Author
Listed:
- Yuxuan Ren
(Washington University in St. Louis)
- Christopher R. Oxford
(Washington University in St. Louis)
- Dandan Zhang
(Washington University in St. Louis)
- Xuan Liu
(Washington University in St. Louis
University of California San Diego)
- Haihui Zhu
(Washington University in St. Louis
Colorado State University)
- Ann M. Dillner
(University of California Davis)
- Warren H. White
(University of California Davis)
- Rajan K. Chakrabarty
(Washington University in St. Louis)
- Sina Hasheminassab
(California Institute of Technology)
- David J. Diner
(California Institute of Technology)
- Emmie J. Roy
(Washington University in St. Louis)
- Joshin Kumar
(Washington University in St. Louis)
- Valerie Viteri
(Washington University in St. Louis)
- Keyao Song
(Washington University in St. Louis)
- Clement Akoshile
(University of Ilorin)
- Omar Amador-Muñoz
(Universidad Nacional Autónoma de México)
- Araya Asfaw
(Addis Ababa University)
- Rachel Ying-Wen Chang
(Dalhousie University)
- Diana Francis
(Khalifa University)
- Paterne Gahungu
(University of Burundi)
- Rebecca M. Garland
(Council for Scientific and Industrial Research
University of Pretoria)
- Michel Grutter
(Universidad Nacional Autónoma de México)
- Jhoon Kim
(Yonsei University)
- Kristy Langerman
(University of Johannesburg)
- Pei-Chen Lee
(National Cheng Kung University)
- Puji Lestari
(Bandung Institute of Technology)
- Olga L. Mayol-Bracero
(University of Puerto Rico)
- Mogesh Naidoo
(Council for Scientific and Industrial Research)
- Narendra Nelli
(Khalifa University)
- Norm O’Neill
(Université de Sherbrooke)
- Sang Seo Park
(Ulsan National Institute of Science and Technology)
- Abdus Salam
(University of Dhaka)
- Bighnaraj Sarangi
(University of Puerto Rico)
- Yoav Schechner
(Technion Israel Institute of Technology)
- Robyn Schofield
(University of Melbourne)
- Sachchida N. Tripathi
(Indian Institute of Technology Kanpur
Indian Institute of Technology Kanpur)
- Eli Windwer
(Weizmann Institute of Science)
- Ming-Tsang Wu
(Kaohsiung Medical University
Kaohsiung Medical University)
- Qiang Zhang
(Tsinghua University)
- Yinon Rudich
(Weizmann Institute of Science)
- Michael Brauer
(University of British Columbia)
- Randall V. Martin
(Washington University in St. Louis)
Abstract
Characterizing black carbon (BC) on a fine scale globally is essential for understanding its climate and health impacts. However, sparse BC mass measurements in different parts of the world and coarse model resolution have inhibited evaluation of global BC emission inventories. Here, we apply globally distributed BC mass measurements from the Surface Particulate Matter Network (SPARTAN) and complementary measurement networks to evaluate contemporary BC emission inventories. We use a global chemical transport model (GEOS-Chem) in its high-performance configuration (GCHP) for high-resolution simulations to relate BC emissions to ambient concentrations for comparison with measurements. Here we find that simulations using the Community Emissions Data System (CEDS) emission inventory exhibit skill (r2 = 0.73) in representing variability in SPARTAN measurements across primarily developed regions with low BC concentrations but exhibit pronounced discrepancy (r2 = 0.00019) across high-BC regions in the Global South, underestimating BC by 38%. Alternative inventories (EDGAR, HTAP) yield similar results. These findings motivate renewed attention to the challenging task of characterizing BC emissions from low- and middle-income countries.
Suggested Citation
Yuxuan Ren & Christopher R. Oxford & Dandan Zhang & Xuan Liu & Haihui Zhu & Ann M. Dillner & Warren H. White & Rajan K. Chakrabarty & Sina Hasheminassab & David J. Diner & Emmie J. Roy & Joshin Kumar , 2025.
"Black carbon emissions generally underestimated in the global south as revealed by globally distributed measurements,"
Nature Communications, Nature, vol. 16(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62468-5
DOI: 10.1038/s41467-025-62468-5
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