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Casey, Kimberly A; Rousseaux, Cecile S; Gregg, Watson W; Boss, Emmanuel; Chase, Alison P; Craig, Susanne E; Mouw, Colleen B; Reynolds, Rick A; Stramski, Dariusz; Ackleson, Steven G; Bricaud, Annick; Schaeffer, Blake; Lewis, Marlon R; Maritorena, Stéphane (2019): In situ high spectral resolution inherent and apparent optical property data from diverse aquatic environments [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.902230, Supplement to: Casey, KA et al. (2020): A global compilation of in situ aquatic high spectral resolution inherent and apparent optical property data for remote sensing applications. Earth System Science Data, 12(2), 1123-1139, https://doi.org/10.5194/essd-12-1123-2020

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Abstract:
Light emerging from natural water bodies and measured by remote sensing radiometers contains information about the local type and concentrations of phytoplankton, non-algal particles and colored dissolved organic matter in the underlying waters. An increase in spectral resolution in forthcoming satellite and airborne remote sensing missions is expected to lead to new or improved capabilities to characterize aquatic ecosystems. Such upcoming missions include NASA's Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) Mission; the NASA Surface Biology and Geology observable mission; and NASA Airborne Visible / Infrared Imaging Spectrometer (AVIRIS) - Next Generation airborne missions. In anticipation of these missions, we present an organized dataset of geographically diverse, quality-controlled, high spectral resolution inherent and apparent optical property (IOP/AOP) aquatic data. The data are intended to be of use to increase our understanding of aquatic optical properties, to develop aquatic remote sensing data product algorithms, and to perform calibration and validation activities for forthcoming aquatic-focused imaging spectrometry missions. The dataset is comprised of contributions from several investigators and investigating teams collected over a range of geographic areas and water types, including inland waters, estuaries and oceans. Specific in situ measurements include coefficients describing particulate absorption, particulate attenuation, non-algal particulate absorption, colored dissolved organic matter absorption, phytoplankton absorption, total absorption, total attenuation, particulate backscattering, and total backscattering, as well as remote sensing reflectance, and irradiance reflectance.
Related to:
Map of coincident in situ inherent and apparent optical property (IOP/AOP) aquatic data
Original version:
In situ high spectral resolution inherent and apparent optical property data from diverse aquatic environments, xlsx files, version 1
Further details:
Bricaud, Annick; Babin, Marcel; Claustre, Hervé; Ras, Josephine; Tièche, Fanny (2010): Light absorption properties and absorption budget of Southeast Pacific waters. Journal of Geophysical Research, 115(C8), https://doi.org/10.1029/2009JC005517
