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Bolton, Clara T; Stoll, Heather M (2025): Coccolith stable carbon isotope vital effects over the past 60 million years compiled from the literature with new data added [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.982713

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Published: 2025-07-04DOI registered: 2025-08-02

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Abstract:
This dataset contains the stable carbon isotope data used to calculate the range of coccolith δ13C vital effects over the past 60 million years (expressed as the difference between the d13C of small and large coccoliths), as plotted in Figure 4 of the review paper Coccoliths as Recorders of Paleoceanography and Paleoclimate over the Past 66 Million Years by Bolton & Stoll (2025, AREPS; doi:10.1146/annurev-earth-040623-103211). It is a compilation of previously published and unpublished data over the last 60 million years. The data provide insights into coccolithophore evolution, physiology, and adaptation to changing climate, of interest for paleoceanographic research. Data come from ODP/IODP, NGHP, and MD sediment cores from the Atlantic, Pacific and Indian Oceans, and are based on measurements of purified coccolith fractions made on an isotope-ratio mass spectrometer.
Keyword(s):
Carbon and oxygen stable isotopes; Cenozoic; Coccolithophores; Micropaleontology; morphology
Related to:
Bolton, Clara T; Stoll, Heather M (2024): Coccoliths as Recorders of Paleoceanography and Paleoclimate over the Past 66 Million Years. Annual Review of Earth and Planetary Sciences, https://doi.org/10.1146/annurev-earth-040623-103211
References:
Bolton, Clara T; Hernández-Sánchez, María T; Fuertes, Miguel-Ángel; González-Lemos, Saúl; Abrevaya, Lorena; Mendez-Vicente, Ana; Flores, José-Abel; Probert, Ian; Giosan, Liviu; Johnson, Joel; Stoll, Heather M (2016): Decrease in coccolithophore calcification and CO2 since the middle Miocene. Nature Communications, 7(1), 10284, https://doi.org/10.1038/ncomms10284
Bolton, Clara T; Stoll, Heather M (2013): Late Miocene threshold response of marine algae to carbon dioxide limitation. Nature, 500(7464), 558-562, https://doi.org/10.1038/nature12448
Bolton, Clara T; Stoll, Heather M; Mendez-Vicente, Ana (2012): Vital effects in coccolith calcite: Cenozoic climate-pCO2 drove the diversity of carbon acquisition strategies in coccolithophores? Paleoceanography, 27(4), PA4204, https://doi.org/10.1029/2012PA002339
Claxton, Louis M; McClelland, H L O; Hermoso, Michael; Rickaby, Rosalind E M (2022): Eocene emergence of highly calcifying coccolithophores despite declining atmospheric CO2. Nature Geoscience, 15(10), 826-831, https://doi.org/10.1038/s41561-022-01006-0
Godbillot, Camille; Minoletti, Fabrice; Bassinot, Franck; Hermoso, Michael (2022): Parallel between the isotopic composition of coccolith calcite and carbon levels across Termination II: developing a new paleo-CO 2 probe. Climate of the Past, 18(3), 449-464, https://doi.org/10.5194/cp-18-449-2022
Hermoso, Michaël; McClelland, Harry-Luke O; Hirst, J S; Minoletti, Fabrice; Bonifacie, Magali; Rickaby, Rosalind E M (2020): Towards the use of the coccolith vital effects in palaeoceanography: A field investigation during the middle Miocene in the SW Pacific Ocean. Deep Sea Research Part I: Oceanographic Research Papers, 160, 103262, https://doi.org/10.1016/j.dsr.2020.103262
Tremblin, Maxime; Hermoso, Michael; Minoletti, Fabrice (2016): Equatorial heat accumulation as a long-term trigger of permanent Antarctic ice sheets during the Cenozoic. Proceedings of the National Academy of Sciences, 113(42), 11782-11787, https://doi.org/10.1073/pnas.1608100113
Funding:
French National Research Agency (ANR), grant/award no. ANR-22-EDIR-0003-01
Swiss National Science Foundation (SNF), grant/award no. 200021_182070
Coverage:
Median Latitude: -4.570453 * Median Longitude: -9.132011 * South-bound Latitude: -42.913617 * West-bound Longitude: -131.973000 * North-bound Latitude: 39.611700 * East-bound Longitude: 161.226700
Date/Time Start: 1982-12-06T00:00:00 * Date/Time End: 2003-04-08T00:00:00
Minimum Elevation: -4799.9 m * Maximum Elevation: 8.5 m
Event(s):
90-588  * Latitude: -26.111700 * Longitude: 161.226700 * Date/Time: 1982-12-06T00:00:00 * Elevation: -1533.0 m * Penetration: 245.6 m * Recovery: 220.8 m * Location: South Pacific/Tasman Sea/CONT RISE * Campaign: Leg90 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 24 cores; 226.4 m cored; 19.2 m drilled; 97.5 % recovery
