Citation:

dsdp.proc.84.143.1985

Name: (Table 1) Light minerals in sand at DSDP Leg 84 holes
Published: 1985
License: https://creativecommons.org/licenses/by/3.0/

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Abstract:

The Middle America active continental margin is the best-sampled active plate margin to date, having been drilled during Legs 84, 67, and 66. With nine sites drilled on the continental slope of Guatemala and an additional site drilled on the Costa Rican slope, a summary of slope sediments and sedimentary processes can be made.

Sediments are easily subdivided into a thick apron of Neogene and Quaternary volcanically derived hemipelagic and turbidite mud and mudstone and a thinner, more varied assemblage of mostly Paleogene mudstone, radiolarian mudstone, and limestone. This latter assemblage may contain hiatuses or be completely lacking between slope deposits and basement. Cores from the foot of the continental slope (Core 567A-19) consist of Campanian micrite. The pre-Neogene section is much thicker and of more terrigenous provenance beneath the forearc basin landward of the forearc structural high than on the continental slope.

Sedimentary processes of the Neogene and Quaternary slope sediments include reworking of hemipelagic and turbidite deposits. Redeposition by slumping, plastic flow, and turbidity current--documentable through benthic foraminiferal analysis--occurs in intracanyon and canyon settings. Erosion by slumping and by turbidity current and deposition of mud or sand in canyons and in local depressions on the continental slope and different rates of sediment accumulation result in dramatic thickness variations of lithologic units over small distances in localized pockets of sand in small filled canyons on the slope or in sediment ponds, and in high-relief basement topography. The age of sediment overlying igneous basement ranges from Cretaceous to Quaternary.

Gas hydrate was visible or inferred present at every site drilled during Leg 84. Nevertheless, except for a small amount in the last core, it was not recovered in sufficient quantities to be visible at Site 568, a site specifically chosen for the study of hydrate and located near Site 496, which was abandoned during Leg 67 because of the dangerous abundance of hydrates. The association of hydrate with porous, coarser sediment results in a distribution as localized and unpredictable as the slope sands off Guatemala, which do not occur in beds coherent enough to produce acoustic reflection.

Although the normal lithologic section at Sites 567 and 496 limits the volume of sediment that could be part of an accretionary prism offshore Guatemala and the volume of sediment in the Trench axis is not sufficient to argue for significant accumulation of Cocos Plate sediments, the varied lithology and attenuated thickness of pre-Neogene sediment seaward of the forearc structural high do not exclude earlier accretion from the history of the Guatemalan continental margin.

Project(s):

Deep Sea Drilling Project (DSDP)

Coverage:

Median Latitude: 12.424317 * Median Longitude: -90.125400 * South-bound Latitude: 9.728200 * West-bound Longitude: -91.392800 * North-bound Latitude: 13.285300 * East-bound Longitude: -86.090700

Date/Time Start: 1982-01-13T00:00:00 * Date/Time End: 1982-02-17T00:00:00

Minimum Elevation: -5500.0 m * Maximum Elevation: -1698.0 m

Event(s):

84-565 * Latitude: 9.728200 * Longitude: -86.090700 * Date/Time: 1982-01-13T00:00:00 * Elevation: -3099.0 m * Penetration: 328.3 m * Recovery: 286.8 m * Location: North Pacific/TRENCH * Campaign: * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 34 cores; 324.3 m cored; 0 m drilled; 88.4 % recovery

84-566 * Latitude: 12.805700 * Longitude: -90.696500 * Date/Time: 1982-01-24T00:00:00 * Elevation: -3745.0 m * Penetration: 55.8 m * Recovery: 21.3 m * Location: North Pacific * Campaign: * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 9 cores; 55.8 m cored; 0 m drilled; 38.2 % recovery

84-567 * Latitude: 12.716000 * Longitude: -90.933200 * Date/Time: 1982-01-29T00:00:00 * Elevation: -5500.0 m * Penetration: 176.1 m * Location: North Pacific/SLOPE * Campaign: * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 0 cores; 0 m cored; 0 m drilled; % recovery

Comment:

Sediment depth is given in mbsf. Percentages based on 500-point counts per section.

