiro Kanemoto

    Nature Ecology & Evolution 5 (6) 845-853 2021

  21. The scale and drivers of carbon footprints in households, cities and regions across India Peer-reviewed

    Jemyung Lee, Oliver Taherzadeh, Keiichiro Kanemoto

    Global Environmental Change 66 102205-102205 2021

    Publisher: Elsevier BV

    DOI: 10.1016/j.gloenvcha.2020.102205  

    ISSN: 0959-3780

  22. Spatial Variation in Household Consumption-Based Carbon Emission Inventories for 1,200 Japanese Cities Peer-reviewed

    Keiichiro Kanemoto, Yosuke Shigetomi, Nguyen Tien Hoang, Keijiro Okuoka, Daniel Moran

    Environmental Research Letters 15 (11) 114053 2020

    Publisher: IOP Publishing

    DOI: 10.1088/1748-9326/abc045  

    eISSN: 1748-9326

  23. Global socio-economic losses and environmental gains from the Coronavirus pandemic Peer-reviewed

    Manfred Lenzen, Mengyu Li, Arunima Malik, Francesco Pomponi, Ya-Yen Sun, Thomas Wiedmann, Futu Faturay, Jacob Fry, Blanca Gallego, Arne Geschke, Jorge Gómez-Paredes, Keiichiro Kanemoto, Steven Kenway, Keisuke Nansai, Mikhail Prokopenko, Takako Wakiyama, Yafei Wang, Moslem Yousefzadeh

    PLOS ONE 15 (7) e0235654 2020

  24. Affluent countries inflict inequitable mortality and economic loss on Asia via PM2.5 emissions Peer-reviewed

    Keisuke Nansai, Susumu Tohno, Satoru Chatani, Keiichiro Kanemoto, Midori Kurogi, Yuta Fujii, Shigemi Kagawa, Yasushi Kondo, Fumiya Nagashima, Wataru Takayanagi, Manfred Lenzen

    Environment International 134 105238 2020

    DOI: 10.1016/j.envint.2019.105238  

    ISSN: 0160-4120

    eISSN: 1873-6750

  25. Meat consumption does not explain differences in household food carbon footprints in Japan Peer-reviewed

    Keiichiro Kanemoto, Daniel Moran, Yosuke Shigetomi, Christian Reynolds, Yasushi Kondo

    One Earth 1 (4) 464-471 2019

    Publisher: Elsevier BV

    DOI: 10.1016/j.oneear.2019.12.004  

    ISSN: 2590-3322

  26. Balancing and Reconciling Large Multi-Regional Input-Output Databases Using Parallel Optimisation and High-Performance Computing Peer-reviewed

    Arne Geschke, Julien Ugon, Manfred Lenzen, Keiichiro Kanemoto, Daniel Moran

    Journal of Economic Structures 8 2019

  27. Growth potential for CO2 emissions transfer by tariff reduction Peer-reviewed

    Moinul Islam, Keiichiro Kanemoto, Shunsuke Managi

    Environmental Research Letters 14 024011 2019

  28. Industrial clusters with substantial carbon-reduction potential Peer-reviewed

    Keiichiro Kanemoto, Tesshu Hanaka, Shigemi Kagawa, Keisuke Nansai

    Economic Systems Research 31 (2) 248-266 2019

  29. Carbon footprints of 13,000 cities Peer-reviewed

    Daniel Moran, Keiichiro Kanemoto, Magnus Jiborn, Richard Wood, Johannes Többen, Karen Seto

    Environmental Research Letters 13 (6) 064041 2018

  30. TSUNAGARI: A new interdisciplinary and transdisciplinary study toward conservation and sustainable use of biodiversity and ecosystem services”, Ecological Research Peer-reviewed

    Masahiro Nakaoka, Kenji Sudo, Mizuho Namba, Hideaki Shibata, Futoshi Nakamura, Satoshi Ishikawa, Mitsutaku Makino, Hiroya Yamano, Shin-ichiro S. Matsuzaki, Takehisa Yamakita, Xiubo Yu, Xiyong Hou, Xiaowei Li, Jon Brodie, Keiichiro Kanemoto, Daniel Moran, Francesca Verones

    Ecological Research 33 (1) 35-49 2018

    ISSN: 0912-3814

  31. Identifying Species Threat Hotspots from Global Supply Chains Peer-reviewed

    Daniel Moran, Keiichiro Kanemoto

    Nature Ecology & Evolution 1 (1) 0023 2017

  32. Finding Environmentally Critical Transmission Sectors, Transactions and Paths in Global Supply Chain Networks Peer-reviewed

    Tesshu Hanaka, Shigemi Kagawa, Hirotaka Ono, Keiichiro Kanemoto

    Energy Economics 68 44-52 2017

  33. A Flexible Adaptation of the WIOD database in a Virtual Laboratory Peer-reviewed

    Muhammad Daaniyall Abd Rahman, Bart Los, Arne Geschke, Yanyan Xiao, Keiichiro Kanemoto, Manfred Lenzen

    Economic Systems Research 29 (2) 187-208 2017

  34. The Global MRIO Lab – charting the world economy Peer-reviewed

    Manfred Lenzen, Arne Geschke, Muhammad Daaniyall Abd Rahman, Yanyan Xiao, Erik Dietzenbacher, Satoshi Inomata, Keiichiro Kanemoto, Bart Los, Daniel Moran, Rachel Reyes, Hagen Schulte in, den Bäumen, Arnold Tukker, Terrie Walmsley, Thomas Wiedmann, Richard Wood, Norihiko Yamano

    Economic Systems Research 29 (2) 158-186 2017

  35. Resource footprints and their ecosystem consequences Peer-reviewed

    Francesca Verones, Daniel Moran, Konstantin Stadler, Keiichiro Kanemoto, Richard Wood