Chase, Alison P; Boss, Emmanuel; Cetinić, Ivona; Slade, Wayne (2017): Estimation of phytoplankton accessory pigments from hyperspectral reflectance spectra: Toward a global algorithm. Journal of Geophysical Research: Oceans, 122(12), 9725-9743, https://doi.org/10.1002/2017JC012859
Craig, Susanne E; Jones, Chris T; Li, William K W; Lazin, Gordana; Horne, Edward; Caverhill, Carla; Cullen, John (2012): Deriving optical metrics of coastal phytoplankton biomass from ocean colour. Remote Sensing of Environment, 119, 72-83, https://doi.org/10.1016/j.rse.2011.12.007
Matsuoka, Atsushi; Boss, Emmanuel; Babin, Marcel; Karp-Boss, Lee; Hafez, Mark; Chekalyuk, Alexander; Proctor, Christopher W; Werdell, P Jeremy; Bricaud, Annick (2017): Pan-Arctic optical characteristics of colored dissolved organic matter: Tracing dissolved organic carbon in changing Arctic waters using satellite ocean color data. Remote Sensing of Environment, 200, 89-101, https://doi.org/10.1016/j.rse.2017.08.009
Miller, Richard L; Belz, Mathias; Del Castilo, Carlos; Trzaskac, Rick (2002): Determining CDOM absorption spectra in diverse coastal environments using a multiple pathlength, liquid core waveguide system. Continental Shelf Research, 22(9), 1301-1310, https://doi.org/10.1016/S0278-4343(02)00009-2
Mouw, Colleen B; Ciochetto, Audrey B; Grunert, Brice; Yu, Angela (2017): Expanding understanding of optical variability in Lake Superior with a 4-year dataset. Earth System Science Data, 9(2), 497-509, https://doi.org/10.5194/essd-9-497-2017
Schaeffer, Blake; Conmy, Robyn M; Duffy, Allyn E; Aukamp, Jessica; Yates, Diane F; Craven, George (2015): Northern Gulf of Mexico estuarine coloured dissolved organic matter derived from MODIS data. International Journal of Remote Sensing, 36(8), 2219-2237, https://doi.org/10.1080/01431161.2015.1035408
Slade, Wayne; Boss, Emmanuel; Dall'Olmo, Giorgio; Langner, M Rois; Loftin, James; Behrenfeld, Michael J; Roesler, Collin S; Westberry, Toby K (2010): Underway and Moored Methods for Improving Accuracy in Measurement of Spectral Particulate Absorption and Attenuation. Journal of Atmospheric and Oceanic Technology, 27(10), 1733-1746, https://doi.org/10.1175/2010JTECHO755.1
Stramski, Dariusz; Reynolds, Rick A; Babin, Marcel; Kaczmarek, S; Lewis, Marlon R; Röttgers, Rüdiger; Sciandra, Antoine; Stramska, M; Twardowski, Michael S; Franz, B A; Claustre, Hervé (2008): Relationships between the surface concentration of particulate organic carbon and optical properties in the eastern South Pacific and eastern Atlantic Oceans. Biogeosciences, 5, 171-201, https://doi.org/10.5194/bg-5-171-2008
Coverage:
Median Latitude: 0.000000 * Median Longitude: 180.000000 * South-bound Latitude: -90.000000 * West-bound Longitude: 180.000000 * North-bound Latitude: 90.000000 * East-bound Longitude: 180.000000
Event(s):
GlobCover * Latitude Start: 90.000000 * Longitude Start: -180.000000 * Latitude End: -90.000000 * Longitude End: 180.000000
Comment:
Version comment:
2020-05-20: Version 2 (xlsx files updated)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