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event
2	Latitude of event	Latitude
3	Longitude of event	Longitude
4	Elevation of event	Elevation	m
5	Sample code/label	Sample label		Baltuck, Miriam	DSDP/ODP/IODP sample designation
6	Volcanic glass	Volc glass	%	Baltuck, Miriam		Lithic
7	Plagioclase	Pl	%	Baltuck, Miriam		Feldspar
8	Kalifeldspar	Kfs	%	Baltuck, Miriam		Feldspar
9	Quartz	Qz	%	Baltuck, Miriam		Quartz
10	Mica	Mica	%	Baltuck, Miriam
11	Glauconite	Glt	%	Baltuck, Miriam
12	Heavy minerals	HM	%	Baltuck, Miriam
13	Debris	Debris	%	Baltuck, Miriam		Biogenic
14	Epoch	Epoch		Baltuck, Miriam

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

600 data points

Data

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

1 Event	2 Latitude	3 Longitude	4 Elevation [m]	5 Sample label	6 Volc glass [%]	7 Pl [%]	8 Kfs [%]	9 Qz [%]	10 Mica [%]	11 Glt [%]	12 HM [%]	13 Debris [%]	14 Epoch
84-568	13.0722	-90.8000	-2010	84-568-10-1,95-96	57	6	0	1	0	0	2	32	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-12-5,108-110	33	9	1	0	0	0	1	56	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-14-6,111-113	12	59	2	5	0	1	1	20	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-15-6,35-36	58	9	0	1	0	0	2	30	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-17-1,18-19	54	12	0	2	1	0	1	30	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-22-3,102-103	59	31	1	3	2	0	1	6	late Miocene
84-568	13.0722	-90.8000	-2010	84-568-24-6,5-7	14	52	2	2	5	0	0	25	late Miocene
84-568	13.0722	-90.8000	-2010	84-568-25-5,82-84	28	19	0	2	1	0	1	49	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-27-1,21-22	73	22	1	3	1	0	0	0	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-29-1,98-100	71	17	0	1	3	0	1	7	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-29-4,10-12	70	21	0	3	3	1	1	1	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-30-4,21-23	25	51	1	3	5	0	1	14	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-32-2,148-150	21	61	2	7	0	0	1	8	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-42-4,45-48	11	66	1	5	0	0	0	17	early Miocene
84-568	13.0722	-90.8000	-2010	84-568-43-4,70-72	41	22	0	1	1	0	7	28	early Miocene
84-568	13.0722	-90.8000	-2010	84-568-44-2,25-28	41	28	0	0	0	0	1	30	early Miocene
84-568	13.0722	-90.8000	-2010	84-568-30-2,21-23	36	30	0	1	3	0	1	29	middle Miocene
84-568	13.0722	-90.8000	-2010	84-568-2-1,10-12	76	5	0	3	1	0	1	14	Pleistocene
84-565	9.7282	-86.0907	-3099	84-565-11-1,125-127	14	21	1	3	0	0	1	60	early Pleistocene
84-565	9.7282	-86.0907	-3099	84-565-11-1,90-92	54	33	1	2	0	0	2	8	early Pleistocene
84-565	9.7282	-86.0907	-3099	84-565-23-2,60-62	18	48	0	0	0	0	1	33	late Pliocene
84-565	9.7282	-86.0907	-3099	84-565-33-CC	74	12	1	1	0	0	3	0	late Miocene
84-566	12.8057	-90.6965	-3745	84-566-2-1,73-75	21	67	2	3	0	1	2	4	late Pleistocene
84-566	12.8057	-90.6965	-3745	84-566-2-1,140-143	39	39	0	3	1	1	12	5	late Pleistocene