154-925  * Latitude: 4.204233 * Longitude: -43.489067 * Date/Time Start: 1994-02-08T00:00:00 * Date/Time End: 1994-02-14T00:00:00 * Elevation: -3052.4 m * Penetration: 2017 m * Recovery: 1607.6 m * Location: North Atlantic Ocean * Campaign: Leg154 * Basis: Joides Resolution * Method/Device: Composite Core (COMPCORE) * Comment: 184 cores; 1729.6 m cored; 0 m drilled; 92.9% recovery
165-999  * Latitude: 12.743650 * Longitude: -78.739800 * Date/Time Start: 1995-01-10T00:00:00 * Date/Time End: 1996-01-29T00:00:00 * Elevation: -2828.0 m * Penetration: 1632.5 m * Recovery: 932.8 m * Location: Caribbean Sea * Campaign: Leg165 * Basis: Joides Resolution * Method/Device: Composite Core (COMPCORE) * Comment: 124 cores; 1089.1 m cored; 0 m drilled; 85.7% recovery
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventBolton, Clara T
Latitude of eventLatitudeBolton, Clara T
Longitude of eventLongitudeBolton, Clara T
Date/Time of eventDate/TimeBolton, Clara T
Elevation of eventElevationmBolton, Clara T
OceanOceanBolton, Clara T
AgeAgeMaBolton, Clara TFrom literature
AGEAgeka BPBolton, Clara TGeocode
Coccoliths, δ13CCocco δ13C‰ PDBBolton, Clara TFrom literatureSmall coccoliths
10 Size fractionSize fractionBolton, Clara TFrom literatureSmall coccolith size-fraction
11 Coccoliths, δ13CCocco δ13C‰ PDBBolton, Clara TFrom literatureLarge coccoliths
12 Size fractionSize fractionBolton, Clara TFrom literatureLarge size-fraction
13 DifferenceDiffBolton, Clara T∆13C small-large coccolith size fraction
14 CommentCommentBolton, Clara TShort Reference (as in figure legend in manuscript)
15 Reference/sourceReferenceBolton, Clara T
16 Uniform resource locator/link to referenceURL refBolton, Clara T
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
2170 data points

Data

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


Event
Latitude
Longitude
Date/Time
Elevation [m]
Ocean
Age [Ma]
Age [ka BP]
Cocco δ13C [‰ PDB]
(Small coccoliths)		10 
Size fraction
(Small coccolith size-fraction)		11 
Cocco δ13C [‰ PDB]
(Large coccoliths)		12 
Size fraction
(Large size-fraction)		13 
Diff
(∆13C small-large coccolith si...)		14 
Comment
(Short Reference (as in figure...)		15 
Reference		16 
URL ref
154-925 4.2042-43.48911994-02-08-3052Atlantic0.27000269.982.499<3 µm-0.0360000008 to 10 µm2.54B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic0.95000947.442.070<3 µm0.2280000008 to 10 µm1.84B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic1.890001893.111.0233 to 5 µm0.2710000008 to 10 µm0.75B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic2.980002976.551.4293 to 5 µm-0.8120000008 to 10 µm2.24B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic4.050004046.070.7853 to 5 µm-0.0950000008 to 10 µm0.88B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic5.030005027.601.3793 to 5 µm-0.4110000008 to 10 µm1.79B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic6.170006172.950.9583 to 5 µm0.2350000008 to 10 µm0.72B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic7.220007215.781.9233 to 5 µm0.5950000008 to 10 µm1.33B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic8.040008038.991.2423 to 5 µm0.4480000008 to 10 µm0.79B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic9.820009817.461.2983 to 5 µm0.9620000008 to 10 µm0.34B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
154-9254.2042-43.48911994-02-08-3052Atlantic10.6000010600.401.2293 to 5 µm0.7920000008 to 10 µm0.44B 2016Bolton et al. (2016)doi:10.1038/ncomms10284
177-1088 -41.136113.56281997-12-16-2082Atlantic0.81000809.262.5542 to 5 µm-0.52300000010 to 12 µm3.08BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic1.850001851.211.401<2 µm0.00000000010 to 12 µm1.40BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic2.780002782.372.1092 to 5 µm-0.26500000010 to 12 µm2.37BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic3.470003468.790.962<2 µm-0.06400000010 to 12 µm1.03BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic3.850003851.691.037<2 µm-0.23600000010 to 12 µm1.27BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic4.160004161.151.769<2 µm0.16600000010 to 12 µm1.60BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic4.520004520.481.541<2 µm1.05200000010 to 12 µm0.49BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic5.580005580.331.6382 to 5 µm1.25800000010 to 12 µm0.38BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic6.010006007.552.0092 to 5 µm1.53000000010 to 12 µm0.48BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic6.430006426.001.8062 to 5 µm1.3920000007 to 9 