File nameFile nameCasey, Kimberly A
File formatFile formatCasey, Kimberly A
File sizeFile sizekByteCasey, Kimberly A
Uniform resource locator/link to fileURL fileCasey, Kimberly A
LATITUDELatitudeCasey, Kimberly AGeocode – minimum
LATITUDELatitudeCasey, Kimberly AGeocode – maximum
LONGITUDELongitudeCasey, Kimberly AGeocode – minimum
LONGITUDELongitudeCasey, Kimberly AGeocode – maximum
Date/time startDate/time startCasey, Kimberly A
10 Date/time endDate/time endCasey, Kimberly A
11 File contentContentCasey, Kimberly AData variable
12 File contentContentCasey, Kimberly AData variable (cont.)
13 File contentContentCasey, Kimberly AData range
14 Reference/sourceReferenceCasey, Kimberly AData source
15 Reference/sourceReferenceCasey, Kimberly AData source (cont.)
16 Reference/sourceReferenceCasey, Kimberly AData providers
17 Uniform resource locator/link to referenceURL refCasey, Kimberly AProvider reference
Change history:
2020-05-20T10:35:53 – Xlsx files updated
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
628 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


File name
File format
File size [kByte]
URL file
Latitude
(minimum)
Latitude
(maximum)
Longitude
(minimum)
Longitude
(maximum)
Date/time start		10 
Date/time end		11 
Content
(Data variable)		12 
Content
(Data variable (cont.))		13 
Content
(Data range)		14 
Reference
(Data source)		15 
Reference
(Data source (cont.))		16 
Reference
(Data providers)		17 
URL ref
(Provider reference)
PACE_insitu_Ackleson_a.xlsxXLSX56404.378PACE_insitu_Ackleson_a.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Total absorption (a) (m-1) for 9 stations in San Francisco Bay area401.5-752.5 nm in 83 wavelengths at 2-4 nm spectral resolution. Wavelengths provided rounded to nearest integer value.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_acdom.xlsxXLSX15852.808PACE_insitu_Ackleson_acdom.xlsx37.8443000038.51720000-122.6270000-121.531000002015-03-242015-03-24Measured CDOM absorption coefficient (acdom) (m-1) for 9 stations in San Francisco Bay area412-715 nm in 9 wavelengthsText files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_acdom_int.xlsxXLSX52687.593PACE_insitu_Ackleson_acdom_int.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Interpolated CDOM absorption coefficient (acdom_int) (m-1) for 9 stations in San Francisco Bay area401.5-752.5 nm in 83 wavelengths at 2-4 nm spectral resolution. Wavelengths provided rounded to nearest integer value.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_anw.xlsxXLSX55745.530PACE_insitu_Ackleson_anw.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Measured absorption with pure water subtracted (anw) (m-1) for 9 stations in San Francisco Bay area401.5-752.5 nm in 83 wavelengths at 2-4 nm spectral resolution. Wavelengths provided rounded to nearest integer value.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_bb.xlsxXLSX38725.430PACE_insitu_Ackleson_bb.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Total backscattering coefficient (bb) (m-1) for 9 stations in San Francisco Bay area450-650 nm in 3 wavelengthsText files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_c.xlsxXLSX56383.356PACE_insitu_Ackleson_c.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Total attenuation (c) (m-1) for 9 stations in San Francisco Bay area401.5-752.5 nm in 83 wavelengths at 2-4 nm spectral resolution. Wavelengths provided rounded to nearest integer value.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_cnw.xlsxXLSX54379.299PACE_insitu_Ackleson_cnw.xlsx37.8443000038.51720000-122.6270000-121.521400002015-03-242015-03-24Measured attenuation with pure water subtracted (cnw) (m-1) for 9 stations in San Francisco Bay area401.5-752.5 nm in 83 wavelengths at 2-4 nm spectral resolution. Wavelengths provided rounded to nearest integer value.