84-566	12.8057	-90.6965	-3745	84-566-2-4,43-45	68	30	1	0	1	0	0	0	late Pleistocene
84-567	12.7160	-90.9332	-5500	84-567-2-4,136-138	22	70	2	3	0	0	2	1	early Pliocene
84-567	12.7160	-90.9332	-5500	84-567-6-5,42-44	30	12	0	1	1	3	31	22	early Miocene
84-567	12.7160	-90.9332	-5500	84-567-10-2,110-112	21	11	0	1	0	0	0	67	early Miocene
84-567	12.7160	-90.9332	-5500	84-567-11-3,31-33	25	65	2	1	0	1	1	5	early Miocene
84-567	12.7160	-90.9332	-5500	84-567-13-2,14-16	34	31	0	2	1	0	2	30	early Miocene
84-568	13.0722	-90.8000	-2010	84-568-3-6,97-99	33	28	1	0	3	0	1	34	late Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-4-CC,5-6	46	5	0	1	1	0	2	45	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-5-7,22-24	76	2	0	1	1	0	0	20	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-7-4,92-94	18	63	0	2	1	0	1	15	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-8-4,39-44	54	19	0	5	1	0	1	20	Pleistocene
84-568	13.0722	-90.8000	-2010	84-568-9-CC	57	10	0	1	0	1	1	30	Pleistocene
84-569	12.9385	-90.8392	-2744	84-569-3-4,29-31	54	12	0	2	1	0	1	30	Pleistocene
84-569	12.9385	-90.8392	-2744	84-569-5-4,32-34	37	11	0	2	0	0	0	50	Pleistocene
84-569	12.9385	-90.8392	-2744	84-569-6-3,52-54	35	9	0	1	1	0	1	53	Pliocene
84-569	12.9385	-90.8392	-2744	84-569-7-1,82-83	66	29	1	1	1	1	2	0	late Pliocene
84-569	12.9385	-90.8392	-2744	84-569-8-3,81-83	83	12	0	2	2	0	1	0	late Pliocene
84-569	12.9385	-90.8392	-2744	84-569-9-2,3-4	92	3	0	1	4	0	0	0	middle Miocene
84-569	12.9385	-90.8392	-2744	84-569-9-2,43-45	41	13	0	6	1	0	2	37	middle Miocene
84-569	12.9385	-90.8392	-2744	84-569-10-1,21-23	50	5	0	2	40	0	1	2	middle Miocene
84-569	12.9385	-90.8392	-2744	84-569-11-2,128-130	74	9	0	2	1	0	1	13	late Miocene
84-569	12.9385	-90.8392	-2744	84-569-12-6,28-30	64	18	1	2	11	0	1	3	late Miocene
84-569	12.9385	-90.8392	-2744	84-569-20-2,2-4	46	18	0	1	2	0	1	32	late Miocene
84-569	12.9385	-90.8392	-2744	84-569-16-CC	71	9	0	2	1	0	0	17	late Miocene
84-569	12.9385	-90.8392	-2744	84-569-21-2,30-32	6	68	1	6	3	0	15	1	late Miocene
84-569	12.9385	-90.8392	-2744	84-569-27-4,22-24	89	7	0	3	1	0	0	0	late Oligocene
84-570	13.2853	-91.3928	-1698	84-570-4-2,121-123	44	28	2	7	3	0	1	15	Pleistocene
84-570	13.2853	-91.3928	-1698	84-570-6-6,79-80	78	19	0	0	1	0	2	0	Pleistocene
84-570	13.2853	-91.3928	-1698	84-570-14-2,108-110	65	24	0	7	2	0	2	0	Pleistocene
84-570	13.2853	-91.3928	-1698	84-570-22-3,74-76	40	10	0	3	2	0	1	44	Pleistocene
84-570	13.2853	-91.3928	-1698	84-570-24-1,60-62	25	15	0	1	1	0	1	57	Pleistocene
84-570	13.2853	-91.3928	-1698	84-570-25-1,14-16	35	20	0	1	1	1	1	42	early Pliocene
84-570	13.2853	-91.3928	-1698	84-570-27-1,2-3	49	17	1	1	2	0	1	29	early Pliocene
84-570	13.2853	-91.3928	-1698	84-570-30-4,50-52	45	19	1	3	1	0	1	30	late Miocene
84-570	13.2853	-91.3928	-1698	84-570-35-2,78-80	72	15	0	5	8	0	0	0	early Miocene
84-570	13.2853	-91.3928	-1698	84-570-34-1,6-8	34	13	0	1	2	0	1	49	early Miocene