Correlations and emission ratios among bromoform, dibromochloromethane, and dibromomethane in the atmosphere

Yokouchi, Yoko; Hasebe, Fumio; Fujiwara, Masatomo; Takashima, Hisahiro; Shiotani, Masato; Nishi, Noriyuki; Kanaya, Yugo; Hashimoto, Shinichi; Fraser, P. J.; Toom-Sauntry, D.; Mukai, Hirofumi; Nojiri, Yukihiro

doi:10.1029/2005jd006303

Cited by 97 publications

(188 citation statements)

References 25 publications

(43 reference statements)

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“…For example, Yokouchi observed mixing ratios of CHBr 3 of 0.32 to 7.1 pmol mol −1 , which is similar to our study, with a range of 1.85-5.25 pmol mol −1 for CHBr 3 . This contrasts with the study of Yokouchi et al (2005) over the western Pacific and Java Island, who observed high mixing ratios with a range of 16.3 to 31.4 pmol mol −1 at Christmas Island, and 4.2 to 43.6 pmol mol −1 at San Cristobal Island. Pyle et al (2011) also observed high mixing ratios of CHBr 3 in Malaysian Borneo (near to stations 21 and 27 in this study), with a range of 2 to 60 pmol mol −1 .…”

Section: Drivers Of Variabilitycontrasting

confidence: 99%

“…Significant correlations between brominated halocarbons have been observed in coastal air measurements, suggesting that these gases have come from the same sources (Yokouchi et al, 2005;O'Brien et al, 2009;Carpenter et al, 2009). Several studies have exploited these correlations to explore the possible source strengths of the individual species.…”

Section: Emission Ratiosmentioning

confidence: 98%

“…Several studies have exploited these correlations to explore the possible source strengths of the individual species. Carpenter et al (2003), Yokouchi et al (2005) and O'Brien et which CHBr 3 has been removed at a faster rate. Yokouchi et al (2005) used the minimum ratio of CH 2 Br 2 /CHBr 3 to define the ratio of the emission sources by assuming that the emissions came from the common sources and are constant on a regional scale.…”

Section: Emission Ratiosmentioning

confidence: 99%

“…Carpenter et al (2003), Yokouchi et al (2005) and O'Brien et which CHBr 3 has been removed at a faster rate. Yokouchi et al (2005) used the minimum ratio of CH 2 Br 2 /CHBr 3 to define the ratio of the emission sources by assuming that the emissions came from the common sources and are constant on a regional scale. If the global emission of CH 2 Br 2 is known, then that of CHBr 3 can be inferred.…”

Section: Emission Ratiosmentioning

confidence: 99%

“…More recently, Yokouchi et al (2005) reported a larger range of bromocarbon concentrations, with CHBr 3 ranging from ∼ 1 pmol mol −1 over the open ocean to ∼ 40 pmol mol −1 in the vicinity of tropical islands in the western Pacific region. Butler et al (2007a) collected data from seven open ocean cruises spanning a ten-year period, covering much of the world's oceans.…”

Section: Introductionmentioning

confidence: 99%

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Bromocarbons in the tropical coastal and open ocean atmosphere during the 2009 Prime Expedition Scientific Cruise (PESC-09)

Nadzir

Phang²,

Abas³

et al. 2014

Atmos. Chem. Phys.

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Abstract. Atmospheric concentrations of very short-lived species (VSLS) bromocarbons, including CHBr 3 , CH 2 Br 2 , CHCl 2 Br, CHClBr 2 , and CH 2 BrCl, were measured in the Strait of Malacca and the South China and Sulu-Sulawesi seas during a two-month research cruise in June-July 2009. The highest bromocarbon concentrations were found in the Strait of Malacca, with smaller enhancements in coastal regions of northern Borneo. CHBr 3 was the most abundant bromocarbon, ranging from 5.2 pmol mol −1 in the Strait of Malacca to 0.94 pmol mol −1 over the open ocean. Other bromocarbons showed lower concentrations, in the range of 0.8-1.3 pmol mol −1 for CH 2 Br 2 , 0.1-0.5 pmol mol −1 for CHCl 2 Br, and 0.1-0.4 pmol mol −1 for CHClBr 2 . There was no significant correlation between bromocarbons and in situ chlorophyll a, but positive correlations with both MODIS and SeaWiFS satellite chlorophyll a. Together, the shortlived bromocarbons contribute an average of 8.9 pmol mol −1 (range 5.2-21.4 pmol mol −1 ) to tropospheric bromine loading, which is similar to that found in previous studies from global sampling networks (Montzka et al., 2011). Statistical tests showed strong Spearman correlations between brominated compounds, suggesting a common source. Log-log plots of CHBr 3 /CH 2 Br 2 versus CHBr 2 Cl/CH 2 Br 2 show that both chemical reactions and dilution into the background atmosphere contribute to the composition of these halocarbons at each sampling point. We have used the correlation to . Finally, we note that satellite-derived chlorophyll a (chl a) products do not always agree well with in situ measurements, particularly in coastal regions of high turbidity, meaning that satellite chl a may not always be a good proxy for marine productivity.