µm0.41BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic6.970006972.802.1042 to 5 µm1.5650000007 to 9 µm0.54BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic7.350007347.142.2762 to 5 µm1.79200000010 to 12 µm0.48BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic7.520007518.472.1132 to 5 µm1.7190000007 to 9 µm0.39BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic8.910008906.932.3252 to 5 µm1.52600000010 to 12 µm0.80BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic9.530009530.452.322<2 µm1.88800000010 to 12 µm0.43BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic10.0900010092.712.2772 to 5 µm2.21100000010 to 12 µm0.07BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic10.7300010731.462.4112 to 5 µm2.29900000010 to 12 µm0.11BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic11.6500011646.802.3832 to 5 µm2.03500000010 to 12 µm0.35BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic12.6700012673.053.0072 to 5 µm2.81800000010 to 12 µm0.19BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1088-41.136113.56281997-12-16-2082Atlantic14.8200014824.243.6102 to 5 µm3.07200000010 to 12 µm0.54BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-999 12.7437-78.73981995-01-10-2828Atlantic0.0200020.002.416<2 µm-1.1260000009 to 12 µm3.54BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic2.110002105.081.480<2 µm0.1180000009 to 12 µm1.36B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.180002182.931.608<2 µm0.0050000009 to 12 µm1.60B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.350002353.331.130<2 µm-0.2910000009 to 12 µm1.42B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.420002424.490.701<2 µm-0.3060000009 to 12 µm1.01B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.500002504.621.015<2 µm0.1570000009 to 12 µm0.86B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.550002547.001.320<2 µm0.3800000009 to 12 µm0.94B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.580002579.910.847<2 µm0.0880000009 to 12 µm0.76B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.620002621.861.609<2 µm0.2350000009 to 12 µm1.37B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.660002662.701.018<2 µm0.1530000009 to 12 µm0.87B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.700002701.361.430<2 µm-0.1330000009 to 12 µm1.56B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.740002742.501.470<2 µm-0.6370000009 to 12 µm2.11B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.780002782.981.379<2 µm-0.3850000009 to 12 µm1.76B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.840002836.351.761<2 µm-0.3050000009 to 12 µm2.07B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.900002903.601.343<2 µm0.1660000009 to 12 µm1.18B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic2.960002955.201.045<2 µm-0.5100000009 to 12 µm1.55B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.000003001.100.898<2 µm-0.7460000009 to 12 µm1.64B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.080003080.231.539<2 µm-0.4450000009 to 12 µm1.98B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.160003162.561.266<2 µm-0.7510000009 to 12 µm2.02B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.230003225.221.573<2 µm-0.4760000009 to 12 µm2.05B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.320003318.921.442<2 µm-0.5650000009 to 12 µm2.01B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.390003393.891.517<2 µm-0.3770000009 to 12 µm1.89B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic3.500003501.960.985<2 µm-0.0230000009 to 12 µm1.01B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
165-99912.7437-78.73981995-01-10-2828Atlantic4.010004007.020.814<2 µm-1.47200000010 to 12 µm2.29BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic5.000005000.751.111<2 µm-1.0260000009 to 12 µm2.14BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic6.000006000.941.321<2 µm-0.1730000009 to 12 µm1.49BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic7.000007000.691.112<2 µm0.3670000009 to 12 µm0.75BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic8.000007998.011.431<2 µm0.39300000010 to 12 µm0.96BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic9.320009318.360.8442 to 4 µm0.53300000010 to 12 µm0.27BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic10.3300010327.070.5542 to 4 µm0.3970000009 to 12 µm0.16BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic12.4600012460.861.2002 to 4 µm0.3080000009 to 12 µm0.89BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic13.1000013098.082.281<2 µm1.6700000009 to 12 µm0.61BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic14.3500014353.012.4142 to 4 µm0.47600000010 to 12 µm0.43BS 2013Bolton et al. (2013)doi:10.1038/nature12448