    Scientific Reports 7 40743 2017

  36. Mapping the Carbon Footprint of Nations Peer-reviewed

    Keiichiro Kanemoto, Daniel Moran, Edgar Hertwich

    Environmental Science & Technology 50 (19) 10512-10517 2016

  37. Tracing Global Supply Chains to Air Pollution Hotspots Peer-reviewed

    Daniel Moran, Keiichiro Kanemoto

    Environmental Research Letters 11 (9) 094017 2016

  38. Substantial nitrogen pollution embedded in international trade Peer-reviewed

    Azusa Oita, Arunima Malik, Keiichiro Kanemoto, Arne Geschke, Shota Nishijima, Manfred Lenzen

    Nature Geoscience 9 111-115 2016

  39. A structural decomposition analysis of global energy footprints Peer-reviewed

    Jun Lan, Arunima Malik, Manfred Lenzen, Darian McBain, Keiichiro Kanemoto

    Applied Energy 163 436-451 2016

  40. Impact of Trade Openness and Sector Trade on Embodied Greenhouse Gases Emissions and Air Pollutants Peer-reviewed

    Moinul Islam, Keiichiro Kanemoto, Shunsuke Managi

    Journal of Industrial Ecology 20 (3) 494-505 2016

  41. Global Supply Chains of Coltan: A hybrid LCA study using a social indicator Peer-reviewed

    Daniel Moran, Darian McBain, Keiichiro Kanemoto, Manfred Lenzen, Arne Geschke

    Journal of Industrial Ecology 19 (3) 357-365 2015

  42. The material footprint of nations Peer-reviewed

    Thomas Wiedmann, Heinz Schandl, Daniel Moran, Manfred Lenzen, Sangwon Suh, James West, Keiichiro Kanemoto

    Proceedings of the National Academy of Sciences of the United States of America (PNAS) 112 (20) 6271-6276 2015

  43. The Inequality Footprints of Nations: A Novel Approach to Quantitative Accounting of Income Inequality Peer-reviewed

    Ali Alsamawi, Manfred Lenzen, Joy Murray, Daniel Moran, Keiichiro Kanemoto

    PLOS ONE 9 (10) e110881 2015

  44. Investigating alternative approaches to harmonise MRIO data Peer-reviewed

    Arne Geschke, Richard Wood, Keiichiro Kanemoto, Manfred Lenzen, Daniel Moran

    Economic Systems Research 26 (3) 354-385 2014

  45. A non-sign-preserving RAS variant Peer-reviewed

    Manfred Lenzen, Daniel Moran, Arne Geschke, Keiichiro Kanemoto

    Economic Systems Research 26 (2) 197-208 2014

  46. International trade undermines national emission reduction targets – New evidence from air pollution Peer-reviewed

    Keiichiro Kanemoto, Daniel Moran, Manfred Lenzen, Arne Geschke

    Global Environmental Change 24 52-59 2014

  47. International trade of scarce water Peer-reviewed

    Manfred Lenzen, Daniel Moran, Anik Bhaduri, Keiichiro Kanemoto, Maksud Bekchanov, Arne Geschke, Foran Barney

    Ecological Economics 94 78-85 2013

  48. Building Eora: a Global Multi-Region Input-Output Database at High Country and Sector Resolution Peer-reviewed

    Manfred Lenzen, Daniel Moran, Keiichiro Kanemoto, Arne Geschke

    Economic Systems Research 25 (1) 20-49 2013

  49. Does ecologically unequal exchange occur? Peer-reviewed

    Daniel Moran, Manfred Lenzen, Keiichiro Kanemoto, Arne Geschke

    Ecological Economics 89 177-186 2013

  50. Structural Change and the Environment – A Case Study of China’s Production Recipe and CO2 Emissions Peer-reviewed

    Jun Lan, Manfred Lenzen, Erik Dietzenbacher, Daniel Moran, Keiichiro Kanemoto, Joy Murray, Arne Geschke

    Journal of Industrial Ecology 16 (4) 623-635 2012

  51. A Cycling Method for Constructing Input-Output Table Time Series from Incomplete Data Peer-reviewed

    Manfred Lenzen, Maria Cecilia, P. Moura, Arne Geschke, Keiichiro Kanemoto, Daniel Moran

    Economic Systems Research 24 (4) 413-432 2012

  52. Mapping the Structure of the World Economy Peer-reviewed

    Manfred Lenzen, Keiichiro Kanemoto, Daniel Moran, Arne Geschke

    Environmental Science & Technology 46 (15) 8374-8381 2012

  53. International trade drives biodiversity threats in developing nations Peer-reviewed

    Manfred Lenzen, Daniel Moran, Keiichiro Kanemoto, Barney Foran, Leonarda Lobefaro, Arne Geschke

    Nature 486 (7401) 109-112 2012

  54. Frameworks for Comparing Emissions Associated with Production, Consumption, and International Trade Peer-reviewed

    Keiichiro Kanemoto, Manfred Lenzen, Glen P. Peters, Daniel Moran, Arne Geschke

    Environmental Science & Technology 46 (1) 172-179 2012

  55. わが国の貿易に伴うCO2排出量の推計 Peer-reviewed

    金本圭一朗, 外岡豊

    エネルギー・資源 30 (2) 15-23 2009

Show all ︎Show first 5

Misc. 6

  1. Supply Chains and Environmental Issues - From the Perspectives of Individuals, Cities and Companies

    Keiichiro Kanemoto

    Science 92 (12) 1090-1094 2022/11

  2. Laboratories: Industrial Ecology Laboratory at Graduate School of Environmental Studies, Tohoku University and Research Institute for Humanity and Nature

