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  1. Book ; Online: Airborne observations of the surface cloud radiative effect during different seasons over sea ice and open ocean in the Fram Strait

    Becker, Sebastian / Ehrlich, André / Schäfer, Michael / Wendisch, Manfred

    eISSN: 1680-7324

    2023  

    Abstract: This study analyzes the surface cloud radiative effect (CRE) obtained during airborne observations of three campaigns in the Arctic north-west of Svalbard. The surface CRE quantifies the potential of clouds to modify the radiative energy budget of the ... ...

    Abstract This study analyzes the surface cloud radiative effect (CRE) obtained during airborne observations of three campaigns in the Arctic north-west of Svalbard. The surface CRE quantifies the potential of clouds to modify the radiative energy budget of the surface and is calculated by combining broadband radiation measurements during low-level flight sections in mostly cloudy conditions with radiative transfer simulations of cloud-free conditions. The significance of surface albedo changes due to the presence of clouds is demonstrated and this effect is considered in the cloud-free simulations. The observations are discussed with respect to differences of the CRE between sea ice and open ocean surfaces, and between the seasonally different campaigns. The results indicate that the CRE depends on both cloud, illumination, surface, and thermodynamic properties. The solar and thermal-infrared (TIR) component of the CRE are analyzed separately and in combination. The inter-campaign differences of the solar CRE are dominated by the seasonal cycle of the solar zenith angle, with the largest cooling effect in summer. The lower surface albedo causes a larger solar cooling effect over open ocean than over sea ice, which amounts to −259 W m −2 (−108 W m −2 ) and −65 W m −2 (−17 W m −2 ), respectively, during summer (spring). Independent of campaign and surface type, the TIR CRE is only weakly variable and shows values around 75 W m −2 . In total, clouds show a cooling effect over open ocean during all campaigns. In contrast, clouds over sea ice exert a warming effect to the surface, which neutralizes during mid-summer. Given the seasonal cycle of the sea ice distribution, these results imply that clouds in the Fram Strait region cool the surface during the sea ice minimum in late summer, while they warm the surface during the sea ice maximum in spring.
    Subject code 290 ; 551
    Language English
    Publishing date 2023-02-07
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Book: Airborne measurements for environmental research

    Wendisch, Manfred

    methods and instruments

    (Wiley series in atmospheric physics and remote sensing)

    2013  

    Author's details ed. by Manfred Wendisch
    Series title Wiley series in atmospheric physics and remote sensing
    Keywords Atmosphere/Measurement ; Umweltanalytik ; In situ ; Luftverschmutzung ; Messung ; Aerosol ; Chemie ; Atmosphärisches Aerosol ; Bestimmung ; Teilchen ; Methode ; Meteorologie ; Flugzeug ; Datenerfassung ; Atmosphäre
    Language English
    Size XXXII, 655 S., Ill., graph. Darst
    Publisher Wiley-VCH
    Publishing place Weinheim
    Document type Book
    Note Literaturverz. S. 551 - 640
    ISBN 9783527409969 ; 9783527653218 ; 9783527653225 ; 9783527653232 ; 9783527653249 ; 3527409963 ; 352765321X ; 3527653228 ; 3527653236 ; 3527653244
    Database Former special subject collection: coastal and deep sea fishing

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  3. Book: Airborne measurements for environmental research

    Wendisch, Manfred

    methods and instruments

    (Wiley series in atmospheric physics and remote sensing)

    2013  

    Author's details ed. by Manfred Wendisch
    Series title Wiley series in atmospheric physics and remote sensing
    Keywords Atmosphere/Measurement ; Umweltanalytik ; In situ ; Luftverschmutzung ; Messung ; Aerosol ; Chemie ; Atmosphärisches Aerosol ; Bestimmung ; Teilchen ; Methode ; Meteorologie ; Flugzeug ; Datenerfassung ; Atmosphäre
    Language English
    Size XXXII, 655 S., Ill., graph. Darst
    Publisher Wiley-VCH
    Publishing place Weinheim
    Document type Book
    Note Literaturverz. S. 551 - 640
    ISBN 9783527409969 ; 9783527653218 ; 9783527653225 ; 9783527653232 ; 9783527653249 ; 3527409963 ; 352765321X ; 3527653228 ; 3527653236 ; 3527653244
    Database Library catalogue of the German National Library of Science and Technology (TIB), Hannover

