GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Conceptual Structures: Knowledge Representations as Interlingua : 4th International Conference on Conceptual Structures, ICCS'96, Sydney, Australia, August 19 - 22, 1996, Proceedings (1996)

Eklund, Peter W.

Berlin, Heidelberg : Springer Berlin Heidelberg

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Keywords: Artificial intelligence ; Computer science ; Database management ; Computer Science ; Konferenzschrift 1996 ; Begriffsgraph

Type of Medium: Online Resource

Pages: Online-Ressource

ISBN: 9783540687306

Series Statement: Lecture Notes in Computer Science 1115

URL: https://doi.org/10.1007/3-540-61534-2

URL: https://swbplus.bsz-bw.de/bsz322910013cov.jpg

URL: https://zbmath.org/?q=an:1083.68502

DOI: 10.1007/3-540-61534-2

RVK:

SS 4800

RVK:

ST 285

Language: English

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GEOMAR CATALOGUE

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2

Electronic Resource

Purification and characterization of recombinant mouse and herpes simplex virus ribonucleotide reductase R2 subunit (1991)

Mann, Graham J. ; Graeslund, Astrid ; Ochiai, El Ichiro ; [et al.]

s.l. : American Chemical Society

Biochemistry 30 (1991), S. 1939-1947

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00221a030

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Paper (German National Licenses)

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3

Electronic Resource

An Intercomparison Among Four Models Of Blowing Snow (2000)

Xiao, Jingbing ; Bintanja, Richard ; Déry, Stephen J. ; [et al.]

Springer

Boundary layer meteorology 97 (2000), S. 109-135

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ISSN: 1573-1472

Keywords: Blowing snow ; Diffusion coefficient ; Intercomparison ; Sublimation ; Suspension

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Four one-dimensional, time-dependent blowing snow models areintercompared. These include three spectral models, PIEKTUK-T,WINDBLAST, SNOWSTORM, and the bulk version of PIEKTUK-T,PIEKTUK-B. Although the four models are based on common physicalconcepts, they have been developed by different research groups. Thestructure of the models, numerical methods, meteorological field treatmentand the parameterization schemes may be different. Under an agreed standardcondition, the four models generally give similar results for the thermodynamic effects of blowing snow sublimation on the atmospheric boundary layer, including an increase of relative humidity and a decrease of the ambient temperature due to blowing snow sublimation. Relative humidity predicted by SNOWSTORM is lower than the predictions of the other models, which leads to a larger sublimation rate in SNOWSTORM. All four models demonstrate that sublimation rates in a column of blowing snow have a single maximum in time, illustrating self-limitation of the sublimation process of blowing snow. However, estimation of the eddy diffusioncoefficient for momentum (Km), and thereby the diffusion coefficients for moisture (Kw) and for heat (Kh), has a significant influence on the process. Sensitivitytests with PIEKTUK-T show that the sublimation rate can be approximately constant with time after an initial phase, if Km is a linear function with height. In order to match the model results with blowing snow observations, some parameters in the standard run, such as settling velocity of blowing snow particles in these models, may need to be changed to more practical values.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1002795531073

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4

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Stratospheric aerosol scattering ratio at 694 nm from Fairbanks, AK (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Barnes, John ; [et al.]

PANGAEA

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Publication Date: 2023-01-13

Keywords: aerosol attenuatted backscatter; Aerosol scattering ratio at 694 nm; DATE/TIME; Fairbanks, Interior Alaska; FairbanksAK; lidar aerosol extinction; lidar scattering ratio; Mt Agung; MULT; Multiple investigations; Number of shots; ORDINAL NUMBER; SSiRC; stratospheric aerosols; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: text/tab-separated-values, 126 data points

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(Supplement 4) Aerosol scattering ratio at (589 nm) measurements in the Atlantic of the 1991 Mt Pinatubo aerosol cloud from Professor Vize (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Keckhut, Philippe ; [et al.]

PANGAEA

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Publication Date: 2023-01-13

Keywords: Aerosol scattering ratio at 589 nm; Date/Time of event; Event label; HEIGHT above ground; Latitude of event; LiDAR; Longitude of event; Professor Vize; PV92; PV92_1; PV92_10; PV92_11; PV92_2; PV92_3; PV92_4; PV92_5; PV92_6; PV92_7; PV92_8; PV92_9; Remote sensing (Light detection and ranging, LiDAR); SSiRC; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: text/tab-separated-values, 1034 data points

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6

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The first ever multi-year lidar dataset of the stratospheric aerosol layer, from Lexington, MA, and Fairbanks, AK, January 1964 to July 1965 (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Barnes, John ; [et al.]