    Keiichiro Kanemoto

    Journal of Life Cycle Assessment, Japan 18 (4) 243-245 2022

  3. From Satellite to Supply Chain: New Approaches Connect Earth Observation to Economic Decisions

    Daniel Moran, Stefan Giljum, Keiichiro Kanemoto, Javier Godar

    One Earth 3 (1) 5-8 2020

  4. EcoBalance 2018—Nexus of ideas: innovation by linking through life cycle thinking (9–12 October 2018, Tokyo, Japan)

    Shinsuke Murakami, Jun Nakatani, Kenichi Nakajima, Eri Amasawa, Ryota Ii, Kiyotada Hayashi, Naoki Yoshikawa, Ichiro Daigo, Yusuke Kishita, Tomohiko Ihara, Koichi Shobatake, Yuki Kudoh, Masaharu Motoshita, Keiichiro Kanemoto, Minako Hara, Aiichiro Kashiwagi, Seiji Hashimoto, Yosuke Shigetomi, Masayuki Kanzaki, Yasunori Kikuchi, Hajime Ohno, Yasuhiro Fukushima

    International Journal of Life Cycle Assessment 24 1544-1552 2019/08/01

    DOI: 10.1007/s11367-019-01641-7  

    ISSN: 0948-3349

  5. Carbon-Footprint Accounting for the Next Phase of Globalization: Status and Opportunities Invited

    Keiichiro Kanemoto, Daniel Moran

    One Earth 1 (1) 35-38 2019

  6. Improving the analysis of global value chains: the UNCTAD-Eora Database

    Bruno Casella, Richard Bolwijn, Daniel Moran, Keiichiro Kanemoto

    Transnational Corporations 26 (3) 115-142 2019

Show all ︎Show first 5

Books and Other Publications 3

  1. 森林学の百科事典

    日本森林学会

    丸善出版 2021/01

    ISBN: 9784621305843

  2. Sustainability of the World Natural Heritage Site: the case of Yakushima

    Arika Kuroiwa, Keiichiro Kanemoto, Shunsuke Managi

    The Wealth of Nations and Regions 2016

  3. What is MRIO – Strengths and limitations

    Keiichiro Kanemoto, Joy Murray

    The Sustainability Practitioner's Guide to Multi-Regional Input-Output Analysis 2013

Presentations 106

  1. Scope 3 Emissions of 2,000 Companies and 12,000 Subsegments

    Xinmeng Li, Yuya Katafuchi, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    The 16th Biennial International Conference on EcoBalance, Sendai 2024/11

  2. Global agricultural commodity-level deforestation footprints and associated carbon emissions

    Nguyen Tien Hoang, Keiichiro Kanemoto

    The 16th Biennial International Conference on EcoBalance, Sendai 2024/11

  3. Construction of Enterprise-Level Global Supply Chain Database

    Yuya Katafuchi, Xinmeng Li, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    The 16th Biennial International Conference on EcoBalance, Sendai 2024/11

  4. Global freight transport emissions responsibility

    Jacob Fry, Keiichiro Kanemoto, Alastair Fraser, Keisuke Nansai

    The 16th Biennial International Conference on EcoBalance, Sendai 2024/11

  5. Quantifying Supply Chain Impacts on Biodiversity: Diverse Insights for Corporate Sustainability

    Keiichiro Kanemoto

    International Symposium on SIP Circular Economy, Sendai 2024/10

  6. Construction of Enterprise-Level Global Supply Chain Database and its Application to Scope 3 Emissions Invited

    Yuya Katafuchi, Xinmeng Li, Taiki Yamada, Hidemichi Fujii, Keiichiro Kanemoto

    4th Interdisciplinary Workshop on Firm-Level Supply Networks 2024/06

  7. The global deforestation overview: A high-resolution perspective

    Nguyen Tien Hoang, Keiichiro Kanemoto

    日本森林学会大会, 東京 2024/03

  8. 新たなグローバルサプライチェーンデータベースを用いたスコープ3排出量の推定

    Xinmeng Li, 片渕結矢, 山田大貴, 藤井秀道, 金本圭一朗

    日本LCA学会, 宇都宮 2024/03

  9. マイクロデータを用いたグローバルサプライチェーンデータベースの構築

    片渕結矢, Xinmeng Li, 山田大貴, 藤井秀道, 金本圭一朗

    日本LCA学会, 宇都宮 2024/03

  10. LCA はスコープ3排出量の算定にどう貢献できるのか? 地球研サプライチェーンプロジェクトによる新たなアプローチ

    金本圭一朗

    日本LCA学会, 宇都宮 2024/03

  11. Mapping Natural Product Biosynthetic Hotspots: Prioritizing Conservation for Drug Discovery Potential

    Fahmi Muhamad, Kojiro Takanashi, Yusuke Kakei, Yasuhiro Kubota, Keiichiro Kanemoto

    日本LCA学会, 宇都宮 2024/03

  12. From Forests to Cities: Dissecting the Drivers of Deforestation in Indonesia

    Jemyung Lee, Keiichiro Kanemoto

    日本LCA学会, 宇都宮 2024/03

  13. Integrating spatial data and trade models for sustainable futures: Global insights into deforestation, biodiversity, and water footprints

    Nguyen Tien Hoang, Masaharu Motoshita, Keiichiro Kanemoto

    日本LCA学会, 宇都宮 2024/03

  14. Mapping Natural Product Biosynthetic Hotspots in Woody Plants: Prioritizing Conservation for Drug Discovery Potential

    Fahmi Muhamad, Kojiro Takanashi, Yusuke Kakei, Yasuhiro Kubota, Keiichiro Kanemoto

    The 11th Biennial Conference of the International Biogeography Society, Prague 2024/01

  15. Beyond Emissions: Unraveling the Links Between Consumption, Supply Chains, Atmospheric Pollution, and Premature Death

    Keiichiro Kanemoto

    NILU Seminar 2023/11

  16. 環境研究のイノベーション: 衛星からサプライチェーンまで Invited

    金本圭一朗

    サイエンティフィック・システム研究会;合同分科会 2023/10

  17. Overconsumption of freshwater hidden in agricultural production and international trade

    Nguyen Tien Hoang, Masaharu Motoshita, Keiichiro Kanemoto

    The 11th International Conference on Industrial Ecology 2023/07

  18. サプライチェーンに内在した環境問題の地図上での可視化とGISデータの政策研究への応用 Invited

    金本圭一朗

    日本経済政策学会・第80回全国大会 2023/05/20

  19. Drivers of household carbon footprint within spatial and socioeconomic groups across EU regions

    Jemyung Lee, Yosuke Shigetomi, Keiichiro Kanemoto

    International Conference on Economic Structures 2023/03/18

  20. To what extent are crop production and consumption competing with biodiversity conservation?

    Keiichiro Kanemoto

    2023/03/08

  21. Predicting conservation risks of global agricultural production and consumption

    Nguyen Tien Hoang, Oliver Taherzadeh, Haruka Ohashi, Daniel Moran, Keiichiro Kanemoto

