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Papenfuß, Thomas (1999): (Tab. DA-2) Geochemistry and productivity reconstruction of surface sediments of the East Atlantic [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.869792, In supplement to: Papenfuß, T (1999): Glazial-Interglaziale Variation von Planktonproduktivität und Nährstoffgehalten im tropisch-subtropischen Ostatlantik im Abbild der Barium-Gehalte. Berichte-Reports, Institut für Geowissenschaften, Universität Kiel, 5, 1-119, https://doi.org/10.2312/reports-ifg.1999.5

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Further details:
Hommers, Harald (1989): Riesenkörner in Staubsedimenten von zwei Tiefseekernen vor Senegal, NW-Afrika (18°N, 18°W). Diploma Thesis, Geologisch-Paläontologisches Institut, Christian-Albrechts-Universität, Kiel, Germany, 35 pp
Kassens, Heidemarie (1985): Verteilung der physikalischen Sedimenteigenschaften in oberflächennahen Sedimenten des äquatorialen Ostatlantiks [thesis]. Diploma Thesis, Geologisch-Paläontologisches Institut, Christian-Albrechts-Universität, Kiel, Germany
Kassens, Heidemarie; Sarnthein, Michael (1989): A link between paleoceanography, early diagenetic cementation, and shear strength maxima in Late Quaternary deep-sea sediments? Paleoceanography, 4(3), 253-269, https://doi.org/10.1029/PA004i003p00253
Kiefer, Thorsten (1998): Produktivität und Temperaturen im subtropischen Nordatlantik: zyklische und abrupte Veränderungen im späten Quartär. Berichte-Reports, Geologisch-Paläontologisches Institut der Universität Kiel, 90, 127 pp, https://doi.org/10.2312/reports-gpi.1998.90
Koblents-Mishke, O I; Volkovinsky, V V; Kabanova, J G (1970): Plankton primary production of the World Ocean. In: Wooster, W S (ed.), Scientific Exploration of the South Pacific Scientific Exploration. National Academy of Science, Washington, 183 pp
Koopmann, B (1979): Saharastaub in den Sedimenten des subtropisch-tropischen Nordatlantik während der letzten 20.000 Jahre. Diploma Thesis, Geologisch-Paläontologisches Institut, Christian-Albrechts-Universität, Kiel, Germany, 107 pp
Müller, Peter J; Suess, Erwin (1979): Productivity, sedimentation rate, and sedimentary organic matter in the oceans. I.- Organic matter preservation. Deep-Sea Research Part A. Oceanographic Research Papers, 26(12), 1347-1362, https://doi.org/10.1016/0198-0149(79)90003-7
Platt, Trevor; Sathyendranath, Shubha; Longhurst, Alan R; Wilson, T R S; Woods, John D; Takahashi, Taro (1995): Remote sensing of primary production in the Ocean: promise and fulfilment and discussion. Philosophical Transactions of the Royal Society B-Biological Sciences, 348(1324), 191-202, https://doi.org/10.1098/rstb.1995.0061
Tiedemann, Ralf (1991): Acht Millionen Jahre Klimageschichte von Nordwest Afrika und Paläo-Ozeanographie des angrenzenden Atlantiks: Hochauflösende Zeitreihen von ODP-Sites 658-661. Berichte-Reports, Geologisch-Paläontologisches Institut der Universität Kiel, 46, 190 pp, https://doi.org/10.2312/reports-gpi.1991.46
Vogelsang, Elke (1985): Hochauflösende Zeitreihen der Termination I aus Sedimenten des Äquatorialen Ostatlantiks (der Übergang vom letzten Glazial zum jetzigen Interglazial). Diploma Thesis, Geologisch-Paläontologisches Institut, Christian-Albrechts-Universität, Kiel, Germany, 86 pp
Project(s):
Institute for Geosciences, Christian Albrechts University, Kiel (GIK/IfG)
