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Creating a Global Grid of Distributed Fossil Fuel CO 2 Emissions from Nighttime Satellite Imagery

Author

Listed:
  • Tilottama Ghosh

    (Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO 80309, USA)

  • Christopher D. Elvidge

    (Earth Observation Group, Solar and Terrestrial Physics Division, NOAA National Geophysical Data Center, 325 Broadway, Boulder, CO 80305, USA)

  • Paul C. Sutton

    (Department of Geography, University of Denver, Denver, CO 80208, USA)

  • Kimberly E. Baugh

    (Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO 80309, USA)

  • Daniel Ziskin

    (Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO 80309, USA)

  • Benjamin T. Tuttle

    (Department of Geography, University of Denver, Denver, CO 80208, USA)

Abstract

The potential use of satellite observed nighttime lights for estimating carbon-dioxide (CO 2 ) emissions has been demonstrated in several previous studies. However, the procedures for a moderate resolution (1 km 2 grid cells) global map of fossil fuel CO 2 emissions based on nighttime lights are still in the developmental phase. We report on the development of a method for mapping distributed fossil fuel CO 2 emissions (excluding electric power utilities) at 30 arc-seconds or approximately 1 km 2 resolution using nighttime lights data collected by the Defense Meteorological Satellite Program’s Operational Linescan System (DMSP-OLS). A regression model, Model 1, was initially developed based on carbon emissions from five sectors of the Vulcan data produced by the Purdue University and a nighttime satellite image of the U.S. The coefficient derived through Model 1 was applied to the global nighttime image but it resulted in underestimation of CO 2 emissions for most of the world’s countries, and the states of the U.S. Thus, a second model, Model 2 was developed by allocating the distributed CO 2 emissions (excluding emissions from utilities) using a combination of DMSP-OLS nighttime image and population count data from the U.S. Department of Energy's (DOE) LandScan grid. The CO 2 emissions were distributed in proportion to the brightness of the DMSP nighttime lights in areas where lighting was detected. In areas with no DMSP detected lighting, the CO 2 emissions were distributed based on population count, with the assumption that people who live in these areas emit half as much CO 2 as people who live in the areas with DMSP detected lighting. The results indicate that the relationship between satellite observed nighttime lights and CO 2 emissions is complex, with differences between sectors and variations in lighting practices between countries. As a result it is not possible to make independent estimates of CO 2 emissions with currently available coarse resolution panchromatic satellite observed nighttime lights. However, the nighttime lights image in conjunction with the population grid can help in more accurate disaggregation of national CO 2 emissions to a moderate resolution spatial grid.

Suggested Citation

  • Tilottama Ghosh & Christopher D. Elvidge & Paul C. Sutton & Kimberly E. Baugh & Daniel Ziskin & Benjamin T. Tuttle, 2010. "Creating a Global Grid of Distributed Fossil Fuel CO 2 Emissions from Nighttime Satellite Imagery," Energies, MDPI, vol. 3(12), pages 1-19, December.
    • Handle: RePEc:gam:jeners:v:3:y:2010:i:12:p:1895-1913:d:10498
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    References listed on IDEAS

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    1. Christopher D. Elvidge & Daniel Ziskin & Kimberly E. Baugh & Benjamin T. Tuttle & Tilottama Ghosh & Dee W. Pack & Edward H. Erwin & Mikhail Zhizhin, 2009. "A Fifteen Year Record of Global Natural Gas Flaring Derived from Satellite Data," Energies, MDPI, vol. 2(3), pages 1-28, August.
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    Cited by:

    1. Xiao, Hongwei & Ma, Zhongyu & Mi, Zhifu & Kelsey, John & Zheng, Jiali & Yin, Weihua & Yan, Min, 2018. "Spatio-temporal simulation of energy consumption in China's provinces based on satellite night-time light data," Applied Energy, Elsevier, vol. 231(C), pages 1070-1078.
    2. Meng, Lina & Graus, Wina & Worrell, Ernst & Huang, Bo, 2014. "Estimating CO2 (carbon dioxide) emissions at urban scales by DMSP/OLS (Defense Meteorological Satellite Program's Operational Linescan System) nighttime light imagery: Methodological challenges and a ," Energy, Elsevier, vol. 71(C), pages 468-478.
    3. Cui, Yuanzheng & Zhang, Weishi & Wang, Can & Streets, David G. & Xu, Ying & Du, Mingxi & Lin, Jintai, 2019. "Spatiotemporal dynamics of CO2 emissions from central heating supply in the North China Plain over 2012–2016 due to natural gas usage," Applied Energy, Elsevier, vol. 241(C), pages 245-256.
    4. Liang, Hanwei & Dong, Liang & Tanikawa, Hiroki & Zhang, Ning & Gao, Zhiqiu & Luo, Xiao, 2017. "Feasibility of a new-generation nighttime light data for estimating in-use steel stock of buildings and civil engineering infrastructures," Resources, Conservation & Recycling, Elsevier, vol. 123(C), pages 11-23.
    5. Qian, Long & Xu, Xiaolin & Sun, Ying & Zhou, Yunjie, 2022. "Carbon emission reduction effects of eco-industrial park policy in China," Energy, Elsevier, vol. 261(PB).

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