"Missing" cloud condensation nuclei in peat smoke

U. Dusek; G. P. Frank; G. Helas; Y. Iinuma; K. Zeromskiene; P. Gwaze; T. Hennig; A. Massling; O. Schmid; H. Herrmann; A. Wiedensohler; M. O. Andreae

doi:10.1029/2005GL022473

"Missing" cloud condensation nuclei in peat smoke

U. Dusek^*, G. P. Frank, G. Helas, Y. Iinuma, K. Zeromskiene, P. Gwaze, T. Hennig, A. Massling, O. Schmid, H. Herrmann, A. Wiedensohler, M. O. Andreae

^*Corresponding author voor dit werk

Onderzoeksoutput: Article › Academic › peer review

23 Citaten (Scopus)

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We characterized particulate emissions from vegetation fires by burning Indonesian and German peat and other biomass fuels in a controlled laboratory setting. By measuring cloud condensation nuclei (CCN) both as a function of particle diameter (d_p) and supersaturation (S), we discovered particles in peat smoke that were not activated to cloud droplets at high S (1.6%). These hydrophobic particles were present predominantly in the size range of d_p > 200 nm, where typical wood burning particles are activated at S < 0.3%. Ambient measurements during the 1997 Indonesian peat fires suggested that peat smoke particles are highly soluble and therefore efficient CCN. Our CCN measurements performed on fresh smoke from peat samples of the same area suggest that these Indonesian smoke particles probably acquired soluble material through chemical processing in the atmosphere. Freshly emitted peat smoke particles are at least partially not very efficient CCN.

Originele taal-2	English
Pagina's (van-tot)	1-4
Aantal pagina's	4
Tijdschrift	Geophysical research letters
Volume	32
Nummer van het tijdschrift	11
DOI's	https://doi.org/10.1029/2005GL022473
Status	Published - 16-jun.-2005
Extern gepubliceerd	Ja

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title = "{"}Missing{"} cloud condensation nuclei in peat smoke",

abstract = "We characterized particulate emissions from vegetation fires by burning Indonesian and German peat and other biomass fuels in a controlled laboratory setting. By measuring cloud condensation nuclei (CCN) both as a function of particle diameter (dp) and supersaturation (S), we discovered particles in peat smoke that were not activated to cloud droplets at high S (1.6%). These hydrophobic particles were present predominantly in the size range of dp > 200 nm, where typical wood burning particles are activated at S < 0.3%. Ambient measurements during the 1997 Indonesian peat fires suggested that peat smoke particles are highly soluble and therefore efficient CCN. Our CCN measurements performed on fresh smoke from peat samples of the same area suggest that these Indonesian smoke particles probably acquired soluble material through chemical processing in the atmosphere. Freshly emitted peat smoke particles are at least partially not very efficient CCN.",

author = "U. Dusek and Frank, {G. P.} and G. Helas and Y. Iinuma and K. Zeromskiene and P. Gwaze and T. Hennig and A. Massling and O. Schmid and H. Herrmann and A. Wiedensohler and Andreae, {M. O.}",

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AU - Dusek, U.

AU - Frank, G. P.

AU - Helas, G.

AU - Iinuma, Y.

AU - Zeromskiene, K.

AU - Gwaze, P.

AU - Hennig, T.

AU - Massling, A.

AU - Schmid, O.

AU - Herrmann, H.

AU - Wiedensohler, A.

AU - Andreae, M. O.

PY - 2005/6/16

Y1 - 2005/6/16

N2 - We characterized particulate emissions from vegetation fires by burning Indonesian and German peat and other biomass fuels in a controlled laboratory setting. By measuring cloud condensation nuclei (CCN) both as a function of particle diameter (dp) and supersaturation (S), we discovered particles in peat smoke that were not activated to cloud droplets at high S (1.6%). These hydrophobic particles were present predominantly in the size range of dp > 200 nm, where typical wood burning particles are activated at S < 0.3%. Ambient measurements during the 1997 Indonesian peat fires suggested that peat smoke particles are highly soluble and therefore efficient CCN. Our CCN measurements performed on fresh smoke from peat samples of the same area suggest that these Indonesian smoke particles probably acquired soluble material through chemical processing in the atmosphere. Freshly emitted peat smoke particles are at least partially not very efficient CCN.

AB - We characterized particulate emissions from vegetation fires by burning Indonesian and German peat and other biomass fuels in a controlled laboratory setting. By measuring cloud condensation nuclei (CCN) both as a function of particle diameter (dp) and supersaturation (S), we discovered particles in peat smoke that were not activated to cloud droplets at high S (1.6%). These hydrophobic particles were present predominantly in the size range of dp > 200 nm, where typical wood burning particles are activated at S < 0.3%. Ambient measurements during the 1997 Indonesian peat fires suggested that peat smoke particles are highly soluble and therefore efficient CCN. Our CCN measurements performed on fresh smoke from peat samples of the same area suggest that these Indonesian smoke particles probably acquired soluble material through chemical processing in the atmosphere. Freshly emitted peat smoke particles are at least partially not very efficient CCN.

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SN - 0094-8276

VL - 32

SP - 1

EP - 4

JO - Geophysical research letters

JF - Geophysical research letters

IS - 11

ER -

"Missing" cloud condensation nuclei in peat smoke

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