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  4. Book ; Online: Determining the surface mixing layer height of the Arctic atmospheric boundary layer during polar night in cloudless and cloudy conditions

    Akansu, Elisa F. / Dahlke, Sandro / Siebert, Holger / Wendisch, Manfred

    eISSN:

    2023  

    Abstract: This study evaluates methods to derive the surface mixing layer (SML) height of the Arctic atmospheric boundary layer (ABL) using in situ measurements inside the Arctic ABL during winter and the transition period to spring. An instrumental payload ... ...

    Abstract This study evaluates methods to derive the surface mixing layer (SML) height of the Arctic atmospheric boundary layer (ABL) using in situ measurements inside the Arctic ABL during winter and the transition period to spring. An instrumental payload carried by a tethered balloon was used for the measurements between December 2019 and May 2020 during the year-long Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition. Vertically highly resolved (centimeter scale) in situ profile measurements of mean and turbulent parameters were obtained, reaching from the sea ice to several hundred meters above ground. Two typical conditions of the Arctic ABL over sea ice were identified: cloudless situations with a shallow surface-based inversion and cloudy conditions with an elevated inversion. Both conditions are associated with significantly different SML heights whose determination as accurately as possible is of great importance for many applications. We used the measured turbulence profile data to define a reference of the SML height. With this reference, a more precise critical bulk Richardson number of 0.12 was derived, which allows an extension of the SML height determination to regular radiosoundings. Furthermore, we have tested the applicability of the Monin–Obukhov similarity theory to derive SML heights based on measured turbulent surface fluxes. The application of the different approaches and their advantages and disadvantages are discussed.
    Subject code 551
    Language English
    Publishing date 2023-12-19
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  5. Book ; Online: Evaluation of methods to determine the surface mixing layer height of the atmospheric boundary layer in the central Arctic during polar night and transition to polar day in cloudless and cloudy conditions

    Akansu, Elisa F. / Dahlke, Sandro / Siebert, Holger / Wendisch, Manfred

    eISSN: 1680-7324

    2023  

    Abstract: This study evaluates methods to derive the surface mixing layer (SML) height of the Arctic atmospheric boundary layer (ABL) using in situ measurements inside the Arctic ABL during winter and the transition period to spring. An instrumental payload ... ...

    Abstract This study evaluates methods to derive the surface mixing layer (SML) height of the Arctic atmospheric boundary layer (ABL) using in situ measurements inside the Arctic ABL during winter and the transition period to spring. An instrumental payload carried by a tethered balloon was used for the measurements between December 2019 and May 2020 during the year-long Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition. Vertically highly resolved (centimeter scale) in situ profile measurements of mean and turbulent parameters were obtained, reaching from the sea ice to several hundred meters above ground. Two typical conditions of the Arctic ABL over sea ice were identified: cloudless situations with a shallow surface-based inversion and cloudy conditions with an elevated inversion. Both conditions are associated with significantly different SML heights whose determination as accurately as possible is of great importance for many applications. We used the measured turbulence profile data to define a reference of the SML height. With this reference, a more precise critical bulk Richardson number of 0.12 was derived, which allows an extension of the SML height determination to regular radiosoundings. Furthermore, we have tested the applicability of the Monin–Obukhov similarity theory to derive SML heights based on measured turbulent surface fluxes. The application of the different approaches and their advantages and disadvantages are discussed.
    Subject code 551
    Language English
    Publishing date 2023-12-19
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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    Inter-library loan at ZB MED

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  6. Book ; Online: Turbulent structure of the Arctic boundary layer in early summer driven by stability, wind shear and cloud-top radiative cooling

    Chechin, Dmitry G. / Lüpkes, Christof / Hartmann, Jörg / Ehrlich, André / Wendisch, Manfred

    eISSN: 1680-7324

    ACLOUD airborne observations

    2023  

    Abstract: Clouds are assumed to play an important role in the Arctic amplification process. This motivated a detailed investigation of cloud processes, including radiative and turbulent fluxes. Data from the aircraft campaign ACLOUD were analyzed with a focus on ... ...

