Biblioteca Digital

Organic carbon accumulation in the South Atlantic Ocean

**Autoria(s):** Mollenhauer, Gesine; Schneider, Ralph R; Jennerjahn, Tim C; Müller, Peter J; Wefer, Gerold
Cobertura	MEDIAN LATITUDE: -24.025686 * MEDIAN LONGITUDE: -15.027010 * SOUTH-BOUND LATITUDE: -49.999300 * WEST-BOUND LONGITUDE: -59.733333 * NORTH-BOUND LATITUDE: 10.000000 * EAST-BOUND LONGITUDE: 19.760000 * DATE/TIME START: 1957-03-12T00:00:00 * DATE/TIME END: 2000-08-20T00:00:00
Data(s)	31/03/2004
Resumo	A compilation of 1118 surface sediment samples from the South Atlantic was used to map modern seafloor distribution of organic carbon content in this ocean basin. Using new data on Holocene sedimentation rates, we estimated the annual organic carbon accumulation in the pelagic realm (>3000 m water depth) to be approximately 1.810*12 g C/year. In the sediments underlying the divergence zone in the Eastern Equatorial Atlantic (EEA), only small amounts of organic carbon accumulate in spite of the high surface water productivity observed in that area. This implies that in the Eastern Equatorial Atlantic, organic carbon accumulation is strongly reduced by efficient degradation of organic matter prior to its burial. During the Last Glacial Maximum (LGM), accumulation of organic carbon was higher than during the mid-Holocene along the continental margins of Africa and South America (Brazil) as well as in the equatorial region. In the Eastern Equatorial Atlantic in particular, large relative differences between LGM and mid-Holocene accumulation rates are found. This is probably to a great extent due to better preservation of organic matter related to changes in bottom water circulation and not just a result of strongly enhanced export productivity during the glacial period. On average, a two- to three-fold increase in organic carbon accumulation during the LGM compared to mid-Holocene conditions can be deduced from our cores. However, for the deep-sea sediments this cannot be solely attributed to a glacial productivity increase, as changes in South Atlantic deep-water circulation seem to result in better organic carbon preservation during the LGM.
Formato	application/zip, 5 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.735988 doi:10.1594/PANGAEA.735988
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Mollenhauer, Gesine; Schneider, Ralph R; Jennerjahn, Tim C; Müller, Peter J; Wefer, Gerold (2004): Organic carbon accumulation in the South Atlantic Ocean: its modern, mid-Holocene and last glacial distribution. Global and Planetary Change, 40(3-4), 249-266, doi:10.1016/j.gloplacha.2003.08.002