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in April 2016Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_Rrs.xlsxXLSX332.330PACE_insitu_Ackleson_Rrs.xlsx37.8440000038.51700000-122.6270000-121.521000002015-03-242015-03-24Remote sensing reflectance (Rrs) (sr-1) for 9 stations in San Francisco Bay area400-900 nm at 1 nm spectral resolutionText files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in August 2015Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_Ackleson_Rrs_stdv.xlsxXLSX47.230PACE_insitu_Ackleson_Rrs_stdv.xlsx37.8440000038.51700000-122.6270000-121.521000002015-03-242015-03-24Standard deviation of remote sensing reflectance (Rrs_stdv) (sr-1) for 9 stations in San Francisco Bay area400-900 nm at 1 nm spectral resolutionText files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Ackleson/San Francisco Bay/ in August 2015Steve Ackleson and W. Joseph Rhea, Naval Research Laboratory ,Washington DC.; Contact Steve Ackleson at steve.ackleson(at)nrl.navy.mil, +1 202-767-3398
PACE_insitu_BossChase_ap.xlsxXLSX243.023PACE_insitu_BossChase_ap.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Particulate absorption coefficient (ap) (m-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_BossChase_ap_unc.xlsxXLSX235.360PACE_insitu_BossChase_ap_unc.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Particulate absorption coefficient uncertainty (ap_unc) (m-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_BossChase_Arctic_acdom.xlsxXLSX81.541PACE_insitu_BossChase_Arctic_acdom.xlsx60.9250000079.22300000-153.0920000166.329000002013-10-202013-10-20CDOM absorption coefficient (acdom) (m-1) for 29 stations400-550 nm hyperspectral data 1 nm resolution.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1016/j.rse.2017.08.009
PACE_insitu_BossChase_Arctic_acdom_unc.xlsxXLSX74.705PACE_insitu_BossChase_Arctic_acdom_unc.xlsx60.9250000079.22300000-153.0920000166.329000002013-10-202013-10-20Uncertainty in measured CDOM absorption coefficient (acdom_unc) (m-1) for 29 stations calculated as the half the difference between the 16th and 84th percentiles of the data within an hour of C-OPS data collection(equivalent to one stdev for normally distributed data).400-550 nm hyperspectral data 1 nm resolution.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1016/j.rse.2017.08.009
PACE_insitu_BossChase_Arctic_ap.xlsxXLSX76.946PACE_insitu_BossChase_Arctic_ap.xlsx60.9189000079.19410000-154.8806000166.300000002013-10-202013-10-20Particulate absorption coefficient (ap) (m-1) for 29 stations. Spectra are the mean value within one hour of co-located C-OPS data collection.400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1175/2010JTECHO755.1
PACE_insitu_BossChase_Arctic_ap_unc.xlsxXLSX74.264PACE_insitu_BossChase_Arctic_ap_unc.xlsx60.9189000079.19410000-154.8806000166.300000002013-10-202013-10-20Uncertainty in particulate absorption coefficient (ap_unc) (m-1) for 29 stations calculated as the half the difference between the 16th and 84th percentiles of the data within an hour of C-OPS data collection(equivalent to one stdev for normally distributed data).400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1175/2010JTECHO755.1
PACE_insitu_BossChase_Arctic_cp.xlsxXLSX87.928PACE_insitu_BossChase_Arctic_cp.xlsx60.9189000079.19410000-154.8806000166.300000002013-10-202013-10-20Particulate attenuation coefficient (cp) (m-1) for 29 stations.400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1175/2010JTECHO755.1
PACE_insitu_BossChase_Arctic_cp_unc.xlsxXLSX76.720PACE_insitu_BossChase_Arctic_cp_unc.xlsx60.9189000079.19410000-154.8806000166.300000002013-10-202013-10-20Uncertainty in particulate attenuation coefficient (cp_unc) (m-1) for 29 stations400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1175/2010JTECHO755.1