    Abstract Clouds are assumed to play an important role in the Arctic amplification process. This motivated a detailed investigation of cloud processes, including radiative and turbulent fluxes. Data from the aircraft campaign ACLOUD were analyzed with a focus on the mean and turbulent structure of the cloudy boundary layer over the Fram Strait marginal sea ice zone in late spring and early summer 2017. Vertical profiles of turbulence moments are presented from contrasting atmospheric boundary layers (ABLs) from 4 d. They differ by the magnitude of wind speed, boundary-layer height, stability, the strength of the cloud-top radiative cooling and the number of cloud layers. Turbulence statistics up to third-order moments are presented, which were obtained from horizontal-level flights and from slanted profiles. It is shown that both of these flight patterns complement each other and form a data set that resolves the vertical structure of the ABL turbulence well. The comparison of the 4 d shows that especially during weak wind, even in shallow Arctic ABLs with mixing ratios below 3 g kg −1 , cloud-top cooling can serve as a main source of turbulent kinetic energy (TKE). Well-mixed ABLs are generated where TKE is increased and vertical velocity variance shows pronounced maxima in the cloud layer. Negative vertical velocity skewness points then to upside-down convection. Turbulent heat fluxes are directed upward in the cloud layer as a result of cold downdrafts. In two cases with single-layer stratocumulus, turbulent transport of heat flux and of temperature variance are both negative in the cloud layer, suggesting an important role of large eddies. In contrast, in a case with weak cloud-top cooling, these quantities are positive in the ABL due to the heating from the surface. Based on observations and results of a mixed-layer model it is shown that the maxima of turbulent fluxes are, however, smaller than the jump of the net terrestrial radiation flux across the upper part of a cloud due to the (i) shallowness of the mixed ...
    Subject code 551
    Language English
    Publishing date 2023-04-20
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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  7. Book ; Online: Assessing Arctic low-level clouds and precipitation from above – a radar perspective

    Schirmacher, Imke / Kollias, Pavlos / Lamer, Katia / Mech, Mario / Pfitzenmaier, Lukas / Wendisch, Manfred / Crewell, Susanne

    eISSN: 1867-8548

    2023  

    Abstract: Most Arctic clouds occur below 2 km altitude, as revealed by CloudSat satellite observations. However, recent studies suggest that the relatively coarse spatial resolution, low sensitivity, and blind zone of the radar installed on CloudSat may not enable ...

    Abstract Most Arctic clouds occur below 2 km altitude, as revealed by CloudSat satellite observations. However, recent studies suggest that the relatively coarse spatial resolution, low sensitivity, and blind zone of the radar installed on CloudSat may not enable it to comprehensively document low-level clouds. We investigate the impact of these limitations on the Arctic low-level cloud fraction, which is the number of cloudy points with respect to all points as a function of height, derived from CloudSat radar observations. For this purpose, we leverage highly resolved vertical profiles of low-level cloud fraction derived from down-looking Microwave Radar/radiometer for Arctic Clouds (MiRAC) radar reflectivity measurements. MiRAC was operated during four aircraft campaigns that took place in the vicinity of Svalbard during different times of the year, covering more than 25 000 km . This allows us to study the dependence of CloudSat limitations on different synoptic and surface conditions. A forward simulator converts MiRAC measurements to synthetic CloudSat radar reflectivities. These forward simulations are compared with the original CloudSat observations for four satellite underflights to prove the suitability of our forward-simulation approach. Above CloudSat's blind zone of 1 km and below 2.5 km , the forward simulations reveal that CloudSat would overestimate the MiRAC cloud fraction over all campaigns by about 6 percentage points ( pp ) due to its horizontal resolution and by 12 pp due to its range resolution and underestimate it by 10 pp due to its sensitivity. Especially during cold-air outbreaks over open water, high-reflectivity clouds appear below 1.5 km , which are stretched by CloudSat's pulse length causing the forward-simulated cloud fraction to be 16 pp higher than that observed by MiRAC. The pulse length merges multilayer clouds, whereas thin low-reflectivity clouds remain undetected. Consequently, 48 % of clouds observed by MiRAC belong to multilayer clouds, which reduces by a factor of 4 for the ...
    Subject code 551
    Language English
    Publishing date 2023-09-11
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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  8. Book ; Online: Assessing Arctic low-level clouds and precipitation from above – a radar perspective

