Citation:

PANGAEA.927043

Always quote citation above when using data! You can download the citation in several formats below.

RIS Citation BibTeX Citation Text Citation Facebook TwitterShow Map Google Earth

Abstract:

One of the objectives of the SFB 754 was the reconstruction of the factors controlling the intensity and the spatial extent of the OMZ in the Eastern Tropical Pacific, specifically off Peru, since the Last Glacial Maximum (21000 years ago). For the purpose of these paleoceanographic studies, long gravity cores were recovered during four scientific expeditions (M77/1, M77/2, M92, and M135). During the cruises M77/1 and M77/2 in 2008, 51 sediment cores were retrieved below and in the centre of the OMZ, from ~17° S to the equator (Pfannkuche et al., 2011; see Figure 4). Most of the records collected in the core of the OMZ (i.e. ~200 to ~500 m depth), from ~8 to 15° S, show sedimentary discontinuities during the Holocene (last 11700 years), which preclude high resolution paleoceanographic reconstructions in this area (Erdem et al., 2016; Salvatteci et al., 2014, 2016). Based on the information collected during M77/1 and M77/2 and also on the scientific literature, cruise M135 aimed specifically at finding the most complete Holocene sequence in the Eastern Tropical South Pacific. For this purpose, a detailed paleoceanographic survey took place at ~17° S, an area that is less affected by processes that can produce sediment discontinuities.

Related to:

Krahmann, Gerd; Arévalo-Martínez, Damian L; Dale, Andy W; Dengler, Marcus; Engel, Anja; Glock, Nicolaas; Grasse, Patricia; Hahn, Johannes; Hauss, Helena; Hopwood, Mark James; Kiko, Rainer; Loginova, Alexandra; Löscher, Carolin R; Maßmig, Marie; Roy, A S; Salvatteci, Renato; Sommer, Stefan; Tanhua, Toste; Mehrtens, Hela (2021): Climate-Biogeochemistry Interactions in the Tropical Ocean: Data collection and legacy. Frontiers in Marine Science, https://doi.org/10.3389/fmars.2021.723304

Further details:

Supplementary Table S24

Project(s):

Climate - Biogeochemistry Interactions in the Tropical Ocean (SFB754)

Funding:

German Research Foundation (DFG), grant/award no. 27542298 : Climate - Biogeochemistry Interactions in the Tropical Ocean

Coverage:

Median Latitude: -11.041917 * Median Longitude: -77.221931 * South-bound Latitude: -18.789830 * West-bound Longitude: -82.625000 * North-bound Latitude: 0.216667 * East-bound Longitude: -70.856500

Date/Time Start: 2008-10-30T12:03:00 * Date/Time End: 2017-03-20T22:17:00

Minimum ELEVATION: -2591 m a.s.l. * Maximum ELEVATION: -78 m a.s.l.

Event(s):

M77/1_413 (GC1) * Latitude: -17.785000 * Longitude: -72.074050 * Date/Time: 2008-10-30T12:03:00 * Elevation: -2166.0 m * Campaign: * Basis: * Method/Device: Gravity corer (GC)

M77/1_414 (GC2) * Latitude: -17.643430 * Longitude: -71.973030 * Date/Time: 2008-10-30T15:51:00 * Elevation: -928.0 m * Campaign: * Basis: * Method/Device: Gravity corer (GC)

M77/1_415 (GC3) * Latitude: -17.573250 * Longitude: -71.936630 * Date/Time: 2008-10-30T18:46:00 * Elevation: -800.0 m * Campaign: * Basis: * Method/Device: Gravity corer (GC)

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Event label	Event		Salvatteci, Renato
2	Date/Time of event	Date/Time		Salvatteci, Renato
3	Latitude of event	Latitude		Salvatteci, Renato
4	Longitude of event	Longitude		Salvatteci, Renato
5	ELEVATION	Elevation	m a.s.l.	Salvatteci, Renato	Geocode
6	Cruise/expedition	Expedition		Salvatteci, Renato
7	Sample code/label	Sample label		Salvatteci, Renato	Event label 2
8	Gear	Gear		Salvatteci, Renato
9	Recovery	Recovery	m	Salvatteci, Renato
10	Reference/source	Reference		Salvatteci, Renato

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Size:

260 data points

Data

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

1 Event	2 Date/Time	3 Latitude	4 Longitude	5 Elevation [m a.s.l.]	6 Expedition	7 Sample label	8 Gear	9 Recovery [m]	10 Reference
M77/1_413	2008-10-30T12:03:00	-17.7850	-72.0740	-2168	M77/1	M77/1_413	LGC	2.95
M77/1_414	2008-10-30T15:51:00	-17.6434	-71.9730	-928	M77/1	M77/1_414	LGC	0.94
M77/1_415	2008-10-30T18:46:00	-17.5733	-71.9366	-793	M77/1	M77/1_415	LGC	1.10
M77/1_416	2008-10-30T20:30:00	-17.4689	-71.8770	-505	M77/1	M77/1_416	LGC	3.88	Erdem et al. (2016); Erdem and Schoenfeld (2017)
M77/1_417	2008-10-30T21:51:00	-17.4338	-71.8627	-329	M77/1	M77/1_417	LGC	5.75
M77/1_418	2008-10-30T22:39:00	-17.4328	-71.8635	-339	M77/1	M77/1_418	LGC	3.13
M77/1_422	2008-10-31T22:40:00	-15.1900	-75.5812	-517	M77/1	M77/1_422	LGC	3.33	Erdem et al. (2016)
M77/1_493	2008-11-07T14:44:00	-10.9995	-78.7465	-2025	M77/1	M77/1_493	LGC	3.23
M77/1_494	2008-11-07T16:25:00	-11.0004	-78.7467	-2024	M77/1	M77/1_494	LGC	3.52
M77/1_495	2008-11-07T18:35:00	-10.9993	-78.5740	-1194	M77/1	M77/1_495	LGC	0.85
M77/1_496	2008-11-07T20:02:00	-11.0002	-78.5732	-1197	M77/1	M77/1_496	LGC	0.70
M77/1_497	2008-11-07T20:54:00	-11.0002	-78.5008	-930	M77/1	M77/1_497	LGC	3.71
M77/1_502	2008-11-08T11:09:00	-11.0002	-78.5008	-930	M77/1	M77/1_502	LGC	1.78
M77/1_503	2008-11-08T12:49:00	-11.0000	-78.4275	-698	M77/1	M77/1_503	LGC	4.37
M77/1_504	2008-11-08T13:43:00	-11.0002	-78.4278	-700	M77/1	M77/1_504	LGC	4.22
M77/1_505	2008-11-08T14:38:00	-11.0002	-78.4277	-699	M77/1	M77/1_505	LGC	4.41
M77/1_506	2008-11-08T16:04:00	-11.0000	-78.3523	-523	M77/1	M77/1_506	LGC	5.66
M77/1_507	2008-11-08T17:03:00	-11.0005	-78.3522	-522	M77/1	M77/1_507	LGC	4.76
M77/1_508	2008-11-08T18:29:00	-11.0005	-78.2365	-379	M77/1	M77/1_508	LGC	2.20
M77/1_509	2008-11-08T18:56:00	-11.0005	-78.2863	-397	M77/1	M77/1_509	LGC	0.64
M77/1_510	2008-11-08T20:06:00	-11.0003	-78.2218	-365	M77/1	M77/1_510	LGC
M77/1_511	2008-11-08T22:19:00	-11.0008	-77.9435	-146	M77/1	M77/1_511	LGC	3.24
M77/1_512	2008-11-08T22:48:00	-11.0008	-77.9435	-144	M77/1	M77/1_512	LGC	5.59
M77/2_002-6	2008-11-26T13:12:00	-15.0792	-75.7333	-285	M77/2	M77/2_002-6	PC	12.48
M77/2_003-2	2008-11-26T17:52:00	-15.1035	-75.6880	-271	M77/2	M77/2_003-2	PC	14.97	Fleury et al. (2015a); Fleury et al. (2015b); Larsen et al. (2015); Schoenfeld et al. (2015); Erdem et al. (2016); Doering et al. (2016a); Mollier et al. (2019); Salvatteci et al. (2019)
M77/2_005-1	2008-11-27T17:32:00	-12.0940	-77.6650	-209	M77/2	M77/2_005-1	PC	14.74
M77/2_005-3	2008-11-27T21:14:00	-12.0943	-77.6678	-214	M77/2	M77/2_005-3	PC	13.36	Fleury et al. (2015b); Salvatteci et al. (2019)
M77/2_022-1	2008-11-30T22:43:00	-10.8870	-78.7730	-1929	M77/2	M77/2_022-1	PC	0.97
M77/2_024-5	2008-12-01T17:31:00	-11.0835	-78.0152	-210	M77/2	M77/2_024-5	PC	14.92	Scholz et al. (2014); Fleury et al. (2015b); Scholz et al. (2017)
M77/2_026-1	2008-12-01T22:59:00	-10.7522	-78.4738	-425	M77/2	M77/2_026-1	PC	11.29
M77/2_028-3	2008-12-03T16:32:00	-9.2948	-79.9072	-1104	M77/2	M77/2_028-3	PC	10.96
M77/2_029-1	2008-12-03T22:09:00	-9.2950	-79.6185	-444	M77/2	M77/2_029-1	PC	14.90