165-99912.7437-78.73981995-01-10-2828Atlantic15.7500015754.521.3682 to 4 µm0.57600000010 to 12 µm0.20BS 2013Bolton et al. (2013)doi:10.1038/nature12448
MD95-2037 37.0872-32.03121995-06-30-2159Atlantic0.10700107.130.9662 to 3 µm-2.2740000005 to 8 µm3.24G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.11000110.461.2732 to 3 µm-2.0600000005 to 8 µm3.33G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.11500114.760.6502 to 3 µm-2.0500000005 to 8 µm2.70G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.11900119.130.5382 to 3 µm-2.2770000005 to 8 µm2.81G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.12000120.450.7422 to 3 µm-2.3580000005 to 8 µm3.10G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.12400123.51-0.0542 to 3 µm-2.3590000005 to 8 µm2.30G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.12800127.880.4132 to 3 µm-2.1150000005 to 8 µm2.53G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.12900129.430.5342 to 3 µm-2.0720000005 to 8 µm2.61G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13000130.080.6192 to 3 µm-1.7420000005 to 8 µm2.36G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13100130.670.7802 to 3 µm-1.9120000005 to 8 µm2.69G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13100131.320.9092 to 3 µm-1.7750000005 to 8 µm2.68G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13200131.97-0.1422 to 3 µm-1.9000000005 to 8 µm1.76G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13300132.62-0.1372 to 3 µm-1.7060000005 to 8 µm1.57G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13400133.930.5772 to 3 µm-2.1390000005 to 8 µm2.72G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13500135.231.2622 to 3 µm-2.2800000005 to 8 µm3.54G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13600135.881.6992 to 3 µm-2.1110000005 to 8 µm3.81G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13700136.660.9282 to 3 µm-2.0440000005 to 8 µm2.97G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.13800138.181.3612 to 3 µm-1.9220000005 to 8 µm3.28G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.14000139.701.2982 to 3 µm-1.5030000005 to 8 µm2.80G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
MD95-203737.0872-32.03121995-06-30-2159Atlantic0.14100141.221.5922 to 3 µm-2.0970000005 to 8 µm3.69G 2022Godbillot et al. (2022)doi:10.5194/cp-18-449-2022
154-9254.2042-43.48911994-02-08-3052Atlantic30.0000030000.001.6103 to 5 µm0.8900000005 to 8 µm0.72T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic31.0000031000.001.6103 to 5 µm1.2000000005 to 8 µm0.41T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic31.6000031600.001.1903 to 5 µm1.0300000005 to 8 µm0.16T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic32.1000032100.001.2203 to 5 µm0.7200000005 to 8 µm0.50T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic32.5000032500.001.2003 to 5 µm0.8800000005 to 8 µm0.32T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic32.9000032900.001.1303 to 5 µm1.0800000005 to 8 µm0.05T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic33.3000033300.001.3503 to 5 µm1.2500000005 to 8 µm0.10T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic33.5000033500.001.4403 to 5 µm1.1000000005 to 8 µm0.34T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic33.7000033700.001.0903 to 5 µm1.3300000005 to 8 µm-0.24T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic34.0000034000.000.9603 to 5 µm0.7500000005 to 8 µm0.21T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic34.2000034200.000.6403 to 5 µm0.7000000005 to 8 µm-0.06T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic35.0000035000.001.3003 to 5 µm1.3200000005 to 8 µm-0.02T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic35.5000035500.001.2803 to 5 µm1.3700000005 to 8 µm-0.09T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic35.6000035600.001.2903 to 5 µm1.4800000005 to 8 µm-0.19T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic36.0000036000.001.7703 to 5 µm1.8300000005 to 8 µm-0.06T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic36.4000036400.001.4603 to 5 µm1.5400000005 to 8 µm-0.08T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic37.0000037000.001.3103 to 5 µm1.7800000005 to 8 µm-0.47T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic37.4000037400.001.5103 to 5 µm1.6400000005 to 8 µm-0.13T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
