Total organic carbon measurements reveal major gaps in petrochemical emissions reporting

Megan He; Jenna C. Ditto; Lexie Gardner; Jo Machesky; Tori N. Hass-Mitchell; Christina Chen; Peeyush Khare; Bugra Sahin; John D. Fortner; Desiree L. Plata; Brian D. Drollette; Katherine L. Hayden; Jeremy J.B. Wentzell; Richard L. Mittermeier; Amy Leithead; Patrick Lee; Andrea Darlington; Sumi N. Wren; Junhua Zhang; Mengistu Wolde; Samar G. Moussa; Shao Meng Li; John Liggio; Drew R. Gentner

doi:10.1126/science.adj6233

Total organic carbon measurements reveal major gaps in petrochemical emissions reporting

Megan He
, Jenna C. Ditto
, Lexie Gardner
, Jo Machesky
, Tori N. Hass-Mitchell
, Christina Chen
, Peeyush Khare
, Bugra Sahin
, John D. Fortner
, Desiree L. Plata
, Brian D. Drollette
, Katherine L. Hayden
, Jeremy J.B. Wentzell
, Richard L. Mittermeier
, Amy Leithead
, Patrick Lee
, Andrea Darlington
, Sumi N. Wren
, Junhua Zhang
, Mengistu Wolde

Samar G. Moussa, Shao Meng Li, John Liggio, Drew R. Gentner

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

Anthropogenic organic carbon emissions reporting has been largely limited to subsets of chemically speciated volatile organic compounds. However, new aircraft-based measurements revealed total gas-phase organic carbon emissions that exceed oil sands industry–reported values by 1900% to over 6300%, the bulk of which was due to unaccounted-for intermediate-volatility and semivolatile organic compounds. Measured facility-wide emissions represented approximately 1% of extracted petroleum, resulting in total organic carbon emissions equivalent to that from all other sources across Canada combined. These real-world observations demonstrate total organic carbon measurements as a means of detecting unknown or underreported carbon emissions regardless of chemical features. Because reporting gaps may include hazardous, reactive, or secondary air pollutants, fully constraining the impact of anthropogenic emissions necessitates routine, comprehensive total organic carbon monitoring as an inherent check on mass closure.

Original language	English
Pages (from-to)	426-432
Number of pages	7
Journal	Science
Volume	383
Issue number	6681
DOIs	https://doi.org/10.1126/science.adj6233
State	Published - Jan 1 2024

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He, M., Ditto, J. C., Gardner, L., Machesky, J., Hass-Mitchell, T. N., Chen, C., Khare, P., Sahin, B., Fortner, J. D., Plata, D. L., Drollette, B. D., Hayden, K. L., Wentzell, J. J. B., Mittermeier, R. L., Leithead, A., Lee, P., Darlington, A., Wren, S. N., Zhang, J., ... Gentner, D. R. (2024). Total organic carbon measurements reveal major gaps in petrochemical emissions reporting. Science, 383(6681), 426-432. https://doi.org/10.1126/science.adj6233

@article{c7e730f29eef48ccbe2d6561902670d3,

title = "Total organic carbon measurements reveal major gaps in petrochemical emissions reporting",

abstract = "Anthropogenic organic carbon emissions reporting has been largely limited to subsets of chemically speciated volatile organic compounds. However, new aircraft-based measurements revealed total gas-phase organic carbon emissions that exceed oil sands industry–reported values by 1900\% to over 6300\%, the bulk of which was due to unaccounted-for intermediate-volatility and semivolatile organic compounds. Measured facility-wide emissions represented approximately 1\% of extracted petroleum, resulting in total organic carbon emissions equivalent to that from all other sources across Canada combined. These real-world observations demonstrate total organic carbon measurements as a means of detecting unknown or underreported carbon emissions regardless of chemical features. Because reporting gaps may include hazardous, reactive, or secondary air pollutants, fully constraining the impact of anthropogenic emissions necessitates routine, comprehensive total organic carbon monitoring as an inherent check on mass closure.",

author = "Megan He and Ditto, \{Jenna C.\} and Lexie Gardner and Jo Machesky and Hass-Mitchell, \{Tori N.\} and Christina Chen and Peeyush Khare and Bugra Sahin and Fortner, \{John D.\} and Plata, \{Desiree L.\} and Drollette, \{Brian D.\} and Hayden, \{Katherine L.\} and Wentzell, \{Jeremy J.B.\} and Mittermeier, \{Richard L.\} and Amy Leithead and Patrick Lee and Andrea Darlington and Wren, \{Sumi N.\} and Junhua Zhang and Mengistu Wolde and Moussa, \{Samar G.\} and Li, \{Shao Meng\} and John Liggio and Gentner, \{Drew R.\}",

year = "2024",

month = jan,

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doi = "10.1126/science.adj6233",