    15th EcoBalance, Fukuoka 2022/10

  22. Structural decomposition analysis of carbon emissions in EU regions

    Jemyung Lee, Keiichiro Kanemoto

    15th EcoBalance, Fukuoka 2022/10

  23. サプライチェーンでの森林伐採のマップ化に関する研究

    金本圭一朗

    信州大学理学部セミナー、松本市 2022/09

  24. Mapping conservation risks of global agricultural production and consumption

    Nguyen Tien Hoang, Oliver Taherzadeh, Haruka Ohashi, Daniel Moran, Keiichiro Kanemoto

    14th ISIE Socio-Economic Metabolism Conference, Vienna 2022/09

  25. Structural decomposition analysis of carbon emissions in EU regions

    Jemyung Lee, Keiichiro Kanemoto

    14th ISIE Socio-Economic Metabolism Conference, Vienna 2022/09

  26. Mapping the deforestation footprint of nations

    Nguyen Tien Hoang, Keiichiro Kanemoto

    The 28th International Input-Output Conference, Langkawi 2022/08

  27. Carbon footprint of cities based on micro-consumption data

    Keiichiro Kanemoto, Jemyung Lee, Daniel Moran, Yosuke Shigetomi

    The 28th International Input-Output Conference, Langkawi 2022/08

  28. サプライチェーンを通じた生物多様性の損失の推定

    金本圭一朗

    京都大学生態研セミナー 2022/07

  29. わが国の消費が貿易を通じて地球環境に及ぼす影響

    金本圭一朗

    東京都第4回サプライチェーン環境影響の削減に関する専門家会合 2022/03

  30. Carbon footprint of cities based on micro-consumption data

    Keiichiro Kanemoto, Jemyung Lee, Yosuke Shigetomi

    International Conference on Economic Structures, Yokohama 2022/03

  31. Estimating the reduction potentials of household carbon footprint for Japan using the microdata of consumer expenditure survey

    Yosuke Shigetomi, Keiichiro Kanemoto, Yuki Yamamoto, Yasushi Kondo

    International Industrial Ecology Day 2021/06

  32. Carbon and biodiversity footprints at multiple scales Invited

    Keiichiro Kanemoto

    Earth Commission WG 5, 2021/03

  33. ⽇本のマイクロ消費データを⽤いた家計カーボンフットプリントの推定

    重富陽介, 金本圭一朗, 山本裕基, 近藤康之

    日本LCA学会 2021/03

  34. ⽇本の1,200都市の消費ベースの排出量の推計

    金本圭一朗, 重富陽介, Nguyen Tien Hoang, 奥岡桂次郎, Daniel Moran

    2021/03

  35. Spatio-temporal changes in global deforestation footprints over 15 years

    Nguyen Tien Hoang, Keiichiro Kanemoto

    2021/03

  36. The scale and drivers of carbon footprints in households, cities and regions across India

    Jemyung Lee, Oliver Taherzadeh, Keiichiro Kanemoto

    The 14th EcoBalance 2021/03

  37. EORA update and new research Invited

    Keiichiro Kanemoto

    Fourth Regional-Global TiVA Initiatives Meeting 2020/10

  38. 石炭火力発電所に由来する大気汚染物質の健康被害評価

    永島史弥, 韓雅文, 茶谷聡, 金本圭一朗, 南斉規介

    日本LCA学会 2020/03

  39. マイクロデータによる食のカーボンフットプリント分析

    金本圭一朗, Daniel Moran, 重富陽介, Christian Reynolds, 近藤康之

    日本LCA学会 2020/03

  40. サプライチェーンネットワークのエッジ・クラスター分析

    金本圭一朗, 土中哲秀

    環太平洋産業連関分析学会 2019/11

  41. Spatial Demand Modeling: Calculating the Carbon Footprint of 13,000 Cities in the BYMARKA Project

    Daniel Moran, Keiichiro Kanemoto, Thomas Wiedmann, Peter-Paul Pichler, Johannes Tobben

    The 10th International Conference on Industrial Ecology 2019/07

  42. PM2.5-driven economic losses generated by the global trade

    Keisuke Nansai, Susumu Tohno, Satoru Chatani, Keiichiro Kanemoto, Shigemi Kagawa, Yasushi Kondo

    The 10th International Conference on Industrial Ecology 2019/07

  43. Edge Clustering for Supply Chain Networks

    Keiichiro Kanemoto, Tesshu Hanaka

    The 27th International Input-Output Conference 2019/07

  44. Structural Similarity Analysis based on the Network Characteristics of Sectors

    Tesshu Hanaka, Keiichiro Kanemoto, Shigemi Kagawa

    The 27th International Input-Output Conference 2019/07

  45. 帰属分析を用いた環境経済構造の把握

    土中哲秀, 金本圭一朗, 加河茂美

    環太平洋産業連関分析学会 2018/11

  46. Simulation study for influences of consumptions in major countries on air quality and human health in Asia through global supply chains

    Satoru Chatani, Midori Kurogi, Yuta Fujii, Susumu Tohno, Keiichiro Kanemoto, Keisuke Nansai

    17th Annual CMAS Conference 2018/10

  47. The economic loss of PM2.5-related mortality in Asia from consumption-based perspectives

    Yuji Fujii, Midori Kurogi, Susumu Tohno, Satoru Chatani, Keiichiro Kanemoto, Kanemoto Nansai

