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020 |a9780660499659
040 |aCaOODSP|beng|erda|cCaOODSP
0410 |aeng|beng|bfre
043 |an-cn---|aln-----
0861 |aFs97-6/3560E-PDF
1001 |aClay, Stephanie, |eauthor.
24510|aSOPhyE satellite data processing technical report series. |n1, |pOcean colour satellite intercalibration / |cby Stephanie Clay and Emmanuel Devred.
264 1|aDartmouth, Nova Scotia : |bBedford Institute of Oceanography, Fisheries and Oceans Canada, |c2023.
264 4|c©2023
300 |a1 online resource (vi, 42 pages) : |bcolour illustrations, colour maps.
336 |atext|btxt|2rdacontent
337 |acomputer|bc|2rdamedia
338 |aonline resource|bcr|2rdacarrier
4901 |aCanadian technical report of fisheries and aquatic sciences, |x1488-5379 ; |v3560
504 |aIncludes bibliographical references (pages 24-26).
5203 |a"Though satellite ocean colour data has massively increased the scope of ocean observations in the past few decades, differences in waveband placement and their spectral response function between satellite sensors lead to inconsistencies between datasets that prevent users from taking advantage of the combined satellite data repository in environmental studies. In this report we examine the spatio-temporal differences between remote-sensing reflectance and chlorophylla concentration products derived from three NASA ocean colour sensors (i.e., MODIS-Aqua, SeaWiFS, and VIIRS-SNPP). We then present a simple method to align SeaWiFS and VIIRS reflectances to MODIS, and derive chlorophyll-a concentration from the modelled bands. These chlorophyll-a concentration estimates are compared to in situ matchups and the effects on spring phytoplankton bloom metrics are examined. The "alignment" method can theoretically be applied to any set of ocean colour sensors in order to generate a common set of wavebands, which could then be merged into a single multi-sensor product for higher spatial and temporal coverage suitable for climate studies"--Abstract, page v.
546 |aIncludes abstracts in English and French.
650 0|aOcean color|zAtlantic Coast (Canada)|xRemote sensing|xData processing.
650 0|aOcean color|zNorth Atlantic Ocean|xRemote sensing|xData processing.
650 0|aPlankton blooms|zAtlantic Coast (Canada)|xRemote sensing|xData processing.
650 0|aPlankton blooms|zNorth Atlantic Ocean|xRemote sensing|xData processing.
650 0|aArtificial satellites in oceanography|zAtlantic Coast (Canada)
650 0|aArtificial satellites in oceanography|zNorth Atlantic Ocean.
650 6|aMer|xCouleur|zAtlantique, Côte de l' (Canada)|xTélédétection|xInformatique.
650 6|aMer|xCouleur|zAtlantique Nord|xTélédétection|xInformatique.
650 6|aPoussées phytoplanctoniques|zAtlantique, Côte de l' (Canada)|xTélédétection|xInformatique.
650 6|aPoussées phytoplanctoniques|zAtlantique Nord|xTélédétection|xInformatique.
650 6|aSatellites artificiels en océanographie|zAtlantique, Côte de l' (Canada)
650 6|aSatellites artificiels en océanographie|zAtlantique Nord.
655 7|aTechnical reports|2lcgft
655 7|aRapports techniques|2rvmgf
7101 |aCanada. |bDepartment of Fisheries and Oceans, |eissuing body.
7102 |aBedford Institute of Oceanography, |eissuing body.
830#0|aCanadian technical report of fisheries and aquatic sciences ;|v3560.|w(CaOODSP)9.504449
85640|qPDF|s14.32 MB|uhttps://publications.gc.ca/collections/collection_2023/mpo-dfo/Fs97-6-3560-eng.pdf