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He, M, Ditto, JC, Gardner, L, Machesky, J, Hass-Mitchell, TN, Chen, C, Khare, P, Sahin, B, Fortner, JD, Plata, DL, Drollette, BD, Hayden, KL, Wentzell, JJB, Mittermeier, RL, Leithead, A, Lee, P, Darlington, A, Wren, SN, Zhang, J, Wolde, M, Moussa, SG, Li, SM, Liggio, J & Gentner, DR 2024, 'Total organic carbon measurements reveal major gaps in petrochemical emissions reporting', Science, vol. 383, no. 6681, pp. 426-432. https://doi.org/10.1126/science.adj6233

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T1 - Total organic carbon measurements reveal major gaps in petrochemical emissions reporting

AU - He, Megan

AU - Ditto, Jenna C.

AU - Gardner, Lexie

AU - Machesky, Jo

AU - Hass-Mitchell, Tori N.

AU - Chen, Christina

AU - Khare, Peeyush

AU - Sahin, Bugra

AU - Fortner, John D.

AU - Plata, Desiree L.

AU - Drollette, Brian D.

AU - Hayden, Katherine L.

AU - Wentzell, Jeremy J.B.

AU - Mittermeier, Richard L.

AU - Leithead, Amy

AU - Lee, Patrick

AU - Darlington, Andrea

AU - Wren, Sumi N.

AU - Zhang, Junhua

AU - Wolde, Mengistu

AU - Moussa, Samar G.

AU - Li, Shao Meng

AU - Liggio, John

AU - Gentner, Drew R.

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Anthropogenic organic carbon emissions reporting has been largely limited to subsets of chemically speciated volatile organic compounds. However, new aircraft-based measurements revealed total gas-phase organic carbon emissions that exceed oil sands industry–reported values by 1900% to over 6300%, the bulk of which was due to unaccounted-for intermediate-volatility and semivolatile organic compounds. Measured facility-wide emissions represented approximately 1% of extracted petroleum, resulting in total organic carbon emissions equivalent to that from all other sources across Canada combined. These real-world observations demonstrate total organic carbon measurements as a means of detecting unknown or underreported carbon emissions regardless of chemical features. Because reporting gaps may include hazardous, reactive, or secondary air pollutants, fully constraining the impact of anthropogenic emissions necessitates routine, comprehensive total organic carbon monitoring as an inherent check on mass closure.

AB - Anthropogenic organic carbon emissions reporting has been largely limited to subsets of chemically speciated volatile organic compounds. However, new aircraft-based measurements revealed total gas-phase organic carbon emissions that exceed oil sands industry–reported values by 1900% to over 6300%, the bulk of which was due to unaccounted-for intermediate-volatility and semivolatile organic compounds. Measured facility-wide emissions represented approximately 1% of extracted petroleum, resulting in total organic carbon emissions equivalent to that from all other sources across Canada combined. These real-world observations demonstrate total organic carbon measurements as a means of detecting unknown or underreported carbon emissions regardless of chemical features. Because reporting gaps may include hazardous, reactive, or secondary air pollutants, fully constraining the impact of anthropogenic emissions necessitates routine, comprehensive total organic carbon monitoring as an inherent check on mass closure.

UR - https://www.scopus.com/pages/publications/85183507461

U2 - 10.1126/science.adj6233

DO - 10.1126/science.adj6233

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AN - SCOPUS:85183507461

SN - 0036-8075

VL - 383

SP - 426

EP - 432

JO - Science

JF - Science

IS - 6681

ER -

Total organic carbon measurements reveal major gaps in petrochemical emissions reporting

Abstract

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