    SETAC Europe 24th Annual LCA Case Study Symposium 2018/09

  48. Mapping the carbon, air pollution, and biodiversity footprints of nations: A GIS + global supply chains

    Keiichiro Kanemoto, Daniel Moran

    Asia Oceania Geosciences Society 15th Annual Meeting 2018/06

  49. Carbon footprints of 13,000 cities

    Daniel Moran, Keiichiro Kanemoto, Magnus Jiborn, Richard Wood, Johannes Többen, Karen Seto

    Gordon Research Conference on Industrial Ecology 2018/05

  50. Mapping the carbon, air pollution, and biodiversity footprints of nations: A GIS + global supply chains

    Keiichiro Kanemoto, Daniel Moran

    SETAC Europe 28th Annual Meeting 2018/05

  51. Mapping the carbon, air pollution, and biodiversity footprints of nations: A GIS + global supply chains

    Keiichiro Kanemoto, Daniel Moran

    SETAC Europe 28th Annual Meeting 2018/05

  52. 国際サプライチェーンが誘因するアジア、欧州、北米におけるPM2.5の健康被害

    黒木みどり, 茶谷聡, 金本圭一朗, 南齋規介, 東野達

    日本LCA学会 2018/03

  53. PM2.5の健康リスクに対する非線形性を考慮した一次・二次粒子の消費基準による経済損失評価

    藤井雄太, 黒木みどり, 茶谷聡, 金本圭一朗, 南齋規介, 東野達

    日本LCA学会 2018/03

  54. 総流量モデルに基づく環境帰属分析

    土中 哲秀, 加河 茂美, 金本 圭一朗, 小野 廣隆

    環太平洋産業連関分析学会 2017/10

  55. グローバルサプライチェーンを通して主要国の消費が東アジアに誘起するPM2.5の健康影響

    黒木みどり, 茶谷聡, 金本圭一朗, 東野達, 南齋規介

    大気環境学会 2017/09

  56. Mapping the carbon, air pollution, and biodiversity footprints of nations: A GIS + MRIO approach

    Daniel Moran, Keiichiro Kanemoto

    The 9th International Conference on Industrial Ecology 2017/06

  57. The Global MRIO Lab - final outcomes from Project Réunion

    Manfred Lenzen, Arne Geschke, Muhammad Daaniyall Abd Rahman, Yanyan Xiao, Rachel C. Reyes, Erik Dietzenbacher, Jacob Fry, Satoshi Inomata, Keiichiro Kanemoto, Bart Los, Daniel Moran, Hagen Schulte in, den Baeumen, Arnold Tukker, Terrie Walmsley, Thomas O. Wiedmann, Richard Wood, Norihiko Yamano

    The 25th International Input-Output Conference 2017/06

  58. What are the ecosystem consequences of resource footprints?

    Francesca Verones, Daniel Moran, Konstantin Stadler, Keiichiro Kanemoto, Richard Wood

    The 25th International Input-Output Conference 2017/06

  59. Spatially Explicit Footprints for Biodiversity, Carbon, and Air Pollution

    Daniel Moran, Keiichiro Kanemoto

    The 25th International Input-Output Conference 2017/06

  60. Mapping the carbon, air pollution, and biodiversity footprints of nations: A GIS + global supply chains

    Keiichiro Kanemoto, Daniel Moran

    JpGU-AGU Joint Meeting 2017 2017/05

  61. 空間的環境フットプリント分析

    金本圭一朗, Daniel Moran

    日本LCA学会 2017/03

  62. CO2排出集約的な産業のクラスター分析

    金本圭一朗, 土中哲秀, 加河茂美

    環太平洋産業連関分析学会 2016/10

  63. Broad-scale, fine-resolution spatial analyses on biodiversity, functions and human threats in coastal ecosystems: how to link them with global economic analyses?

    Kenji Sudo, Masahiro Nakaoka, Keiichiro Kanemoto, Daniel Moran

    The 12th EcoBalance 2016/10

  64. Environmental pressure footprints vs. impact footprints: which is the better proxy?

    Francesca Verones, Daniel Moran, Konstantin Stadler, Keiichiro Kanemoto, Richard Wood

    The 12th EcoBalance 2016/10

  65. Identifying the Species Threat Hotspots from Global Supply Chains

    Daniel Moran, Keiichiro Kanemoto

    The 12th EcoBalance 2016/10

  66. Mapping the Environmental Footprint of Nations

    Keiichiro Kanemoto, Daniel Moran

    The 12th EcoBalance 2016/10

  67. A global MRIO Lab – overview of concepts and architecture

    Yanyan Xiao, Arne Geschke, Daaniyall Rahman, Keiichiro Kanemoto, Manfred Lenzen

    The 24th International Input-Output Conference 2016/07

  68. Updating the World Input-Output Database (WIOD) in the Global MRIO Lab

    Daaniyall Rahman, Bart Los, Arne Geschke, Yanyan Xiao, Keiichiro Kanemoto, Manfred Lenzen

    The 24th International Input-Output Conference 2016/07

  69. 窒素フットプリント指標を用いた国際貿易による窒素汚染の評価

    種田あずさ, Arunima Malik, 金本圭一朗, Arne Geschke, 西嶋翔太, Manfred Lenzen

    日本生態学会第63回全国大会 2016/03

  70. 国際貿易に伴う環境負荷および生態系評価

    金本圭一朗

    日本生態学会第63回全国大会 2016/03

  71. Construction of global nitrogen footprint model

    Azusa Oita, Arunima Malik, Keiichiro Kanemoto, Shota Nishijima, Hiroyuki Matsuda, Manfred Lenzen

    The 8th International Conference on Industrial Ecology 2015/07

  72. Updating the World Input-Output Database (WIOD) in the Global MRIO Lab

    Muhammad Daaniyall Abd Rahman, Arne Geschke, Keiichiro Kanemoto, Manfred Lenzen, Yanyan Xiao

    The 23rd International Input-Output Conference 2015/06

  73. The role of data quantity for constructing a time series of MRIO tables and calculating CO2 emissions embodied in international trade

