David G Streets
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Explore the profile of David G Streets including associated specialties, affiliations and a list of published articles.
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43
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724
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Recent Articles
1.
Zhang W, Wang J, Xu Y, Wang C, Streets D
Sci Total Environ
. 2021 Sep;
803:150083.
PMID: 34525679
Understanding the spatio-temporal heterogeneous effects of socioeconomic and meteorological factors on CO emissions from combinations of different district heating systems with "Coal-to-Gas" transition can contribute to the development of future...
2.
Goldberg D, Anenberg S, Kerr G, Mohegh A, Lu Z, Streets D
Earths Future
. 2021 Apr;
9(4):e2020EF001665.
PMID: 33869651
Observing the spatial heterogeneities of NO air pollution is an important first step in quantifying NO emissions and exposures. This study investigates the capabilities of the Tropospheric Monitoring Instrument (TROPOMI)...
3.
Wang S, Su H, Chen C, Tao W, Streets D, Lu Z, et al.
Proc Natl Acad Sci U S A
. 2020 Nov;
117(49):31018-31025.
PMID: 33229579
The Chinese "coal-to-gas" and "coal-to-electricity" strategies aim at reducing dispersed coal consumption and related air pollution by promoting the use of clean and low-carbon fuels in northern China. Here, we...
4.
Goldberg D, Anenberg S, Griffin D, McLinden C, Lu Z, Streets D
Geophys Res Lett
. 2020 Sep;
47(17):e2020GL089269.
PMID: 32904906
TROPOMI satellite data show substantial drops in nitrogen dioxide (NO) during COVID-19 physical distancing. To attribute NO changes to NO emissions changes over short timescales, one must account for meteorology....
5.
Goldberg D, Lu Z, Streets D, de Foy B, Griffin D, McLinden C, et al.
Environ Sci Technol
. 2019 Oct;
53(21):12594-12601.
PMID: 31601103
The TROPOspheric Monitoring Instrument (TROPOMI) is used to derive top-down NO emissions for two large power plants and three megacities in North America. We first re-process the vertical column NO...
6.
Goldberg D, Lu Z, Oda T, Lamsal L, Liu F, Griffin D, et al.
Sci Total Environ
. 2019 Aug;
695:133805.
PMID: 31419680
Fossil-fuel CO emissions and their trends in eight U.S. megacities during 2006-2017 are inferred by combining satellite-derived NO emissions with bottom-up city-specific NO-to-CO emission ratios. A statistical model is fit...
7.
Cui Y, Jiang L, Zhang W, Bao H, Geng B, He Q, et al.
Int J Environ Res Public Health
. 2019 May;
16(9).
PMID: 31035528
China's rapid urbanization and industrialization have affected the spatiotemporal patterns of nitrogen dioxide (NO) pollution, which has led to greater environmental pressures. In order to mitigate the environmental pressures caused...
8.
Liu X, He K, Zhang Q, Lu Z, Wang S, Zhang Y, et al.
Sci Total Environ
. 2019 Feb;
653:1364-1376.
PMID: 30759576
A novel back-trajectory approach was adopted to determine the origins of black carbon (BC) and carbon monoxide (CO) transported to Beijing, Tianjin and Hebei. Results showed that the transport efficiency...
9.
Streets D, Lu Z, Levin L, Ter Schure A, Sunderland E
Sci Total Environ
. 2017 Oct;
615:131-140.
PMID: 28964988
Coal combustion is one of the largest contemporary sources of anthropogenic mercury (Hg). It releases geologically sequestered Hg to the atmosphere, and fly ash can contaminate terrestrial and aquatic systems....
10.
Streets D, Horowitz H, Jacob D, Lu Z, Levin L, Ter Schure A, et al.
Environ Sci Technol
. 2017 Apr;
51(11):5969-5977.
PMID: 28448134
We estimate that a cumulative total of 1540 (1060-2800) Gg (gigagrams, 10 grams or thousand tonnes) of mercury (Hg) have been released by human activities up to 2010, 73% of...