PACE_insitu_BossChase_Arctic_Rrs.xlsxXLSX74.246PACE_insitu_BossChase_Arctic_Rrs.xlsx60.9250000079.22300000-153.0920000166.329000002013-10-202013-10-20Remote sensing reflectance (Rrs) (sr-1) for 29 stations340-875 nm in 19 wavelengths with variable spectral resolution.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424
PACE_insitu_BossChase_Arctic_Rrs_stdv.xlsxXLSX68.578PACE_insitu_BossChase_Arctic_Rrs_stdv.xlsx60.9250000079.22300000-153.0920000166.329000002013-10-202013-10-20Standard deviation of remote sensing reflectance (Rrs_stdv) (sr-1) for 29 stations340-875 nm in 19 wavelengths with variable spectral resolution. Not available where only one cast was completed.Data provided by email from Alison Chase, University of Maine, Orono, ME, November 2017Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424
PACE_insitu_BossChase_cp.xlsxXLSX249.805PACE_insitu_BossChase_cp.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Particulate attenuation coefficient (cp) (m-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_BossChase_cp_unc.xlsxXLSX234.169PACE_insitu_BossChase_cp_unc.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Particulate attenuation coefficient uncertainty (cp_unc) (m-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_BossChase_Rrs.xlsxXLSX276.260PACE_insitu_BossChase_Rrs.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Remote sensing reflectance (Rrs) (sr-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_BossChase_Rrs_stdv.xlsxXLSX252.145PACE_insitu_BossChase_Rrs_stdv.xlsx-33.3498833343.57385254-159.001911773.901293182014-08-052014-08-05Standard deviation of all spectra from ~5 min deployments of remote sensing reflectance (Rrs) (sr-1) from three different expeditions: Tara Oceans Tara Med and SABOR400-750 nm in 81-86 wavelengths approximate 2-5 nm spectral resolution. Wavelength provided rounded to nearest integer.Data provided by email from Alison Chase, University of Maine, Orono, ME, April 2019Alison Chase, University of Maine, Orono, ME, alison.p.chase(at)maine.edu, +1 207-581-4424https://doi.org/10.1002/2017JC012859
PACE_insitu_Bricaud22_acdom.xlsxXLSX446.484PACE_insitu_Bricaud22_acdom.xlsx-34.63300000-8.31030000-141.2800000-72.389000002004-12-102004-12-10CDOM absorption coefficient (acdom) (m-1) for 32 stations300-700 nm in 201 wavelengths 2 nm resolutionBricaud22, BIOSOPE, biosope_22_acdom_Ultrapath_2005_12_02.xls and info_bioscope_bricaud_22.doc downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Biosope/data/bricaud_22/ on 2 June 2015 and 12 June 2015.Acquisition date, latitude, longitude from file Fichier_Rosette.xls provided by Annick Bricaud 5/20/2016.Annick Bricaud, LOV Villefranche, annick(at)obs-vlfr.fr, phone: 04 93 76 37 13https://doi.org/10.1016/S0278-4343(02)00009-2
PACE_insitu_Bricaud98_anap.xlsxXLSX540.709PACE_insitu_Bricaud98_anap.xlsx-34.63300000-8.31050000-141.2800000-72.389000002004-12-102004-12-10Non-algal particle absorption coefficient (anap) (m-1) for 36 stations300-750 nm in 226 wavelengths 2 nm resolutionBricaud98, BIOSOPE, biosope_aNAP_spectro_98_2005_09_12.xls and biosope_ap_spectro_98_2005_09_12.xls downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Biosope/data/bricaud_98/ on 2 June 2015.Acquisition date, latitude, longitude from file Fichier_Rosette.xls provided by Annick Bricaud 5/20/2016.Annick Bricaud, LOV Villefranche, annick(at)obs-vlfr.fr, phone: 04 93 76 37 13https://doi.org/10.1029/2009JC005517
PACE_insitu_Bricaud98_ap.xlsxXLSX551.942PACE_insitu_Bricaud98_ap.xlsx-34.63300000-8.31050000-141.2800000-72.389000002004-12-102004-12-10Particulate absorption coefficient (ap) (m-1) for 38 stations300-750 nm in 226 wavelengths 2 nm resolutionBricaud98, BIOSOPE, biosope_aNAP_spectro_98_2005_09_12.xls and biosope_ap_spectro_98_2005_09_12.xls downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/Biosope/data/bricaud_98/ on 2 June 2015.Acquisition date, latitude, longitude from file Fichier_Rosette.xls provided by Annick Bricaud 5/20/2016.Annick Bricaud, LOV Villefranche, annick(at)obs-vlfr.fr, phone: 04 93 76 37 13https://doi.org/10.1029/2009JC005517