    Yanyan Xiao, Keiichiro Kanemoto, Manfred Lenzen

    The 23rd International Input-Output Conference 2015/06

  74. The new Eora database

    Yanyan Xiao, Keiichiro Kanemoto, Diana Carneiro, Manfred Lenzen, Arne Geschke, Muhammad Daaniyall Abd Rahman, Daniel Moran

    The 23rd International Input-Output Conference 2015/06

  75. Enhancing the Eora MRIO database

    Diana Carneiro, Keiichiro Kanemoto, Yanyan Xiao, Manfred Lenzen

    The 23rd International Input-Output Conference 2015/06

  76. A Cycling Method for Constructing Input-Output Table Time Series from Incomplete Data

    Arne Geschke, Daniel Moran, Keiichiro Kanemoto, Manfred Lenzen, Maria CeciliaPintode Moura

    The 23rd International Input-Output Conference 2015/06

  77. 産業連関分析の環境分析への応用に関する既往研究のレビュー

    金本圭一朗

    日本LCA学会 2015/03

  78. グローバルバリューチェーンクラスターの検出とそれらの安定性

    加河茂美, 小野廣隆, 岡本隼輔, 金本圭一朗

    環太平洋産業連関分析学会 2014/11

  79. Resolving the international trade asymmetry in Eora multi-region input-output table

    Keiichiro Kanemoto, Daniel Moran, Manfred Lenzen, Arne Geschke

    The 22nd International Input-Output Conference 2014/07

  80. Investigating alternative approaches to harmonise MRIO data

    Arne Geschke, Richard Wood, Keiichiro Kanemoto

    The 22nd International Input-Output Conference 2013/07

  81. International trade undermines national emission reduction targets

    Keiichiro Kanemoto, Daniel Moran, Manfred Lenzen, Arne Geschke

    The 21st International Input-Output Conference 2013/07

  82. The UNCTAD-Eora GVC Database and its Applications in the World Investment Report 2013

    Keiichiro Kanemoto, Davide Rigo

    The 21st International Input-Output Conference 2013/07

  83. Investigating alternative approaches to harmonise MRIO data

    Arne Geschke, Richard Wood, Keiichiro Kanemoto

    The 21st International Input-Output Conference 2013/07

  84. International trade undermines national emission reduction targets

    Keiichiro Kanemoto, Daniel Moran, Manfred Lenzen, Arne Geschke

    The 7th International Conference on Industrial Ecology 2013/06

  85. The Material Footprint of Nations: Reassessing Resource Productivity

    Heinz Schandl, Thomas Wiedmann, Daniel Moran, Manfred Lenzen, Sangwon Suh, James West, Keiichiro Kanemoto

    The 7th International Conference on Industrial Ecology 2013/06

  86. 貿易に伴うCO2排出量が排出量削減目標に与える影響

    金本圭一朗, Daniel Moran, Manfred Lenzen, Arne Geschke

    エネルギーシステム・経済・環境コンファレンス 2013/01

  87. A Time Series of Global Carbon Footprints at High Country and Sector Detail

    Keiichiro Kanemoto, Manfred Lenzen, Daniel Moran, Arne Geschke

    The 10th EcoBalance 2012/11

  88. 世界経済構造のマップ化

    金本圭一朗, Manfred Lenzen, Daniel Moran, Arne Geschke

    環太平洋産業連関分析学会 2012/11

  89. 世界多地域間産業連関表の構築と応用

    金本圭一朗, Manfred Lenzen, Daniel Moran, Arne Geschke

    環境経済政策学会 2012/09

  90. The Material Footprint of Nations: Revisiting the Resource Efficiency of Countries

    Thomas Wiedmann, Heinz Schandl, Daniel Moran, James West, Manfred Lenzen, Keiichiro Kanemoto, Sangwon Suh

    Gordon Research Conference on Industrial Ecology 2012/06

  91. Building Eora: a Global Multi-region Input-Output Model at High Country and Sector Detail

    Manfred Lenzen, Daniel Mora, Keiichiro Kanemoto, Arne Geschke

    The 20th International Input-Output Conference 2012/06

  92. The role of regional disaggregation and scarcity weighting in the analysis of global virtual water flows

    Manfred Lenzen, Maksud Bekchanov, Anik Bhaduri, Arne Geschke, Keiichiro Kanemoto, Daniel Moran

    The 20th International Input-Output Conference 2012/06

  93. Building Eora: a Global Multi-region Input Output Model at High Country and Sector Detail

    Keiichiro Kanemoto, Manfred Lenzen, Arne Geschke, Daniel Moran

    The 19th International Input-Output Conference 2011/06

  94. The Global Carbon Footprint of Consumption: Findings from the Eora Model

    Daniel Moran, Manfred Lenzen, Arne Geschke, Keiichiro Kanemoto

    The 19th International Input-Output Conference 2011/06

  95. AISHA: A Tool for Constructing Time Series and Large Environmental and Social Accounting Matrices using Constrained Optimisation

    Arne Geschke, Manfred Lenzen, Keiichiro Kanemoto, Daniel Moran

    The 19th International Input-Output Conference 2011/06

  96. Building Eora: a Global Multi-region Input Output Model at High Country and Sector Detail

    Keiichiro Kanemoto, Manfred Lenzen, Arne Geschke, Daniel Moran

    The 6th International Conference on Industrial Ecology 2011/06

  97. The Global Carbon Footprint of Consumption: Findings from the Eora Model

    Daniel Moran, Manfred Lenzen, Arne Geschke, Keiichiro Kanemoto

    The 6th International Conference on Industrial Ecology 2011/06

  98. AISHA: A Tool for Constructing Time Series and Large Environmental and Social Accounting Matrices using Constrained Optimisation

    Arne Geschke, Manfred Lenzen, Keiichiro Kanemoto, Daniel Moran

    The 6th International Conference on Industrial Ecology, Berkeley, California 2011/06

