Meteorological Drivers of Permian Basin Methane Anomalies Derived from TROPOMI

Crosman, Erik T.

doi:10.3390/rs13050896

Cited by 15 publications

(5 citation statements)

References 70 publications

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“…Lyon et al, (2021) analyzed the variation of CH4 concentrations from airborne and tower measurements, highlighting a declining in methane concentrations from 176 Mg CH4 hr -1 before the lockdown to 55 Mg CH4 hr -1 between April and May 2020 in a defined area on the East of Delaware basin. Observations done in this research and the observations in Lyon et al, (2021) can be linked to the results from Crosman (2021), who describes the meteorological drivers which contribute to a western CH4 enhancement anomaly in the Permian basin (which can be observed in Figure 3). If we reduce the study area to the one described by Lyon et al, (2021), we can interpret the impact of the COVID-19 as a decrease in CH4 but, if we increase the area, enhancements of CH4 can be observed towards the west of Delaware.…”

Section: The Response Of Methane To the Covid-19 Lockdownmentioning

confidence: 77%

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

Calvo

Veefkind

Dix

et al. 2022

Preprint

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COVID-19 caused an historic collapse in fossil fuel demand, a general decline in economic activity and hydrocarbon price volatility. This resulted in an unprecedent scenario to evaluate the contribution of the oil and gas industry (O&G) to methane (CH 4 ) and nitrogen dioxide (NO 2 ) emissions in the Permian basin (U.S.), currently the second largest hydrocarbon-bearing area on Earth. TROPOMI (Tropospheric Monitoring Instrument), on board the Sentinel-5P satellite, has captured the impact of the oil and gas industry during the COVID-19 lockdown. Production and drilling declined (13 % and 68 % respectively) during the lockdown, causing a generalized drop (˜30 %) of NO 2 emissions derived using the divergence method in comparison with 2019. NO 2 tropospheric columns were less impacted with a smaller decrease (˜4 %) across the basins. On the other hand, the impact of the lockdown in methane (increase of 0.1 % to 0.3 % across the basins) was not as evident as in the NO2, because of the large background cause by the long lifetime (12 years), the variability of the meteorology, and the limited temporal sampling due to the strict thresholds of the retrieval algorithm. This study demonstrates that the impact of the COVID-19 lockdown on NO 2 and CH 4 emissions was not only present in urban areas but also in vast O&G production regions, which shows the potential of TROPOMI to assess future pollution mitigation strategies for this industry.

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Section: The Response Of Methane To the Covid-19 Lockdownmentioning

confidence: 77%

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

Calvo

Veefkind

Dix

et al. 2022

Preprint

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“…L3 data set was downloaded from the Google Earth Engine (GEE) Javascript API and with a resolution of 0.01° × 0.01° as a result of the oversampling of the L2 OFFL NO 2 data from TROPOMI by GEE [51, 52, 40]. The conversion to L3 is done by the harpconvert tool using the bin spatial operation.…”

Section: Methodsmentioning

confidence: 99%

NO₂ pollution decrease in big cities of Latin America during COVID-19 pandemic

Poullain

Guerrieri

Miller

et al. 2022

Preprint

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NO2 is a mainly anthropogenic gas that affects population health and its exposure is associated with several respiratory diseases. Its tropospheric concentration is associated with vehicle emissions. During 2020, COVID-19 lockdowns have impeded populations mobility, hence constructing an almost ideal situation to study their relationship with tropospheric NO2 concentration. We used TROPOMI (TROPOspheric Monitoring Instrument) satellite images, Google mobility reports and vehicule count in order to study these relationships in six big Latin American metropolitan areas: Mexico DF, Sao Paulo, Buenos Aires, Rio de Janeiro, Lima and Bogota. In all of them, tropospheric NO2 concentration decreased during 2020 compared to 2019, particularly during April 2020. Temperature differences alone could not explain the NO2 concentration differences between February and April 2020. The daily vehicle count in Buenos Aires was a significantly important variable in order to explain NO2 concentration variations (p < 0.001) and it could be replaced by the daily Googles residential variation without significant information loss (p~1). This study strengthens previous research findings about NO2 concentration reduction during COVID-19 lockdowns and shows the relationship between human mobility and air pollution in the particular context of Latin America big cities.

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“…Therefore, prevailing winds at the site were southeasterly, with occasional gusts from the northwest (Figure S2). When the summer monsoon transport is weak, the site can be more strongly impacted by local and terrain-driven flows, with southeasterly daytime upslope flows and nocturnal northeasterly downslope flows (Crosman 2021). During the summer of 2019, the site was impacted by a subtropical ridge over southern New Mexico, which suppressed the monsoon transport out of the Permian Basin to the west (Figure S1) and led to more frequent northwesterly winds at CAVE (Figure S2).…”

Section: Monitoring Site and Voc Samplingmentioning

confidence: 99%

Source characterization of volatile organic compounds at Carlsbad Caverns National Park

Pan,

Pollack,

Sive

et al. 2023

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Meteorological Drivers of Permian Basin Methane Anomalies Derived from TROPOMI

Cited by 15 publications

References 70 publications

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

NO₂ pollution decrease in big cities of Latin America during COVID-19 pandemic

Source characterization of volatile organic compounds at Carlsbad Caverns National Park

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Meteorological Drivers of Permian Basin Methane Anomalies Derived from TROPOMI

Cited by 15 publications

References 70 publications

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

COVID-19 impact on the oil and gas industry emissions: a case study of methane and nitrogen dioxide in the Permian basin

NO2 pollution decrease in big cities of Latin America during COVID-19 pandemic

Source characterization of volatile organic compounds at Carlsbad Caverns National Park

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Product

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NO₂ pollution decrease in big cities of Latin America during COVID-19 pandemic