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Section: Drivers Of Variabilitycontrasting

confidence: 99%

Section: Emission Ratiosmentioning

confidence: 98%

Section: Emission Ratiosmentioning

confidence: 99%

Section: Emission Ratiosmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Bromocarbons in the tropical coastal and open ocean atmosphere during the 2009 Prime Expedition Scientific Cruise (PESC-09)

Nadzir

Phang²,

Abas³

et al. 2014

Atmos. Chem. Phys.

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Spatial distribution of brominated very short‐lived substances in the eastern Pacific

et al. 2013

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[1] Seawater concentrations and distributions of brominated very short-lived substances (BrVSLS), including bromoform (CHBr 3 ), dibromomethane (CH 2 Br 2 ), bromodichloromethane (CHBrCl 2 ), chlorodibromomethane (CHClBr 2 ), were measured in the upper water column (5-750 m) in the eastern Pacific. Inorganic nutrient, pigment concentrations, and picoplankton cell counts were measured to determine biogeochemical factors that affect the production and distribution of these BrVSLS. Elevated concentrations of BrVSLS were observed in coastal and tropical seawater. Concentration maxima for CHBr 3 , CH 2 Br 2 , and CHClBr 2 were observed below the mixed layer, near the subsurface chlorophyll a maxima, which suggest BrVSLS production may be related to photosynthetic biomass production. Our results also suggest that heterotrophic bacteria may also contribute to CH 2 Br 2 and CHBrCl 2 production in the water column. The maximum CHBrCl 2 concentration was observed at a depth much deeper than the euphotic zone, which suggests sources other than photosynthetic biomass. Elevated CHBrCl 2 concentrations in deeper waters were coincident with elevated CHCl 3 concentrations, which may be an evidence for successive chlorine substitution of CHBr 3 in deeper and older water masses.

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Environmental Control of Vanadium Haloperoxidases and Halocarbon Emissions in Macroalgae

et al. 2018

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Vanadium-dependent haloperoxidases (V-HPO), able to catalyze the reaction of halide ions (Cl, Br, I) with hydrogen peroxide, have a great influence on the production of halocarbons, which in turn are involved in atmospheric ozone destruction and global warming. The production of these haloperoxidases in macroalgae is influenced by changes in the surrounding environment. The first reported vanadium bromoperoxidase was discovered 40 years ago in the brown alga Ascophyllum nodosum. Since that discovery, more studies have been conducted on the structure and mechanism of the enzyme, mainly focused on three types of V-HPO, the chloro- and bromoperoxidases and, more recently, the iodoperoxidase. Since aspects of environmental regulation of haloperoxidases are less well known, the present paper will focus on reviewing the factors which influence the production of these enzymes in macroalgae, particularly their interactions with reactive oxygen species (ROS).

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Correlations and emission ratios among bromoform, dibromochloromethane, and dibromomethane in the atmosphere

Cited by 97 publications

References 25 publications

Bromocarbons in the tropical coastal and open ocean atmosphere during the 2009 Prime Expedition Scientific Cruise (PESC-09)

Bromocarbons in the tropical coastal and open ocean atmosphere during the 2009 Prime Expedition Scientific Cruise (PESC-09)

Spatial distribution of brominated very short‐lived substances in the eastern Pacific

Environmental Control of Vanadium Haloperoxidases and Halocarbon Emissions in Macroalgae

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