Palavras-Chave	#0016PG; 0036PG; 0050PG; 0055PG; 0058PG; 0066PG; 0071PG; 0075PG; 0082PG; 0091PG; 06MT28_2; 108-663B; 159-959C; 159-962B; 175-1082A; 175-1084A; 371; 373; 375; 376; 377; 379; 380; 381; 382; 383; 384; 386; 86014-12PC51; A-10-VG; A150/180; A-15-VG; A-16-BG; A-17-BG; A180-72; A180-73; A180-74; A180-76; A-19-VG; A-1-VG; A-20-BG; A-21; A210709-0131PG; A-23-VG; A-24; A-25-BG; A-26-VG; A-27-VG; A-28-BG; A-29-BG; A-30; A-31-VG; A-32; A-33-BG; A-34-BG; A-36-BG; A-37-BG; A-38; A-39; A-40-BG; A-41-BG; A-42-BG; A-6-BG; A-7-BG; A-8-BG; A-9; Acc rate TOC; Accumulation rate, total organic carbon; Age; AGE; Age, maximum/old; Age, minimum/young; Age max; Age min; Agulhas Basin; AK1-10; AK11-981; AK1-2; AK1-8; AK3-100; AK3-101,2; AK3-108; AK3-130; AK3-136; AK3-137; AK3-138; AK3-140; AK3-141; AK3-142; AK3-143; AK3-144; AK3-145; AK3-147; AK3-150,3; AK3-151; AK3-152; AK3-153; AK3-157; AK3-158; AK3-159; AK3-160; AK3-161; AK3-163; AK3-164; AK3-166; AK3-167; AK3-168; AK3-170,2; AK3-171; AK3-175; AK3-185; AK3-203; AK3-205; AK3-208; AK3-209; AK3-210; AK3-211,3; AK3-51; AK3-52; AK3-53,2; AK3-53,3; AK3-54; AK3-55; AK3-56; AK3-59,2; AK3-87,2; AK3-95; AK3-97; AK3-98; AK3-99; AK40-4306; AK43-4834; AK43-4896; AK43-4898; AK43-4899; AK43-4900; AK43-4901; AK43-4902; AK43-4903; AK43-4904; AK43-4905; AK43-4907; AK43-4910; AK43-4912; AK43-4923; AK43-4925; AK43-4926; AK43-4927; AK43-4928; AK43-4929; AK43-4931; AK43-4933; AK43-4934; AK43-4935; AK43-4936; AK43-4938; AK43-4939; AK43-4940; AK43-4943; AK43-4945; AK43-4946; AK43-4947; AK43-4948; AK43-4949; AK43-4952; AK43-4955; AK43-4956; AK5-351; AK5-352,2; AK5-356; AK5-375; AK5-376,2; AK5-377,2; AK5-378; AK5-400,2; AK5-402; AK5-403; AK5-405; AK5-414; AK5-416,2; AK5-419; AK5-421,2; Akademik Kurchatov; AKU1; AKU11; AKU3; AKU40; AKU43; AKU5; Amazon Fan; Amazon Shelf/Fan; Angola Basin; Angola Benguela Front; Angola Diapir Field; ANIRO; ANIRO-611; ANIRO-613; ANIRO-636; ANIRO-641; ANIRO-645; ANIRO-654; ANIRO-657; ANT-IV/1c; ANT-IX/4; ANT-VIII/3; ANT-X/4; Argentine Basin; Argentinian Basin; Atlantic Ocean; Atlantic Ridge; average Corg accumulation rate; average Corg accumulation rate, calculated from Corg wt. %, DBD and sed. rate; B-10-BG; B-11-BG; B-14-VG; B-15-VG; B-16-BG; B-17-BG; B-18-BG; B-19-VG; B-20-VG; B-24-BG; B-26-VG; B-28-BG; B-2-BG; B-30-VG; B-33-BG; B-34-BG; B-35-BG; B-37-BG; B-41-BG; B-43-BG; B-44-BG; B-45-BG; B-46-BG; B-4-BG; B-5; B-50-BG; B-51-BG; B-59-BG; B-61-BG; B-62-BG; B-67-BG; B-69-BG; B-6-VG; B-70-BG; B-71-BG; B-75-VG; B-76-VG; B-78-BG; B-79-BG; B-7-VG; B-89-BG; B-8-VG; B-9-BG; BC; Bel1; Bel1-611; Bel1-613; Bel1-621; Bel1-636; Bel1-641; Bel1-645; Bel1-654; Bel1-657; Bel2; Bel2-100; Bel2-103; Bel2-107; Bel2-111; Bel2-32; Bel2-35; Bel2-36; Bel2-37; Bel2-38; Bel2-39; Bel2-40; Bel2-41; Bel2-42; Bel2-43; Bel2-45; Bel2-47; Bel2-48; Bel2-49; Bel2-50; Bel2-51; Bel2-52; Bel2-54; Bel2-56; Bel2-57; Bel2-59; Bel2-60; Bel2-61; Bel2-62; Bel2-64; Bel2-65; Bel2-66; Bel2-67; Bel2-69; Bel2-71; Bel2-72; Bel2-73; Bel2-75; Bel2-78; Bel2-80; Bel2-82; Bel2-83; Bel2-84; Bel2-89; Bel2-91; Bel2-92; Bel2-93; Belogorsk; Benguela