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Absorption and attenuation meter AC-9; Absorption coefficient, 412 nm; Absorption coefficient, 440 nm; Absorption coefficient, 488 nm; Absorption coefficient, 510 nm; Absorption coefficient, 532 nm; Absorption coefficient, 555 nm; Absorption coefficient, 630 nm; Absorption coefficient, 676 nm; Absorption coefficient, 715 nm; Biogeochemical Processes in the Oceans and Fluxes; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Direction; DYF1; DYF2; DYF3; DYF4; DYF5; Event label; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; MIO1; MIO2; MIO3; MIO4; MIO5; Optical beam attenuation coefficient, 412 nm; Optical beam attenuation coefficient, 440 nm; Optical beam attenuation coefficient, 488 nm; Optical beam attenuation coefficient, 510 nm; Optical beam attenuation coefficient, 532 nm; Optical beam attenuation coefficient, 555 nm; Optical beam attenuation coefficient, 630 nm; Optical beam attenuation coefficient, 676 nm; Optical beam attenuation coefficient, 715 nm; PROOF; PROSOPE; PROSOPE_pro002; PROSOPE_pro003; PROSOPE_pro004; PROSOPE_pro005; PROSOPE_pro006; PROSOPE_pro007; PROSOPE_pro008; PROSOPE_pro010; PROSOPE_pro011; PROSOPE_pro013; PROSOPE_pro014; PROSOPE_pro019; PROSOPE_pro022; PROSOPE_pro023; PROSOPE_pro025; PROSOPE_pro026; PROSOPE_pro027; PROSOPE_pro028; PROSOPE_pro029; PROSOPE_pro030; PROSOPE_pro031; PROSOPE_pro032; PROSOPE_pro033; PROSOPE_pro035; PROSOPE_pro037; PROSOPE_pro038; PROSOPE_pro039; PROSOPE_pro041; PROSOPE_pro043; PROSOPE_pro044; PROSOPE_pro045; PROSOPE_pro046; PROSOPE_pro047; PROSOPE_pro048; PROSOPE_pro049; PROSOPE_pro050; PROSOPE_pro051; PROSOPE_pro052; PROSOPE_pro053; PROSOPE_pro054; PROSOPE_pro055; PROSOPE_pro056; PROSOPE_pro057; PROSOPE_pro058; PROSOPE_pro060; PROSOPE_pro061; PROSOPE_pro064; PROSOPE_pro067; PROSOPE_pro068; PROSOPE_pro069; PROSOPE_pro070; PROSOPE_pro071; PROSOPE_pro072; PROSOPE_pro073; PROSOPE_pro074; PROSOPE_pro075; PROSOPE_pro077; PROSOPE_pro078; PROSOPE_pro079; PROSOPE_pro080; PROSOPE_pro081; PROSOPE_pro082; PROSOPE_pro083; PROSOPE_pro084; PROSOPE_pro085; PROSOPE_pro086; PROSOPE_pro087; PROSOPE_pro088; PROSOPE_pro090; PROSOPE_pro092; PROSOPE_pro093; PROSOPE_pro094; PROSOPE_pro095; PROSOPE_pro096; PROSOPE_pro097; PROSOPE_pro098; PROSOPE_pro099; PROSOPE_pro100; PROSOPE_pro101; PROSOPE_pro102; PROSOPE_pro103; PROSOPE_pro104; PROSOPE_pro105; St#1; St#2; St#4; St#5; St#6; St#7; St#8; St#9; Thalassa; UPW1; UPW2 (1)
metallic traces (1)
AC3; Arctic Amplification (1)
Arctic; Arctic Biodiversity & Livelihoods; Binary Object; Binary Object (File Size); Binary Object (MD5 Hash); Binary Object (Media Type); extinction coefficient; FACE-IT; fjord; PAR (1)
Arctic; Arctic Biodiversity & Livelihoods; Binary Object; Biological sample; BIOS; Disko_Bay; EXP; Experiment; extinction coefficient; FACE-IT; fjord; Isfjorden_Svalbard; Kongsfjorden; Kongsfjorden, Spitsbergen, Arctic; Northeast Greenland; Nuup_Kangerlua; PAR; Porsangerfjorden; Storfjorden; West Greenland Margin; Young_Sound; YS (1)

Unknown

Optical properties in surface water during Thalassa cruise PROSOPE (2013)

Claustre, Hervé ; Fell, F ; Oubelkheir, Kadija ; [et al.]