154-9254.2042-43.48911994-02-08-3052Atlantic38.2000038200.001.8303 to 5 µm2.0100000005 to 8 µm-0.18T 2016Tremblin et al. (2016)doi:10.1073/pnas.1608100113
NGHP-01-01A 15.306170.9032-2663Indian0.26000260.001.0383 to 5 µm-0.5740000008 to 10 µm1.61Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian0.83800838.390.2953 to 5 µm-1.2810000008 to 10 µm1.58Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian2.924002923.950.3533 to 5 µm-1.5560000008 to 10 µm1.91Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian4.042004042.46-0.4763 to 5 µm-1.2540000008 to 10 µm0.78Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian4.918004917.76-1.2893 to 5 µm-1.7860000008 to 10 µm0.50Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian5.817005816.59-0.5223 to 5 µm-1.4010000008 to 10 µm0.88Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian6.780006780.001.0013 to 5 µm-1.0340000008 to 10 µm2.04Bolton & Stoll (upublished data)
NGHP-01-01A15.306170.9032-2663Indian7.964007964.23-0.0283 to 5 µm-0.5610000008 to 10 µm0.53Bolton & Stoll (upublished data)
320-U1334 7.9990-131.9730-4800Pacific32.0000032000.001.7702 to 5 µm1.592000000>12 µm0.18BS 2013Bolton et al. (2013)doi:10.1038/nature12448
320-U13347.9990-131.9730-4800Pacific35.0000035000.001.3932 to 5 µm1.839000000>12 µm-0.45BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1090 -42.91368.89981997-12-25-3702Atlantic32.0000032000.002.2072 to 4 µm2.25300000010 to 12 µm-0.05BS 2013Bolton et al. (2013)doi:10.1038/nature12448
177-1090-42.91368.89981997-12-25-3702Atlantic35.0000035000.001.5622 to 4 µm1.80800000010 to 12 µm-0.25BS 2013Bolton et al. (2013)doi:10.1038/nature12448
208-1264 -28.53252.84552003-04-05-2505Atlantic22.0460022046.152.7492 to 5 µm2.9080000008 to 10 µm-0.16Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.1450022144.973.0602 to 5 µm3.0210000008 to 10 µm0.04Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.2580022257.513.0492 to 5 µm2.7670000008 to 10 µm0.28Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.3700022370.052.7062 to 5 µm2.6290000008 to 10 µm0.08Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.4720022471.612.8442 to 5 µm2.5710000008 to 10 µm0.27Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.5700022570.432.7802 to 5 µm2.6230000008 to 10 µm0.16Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.6720022671.992.8552 to 5 µm2.9370000008 to 10 µm-0.08Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.7760022776.302.9172 to 5 µm2.7080000008 to 10 µm0.21Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.8750022875.112.7332 to 5 µm2.5130000008 to 10 µm0.22Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic22.9740022973.933.2572 to 5 µm3.2060000008 to 10 µm0.05Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.0700023070.003.0582 to 5 µm3.1210000008 to 10 µm-0.06Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.1660023166.072.6882 to 5 µm3.0750000008 to 10 µm-0.39Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.2680023267.632.7272 to 5 µm2.5870000008 to 10 µm0.14Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.3770023377.432.6262 to 5 µm2.6600000008 to 10 µm-0.03Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.5120023511.932.9112 to 5 µm2.9440000008 to 10 µm-0.03Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.6160023616.242.7462 to 5 µm2.9730000008 to 10 µm-0.23Bolton & Stoll (upublished data)
208-1264-28.53252.84552003-04-05-2505Atlantic23.7180023717.802.5212 to 5 µm2.8380000008 to 10 µm-0.32Bolton & Stoll (upublished data)
208-1263 -28.53292.77962003-03-29-2717Atlantic38.5750038575.082.2503 to 5 µm2.2300000008 to 10 µm0.02C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic38.7010038701.352.2003 to 5 µm2.24000000010 to 15 µm-0.04C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic39.4410039441.302.6203 to 5 µm2.63000000010 to 15 µm-0.01C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic40.0430040042.632.2403 to 5 µm2.4200000008 to 10 µm-0.18C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic41.0140041013.932.0503 to 5 µm2.13000000010 to 15 µm-0.08C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic41.3850041384.792.1203 to 5 µm2.19000000010 to 15 µm-0.07C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic41.9780041977.651.8403 to 5 µm1.94000000010 to 15 µm-0.10C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic41.9870041987.151.8903 to 5 µm2.1200000008 to 10 µm-0.23C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic42.9040042904.132.1403 to 5 µm2.01000000010 to 15 