Coverage:
Median Latitude: 20.906474 * Median Longitude: -16.719710 * South-bound Latitude: -2.203333 * West-bound Longitude: -31.990000 * North-bound Latitude: 56.161667 * East-bound Longitude: 5.100167
Date/Time Start: 1971-10-31T00:00:00 * Date/Time End: 1989-11-10T00:00:00
Minimum DEPTH, sediment/rock: m * Maximum DEPTH, sediment/rock: m
Event(s):
108-658C  * Latitude: 20.749200 * Longitude: -18.580800 * Date/Time Start: 1986-03-08T00:45:00 * Date/Time End: 1986-03-08T16:00:00 * Elevation: -2273.0 m * Penetration: 72.9 m * Recovery: 70.38 m * Location: Canarias Sea * Campaign: Leg108 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 8 cores; 72.9 m cored; 0 m drilled; 96.5 % recovery
GIK12309-1  * Latitude: 26.838333 * Longitude: -15.110000 * Date/Time: 1971-10-31T00:00:00 * Elevation: -2849.0 m * Location: East Atlantic * Campaign: M25 * Basis: Meteor (1964) * Method/Device: van Veen Grab (VGRAB)
GIK12310-1  * Latitude: 23.498333 * Longitude: -18.716667 * Date/Time: 1971-11-02T00:00:00 * Elevation: -3075.0 m * Location: East Atlantic * Campaign: M25 * Basis: Meteor (1964) * Method/Device: van Veen Grab (VGRAB)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventPapenfuß, Thomas
Latitude of eventLatitudePapenfuß, Thomas
Longitude of eventLongitudePapenfuß, Thomas
Elevation of eventElevationmPapenfuß, Thomas
DEPTH, sediment/rockDepth sedmPapenfuß, ThomasGeocode
Primary production of carbon per area, yearlyPP C areag/m2/aPapenfuß, ThomasCalculatedPlatt et al. (1995)
Export productionPP expg/m2/aPapenfuß, ThomasCalculatedPlatt et al. (1995)
Primary production of carbon per area, yearlyPP C areag/m2/aPapenfuß, ThomasCalculatedKoblents-Mishke et al. (1970)
Export productionPP expg/m2/aPapenfuß, ThomasCalculatedKoblents-Mishke et al. (1970)
10 Density, dry bulkDBDg/cm3Papenfuß, ThomasCalculated
11 CommentCommentPapenfuß, Thomasdensity estimation
12 Sedimentation rateSRcm/kaPapenfuß, Thomas
13 Accumulation rate, sediment, mean per yearMARg/m2/aPapenfuß, ThomasCalculated
14 Carbon, organic, totalTOC%Papenfuß, Thomas
15 Accumulation rate, total organic carbon per yearAcc rate TOCg/m2/aPapenfuß, ThomasCalculated
16 Calcium carbonateCaCO3%Papenfuß, Thomas
17 Sulfur, totalTS%Papenfuß, Thomas
18 BariumBamg/kgPapenfuß, Thomas
19 Barium, standard deviationBa std dev±Papenfuß, Thomas
20 AluminiumAlmg/kgPapenfuß, Thomas
21 Aluminium, standard deviationAl std dev±Papenfuß, Thomas
22 Barium/Aluminium ratioBa/AlPapenfuß, Thomas
23 TitaniumTimg/kgPapenfuß, Thomas
24 Titanium/Aluminium ratioTi/AlPapenfuß, Thomas
25 Aluminium/Titanium ratioAl/TiPapenfuß, Thomas
26 ManganeseMnmg/kgPapenfuß, Thomas
27 IronFe%Papenfuß, Thomaswt. %
28 Size fraction < 0.002 mm, clay<2 µm%Papenfuß, Thomaswt. %
29 Barium, biogenicBa biomg/kgPapenfuß, ThomasCalculatednormalized Ba/Al = 0.0075
30 Barium, biogenicBa biomg/kgPapenfuß, ThomasCalculatednormalized Ba/Al = 0.0041
31 Barium, biogenic, standard deviationBa bio std dev±Papenfuß, ThomasCalculated
32 Accumulation rate, biogenic bariumAcc rate Ba bioµg/cm2/aPapenfuß, ThomasCalculated
33 Accumulation rate, standard deviationAcc rate std dev±Papenfuß, ThomasCalculated
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
977 data points

Data

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


Event
Latitude
Longitude
Elevation [m]
Depth sed [m]
PP C area [g/m2/a]
(Platt et al. (1995))
PP exp [g/m2/a]