PANGAEA

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Publication Date: 2023-01-13

Description: We report the rescue and processing completion of the first multiyear set of stratospheric aerosols lidar measurements. They were conducted at Lexington, MA between January 1964 and August 1965 and some additional measurements conducted at Fairbanks, AK between July and August 1964. The processing of the rescued lidar scattering ratio profiles was aimed to determine the stratospheric aerosols extinction profiles (sAEP) and the stratospheric aerosols optical depth. Contemporary nearby measurements of atmospheric variables were used with that aim (sAOD). Atmospheric soundings of temperature, and pressure were used to determine the molecular backscattering profiles and ozone soundings to determine the ozone absorption profiles. Those former profiles served to determine the molecular and ozone two way transmittances corrections profiles. Stratospheric aerosols two way transmittances corrections profiles were determined by a cyclic processing combining the sAEP and the total aerosols turbidity measurements. A comparison was conducted between the sAEP and sAOD calculated using the soundings and the 1962 US standard atmosphere. The two way transmittance corrections were not applied in this case, resulting in slightly lower values of both variables in the case of soundings. The two way transmittance correction was applied to the sAEP based in the fact that it was not applied in the originary processing producing the lidar scattering ratio profiles we rescued. It was reason to consider that the aerosols backscatter derived directly from it were in fact the aerosol attenuated backscatter. The magnitudes of the differences in the aerosols extinction between the corrected and uncorrected two way transmittances results show an increase of 72 % for Lexington and 26 % for Fairbanks. For the sAOD the increase is 66 % and 26 % respectively. The comparison of the magnitudes of the aerosol extinction and sAOD with the few contemporary available measurements reported show a better agreement in the case of the two way transmittance corrected variables. At Lexington the sAEP cross- sections and the sAOD vs time plot show the presence of three maximums between January 1964 and August 1965, with the last having higher magnitudes of the aerosol extinction and sAOD in contradiction what it would be expected for the Mt Agung decaying stratospheric aerosols. In search for an explanation we found contemporary and updated references to other two volcanic eruptions the Trident volcano in Alaska and the Vestmannaeyjar volcano south of Iceland, both with plumes above the tropopause.. The first reported to have erupted in April and October- November 1963 and also in May 1964. The second between November 1963 and the middle of 1964. A detailed analysis of the uncertainties of the several intermediate variables involved in the processing conducting to derive the sAEP for each site was conducted. The two way transmittance uncorrected aerosols extinction values relative error magnitudes were 54 % for Fairbanks and 44 % Lexington. The corrected aerosols extinction values relative error magnitudes were 61 % and 64 % respectively. The analysis of the uncertainties pointed to the variables that, upon an extended rescue process and further reprocessing may improve the reported relative error levels.

Keywords: aerosol attenuatted backscatter; Alaska, USA; Fairbanks; Lexington; lidar aerosol extinction; lidar scattering ratio; Massachusetts, U.S.A., North America; Mt Agung; MULT; Multiple investigations; SSiRC; stratospheric aerosols; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: application/zip, 10 datasets

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7

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Stratospheric aerosol scattering ratio at 694 nm from Lexington, MA (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Barnes, John ; [et al.]

PANGAEA

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Publication Date: 2023-01-13

Keywords: aerosol attenuatted backscatter; Aerosol scattering ratio at 694 nm; DATE/TIME; Lexington; lidar aerosol extinction; lidar scattering ratio; Massachusetts, U.S.A., North America; Mt Agung; MULT; Multiple investigations; Number of shots; ORDINAL NUMBER; SSiRC; stratospheric aerosols; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: text/tab-separated-values, 924 data points

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(Supplement 4) Aerosol scattering ratio (at 539 nm) measurements in the Atlantic of the 1991 Mt Pinatubo aerosol cloud from Professor Zubov (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Keckhut, Philippe ; [et al.]

PANGAEA

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Publication Date: 2023-01-13

Keywords: Aerosol scattering ratio at 539 nm; Date/Time of event; Date/Time of event 2; Event label; HEIGHT above ground; Latitude of event; LiDAR; Longitude of event; Professor Zubov; PZ_1991_USSR; PZ_1991_USSR_1; PZ_1991_USSR_10; PZ_1991_USSR_11; PZ_1991_USSR_12; PZ_1991_USSR_13; PZ_1991_USSR_14; PZ_1991_USSR_15; PZ_1991_USSR_16; PZ_1991_USSR_17; PZ_1991_USSR_18; PZ_1991_USSR_19; PZ_1991_USSR_2; PZ_1991_USSR_20; PZ_1991_USSR_21; PZ_1991_USSR_22; PZ_1991_USSR_23; PZ_1991_USSR_24; PZ_1991_USSR_25; PZ_1991_USSR_26; PZ_1991_USSR_27; PZ_1991_USSR_28; PZ_1991_USSR_29; PZ_1991_USSR_3; PZ_1991_USSR_30; PZ_1991_USSR_31; PZ_1991_USSR_32; PZ_1991_USSR_33; PZ_1991_USSR_34; PZ_1991_USSR_35; PZ_1991_USSR_36; PZ_1991_USSR_37; PZ_1991_USSR_38; PZ_1991_USSR_39; PZ_1991_USSR_4; PZ_1991_USSR_40; PZ_1991_USSR_41; PZ_1991_USSR_42; PZ_1991_USSR_43; PZ_1991_USSR_44; PZ_1991_USSR_45; PZ_1991_USSR_46; PZ_1991_USSR_47; PZ_1991_USSR_48; PZ_1991_USSR_5; PZ_1991_USSR_6; PZ_1991_USSR_7; PZ_1991_USSR_8; PZ_1991_USSR_9; Remote sensing (Light detection and ranging, LiDAR); SSiRC; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: text/tab-separated-values, 4512 data points