Current, South Atlantic Ocean; Box corer; Brazil Basin; BT4; CaCO3; Calcium carbonate; Calculated; Calculated, see reference(s); Calculated from weight/volume; Cape Basin; Carbon, organic, total; Cardno Seamount; Central South Atlantic; CH75-03; CH75-04; CH7X; Comment; concentration in % dry weight; Congo Fan; Continental slope off Brazil; CPT8; CPT8-703; CPT8-705; CPT8-711; CPT8-712; CPT8-729; CPT8-730; CPT8-737; CPT8-743; CPT8-744; CPT8-780; CPT8-781; CPT8-782; CPT8-783; CPT8-784; CPT8-785; CPT8-786; CPT8-787; CPT8-788; CPT8-789; CPT8-790; CPT8-792; CPT8-820; CPT9; CPT9-509; CPT9-512; CPT9-517; CPT9-520; CPT9-528; CPT9-531; CPT9-533; CPT9-537; CPT9-541; CPT9-545; CPT9-550; CPTM; CPTM-566; CPTM-574; CPTM-577; CPTM-579; CPTM-581; CPTM-587; CPTM-592; CPTM-600; CPTM-601; CPTM-602; CPTM-603; CPTM-604; DBD; Density, dry bulk; Depth; Depth, bottom/max; Depth, composite; DEPTH, sediment/rock; Depth, top/min; Depth bot; Depth comp; Depth top; DM1; DM1-61; DM1-62; DM1-63; DM1-64; DM1-64,1; DM1-67; Dmitry Mendeleev; DRILL; Drilling/drill rig; East Brazil Basin; Eastern Niger fan; eastern Romanche Fracture Zone; Element analyser CHN; Element analyser CHN, LECO; EN06601; EN066-10GGC; EN066-16PG; EN066-21GGC; EN066-24PG; EN066-26GGC; EN066-29GGC; EN066-32GGC; EN066-34PG; EN066-36PG; EN066-39GGC; EN066-44GGC; EN066-45PG; EN066-47PG; EN066-51PG; Endeavor; Equatorial Atlantic; Event; EW9209-1JPC; FGGE-Equator ´79 - First GARP Global Experiment; G76-510; G76-514; G76-527; G76-528; G76-55; GC; GeoB; GeoB1000-1; GeoB1001-2; GeoB1005-2; GeoB1006-2; GeoB1007-2; GeoB1008-3; GeoB1008-6; GeoB1009-3; GeoB1010-3; GeoB1011-2; GeoB1012-1; GeoB1013-2; GeoB1014-2; GeoB1015-2; GeoB1016-2; GeoB1016-3; GeoB1017-3; GeoB1020-1; GeoB1023-2; GeoB1024-3; GeoB1025-2; GeoB1026-3; GeoB1027-2; GeoB1028-2; GeoB1028-4; GeoB1028-5; GeoB1029-1; GeoB1030-3; GeoB1031-1; GeoB1031-4; GeoB1032-2; GeoB1032-3; GeoB1034-1; GeoB1034-3; GeoB1035-3; GeoB1035-4; GeoB1036-3; GeoB1037-1; GeoB1039-1; GeoB1040-3; GeoB1041-1; GeoB1041-3; GeoB1043-2; GeoB1044-3; GeoB1046-2; GeoB1047-3; GeoB1101-4; GeoB1101-5; GeoB1102-3; GeoB1103-3; GeoB1104-5; GeoB1105-3; GeoB1105-4; GeoB1106-5; GeoB1108-3; GeoB1108-6; GeoB1109-4; GeoB1110-3; GeoB1111-5; GeoB1112-3; GeoB1112-4; GeoB1113-4; GeoB1113-7; GeoB1114-3; GeoB1115-3; GeoB1115-4; GeoB1116-1; GeoB1117-2; GeoB1117-3; GeoB1118-2; GeoB1118-3; GeoB1119-2; GeoB1120-3; GeoB1203-2; GeoB1204-3; GeoB1207-2; GeoB1207-3; GeoB1208-1; GeoB1208-2; GeoB1209-1