µm0.13C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic43.6750043674.612.0403 to 5 µm1.96000000010 to 15 µm0.08C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic43.8820043882.001.9103 to 5 µm1.9800000008 to 10 µm-0.07C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic44.8320044832.271.9303 to 5 µm2.14000000010 to 15 µm-0.21C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic45.5570045556.901.8903 to 5 µm1.97000000010 to 15 µm-0.08C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic46.1710046171.461.4203 to 5 µm1.49000000010 to 15 µm-0.07C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic46.8860046885.881.8703 to 5 µm2.0400000008 to 10 µm-0.17C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic47.3660047366.391.8203 to 5 µm2.11000000010 to 15 µm-0.29C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic47.3800047380.421.7203 to 5 µm1.74000000010 to 15 µm-0.02C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic48.2510048250.661.8003 to 5 µm2.08000000010 to 15 µm-0.28C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic49.4210049421.501.7903 to 5 µm1.98000000010 to 15 µm-0.19C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic49.9560049956.372.0303 to 5 µm1.9600000008 to 10 µm0.07C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic50.7380050737.571.5803 to 5 µm1.98000000010 to 15 µm-0.40C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic50.8600050860.141.4203 to 5 µm1.75000000010 to 15 µm-0.33C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic51.5720051571.731.4603 to 5 µm1.53000000010 to 15 µm-0.07C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic51.7620051761.860.7903 to 5 µm1.11000000010 to 15 µm-0.32C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic52.3980052398.231.2603 to 5 µm1.40000000010 to 15 µm-0.14C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic52.6000052599.901.1003 to 5 µm1.37000000010 to 15 µm-0.27C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic52.8810052880.890.8603 to 5 µm0.94000000010 to 15 µm-0.08C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic53.4300053429.731.2503 to 5 µm1.36000000010 to 15 µm-0.11C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic53.9340053934.241.2403 to 5 µm1.3400000008 to 10 µm-0.10C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.0000054000.140.7573 to 5 µm1.02973463910 to 15 µm-0.27C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.1570054156.981.1953 to 5 µm1.46191180410 to 15 µm-0.27C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.1670054167.021.2573 to 5 µm1.38031192010 to 15 µm-0.12C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.1900054190.001.5583 to 5 µm1.92028152410 to 15 µm-0.36C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.6300054630.001.7983 to 5 µm2.06434057810 to 15 µm-0.27C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic54.7800054780.001.7143 to 5 µm2.17414783010 to 15 µm-0.46C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic55.1600055160.001.5813 to 5 µm1.93942223710 to 15 µm-0.36C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
208-1263-28.53292.77962003-03-29-2717Atlantic55.5000055500.00-0.8533 to 5 µm-0.16706366210 to 15 µm-0.69C 2022Claxton et al. (2022)doi:10.1038/s41561-022-01006-0
Bass_River_Site 39.6117-74.43671996-10-189Atlantic55.1910055191.02-1.2171.5 to 5 µm-2.2070000005 to 8 µm0.99B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.5850055584.61-3.4011.5 to 5 µm-2.9770000005 to 8 µm-0.42B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.7800055780.42-1.6781.5 to 5 µm-1.9360000005 to 8 µm0.26B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.8000055800.00-1.6291.5 to 5 µm-1.8680000005 to 8 µm0.24B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.8700055870.491.7321.5 to 5 µm1.2930000005 to 8 µm0.44B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.9060055905.741.5471.5 to 5 µm1.3390000005 to 8 µm0.21B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic55.9370055937.070.9421.5 to 5 µm1.0960000005 to 8 µm-0.15B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic56.1150056115.251.7491.5 to 5 µm1.6350000005 to 8 µm0.11B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic56.6340056634.151.2601.5 to 5 µm1.4370000005 to 8 µm-0.18B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic56.7240056724.230.7131.5 to 5 µm0.7140000005 to 8 µm0.00B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic57.7970057797.261.9481.5 to 5 µm1.5820000005 to 8 µm0.37B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic58.1130058112.522.2131.5 to 5 µm2.2410000005 to 8 µm-0.03B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic58.4690058468.893.0371.5 to 5 µm2.5440000005 to 8 µm0.49B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