    Schirmacher, Imke / Kollias, Pavlos / Lamer, Katia / Mech, Mario / Pfitzenmaier, Lukas / Wendisch, Manfred / Crewell, Susanne

    eISSN:

    2023  

    Abstract: Most Arctic clouds occur below 2 km altitude, as revealed by CloudSat satellite observations. However, recent studies suggest that the relatively coarse spatial resolution, low sensitivity, and blind zone of the radar installed on CloudSat may not enable ...

    Abstract Most Arctic clouds occur below 2 km altitude, as revealed by CloudSat satellite observations. However, recent studies suggest that the relatively coarse spatial resolution, low sensitivity, and blind zone of the radar installed on CloudSat may not enable it to comprehensively document low-level clouds. We investigate the impact of these limitations on the Arctic low-level cloud fraction, which is the number of cloudy points with respect to all points as a function of height, derived from CloudSat radar observations. For this purpose, we leverage highly resolved vertical profiles of low-level cloud fraction derived from down-looking Microwave Radar/radiometer for Arctic Clouds (MiRAC) radar reflectivity measurements. MiRAC was operated during four aircraft campaigns that took place in the vicinity of Svalbard during different times of the year, covering more than 25 000 km . This allows us to study the dependence of CloudSat limitations on different synoptic and surface conditions. A forward simulator converts MiRAC measurements to synthetic CloudSat radar reflectivities. These forward simulations are compared with the original CloudSat observations for four satellite underflights to prove the suitability of our forward-simulation approach. Above CloudSat's blind zone of 1 km and below 2.5 km , the forward simulations reveal that CloudSat would overestimate the MiRAC cloud fraction over all campaigns by about 6 percentage points ( pp ) due to its horizontal resolution and by 12 pp due to its range resolution and underestimate it by 10 pp due to its sensitivity. Especially during cold-air outbreaks over open water, high-reflectivity clouds appear below 1.5 km , which are stretched by CloudSat's pulse length causing the forward-simulated cloud fraction to be 16 pp higher than that observed by MiRAC. The pulse length merges multilayer clouds, whereas thin low-reflectivity clouds remain undetected. Consequently, 48 % of clouds observed by MiRAC belong to multilayer clouds, which reduces by a factor of 4 for the ...
    Subject code 551
    Language English
    Publishing date 2023-09-11
    Publishing country de
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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  9. Article: Exploratory analysis of carbonaceous PM2.5 species in urban environments: Relationship with meteorological variables and satellite data

    Amarillo, Ana / Carreras, Hebe / Krisna, Trismono / Mignola, Marcos / Tavera Busso, Iván / Wendisch, Manfred

    Atmospheric environment. 2021 Jan. 15, v. 245

    2021  

    Abstract: The carbonaceous chemical composition and mass concentration of particles with an aerodynamic diameter less than 2.5 μm (PM₂.₅), were analyzed, as well as their relationship with satellite data and meteorological variables. PM₂.₅ ground samples were ... ...

