Citation:

PANGAEA.922600

Name: Biogenic barium flux in the eastern equatorial Pacific Ocean
Published: 2020-09-10
License: https://creativecommons.org/licenses/by/4.0/
Keywords: 230Th; authigenic Uranium (Uauth); Barite dissolution; Biogenic Barium (xsBa); Eastern Equatorial Pacific Ocean; paleoproductivity; Panama Basin

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Abstract:

We present the first regional-scale records of biogenic Barium (xsBa) fluxes in the Panama basin of the eastern-equatorial margin of the Pacific Ocean in order to assess xsBa as a paleoproductivity proxy. Measurements of xsBa from thirteen cores that range in water depths from about 700 ¬¬to 3000 m show an increase in 230Th normalized xsBa mass accumulation rates (MARs) with increasing water depth during both Marine Oxygen Isotope Stages (MIS) 1 and 2. The correlation of xsBa MARs with depth are strong despite differences in bulk sediment mass accumulation rates and differing degrees of sediment redistribution. We interpret the increasing xsBa with water depth as likely due to the continued decomposition and remineralization of falling and/or resuspended biogenic particles. xsBa does not seem to be affected by diagenetic sulfate reduction in most of the cores. Calculated estimates of xsBa preservation in the sediment pile are high and fluctuate between 45% - 52% throughout the last 25 kyr. Although xsBa fluxes can be a robust indicator of paleoproductivity, caution is needed if a) there is evidence of sulfate reduction in sediments being analyzed, and b) one is trying to quantify differences in paleoproductivity among sites that are located at different depths in the water column.

Keyword(s):

230Th; authigenic Uranium (Uauth); Barite dissolution; Biogenic Barium (xsBa); Eastern Equatorial Pacific Ocean; paleoproductivity; Panama Basin

Supplement to:

Singh, Ajay Kumar; Marcantonio, Franco; Lyle, Mitchell W (2020): An Assessment of xsBa Flux as a Paleoproductivity Indicator and its Water‐Depth Dependence in the Easternmost Equatorial Pacific Ocean. Paleoceanography and Paleoclimatology, 35, e2020PA003945, https://doi.org/10.1029/2020PA003945

Coverage:

Median Latitude: 2.775000 * Median Longitude: -85.615000 * South-bound Latitude: -0.420000 * West-bound Longitude: -86.300000 * North-bound Latitude: 6.140000 * East-bound Longitude: -85.200000

Minimum DEPTH, sediment/rock: 0.0025 m * Maximum DEPTH, sediment/rock: 0.2300 m

Event(s):

MV1014-01-1MC * Latitude: 5.490000 * Longitude: -85.440000 * Elevation: -1760.0 m * Campaign: * Basis: Melville * Method/Device: MultiCorer (MUC)

MV1014-01-7MC * Latitude: 6.140000 * Longitude: -86.300000 * Elevation: -1995.0 m * Campaign: * Basis: Melville * Method/Device: MultiCorer (MUC)

MV1014-02-9MC * Latitude: -0.420000 * Longitude: -85.200000 * Elevation: -2452.0 m * Campaign: * Basis: Melville * Method/Device: MultiCorer (MUC)

Comment:

xsBa estimations (xsBa= total xsBa -detrital xsBa) made using Ba/Th versus Ba/Al detrital corrections and their comparison is shown here.

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Event label	Event		Singh, Ajay Kumar
2	Latitude of event	Latitude		Singh, Ajay Kumar
3	Longitude of event	Longitude		Singh, Ajay Kumar
4	DEPTH, sediment/rock	Depth sed	m	Singh, Ajay Kumar	Geocode
5	AGE	Age	ka BP	Singh, Ajay Kumar	Geocode
6	Barium	Ba	mg/kg	Singh, Ajay Kumar
7	Aluminium	Al	%	Singh, Ajay Kumar
8	Barium excess	Ba xs	mg/kg	Singh, Ajay Kumar	xsBa(Al)
9	Barium excess	Ba xs	mg/kg	Singh, Ajay Kumar	xsBa(Th)