PACE_insitu_Craig_anap_dis.xlsxXLSX173.654PACE_insitu_Craig_anap_dis.xlsx44.6937000044.69370000-63.6403000-63.640300002010-03-102010-03-10Discrete non-algal particle absorption coefficient (anap_dis) (m-1)400-700 nm in 1 nm spectral resolution.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/ in December 2017Susanne Craig, susanne.e.craig(at)nasa.govhttps://doi.org/10.1016/j.rse.2011.12.007
PACE_insitu_Craig_ap.xlsxXLSX167.103PACE_insitu_Craig_ap.xlsx44.6937000044.69370000-63.6403000-63.640300002010-03-102010-03-10Particulate absorption coefficient (ap) (m-1)400-700 nm in 1 nm spectral resolution.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/ in December 2017Susanne Craig, susanne.e.craig(at)nasa.govhttps://doi.org/10.1016/j.rse.2011.12.007
PACE_insitu_Craig_aph.xlsxXLSX164.923PACE_insitu_Craig_aph.xlsx44.6937000044.69370000-63.6403000-63.640300002010-03-102010-03-10Absorption coefficient of phytoplankton (aph) (m-1)400-700 nm in 1 nm spectral resolution.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/ in December 2017Susanne Craig, susanne.e.craig(at)nasa.govhttps://doi.org/10.1016/j.rse.2011.12.007
PACE_insitu_Craig_Rrs.xlsxXLSX163.506PACE_insitu_Craig_Rrs.xlsx44.6937000044.69370000-63.6403000-63.640300002010-03-102010-03-10Remote sensing reflectance (Rrs) (sr-1)400-700 nm in 1 nm spectral resolution.Text files downloaded from ftp://samoa.gsfc.nasa.gov/pace_st/data/ in December 2017Susanne Craig, susanne.e.craig(at)nasa.govhttps://doi.org/10.1016/j.rse.2011.12.007
PACE_insitu_Lewis_R.xlsxXLSX432.408PACE_insitu_Lewis_R.xlsx-34.63375100-11.73932000-134.0994420-72.387238002004-12-112004-12-11Irradiance reflectance (R) (dimensionless) for 67 stations354-802 nm at 2 nm spectral resolutionLewis, biosope_p416, BIOSOPE, Lewis files downloaded July 2015 from BIOSOPE online index, directory /proof/ftpfree/biosope/data/lewis_416Marlon Lewis, Dalhousie University, Nova Scotia, Canada, marlon.lewis(at)dal.ca
PACE_insitu_Lewis_R_stdv.xlsxXLSX428.839PACE_insitu_Lewis_R_stdv.xlsx-34.63375100-11.73932000-134.0994420-72.387238002004-12-112004-12-11Standard deviation of irradiance reflectance (R_stdv) (dimensionless) for 67 stations354-802 nm at 2 nm spectral resolutionLewis, biosope_p416, BIOSOPE, Lewis files downloaded July 2015 from BIOSOPE online index, directory /proof/ftpfree/biosope/data/lewis_416Marlon Lewis, Dalhousie University, Nova Scotia, Canada, marlon.lewis(at)dal.ca
PACE_insitu_Lewis_Rrs.xlsxXLSX431.999PACE_insitu_Lewis_Rrs.xlsx-34.63375100-11.73932000-134.0994420-72.387238002004-12-112004-12-11Remote sensing reflectance (Rrs) (sr-1) for 67 stations354-802 nm at 2 nm spectral resolutionLewis, biosope_p416, BIOSOPE, Lewis files downloaded July 2015 from BIOSOPE online index, directory /proof/ftpfree/biosope/data/lewis_416Marlon Lewis, Dalhousie University, Nova Scotia, Canada, marlon.lewis(at)dal.ca
PACE_insitu_Lewis_Rrs_stdv.xlsxXLSX434.368PACE_insitu_Lewis_Rrs_stdv.xlsx-34.63375100-11.73932000-134.0994420-72.387238002004-12-112004-12-11Standard deviation of remote sensing reflectance (Rrs_stdv) (sr-1) for 67 stations354-802 nm at 2 nm spectral resolutionLewis, biosope_p416, BIOSOPE, Lewis files downloaded July 2015 from BIOSOPE online index, directory /proof/ftpfree/biosope/data/lewis_416Marlon Lewis, Dalhousie University, Nova Scotia, Canada, marlon.lewis(at)dal.ca