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9

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Ship borne lidar measurements in the Atlantic of the 1991 Mt Pinatubo aerosol cloud (2020)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Keckhut, Philippe ; [et al.]

PANGAEA

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Publication Date: 2023-01-30

Description: The dataset consists of two ship-borne aerosols scattering ratio lidar datasets in the early stages of the stratospheric aerosols produced by the June 1991 Mount Pinatubo eruption. The Russian vessel Prof. Zubov ship Atlantic transect from Europe to the Caribbean from July to September 1991 and Prof. Vize ship transect from Europe to south of the Equator between January and February 1992. All the 48 reported measurements at the Prof. Zubov were rescued but only 11 of the 20 measurements conducted by Prof. Vize were found. We used the same algorithms and parameters appearing in the only two articles published with this datasets to reproduce the aerosols extinction values those papers reported and showed in its figures. Following this criteria the CIRA-86 atmosphere was used to derive the molecular backscattering, vertical and temporal constant values of the aerosols backscattering to extinction ratio and for the correction factor of the aerosols backscattering wavelength dependence. The dataset consists of profiles of lidar aerosols backscattering to extinction profiles ratios and the derived aerosols backscattering and aerosols extinction profiles. Each profile contains information about the latitude, longitude, date and time it was measured.

Keywords: lidar aerosols backscattering; lidar aerosols extinction; My Pinatubo; SSiRC; stratospheric aesosols; Stratospheric Sulfur and its Role in Climate

Type: Dataset

Format: application/zip, 6 datasets

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Tropospheric and stratospheric aerosol extinction and stratospheric aerosol optical depth from searchlight measurements conducted at White Sands, New Mexico, US between December 1963 and December 1964 (2023)

Antuña-Marrero, Juan Carlos ; Mann, Graham W ; Barnes, John ; [et al.]

PANGAEA

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Publication Date: 2023-08-05

Description: The datasets consist of rescued and recalibrated tropospheric and stratospheric aerosol extinction profiles (β_p (z)) measured at New Mexico, US, (32°47'N, 105°49'W) between December 1963 and December 1964, after the 1963 Agung volcanic eruption (Antuña-Marrero et al., 2022). Measurements were conducted with a searchlight, the lidar predecessor. The rescue procedure re-digitized the 105 original β_p (z) plots (β_p^Orig (z)) from a research report (Elterman, 1966). The recalibration procedure began with the inversion of the original equation used to compute β_p (z) (Elterman, 1966) to retrieve the normalized detector response profiles for each one of the 105 digitized β_p^Orig (z) profiles. Then the cited equation was used in straight form to compute the recalibrated β_p^Orig (z) profiles (β_p^Recal (z)) replacing several of the variables it includes by their updated versions. These include: 1) The molecular extinction profile, replacing the US Standard Atmosphere 1962 with the corresponding daily local sounding nearby; 2) The molecular and aerosol transmissions, replaced with calculations using the MODTRAN (MODerate resolution atmospheric TRANsmission) code in transmission mode; and 3) The aerosol phase function, substituting the one calculated from measurements at the surface in Germany and applied for the entire 2.76 to 35.2 km column, with, for the troposphere, 2.76 to 10.7 km, the AERONET aerosol phase function from White Sands High Energy Laser Systems Test Facility (HELSTF), and for the stratosphere, 11.2 - 35.2 km, the aerosol phase function calculated from a set of particle size distributions measured by the ER-2 in the vicinity of White Sands in early 1964. Errors were estimated taking as a reference the errors determined in the computation of β_p^Orig (z).

Keywords: Aerosol optical properties from searchlight measurements; AerosolSearchlight_WhiteSands; Agung; searchlight; SSiRC; stratospheric aerosols; Stratospheric Sulfur and its Role in Climate; tropospheric aerosols; Volcanic aerosol

Type: Dataset

Format: application/zip, 4 datasets

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