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DOI	10.5194/acp-20-6095-2020
	Deposition of brown carbon onto snow: Changes in snow optical and radiative properties
	Beres N.D.; Sengupta D.; Samburova V.; Khlystov A.Y.; Moosmüller H.
发表日期	2020
ISSN	1680-7316
起始页码	6095
结束页码	6114
卷号	20 期号:10
英文摘要	Light-absorbing organic carbon aerosol-colloquially known as brown carbon (BrC)-is emitted from combustion processes and has a brownish or yellowish visual appearance, caused by enhanced light absorption at shorter visible and ultraviolet wavelengths (0:3μm.≤γ≤.0:5μm). Recently, optical properties of atmospheric BrC aerosols have become the topic of intense research, but little is known about how BrC deposition onto snow surfaces affects the spectral snow albedo, which can alter the resulting radiative forcing and in-snow photochemistry. Wildland fires in close proximity to the cryosphere, such as peatland fires that emit large quantities of BrC, are becoming more common at high latitudes, potentially affecting nearby snow and ice surfaces. In this study, we describe the artificial deposition of BrC aerosol with known optical, chemical, and physical properties onto the snow surface, and we monitor its spectral radiative impact and compare it directly to modeled values. First, using small-scale combustion of Alaskan peat, BrC aerosols were artificially deposited onto the snow surface. UV-Vis absorbance and total organic carbon (TOC) concentration of snow samples were measured for samples with and without artificial BrC deposition. These measurements were used to first derive a BrC (mass) specific absorption (m2 g-1) across the UV-Vis spectral range.We then estimate the imaginary part of the refractive index of deposited BrC aerosol using a volume mixing rule. Single-particle optical properties were calculated using Mie theory, and these values were used to show that the measured spectral snow albedo of snow with deposited BrC was in general agreement with modeled spectral snow albedo using calculated BrC optical properties. The instantaneous radiative forcing per unit mass of total organic carbon deposited to the ambient snowpack was found to be 1.23 (C0:14=-0:11)Wm-2 per part per million (ppm). We estimate the same deposition onto a pure snowpack without light-absorbing impurities would have resulted in an instantaneous radiative forcing per unit mass of 2.68 (C0:27=-0:22)Wm-2 per ppm of BrC deposited. © Author(s) 2020.
语种	英语
scopus关键词	adsorption; atmospheric deposition; brown carbon; Mie theory; optical property; photochemistry; radiative forcing; snow; total organic carbon; wildfire
来源期刊	ATMOSPHERIC CHEMISTRY AND PHYSICS
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/247761
作者单位	Division of Atmospheric Sciences, Desert Research Institute, Reno, NV, United States; Department of Physics, University of Nevada-Reno, Reno, NV, United States; Aerosol and Environmental Physics, University of Vienna, Vienna, Austria
推荐引用方式 GB/T 7714	Beres N.D.,Sengupta D.,Samburova V.,et al. Deposition of brown carbon onto snow: Changes in snow optical and radiative properties[J],2020,20(10).
APA	Beres N.D.,Sengupta D.,Samburova V.,Khlystov A.Y.,&Moosmüller H..(2020).Deposition of brown carbon onto snow: Changes in snow optical and radiative properties.ATMOSPHERIC CHEMISTRY AND PHYSICS,20(10).
MLA	Beres N.D.,et al."Deposition of brown carbon onto snow: Changes in snow optical and radiative properties".ATMOSPHERIC CHEMISTRY AND PHYSICS 20.10(2020).