PACE_insitu_Mouw_a.xlsxXLSX6819.508PACE_insitu_Mouw_a.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Total absorption equal to sum of particulate absorption CDOM absorption and water absorption (a) (m-1)400-725 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_acdom.xlsxXLSX6293.404PACE_insitu_Mouw_acdom.xlsx46.5500000047.50020000-91.8572000-86.445200002016-05-132016-05-13CDOM absorption coefficient (acdom) (m-1)400-725 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_acdom_dis.xlsxXLSX820.242PACE_insitu_Mouw_acdom_dis.xlsx46.5500000048.06320000-91.8572000-86.265800002016-05-132016-05-13Discrete CDOM absorption coefficient (acdom_dis) (m-1)300-800 nm 1 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_anap_dis.xlsxXLSX757.784PACE_insitu_Mouw_anap_dis.xlsx46.5500000048.06320000-91.8572000-86.265800002016-05-132016-05-13Discrete non-algal particle absorption coefficient (anap_dis) (m-1)300-800 nm 1 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_anw.xlsxXLSX6804.932PACE_insitu_Mouw_anw.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Measured absorption with pure water subtracted (anw) (m-1)400-725 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_ap.xlsxXLSX5706.359PACE_insitu_Mouw_ap.xlsx46.5500000047.50020000-91.8507000-86.445200002016-05-132016-05-13Particulate absorption coefficient (ap) (m-1)400-725 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_ap_dis.xlsxXLSX825.972PACE_insitu_Mouw_ap_dis.xlsx46.5500000048.06320000-91.8572000-86.265800002016-05-132016-05-13Discrete particulate absorption coefficient (ap_dis) (m-1)300-800 nm 1 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_bb.xlsxXLSX5376.309PACE_insitu_Mouw_bb.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Total backscattering coefficient (bb) (m-1)412-715 nm 30-50 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_bbp.xlsxXLSX5318.071PACE_insitu_Mouw_bbp.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Particulate backscattering coefficient (bbp) (m-1)412-715 nm 30-50 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_c.xlsxXLSX6865.647PACE_insitu_Mouw_c.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Total attenuation equal to sum of particulate attenuation CDOM absorption and water attenuation (c) (m-1)400-730 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_cnw.xlsxXLSX6827.635PACE_insitu_Mouw_cnw.xlsx46.5500000047.84800000-91.8572000-86.445200002016-05-132016-05-13Measured attenuation with pure water subtracted (cnw) (m-1)400-745 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Mouw_Rrs.xlsxXLSX220.368PACE_insitu_Mouw_Rrs.xlsx46.5500000047.78810000-91.8572000-86.265800002016-05-132016-05-13Remote sensing reflectance (Rrs) (sr-1)~370-720 nm 3-4 nm resolutionMouw, C.B., Ciochetto, A.B., Grunert, B., Yu, A., 2017, Lake Superior, NASA SeaWiFS Bio-optical Storage System (SeaBASS), NASA, doi.org/10.5067/SeaBASS/LAKESUPERIOR/DATA001, seabass.gsfc.nasa.govColleen Mouw, University of Rhode Island, Graduate School of Oceanography, cmou(at)uri.edu, +1 401-874-6506https://doi.org/10.5194/essd-9-497-2017
PACE_insitu_Schaeffer_acdom.xlsxXLSX2959.133PACE_insitu_Schaeffer_acdom.xlsx29.7300000030.57000000-87.3100000-85.330000002011-11-142011-11-14CDOM absorption coefficient (acdom) (m-1) for 4 estuaries in Northern Gulf of Mexico 10-15 stations per estuary. Also note in CTD column cruise is listed instead of CTD.300-750 nm 1 nm resolutionSchaeffer, FL_Estuaries.ldb provided 6 January 2016 by ftpBlake Schaeffer, U.S. Environmental Protection Agency, Schaeffer.Blake(at)epa.gov, +1 919-541-5571https://doi.org/10.1080/01431161.2015.1035408
PACE_insitu_Schaeffer_anap.xlsxXLSX3287.952PACE_insitu_Schaeffer_anap.xlsx29.7300000030.57000000-87.3100000-85.330000002011-11-142011-11-14Non-algal particle absorption coefficient (anap) (m-1) for 4 estuaries in Northern Gulf of Mexico 10-15 stations per estuary. Also note in CTD column cruise is listed instead of CTD.300-750 nm 1 nm resolutionSchaeffer, FL_Estuaries.ldb provided 6 January 2016 by ftpBlake Schaeffer, U.S. Environmental Protection Agency, Schaeffer.Blake(at)epa.gov, +1 919-541-5571https://doi.org/10.1080/01431161.2015.1035408