PANGAEA

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Publication Date: 2024-02-01

Keywords: Absorption and attenuation meter AC-9; Absorption coefficient, 412 nm; Absorption coefficient, 440 nm; Absorption coefficient, 488 nm; Absorption coefficient, 510 nm; Absorption coefficient, 532 nm; Absorption coefficient, 555 nm; Absorption coefficient, 630 nm; Absorption coefficient, 676 nm; Absorption coefficient, 715 nm; Biogeochemical Processes in the Oceans and Fluxes; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Direction; DYF1; DYF2; DYF3; DYF4; DYF5; Event label; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; MIO1; MIO2; MIO3; MIO4; MIO5; Optical beam attenuation coefficient, 412 nm; Optical beam attenuation coefficient, 440 nm; Optical beam attenuation coefficient, 488 nm; Optical beam attenuation coefficient, 510 nm; Optical beam attenuation coefficient, 532 nm; Optical beam attenuation coefficient, 555 nm; Optical beam attenuation coefficient, 630 nm; Optical beam attenuation coefficient, 676 nm; Optical beam attenuation coefficient, 715 nm; PROOF; PROSOPE; PROSOPE_pro002; PROSOPE_pro003; PROSOPE_pro004; PROSOPE_pro005; PROSOPE_pro006; PROSOPE_pro007; PROSOPE_pro008; PROSOPE_pro010; PROSOPE_pro011; PROSOPE_pro013; PROSOPE_pro014; PROSOPE_pro019; PROSOPE_pro022; PROSOPE_pro023; PROSOPE_pro025; PROSOPE_pro026; PROSOPE_pro027; PROSOPE_pro028; PROSOPE_pro029; PROSOPE_pro030; PROSOPE_pro031; PROSOPE_pro032; PROSOPE_pro033; PROSOPE_pro035; PROSOPE_pro037; PROSOPE_pro038; PROSOPE_pro039; PROSOPE_pro041; PROSOPE_pro043; PROSOPE_pro044; PROSOPE_pro045; PROSOPE_pro046; PROSOPE_pro047; PROSOPE_pro048; PROSOPE_pro049; PROSOPE_pro050; PROSOPE_pro051; PROSOPE_pro052; PROSOPE_pro053; PROSOPE_pro054; PROSOPE_pro055; PROSOPE_pro056; PROSOPE_pro057; PROSOPE_pro058; PROSOPE_pro060; PROSOPE_pro061; PROSOPE_pro064; PROSOPE_pro067; PROSOPE_pro068; PROSOPE_pro069; PROSOPE_pro070; PROSOPE_pro071; PROSOPE_pro072; PROSOPE_pro073; PROSOPE_pro074; PROSOPE_pro075; PROSOPE_pro077; PROSOPE_pro078; PROSOPE_pro079; PROSOPE_pro080; PROSOPE_pro081; PROSOPE_pro082; PROSOPE_pro083; PROSOPE_pro084; PROSOPE_pro085; PROSOPE_pro086; PROSOPE_pro087; PROSOPE_pro088; PROSOPE_pro090; PROSOPE_pro092; PROSOPE_pro093; PROSOPE_pro094; PROSOPE_pro095; PROSOPE_pro096; PROSOPE_pro097; PROSOPE_pro098; PROSOPE_pro099; PROSOPE_pro100; PROSOPE_pro101; PROSOPE_pro102; PROSOPE_pro103; PROSOPE_pro104; PROSOPE_pro105; St#1; St#2; St#4; St#5; St#6; St#7; St#8; St#9; Thalassa; UPW1; UPW2

Type: Dataset

Format: text/tab-separated-values, 1103216 data points

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DATA PANGAEA

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Electronic Resource

Application of objective analysis to metallic traces in the atmospheric aerosol (1993)

Migon, Christophe ; Gentili, Bernard

Springer

Journal of atmospheric chemistry 16 (1993), S. 277-284

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ISSN: 1573-0662

Keywords: Correlation analysis ; singular value decomposition ; metallic traces ; atmospheric aerosol

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract An objective correlation analysis based on the concept of singular-value decomposition of a matrix is proposed here for the field of metallic traces in the atmospheric aerosol. On the basis of an atmospheric sampling at Cap Ferrat (southeastern coast of France), the method is applied to the airborne concentrations of Al, Pb, Cd, Cu, and Zn. The data matrix is decomposed in two series of singular vectors. These vectors are orthogonal and classified in decreasing importance, according to the percentage of the total variance that they explain. Such a method is easy to apply and, if compared with a standard correlation analysis, it exhibits such advantages as (i) atypical points can be objectively discarded in order to improve the description of the general characteristics of the data set; (ii) all the elements are simultaneously taken into account by the analysis, which permits the enhancement of the features of the data set involving one or several metals; (iii) the importance of these independent features in the variability of the data set is measured.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00696900

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