Bass_River_Site39.6117-74.43671996-10-189Atlantic58.8740058874.233.0681.5 to 5 µm2.1800000005 to 8 µm0.89B 2012Bolton et al. (2012)doi:10.1029/2012PA002339
90-588 -26.1117161.22671982-12-06-1533Pacific10.9353810935.382.0803 to 5 µm1.0400000005 to 8 µm1.04H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific11.2100011210.002.1603 to 5 µm1.3000000005 to 8 µm0.86H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific11.3857811385.781.6003 to 5 µm0.9600000005 to 8 µm0.64H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific11.5792111579.211.5803 to 5 µm1.3400000005 to 8 µm0.24H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific12.0511112051.111.6703 to 5 µm1.1600000005 to 8 µm0.51H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific12.1884712188.471.7903 to 5 µm0.9700000005 to 8 µm0.82H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific12.4295612429.562.3203 to 5 µm1.4100000005 to 8 µm0.91H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific12.6257912625.791.7603 to 5 µm1.2000000005 to 8 µm0.56H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific13.5271213527.122.4003 to 5 µm1.8200000005 to 8 µm0.58H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific13.6137313613.732.2703 to 5 µm1.5500000005 to 8 µm0.72H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific13.8480113848.012.2803 to 5 µm1.8800000005 to 8 µm0.40H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific13.8908813890.882.6103 to 5 µm2.1600000005 to 8 µm0.45H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.0725014072.502.4103 to 5 µm1.7900000005 to 8 µm0.62H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.1593314159.332.2403 to 5 µm1.8400000005 to 8 µm0.40H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.1869514186.952.4603 to 5 µm1.5400000005 to 8 µm0.92H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.2658914265.892.5303 to 5 µm2.0300000005 to 8 µm0.50H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.3014114301.412.7003 to 5 µm1.9100000005 to 8 µm0.79H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.5224214522.422.1803 to 5 µm1.1200000005 to 8 µm1.06H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.6619314661.932.4103 to 5 µm1.2700000005 to 8 µm1.14H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.7136614713.662.4003 to 5 µm1.3800000005 to 8 µm1.02H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.8717114871.711.9003 to 5 µm1.2100000005 to 8 µm0.69H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.9595214959.521.8703 to 5 µm1.2800000005 to 8 µm0.59H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific14.9941714994.171.6003 to 5 µm1.6500000005 to 8 µm-0.05H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.0468515046.852.0803 to 5 µm1.6400000005 to 8 µm0.44H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.2352815235.282.5603 to 5 µm1.8800000005 to 8 µm0.68H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.3264115326.412.5203 to 5 µm2.1300000005 to 8 µm0.39H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.3643815364.382.5003 to 5 µm2.3100000005 to 8 µm0.19H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.4009215400.922.6103 to 5 µm2.1800000005 to 8 µm0.43H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.5784315578.431.7303 to 5 µm1.5100000005 to 8 µm0.22H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.6154515615.452.1303 to 5 µm1.6500000005 to 8 µm0.48H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.9825815982.582.4603 to 5 µm2.0100000005 to 8 µm0.45H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific15.9834115983.412.7803 to 5 µm2.4600000005 to 8 µm0.32H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific16.1990816199.082.6103 to 5 µm2.2600000005 to 8 µm0.35H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific16.4728116472.811.9903 to 5 µm1.6000000005 to 8 µm0.39H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific16.5723516572.351.8603 to 5 µm1.7100000005 to 8 µm0.15H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific16.9995416999.542.2703 to 5 µm1.8800000005 to 8 µm0.39H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific17.1778817177.882.0403 to 5 µm1.6800000005 to 8 µm0.36H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262
90-588-26.1117161.22671982-12-06-1533Pacific17.3968717396.871.5403 to 5 µm1.2400000005 to 8 µm0.30H 2020Hermoso et al. (2020)doi:10.1016/j.dsr.2020.103262