PACE_insitu_Schaeffer_ap.xlsxXLSX3264.159PACE_insitu_Schaeffer_ap.xlsx29.7300000030.57000000-87.3100000-85.330000002011-11-142011-11-14Particulate absorption coefficient (ap) (m-1) for 4 estuaries in Northern Gulf of Mexico 10-15 stations per estuary. Also note in CTD column cruise is listed instead of CTD.300-750 nm 1 nm resolutionSchaeffer, FL_Estuaries.ldb provided 6 January 2016 by ftpBlake Schaeffer, U.S. Environmental Protection Agency, Schaeffer.Blake(at)epa.gov, +1 919-541-5571https://doi.org/10.1080/01431161.2015.1035408
PACE_insitu_Schaeffer_aph.xlsxXLSX3440.708PACE_insitu_Schaeffer_aph.xlsx29.7300000030.57000000-87.3100000-85.330000002011-11-142011-11-14Absorption coefficient of phytoplankton (aph) (m-1) for 4 estuaries in Northern Gulf of Mexico 10-15 stations per estuary. Also note in CTD column cruise is listed instead of CTD.300-750 nm 1 nm resolutionSchaeffer, FL_Estuaries.ldb provided 6 January 2016 by ftpBlake Schaeffer, U.S. Environmental Protection Agency, Schaeffer.Blake(at)epa.gov, +1 919-541-5571https://doi.org/10.1080/01431161.2015.1035408
PACE_insitu_Schaeffer_Rrs.xlsxXLSX2739.737PACE_insitu_Schaeffer_Rrs.xlsx29.7400000030.57000000-87.3100000-85.330000002011-11-142011-11-14Remote sensing reflectance (Rrs) (sr-1) for 4 estuaries in Northern Gulf of Mexico 10-15 stations per estuary. Also note in CTD column cruise is listed instead of CTD.400-735 nm 1 nm resolutionSchaeffer, FL_Estuaries.ldb provided 6 January 2016 by ftpBlake Schaeffer, U.S. Environmental Protection Agency, Schaeffer.Blake(at)epa.gov, +1 919-541-5571https://doi.org/10.1080/01431161.2015.1035408
PACE_insitu_StramskiReynolds_acdom.xlsxXLSX130.493PACE_insitu_StramskiReynolds_acdom.xlsx-45.5910000020.65225000-157.3392500-32.526000002012-06-092012-06-09CDOM absorption coefficient (acdom) (m-1) for 16 stations300-860 nm for 9 stations and 400-700 nm for 7 stationsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_anap.xlsxXLSX171.028PACE_insitu_StramskiReynolds_anap.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Non-algal particle absorption coefficient (anap) (m-1) for 21 stations300-860 nm for 12 stations and 300-850 nm for 9 stationsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_ap.xlsxXLSX174.105PACE_insitu_StramskiReynolds_ap.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Particulate absorption coefficient (ap) (m-1) for 21 stations300-860 nm for 12 stations and 300-850 nm for 9 stationsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_aph.xlsxXLSX139.835PACE_insitu_StramskiReynolds_aph.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Absorption coefficient of phytoplankton (aph) (m-1) for 21 stations300-860 nm for 12 stations and 300-850 nm for 9 stationsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_bb.xlsxXLSX121.700PACE_insitu_StramskiReynolds_bb.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Total backscattering coefficient (bb) (m-1) for 57 stationsmultispectral data from 420-671 nm in approximately 7 wavelengthsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_bbp.xlsxXLSX122.083PACE_insitu_StramskiReynolds_bbp.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Particulate backscattering coefficient (bbp) (m-1) for 57 stationsmultispectral data from 420-671 nm in approximately 7 wavelengthsD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008
PACE_insitu_StramskiReynolds_Rrs.xlsxXLSX127.699PACE_insitu_StramskiReynolds_Rrs.xlsx-45.5910000020.69183333-157.3392500-30.491000002012-06-092012-06-09Remote sensing reflectance (Rrs) (sr-1) for 21 stations350-800 nm at 1 nm spectral resolutionD. Stramski, R. Reynolds, data provided by email April 2018Dariusz Stramski and Rick Reynolds, Marine Physical Laboratory, Scripps Institution of Oceanography, La Jolla, CA, 92093 USA. Contact Rick Reynolds at rreynolds(at)ucsd.edu, +1 858-822-4407https://doi.org/10.5194/bg-5-171-2008