(Platt et al. (1995))
PP C area [g/m2/a]
(Koblents-Mishke et al. (1970))
PP exp [g/m2/a]
(Koblents-Mishke et al. (1970))		10 
DBD [g/cm3]		11 
Comment
(density estimation)		12 
SR [cm/ka]		13 
MAR [g/m2/a]		14 
TOC [%]		15 
Acc rate TOC [g/m2/a]		16 
CaCO3 [%]		17 
TS [%]		18 
Ba [mg/kg]		19 
Ba std dev [±]		20 
Al [mg/kg]		21 
Al std dev [±]		22 
Ba/Al		23 
Ti [mg/kg]		24 
Ti/Al		25 
Al/Ti		26 
Mn [mg/kg]		27 
Fe [%]
(wt. %)		28 
<2 µm [%]
(wt. %)		29 
Ba bio [mg/kg]
(normalized Ba/Al = 0.0075)		30 
Ba bio [mg/kg]
(normalized Ba/Al = 0.0041)		31 
Ba bio std dev [±]		32 
Acc rate Ba bio [µg/cm2/a]		33 
Acc rate std dev [±]
GIK12309-1 26.8383-15.1100-28490240.7120.4144.652.30.6700Koopmann (1979)5.6537.90.430.16341.600.094278.0532239960.008041740.080912.365823.129.728211330.800.13
GIK12310-1 23.4983-18.7167-30750414.4207.2157.261.80.6700Koopmann (1979)5.8237.80.360.14053.500.124058.0404087980.010024840.063015.868372.121.6101240260.940.07
GIK12328-2 21.1450-18.5733-282201171.2585.6210.1105.10.7800correlated with 108-658 (Tiedemann, 1991)11.9493.11.481.37834.100.3162011.45526910160.011230530.052818.935612.929.9206395353.680.33
GIK12329-2 19.3717-19.9300-33140492.0246.0207.8103.90.5500correlated with 108-659 (Tiedemann, 1991)2.9116.00.330.05358.600.116068.3341677030.011821360.064715.4614491.815.7148265220.420.04
GIK12337-4 15.9533-18.1333-30940654.9327.5233.0116.50.5691Müller and Süss (1979)8.5248.51.240.59914.600.1669512.68663415650.008046380.053618.671344.559.046343541.660.26
GIK12345-4 15.4800-17.3600-9660925.9463.0244.7122.30.5691Müller and Süss (1979)13.1674.92.421.81214.700.293867.06722312150.005744400.066415.06973.343.1-118
GIK12347-1 15.8250-17.8617-27100716.3358.2237.4118.70.5691Müller and Süss (1979)10.5059.82.151.2858.600.3175213.69390316940.008051740.054918.201234.866.947369582.210.35
GIK13290-1 18.0530-18.0673-28950831.6415.8240.4120.20.8827correlated with GIK13289 (Hommers, 1989)5.9652.60.770.40523.800.1172013.17375613390.009838980.053718.631924.047.3167420462.210.24
GIK13518-1 5.6700-19.8517-28750134.945.561.19.30.5500correlated with GIK13519 and 13521 (Winn unpublished)1.387.60.410.03173.300.0842611.2268987080.015916990.070614.163781.513.6225317200.240.02
GIK13520-1 3.0233-22.0167-45000134.945.539.73.90.6400correlated with GIK13519 and 13521 (Winn unpublished)2.7917.90.430.07772.800.081864.8277027210.006715960.056917.5712591.517.9-21
GIK15666-3 34.9600-7.1180-8020192.993.073.413.51.0527Winn unpublished3.9541.60.430.17938.000.062214.15981511080.003736930.063715.696873.334.9-228
GIK15669-4 34.8910-7.8150-20140166.769.563.910.20.9294Winn unpublished3.2129.80.390.11652.600.062955.8483849490.006126640.057717.343972.529.8-68
GIK15670-1 34.9080-7.5760-14630178.579.767.311.31.0340Winn unpublished3.6737.90.360.13750.800.082394.6496619640.004829420.061316.323482.729.7-133
GIK15672-2 34.8600-8.1260-24350158.662.959.99.00.8252Winn unpublished1.5813.00.360.04754.100.073206.4468839290.006824980.057617.374152.528.8-31
GIK16005-1 29.2467-11.5067-8110820.1410.1170.772.91.0220correlated with GIK16006 (Winn unpublished)6.1763.10.460.29054.900.082214.4355897100.006224230.070014.282482.020.5-46
GIK16017-1 21.2450-17.8030-79401500.8750.4226.9113.50.9875Pflaumann unpublished12.81126.51.521.92338.400.183256.0324876030.010021080.066015.161011.45.881
GIK16032-1 21.2383-17.9833-117601448.0724.0222.3111.10.8006correlated with GIK16030 (Winn unpublished)6.1249.00.710.34843.200.193536.6265594990.013317440.067814.75731.15.8154