M77/2_029-3	2008-12-04T02:09:00	-9.2950	-79.6185	-433	M77/2	M77/2_029-3	PC	13.54	Schoenfeld et al. (2015); Erdem et al. (2016); Doering et al. (2016b); Mollier et al. (2019); Salvatteci et al. (2019)
M77/2_045-4	2008-12-06T23:18:00	-7.9998	-80.3418	-359	M77/2	M77/2_045-4	PC	12.80
M77/2_047-2	2008-12-07T15:25:00	-7.8668	-80.5227	-626	M77/2	M77/2_047-2	PC	13.05	Erdem et al. (2016); Erdem and Schoenfeld (2017); Erdem et al. (2019)
M77/2_050-4	2008-12-08T01:46:00	-8.0168	-80.5017	-1013	M77/2	M77/2_050-4	PC	17.76	Schoenfeld et al. (2015); Erdem et al. (2016); Erdem and Schoenfeld (2017); Erdem et al. (2019)
M77/2_052-2	2008-12-09T12:16:00	-5.4835	-81.4500	-1249	M77/2	M77/2_052-2	PC	13.07	Schoenfeld et al. (2015); Erdem et al. (2016); Erdem and Schoenfeld (2017); Erdem et al. (2019)Schoenfeld et al. (2015); Erdem et al. (2016); Doering et al. (2016b); Erdem and Schoenfeld (2017); Glock et al. (2018); Erdem et al. (2019)
M77/2_053-2	2008-12-09T19:30:00	-5.4837	-81.7167	-2591	M77/2	M77/2_053-2	PC	12.39
M77/2_054-1	2008-12-10T01:29:00	-5.4833	-81.3058	-299	M77/2	M77/2_054-1	PC	12.15
M77/2_056-3	2008-12-11T17:50:00	-3.7498	-81.1208	-350	M77/2	M77/2_056-3	PC	11.01
M77/2_056-5	2008-12-11T21:15:00	-3.7498	-81.1247	-355	M77/2	M77/2_056-5	PC	10.61	Mollier et al. (2013); Nuernberg et al. (2015); Seilles et al. (2015); Erdem et al. (2016); Mollier et al. (2019)
M77/2_059-1	2008-12-12T13:08:00	-3.9502	-81.3205	-997	M77/2	M77/2_059-1	PC	13.59	Mollier et al. (2013); Nuernberg et al. (2015); Erdem et al. (2016); Erdem and Schoenfeld (2017); Erdem et al. (2019); Mollier et al. (2019)
M77/2_060-3	2008-12-12T21:10:00	-3.8497	-81.2583	-699	M77/2	M77/2_060-3	PC	14.26
M77/2_062-1	2008-12-13T18:52:00	-2.4997	-81.2453	-1675	M77/2	M77/2_062-1	PC	12.27
M77/2_064-3	2008-12-14T14:55:00	-1.8915	-81.1960	-523	M77/2	M77/2_064-3	PC	11.16
M77/2_065-1	2008-12-14T19:04:00	-1.9502	-81.1205	-204	M77/2	M77/2_065-1	PC	4.24
M77/2_067-4	2008-12-16T12:28:00	-1.7530	-82.6250	-2080	M77/2	M77/2_067-4	PC	11.79
M77/2_069-1	2008-12-17T17:10:00	-3.2667	-80.9477	-338	M77/2	M77/2_069-1	PC	7.80
M77/2_072-3	2008-12-18T05:26:00	-2.8167	-81.0088	-425	M77/2	M77/2_072-3	PC	12.83
M77/2_075-1	2008-12-19T12:29:00	0.2167	-80.6573	-1316	M77/2	M77/2_075-1	PC	10.32
M77/2_076-4	2008-12-19T23:36:00	0.0908	-80.5567	-291	M77/2	M77/2_076-4	PC	3.96
M92_0254-1	2013-01-28T02:03:00	-12.4532	-77.4915	-407	M92	254 GC 3	LGC	2.06
M92_0255-1	2013-01-28T12:59:00	-11.0000	-78.0152	-118	M92	255 GC 4	LGC	5.61
M92_0263-1	2013-01-28T20:58:00	-11.0000	-78.2100	-361	M92	263 GC 6	LGC	2.87
M92_0265-1	2013-01-29T00:18:00	-10.9998	-78.6335	-1485	M92	265 GC 7	LGC	4.18
M92_0268-1	2013-01-29T13:41:00	-12.2417	-77.1602	-78	M92	268 GC 8	LGC	4.00
M135_219-3	2017-03-11T16:51:00	-18.7898	-70.8565	-1412	M135	M135-001-3	LGC	5.83
M135_249-3	2017-03-19T22:28:00	-17.4842	-71.7182	-466	M135	M135-002-3	LGC	4.20
M135_249-4	2017-03-19T23:14:00	-17.4842	-71.7182	-465	M135	M135-002-4	LGC	4.29
M135_250-3	2017-03-20T03:25:00	-17.4828	-71.6835	-470	M135	M135-003-3	LGC	5.61
M135_252-3	2017-03-20T15:02:00	-17.4100	-71.7403	-229	M135	M135-004-3	LGC	7.46	Salvatteci et al. (2019)
M135_254-3	2017-03-20T22:03:00	-17.4205	-71.7690	-197	M135	M135-005-3	LGC	9.16	Salvatteci et al. (2019)