    Abstract The carbonaceous chemical composition and mass concentration of particles with an aerodynamic diameter less than 2.5 μm (PM₂.₅), were analyzed, as well as their relationship with satellite data and meteorological variables. PM₂.₅ ground samples were collected at nine sampling sites with different land use in the metropolitan area of Córdoba city, during autumn and winter in 2018, and concentrations of organic carbon (OC) and elemental carbon (EC) were measured. The aerosol optical depth (AOD) was retrieved from the MODIS sensor, Aqua and Terra satellites. The AOD was validated using ground-based sun photometer data. Furthermore, the PM₂.₅ mass concentration and composition were simulated using multiple linear regression models, with the measured AOD and meteorological parameters as input variables. The data showed that PM₂.₅ mass concentrations varied in space throughout the city, indeed at four sampling sites, they exceeded the World Health Organization (WHO) daily guidelines. The OC and EC mass concentrations were moderate and low, respectively, in comparison with other cities in the world. PM₂.₅ concentrations were negatively associated with average planetary boundary layer (PBLₐᵥ), dew point (DP) and AOD from Aqua satellite (AODₐ). The columnar average AODₐᵥ did not correlate significantly with the ground-based PM₂.₅ measurements, however AODₐ was retained in a model to explain PM₂.₅ having a negative effect on particles. An effective carbon ratio (ECR) was calculated to estimate the radiative forcing of PM₂.₅ in a local scale. The results suggested an overall local radiative heating effect due to PM₂.₅.
    Keywords World Health Organization ; aerodynamics ; aerosols ; autumn ; dewpoint ; environment ; land use ; metropolitan areas ; organic carbon ; photometers ; regression analysis ; remote sensing ; satellites ; troposphere ; winter
    Language English
    Dates of publication 2021-0115
    Publishing place Elsevier Ltd
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 216368-8
    ISSN 0004-6981 ; 1352-2310
    ISSN 0004-6981 ; 1352-2310
    DOI 10.1016/j.atmosenv.2020.117987
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Cologne/Königswinter

    Zs.B 783: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 2021: Bestellungen von Artikeln über das Online-Bestellformular
    ab Jg. 2022: Lesesaal (EG)

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  10. Article: Influence of atmospheric adjacency effect on top-of-atmosphere radiances and its correction in the retrieval of Lambertian surface reflectivity based on three-dimensional radiative transfer

    Sun, Bin / Schäfer, Michael / Ehrlich, André / Jäkel, Evelyn / Wendisch, Manfred

    Remote sensing of environment. 2021 Sept. 15, v. 263

    2021  

    Abstract: In satellite-based and airborne imagery, the observed radiances reflected by a certain pixel at the surface are additionally influenced by reflections from the neighboring surface pixels and multiple scatterings due to atmospheric components (mainly ... ...

    Abstract In satellite-based and airborne imagery, the observed radiances reflected by a certain pixel at the surface are additionally influenced by reflections from the neighboring surface pixels and multiple scatterings due to atmospheric components (mainly cloud and aerosol particles) into the observational solid angle of the imaging camera. This phenomenon is commonly referred to as the atmospheric adjacency effect. This three-dimensional (3D) radiative transfer effect is caused by spatial inhomogeneities of the surface reflectivity and the atmospheric properties. Based on the recently published 3D radiative transfer code LEIPSIC (Light Estimator Including Polarization, Surface Inhomogeneities, and Clouds), a new atmospheric correction (AC) algorithm is proposed to consider for the atmospheric adjacency effect when estimating the surface reflectivity from satellite or airborne imagery. The effectiveness of the new AC algorithm is quantified and compared to the results based on the independent pixel approximation (IPA) radiative transfer approach. It is shown that the image blurring caused by the atmospheric adjacency effect and the error of reflectivity retrievals are reduced by 80% using the new AC algorithm. Furthermore, the simulations demonstrate that the vertical profile of the atmospheric properties is crucial in determining the quality of the AC.
    Keywords aerosols ; algorithms ; cameras ; environment ; radiative transfer ; satellites
    Language English
    Dates of publication 2021-0915
    Publishing place Elsevier Inc.
    Document type Article
    ZDB-ID 431483-9
    ISSN 0034-4257
    ISSN 0034-4257
    DOI 10.1016/j.rse.2021.112543
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    984/1289: Show issues
    Z 2005/734: Show issues

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