GIK16402-1 14.4167-20.5667-42030169.896.8196.596.60.6037Winn unpublished, Vogelsang (1985)3.1919.30.400.07742.000.104819.05504010310.008734120.064315.5515783.033.068257340.500.07
GIK16408-2 9.0133-21.4567-42390173.575.387.219.00.6628Kassens (1985)2.0913.90.400.05559.700.113427.1390018110.008823800.066415.059972.023.449183250.250.03
GIK16415-1 9.5667-19.1067-38410168.370.8123.237.90.6500Kassens (1985)1.8211.80.600.07152.900.084278.4493569710.008629440.060516.534562.327.657226310.270.04
GIK16453-2 4.7333-20.9417-26750137.747.444.75.00.6078Kassens and Sarnthein (1989)0.774.70.410.01975.600.0738610.9237106690.016315380.066714.982271.412.6208289180.140.01
GIK16455-1 5.2700-22.8650-41600148.655.236.73.40.5619Kassens and Sarnthein (1989)0.824.60.520.02467.200.092405.5344717940.007020620.059516.828211.919.8-18
GIK16457-1 5.3917-21.7200-32910140.449.344.55.00.5871Kassens and Sarnthein (1989)1.438.40.460.03973.500.082907.7268507110.010816710.063215.813411.515.188180180.150.02
GIK16458-2 5.3350-22.0550-35180142.650.841.64.30.5447Kassens and Sarnthein (1989)1.005.40.490.02771.000.093077.6301987500.010218800.061916.143381.616.481184200.100.01
GIK16771-1 0.8133-15.5117-27790157.161.786.918.90.6974Winn unpublished2.0414.20.380.05486.200.1050824.1109675200.04636480.054618.323170.75.1426463250.660.04
GIK16772-1 -1.3400-11.9733-39110182.983.687.819.30.6900Winn unpublished3.4423.70.280.06681.500.1048617.4125394490.03886560.057517.396650.79.9392435191.040.05
GIK16773-1 -0.9717-9.4433-46620192.592.669.212.00.6900correlated with GIK16772 (Winn unpublished)2.9020.00.350.07073.900.083529.4187805030.01879610.048420.6511701.118.8211275150.550.03
GIK16776-2 3.7400-11.3900-42570155.460.4123.338.00.6852Winn and Hüls (1989), unpublished2.0013.70.730.10044.600.112614.97047413310.003734150.048220.769353.343.9-268
GIK16856-1 4.80333.4083-28600453.7226.955.67.71.0340Winn unpublished3.7038.30.900.3445.000.1485915.510849719560.007952960.049920.02155215.882.746418671.600.26
GIK16867-1 -2.20335.1002-38910212.6106.390.120.30.5167Winn unpublished3.0015.50.420.06565.700.0963214.2286196430.022115260.054318.4356461.623.7418516220.800.03
GIK17045-2 52.4483-16.6567-36530195.695.664.410.40.5807Sarnthein et al. (1989), Winn unpublished4.1223.90.340.08170.400.0741710.2242085940.017214490.061216.346551.4235318180.760.04
GIK17048-4 54.3083-18.1767-18480224.7112.462.89.80.7993Sarnthein et al. (1989), Winn unpublished4.5536.40.390.14268.200.0948411.3253615940.019117740.070514.1810831.618.6293380191.380.07
GIK17049-4 55.2667-26.7233-33290292.8146.458.78.60.4230Winn unpublished8.7036.80.400.14755.200.1351810.3269265380.019239900.14237.0341033.026.2316
GIK17050-1 55.4700-27.8883-27950338.7169.463.310.00.4230correlated with GIK17049 (Winn unpublished)27.55116.50.450.52453.300.1354010.6292655770.018549210.17135.8436823.425.9320
GIK17051-2 56.1617-31.9900-23140292.1146.187.819.30.4230correlated with GIK17049 (Winn unpublished)9.4039.80.410.16354.800.114408.8277255530.015955542080.00004.8121303.721.0232
108-658C 20.7492-18.5808-227301139.0569.5216.2108.10.7800Tiedemann (1991)18.10141.22.333.28934.600.2555910.3538829920.010428120.052219.161152.6154339344.790.48
GIK15612-2 44.3600-26.5433-30500160.064.0107.528.90.8060Kiefer (1998)2.3919.30.220.0420.860.1146021.495464440.04826280.059616.7712270.7389422220.810.04