License:

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

Size:

124 data points

Data

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

1 Event	2 Latitude	3 Longitude	4 Depth sed [m]	5 Age [ka BP]	6 Ba [mg/kg]	7 Al [%]	8 Ba xs [mg/kg] (xsBa(Al))	9 Ba xs [mg/kg] (xsBa(Th))
MV1014-01-1MC	5.4900	-85.4400	0.0050	4.899	3026	0.63	2979	2871
MV1014-01-1MC	5.4900	-85.4400	0.0150	7.027	1038	0.59	994	985
MV1014-01-1MC	5.4900	-85.4400	0.0250	9.154	1002	0.69	950	950
MV1014-01-1MC	5.4900	-85.4400	0.0350	11.282	1086	0.71	1032	1030
MV1014-01-7MC	6.1400	-86.3000	0.0025	0.974	2228	1.91	2085	2114
MV1014-01-7MC	6.1400	-86.3000	0.0175	1.504	2539	3.13	2304	2409
MV1014-01-7MC	6.1400	-86.3000	0.0225	1.681	2844	3.51	2580	2698
MV1014-01-7MC	6.1400	-86.3000	0.0325	2.034	2995	3.44	2736	2841
MV1014-01-7MC	6.1400	-86.3000	0.0425	2.387	3009	1.93	2865	2855
MV1014-01-7MC	6.1400	-86.3000	0.0550	2.829	2675	2.61	2479	2537
MV1014-01-7MC	6.1400	-86.3000	0.0750	3.536	2892	3.25	2648	2743
MV1014-01-7MC	6.1400	-86.3000	0.1300	5.479	3029	2.06	2874	2873
MV1014-01-7MC	6.1400	-86.3000	0.1700	6.893	2663	4.01	2362	2526
MV1014-01-7MC	6.1400	-86.3000	0.2100	8.300	2751	4.31	2427	2609
MV1014-02-9MC	-0.4200	-85.2000	0.0025	2.154	1954	0.77	1896	1854
MV1014-02-9MC	-0.4200	-85.2000	0.0075	2.275	1954	0.75	1898	1854
MV1014-02-9MC	-0.4200	-85.2000	0.0125	2.396	2050	0.92	1981	1944
MV1014-02-9MC	-0.4200	-85.2000	0.0175	2.517	2355	0.78	2296	2234
MV1014-02-9MC	-0.4200	-85.2000	0.0250	2.699	2203	0.82	2141	2090
MV1014-02-9MC	-0.4200	-85.2000	0.0350	2.941	2254	0.77	2196	2138
MV1014-02-9MC	-0.4200	-85.2000	0.0450	3.183	2186	0.82	2125	2074
MV1014-02-9MC	-0.4200	-85.2000	0.0600	3.546	2247	0.92	2178	2131
MV1014-02-9MC	-0.4200	-85.2000	0.0800	4.031	2248	0.76	2191	2132
MV1014-02-9MC	-0.4200	-85.2000	0.1000	4.515	2331	0.83	2269	2211
MV1014-02-9MC	-0.4200	-85.2000	0.1200	4.999	2364	0.87	2298	2242
MV1014-02-9MC	-0.4200	-85.2000	0.1400	5.483	2377	0.77	2319	2254
MV1014-02-9MC	-0.4200	-85.2000	0.1800	6.452	2277	0.79	2218	2160
MV1014-02-16MC	-0.1100	-85.5200	0.0025	0.000	1670	1.03	1593	1584
MV1014-02-16MC	-0.1100	-85.5200	0.0175	0.202	3715	1.15	3628	3524
MV1014-02-16MC	-0.1100	-85.5200	0.1700	2.254	3247	1.08	3166	3080
MV1014-02-16MC	-0.1100	-85.5200	0.2300	3.061	3134	1.30	3037	2973