  99. 世界多地域感産業連関モデルの構築と応用

    金本圭一朗, Manfred Lenzen, Daniel Moran, Arne Geschke

    日本LCA学会 2011/03

  100. 排出量取引制度が日本企業の国際競争力に与える影響の緩和策の分析

    明日香壽川, 盧向春, 金本圭一朗

    環境経済政策学会 2010/09

  101. A global multi-region input-output time series at high country and sector detail

    Manfred Lenzen, Keiichiro Kanemoto, Arne Geschke, Daniel Moran, Julien Ugon, Richard Wood, Ting Yu, Pablo Munoz

    The 18th International Input-Output Conference 2010/06

  102. A time series of global carbon footprints at high country and sector detail

    Keiichiro Kanemoto, Manfred Lenzen, Arne Geschke, Daniel Moran, Julien Ugon, Ting Yu, Pablo Munoz

    The 18th International Input-Output Conference 2010/06

  103. 排出量取引制度が日本企業の国際競争力に与える影響

    明日香壽川, 金本圭一朗

    環境経済政策学会 2009/09

  104. 貿易に伴うCO2排出量の推計と消費ベースのインベントリ

    金本圭一朗, 外岡豊

    環境経済政策学会 2008/09

  105. 日本の建築部門におけるCO2排出の現状と削減シナリオ

    外岡豊, 深澤大樹, 金本圭一朗

    エネルギーシステム・経済・環境コンファレンス 2008/01

  106. 日本の家庭部門におけるCO2排出削減シナリオ

    外岡豊, 深澤大樹, 金本圭一朗

    エネルギーシステム・経済・環境コンファレンス 2007/01

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Research Projects 22

  1. バイオマス資源利用の自然資本への影響評価手法の開発

    角谷拓, 金本圭一朗, 村岡元司

    Offer Organization: 独立行政法人環境再生保全機構

    System: 戦略的イノベーション創造プログラム サーキュラーエコノミーシステムの開発

    Institution: 国立大学法人東北大学

    2023/08 - 2028/03

  2. 社会・消費・産業のネクサス構造の可視化と介入策

    本下晶晴, 金本圭一朗, 横井崚佑, Islam Kamrul, 伊坪徳宏

    Offer Organization: 独立行政法人環境再生保全機構

    System: 環境研究総合推進費 S-21-2-(4)

    Institution: 総合地球環境学研究所

    2023/04 - 2028/03

  3. カーボンニュートラル社会におけるヘルスケアシステムの設計と転換策の提案のための研究

    南齋規介, 重富 陽介, 金本 圭一朗

    Offer Organization: 厚生労働省

    System: 厚生労働科学研究費補助金

    Institution: 国立大学法人東北大学

    2023/04 - 2026/03

  4. TNFDに向けた生物多様性評価指標の開発とサプライチェーン分析ツールの開発

    金本圭一朗, 角谷 拓

    Offer Organization: 独立行政法人環境再生保全機構

    System: 環境研究総合推進費

    Institution: 国立大学法人東北大学

    2023/04 - 2026/03

  5. Research on the conversion of homes and cities to sustainable lifestyles

    Keiichiro Kanemoto

    Offer Organization: Japan Science and Technology Agency

    System: Sakigake

    Institution: Research Institute of Humanity and Nature

    2022/10 - 2026/03

  6. 生物の系統・全ゲノム情報を利用した貿易を通じた種多様性・固有性評価に関する研究

    金本 圭一朗, 高梨 功次郎, 土中 哲秀, 久保田 康裕, 筧 雄介

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業 基盤研究(A)

    Category: 基盤研究(A)

    Institution: 総合地球環境学研究所

    2020/04 - 2024/03

  7. Mapping the Environmental Impact Footprint of Cities, Companies, and Household

    Keiichiro Kanemoto

    Offer Organization: Research Institute for Humanity and Nature

    System: Research Project

    Institution: Research Institute for Humanity and Nature

    2017/04 - 2024/03

  8. Aluminum resource resource system housing business

    Offer Organization: New Energy and Industrial Technology Development Organization

    2021/10 - 2023/03

  9. FS, フードチェーン全体を通じた⾷品ロス低減とそれに伴う環境負荷削減に関する研究

    金本圭一朗, 横矢直人, 杉原創, 角谷拓

    Category: ムーンショット型農林⽔産研究開発事業

    2020/12 - 2022/03

  10. Responsibility footprint analysis of Japanese activities to water resources sustainability in the world considering future changes

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Fund for the Promotion of Joint International Research (Fostering Joint International Research (B))

    Category: Fund for the Promotion of Joint International Research (Fostering Joint International Research (B))

    Institution: National Institute of Advanced Industrial Science and Technology

    2018/10 - 2022/03

  11. 地球規模の空間情報を利用したサプライチェーンに伴う環境負荷の推計

    金本 圭一朗, 奥岡 桂次郎

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業 基盤研究(B)

    Category: 基盤研究(B)

    Institution: 信州大学

    2018/07 - 2021/03

  12. Elucidating the mechanisms of health impacts due to PM2.5 within the Asian value chain

    Nansai Keisuke

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (A)

    Category: Grant-in-Aid for Scientific Research (A)

    Institution: National Institute for Environmental Studies

    2016/04 - 2021/03

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    The study reveals that the consumption of the world's top five largest GDP (USA, China, Japan, Germany and the UK) has caused about 1 million premature deaths in Asia in 2010 due to PM2.5 emissions in one year, triggering production activities in Asia, the region with the highest concentration of premature deaths in the world. Their PM2.5 emissions caused about 1 million premature deaths in one year. Looking at early deaths by age group, it was found that although deaths among the elderly (over 80 years old) were high, deaths among infants from diseases caused by lower respiratory tract infections could not be ignored. This is particularly the case in China and India, where consumption in five countries costs 15000 infants under the age of five per year. The economic cost of the nearly one million early deaths was estimated at US$45 billion.

