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A 1 year record of global radiation and albedo in the ablation zone of Morteratschgletscher, Switzerland (1998)

Oerlemans, J. ; Knap, W. H.

Cambridge University Press

In: Journal of Glaciology. 1998; 44(147): 231-238. Published 1998 Jan 01. doi: 10.3189/s0022143000002574.

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Publication Date: 1998-01-01

Description: We analyse data on solar radiation measured with an automatic weather station on Morteratschgletscher, Switzerland, for the period 1 October 1995–30 September 1996. The station is in the lower ablation zone. Due to shading by surrounding mountains and atmospheric attenuation, only 49% of the annual extraterrestrial irradiance (mean: 292 W m−2) reaches the glacier surface. About 48% of this is absorbed at the surface (mean: 79 W m−2; annual albedo of 0.53).We present a simple albedo scheme for use in glacier mass-balance models. We fit the model to the 1 year dataset by optimizing five control parameters (optimal values in brackets): albedo of snow (0.75), albedo of firn (0.53), albedo of ice (0.34), e-folding constant for effect of ageing on snow albedo (21.9 days) and e-folding constant for effect of snow depth on albedo (3.2 cm). The input consists of daily albedo, snow depth and dates of snowfall events. The correlation coefficient between observed and simulated albedo is 0.931, the corresponding rms difference being 0.067.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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A 1 year record of global radiation and albedo in the ablation zone of Morteratschgletscher, Switzerland (1998)

Oerlemans, J. ; Knap, W. H.

Cambridge University Press

In: Journal of Glaciology. 1998; 44(147): 231-238. Published 1998 Jan 01. doi: 10.1017/s0022143000002574.

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Publication Date: 1998-01-01

Description: We analyse data on solar radiation measured with an automatic weather station on Morteratschgletscher, Switzerland, for the period 1 October 1995–30 September 1996. The station is in the lower ablation zone. Due to shading by surrounding mountains and atmospheric attenuation, only 49% of the annual extraterrestrial irradiance (mean: 292 W m−2) reaches the glacier surface. About 48% of this is absorbed at the surface (mean: 79 W m−2; annual albedo of 0.53).We present a simple albedo scheme for use in glacier mass-balance models. We fit the model to the 1 year dataset by optimizing five control parameters (optimal values in brackets): albedo of snow (0.75), albedo of firn (0.53), albedo of ice (0.34),e-folding constant for effect of ageing on snow albedo (21.9 days) ande-folding constant for effect of snow depth on albedo (3.2 cm). The input consists of daily albedo, snow depth and dates of snowfall events. The correlation coefficient between observed and simulated albedo is 0.931, the corresponding rms difference being 0.067.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Analysis of actinic flux profiles measured from an ozone sonde balloon (2014)

Wang, P. ; Allaart, M. ; Knap, W. H. ; [et al.]

Copernicus

In: Atmospheric Chemistry and Physics Discussions. 2014; 14(22): 31169-31201. Published 2014 Dec 10. doi: 10.5194/acpd-14-31169-2014.

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Publication Date: 2014-12-10

Description: A green light sensor has been developed at KNMI to measure actinic flux profiles using an ozone sonde balloon. In total, 63 launches with ascending and descending profiles were performed between 2006 and 2010. The measured uncalibrated actinic flux profiles are analyzed using the Doubling Adding KNMI (DAK) radiative transfer model. Values of the cloud optical thickness (COT) along the flight track were taken from the Spinning Enhanced Visible and Infrared Imager (SEVIRI) Cloud Physical Properties (CPP) product. The impact of clouds on the actinic flux profile is evaluated on the basis of the cloud modification factor (CMF) at the cloud top and cloud base, which is the ratio between the actinic fluxes for cloudy and clear-sky scenes. The impact of clouds on the actinic flux is clearly detected: the largest enhancement occurs at the cloud top due to multiple scattering. The actinic flux decreases almost linearly from cloud top to cloud base. Above the cloud top the actinic flux also increases compared to clear-sky scenes. We find that clouds can increase the actinic flux to 2.3 times of the clear-sky value at cloud top and decrease it to about 0.05 at cloud base. The relationship between CMF and COT agrees well with DAK simulations, except for a few outliers. Good agreement is found between the DAK simulated actinic flux profiles and the observations for single layer clouds in fully overcast scenes. The instrument is suitable for operational balloon measurements because of its simplicity and low cost. It is worth to further develop the instrument and launch it together with atmospheric chemistry composition sensors.

Electronic ISSN: 1680-7375

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Analysis of actinic flux profiles measured from an ozonesonde balloon (2015)

Wang, P. ; Allaart, M. ; Knap, W. H. ; [et al.]

Copernicus

In: Atmospheric Chemistry and Physics. 2015; 15(8): 4131-4144. Published 2015 Apr 21. doi: 10.5194/acp-15-4131-2015.

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Publication Date: 2015-04-21

Description: A green light sensor has been developed at KNMI to measure actinic flux profiles using an ozonesonde balloon. In total, 63 launches with ascending and descending profiles were performed between 2006 and 2010. The measured uncalibrated actinic flux profiles are analysed using the Doubling–Adding KNMI (DAK) radiative transfer model. Values of the cloud optical thickness (COT) along the flight track were taken from the Spinning Enhanced Visible and Infrared Imager (SEVIRI) Cloud Physical Properties (CPP) product. The impact of clouds on the actinic flux profile is evaluated on the basis of the cloud modification factor (CMF) at the cloud top and cloud base, which is the ratio between the actinic fluxes for cloudy and clear-sky scenes. The impact of clouds on the actinic flux is clearly detected: the largest enhancement occurs at the cloud top due to multiple scattering. The actinic flux decreases almost linearly from cloud top to cloud base. Above the cloud top the actinic flux also increases compared to clear-sky scenes. We find that clouds can increase the actinic flux to 2.3 times the clear-sky value at cloud top and decrease it to about 0.05 at cloud base. The relationship between CMF and COT agrees well with DAK simulations, except for a few outliers. Good agreement is found between the DAK-simulated actinic flux profiles and the observations for single-layer clouds in fully overcast scenes. The instrument is suitable for operational balloon measurements because of its simplicity and low cost. It is worth further developing the instrument and launching it together with atmospheric chemistry composition sensors.

Print ISSN: 1680-7316

Electronic ISSN: 1680-7324

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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