  13. Environmental Footprints of Cities: A New Approach

    Category: Young Research Talents grant

    2019/07 - 2021

  14. Social and Technological System Design for Advancing Secondary NPK Resource Use

    Matsubae Kazuyo

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (A)

    Category: Grant-in-Aid for Scientific Research (A)

    Institution: Tohoku University

    2017/04 - 2020/03

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    This research project focused on nitrogen and phosphorus and identified the flows of nutrients through the supply chains in Japan. We did the following research items during the research period. (1) Material flow analysis of phosphorus and nitrogen in Japan (2) Development of an input-output model (NutrIO) for nutrient flow analysis, and Nitrogen/phosphorus footprint analysis of the Japanese economy based on NutrIO (3) Nitrogen/phosphorus footprint by country.

  15. Energy and Resources Network Analysis

    Kanemoto Keiichiro

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Grant-in-Aid for Young Scientists (A)

    Category: Grant-in-Aid for Young Scientists (A)

    2015/04 - 2019/03

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    In this research, I apply global supply chain information to network theory. In addition, I succeed to develop spatial footprint analysis. Spatial footprinting offers the potential to link any remote sensing or earth observatory GIS data that is tagged to an economic sector to any multi-regional input-output (MRIO) based economic model. We published many papers in journals including Nature Ecology & Evolution, Nature Geoscience, Environmental Research Letters, and Environemental Science & Technology.

  16. Ecosystem Footprints: Land Use Impacts and their Socioeconomic Determinants

    Category: Miljøforsk Program

    2016/06 - 2018/09

  17. Hybrid LCA for value added, employment, environmental emissions, and resource use: The case of smartphone

    Kanemoto Keiichiro

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Grant-in-Aid for Challenging Exploratory Research

    Category: Grant-in-Aid for Challenging Exploratory Research

    2015/04 - 2018/03

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    In this research, we estimate value added, employment, environmental emissions, and resource use embodied in iPhone. We have integrated global multi-regional input-output model and company level financial and supply chain database to trace iPhone supply chains.

  18. Trans-system, unified approach for global and regional integration of social-ecological study toward sustainable use of biodiversity and ecosystem services

    Category: Belmont Forum Call on Scenarios of Biodiversity and Ecosystem Services

    2015/04 - 2017/03

  19. 時系列ウォーター・フットプリント推計とその変化要因に関する分析

    Category: クリタ水・環境科学振興財団研究助成

    2014/10 - 2015/09

  20. エネルギー・資源供給の寸断による各国への製品供給ネットワーク構造の分析に関する研究

    Category: 九州大学教育研究プログラム・研究拠点形成プロジェクト (P&P)

    2014/10 - 2015/03

  21. 国際的なサプライチェーンに伴うエネルギー・資源のネットワーク構造解析に関する研究

    金本 圭一朗

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業 研究活動スタート支援

    Category: 研究活動スタート支援

    Institution: 九州大学

    2014/08 - 2015/03

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    世界経済のグローバル化に伴って、各国は貿易を増加させてきた。特に、先進国の途上国からの輸入の増加に伴って、途上国で排出される環境負荷や消費されるエネルギー等の貿易に伴う環境負荷・資源の増加が近年問題となってきた。例えば、日本で電気自動車を生産する際に、その原材料として、途上国でのコバルト採掘が必要となり、自動車部品の生産の際に電力消費等を通して二酸化炭素や大気汚染物質等の環境負荷が発生する。このような中で、より詳細な製品段階でのサプライチェーンに伴う環境負荷の推計や、そのサプライチェーンをネットワークとして見た際のエネルギー・資源供給の実態を明らかにする必要がある。本年度では、はじめに、国際的なサプライチェーンを推計するための多地域間産業連関モデルの環境・エネルギー・資源への応用に関する研究をレビューし、その研究成果を口頭で発表した。さらに、現在までに多地域間産業連関モデルの拡張等を行い、エネルギー・資源ネットワーク構造解析のための基盤的なフレームワークを構築してきており、その成果の一部を論文誌に投稿中である。2年間の計画であったが、科学研究費補助金 若手研究 (A) の採用に伴い、本研究費は終了となるが、若手研究 (A) で引き続き、ネットワーク構造の解析に関する研究と他の研究を進めていく。

  22. 国際制度間の相互連関に関する研究 : クリーン開発メカニズムを事例に

    金本 圭一朗

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業 特別研究員奨励費

    Category: 特別研究員(DC1)奨励費

    Institution: 東北大学

    2011/04 - 2014/03

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    昨年の文献レビューの結果、クリーン開発メカニズムの持続可能性に、国際制度間の相互連関の視点が取り入れられていないこと、また、国際制度間の相互連関の研究で定量的な研究が行われていないことが明らかになった。そのため、クリーン開発メカニズムのプロジェクトについて、国際制度間の相互連関の観点から持続可能性に関する評価を行うと同時に、国際制度間の相互連関の解明のために定量的なデータによる検証を行ってきた。 本年度は、特に国際制度間の相互連関の視点から、前年に行ったクリーン開発メカニズムプロジェクトの評価を行ってきた。生物多様性条約が定めている生物多様性に悪影響及ぼす行動をクリーン開発メカニズムのプロジェクト設計書から抽出し、個々のプロジェクトの持続可能性評価を行ってきた。既存研究では、クリーン開発メカニズムは、生物多様性条約に配慮せず新規植林・再植林を行っており、京都議定書は生物多様性条約に悪影響を与えると考えられてきた。しかし、Oberthur & Gehring (2006)の概念枠組みを用いて、個々のCDMプロジェクトを評価した結果、京都議定書はクリーン開発メカニズムを通して生物多様性条約に悪影響と同時に相乗効果ももたらすことが明らかになった。この結果は、新規植林・再植林の際に特に影響の大きいとされる植林の際の種や場所の選定等から得られた。 本研究の結果、国際制度間の相互連関をミクロなプロジェクトで見ることで、相互連関は相乗効果も悪影響も与えることが明らかとなり、今後、国際環境ガヴァナンスを理解し、より良い方向に制度設計する上で、非常に重要な知見が得られた。

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