; GeoB1209-2; GeoB1210-3; GeoB1211-1; GeoB1211-3; GeoB1212-2; GeoB1213-2; GeoB1214-1; GeoB1214-2; GeoB1215-1; GeoB1216-2; GeoB1217-1; GeoB1218-1; GeoB1220-1; GeoB1220-2; GeoB1401-1; GeoB1401-4; GeoB1403-2; GeoB1405-7; GeoB1405-8; GeoB1407-7; GeoB1408-2; GeoB1413-2; GeoB1413-4; GeoB1414-1; GeoB1414-2; GeoB1415-1; GeoB1415-2; GeoB1417-1; GeoB1417-2; GeoB1418-1; GeoB1419-1; GeoB1419-2; GeoB1420-1; GeoB1421-1; GeoB1501-1; GeoB1503-2; GeoB1504-1; GeoB1505-2; GeoB1505-3; GeoB1506-1; GeoB1508-1; GeoB1509-2; GeoB1510-1; GeoB1511-6; GeoB1512-2; GeoB1513-2; GeoB1514-4; GeoB1515-1; GeoB1515-2; GeoB1516-1; GeoB1517-2; GeoB1518-1; GeoB1519-2; GeoB1520-1; GeoB1520-2; GeoB1521-2; GeoB1522-1; GeoB1523-1; GeoB1523-2; GeoB1606-7; GeoB1607-8; GeoB1608-9; GeoB1609-9; GeoB1612-9; GeoB1613-10; GeoB1701-1; GeoB1702-6; GeoB1703-5; GeoB1704-1; GeoB1704-4; GeoB1705-1; GeoB1705-2; GeoB1706-1; GeoB1706-2; GeoB1707-1; GeoB1707-2; GeoB1709-3; GeoB1710-2; GeoB1710-3; GeoB1711-4; GeoB1711-5; GeoB1712-2; GeoB1712-4; GeoB1713-6; GeoB1714-1; GeoB1715-1; GeoB1716-2; GeoB1717-2; GeoB1718-1; GeoB1719-5; GeoB1719-7; GeoB1720-2; GeoB1720-4; GeoB1721-4; GeoB1721-7; GeoB1722-1; GeoB1722-3; GeoB1724-4; GeoB1726-2; GeoB1728-3; GeoB1729-1; GeoB1729-3; GeoB1901-1; GeoB1902-3; GeoB1903-1; GeoB1904-1; GeoB1905-1; GeoB1906-1; GeoB1907-1; GeoB1908-1; GeoB2001-1; GeoB2002-2; GeoB2007-1; GeoB2008-1; GeoB2009-1; GeoB2011-1; GeoB2016-3; GeoB2018-1; GeoB2019-2; GeoB2021-4; GeoB2022-3; GeoB2101-1; GeoB2102-1; GeoB2104-1; GeoB2105-3; GeoB2106-1; GeoB2107-5; GeoB2108-1; GeoB2109-1; GeoB2109-3; GeoB2110-1; GeoB2111-2; GeoB2112-1; GeoB2113-1; GeoB2116-2; GeoB2117-4; GeoB2118-1; GeoB2119-2; GeoB2121-1; GeoB2122-1; GeoB2123-1; GeoB2124-1; GeoB2125-1; GeoB2125-2; GeoB2126-1; GeoB2127-1; GeoB2130-1; GeoB2201-1; GeoB2202-4; GeoB2202-5; GeoB2204-1; GeoB2204-2; GeoB2205-4; GeoB2206-1; GeoB2207-2; GeoB2208-1; GeoB2212-1; GeoB2213-1; GeoB2215-8; GeoB2216-2; GeoB2301-1; GeoB2302-1; GeoB2303-1; GeoB2304-1; GeoB2305-1; GeoB2306-1; GeoB2307-1; GeoB2308-1; GeoB2309-1; GeoB2310-1; GeoB2602-1; GeoB2604-1; GeoB2607-1; GeoB2609-1; GeoB2610-1; GeoB2612-1; GeoB2613-1; GeoB2614-1; GeoB2616-1; GeoB2617-1; GeoB2619-1; GeoB2620-1; GeoB2621-1; GeoB2622-1; GeoB2701-2; GeoB2701-4; GeoB2703-6; GeoB2703-7; GeoB2704-1; GeoB2705-7; GeoB2706-6; GeoB2707-4; GeoB2708-5; GeoB2709-6; GeoB2711-2; GeoB2712-1; GeoB2714-5; GeoB2715-1; GeoB2717-8; GeoB2718-1; GeoB2721-2; GeoB2722-1; GeoB2722-2; GeoB2723-1; GeoB2723-2; GeoB2724-6; GeoB2724-7; GeoB2725-1; GeoB2725-2; GeoB2726-3; GeoB2727-1; GeoB2729-1; GeoB2730-1; GeoB2731-1; GeoB2734-2; GeoB2801-2; GeoB2802-2; GeoB2803-2; GeoB2804-2; GeoB2805-1; GeoB2806-6; GeoB2807-1; GeoB2808-3; GeoB2809-2; GeoB2810-2; GeoB2811-1; GeoB2812-3; GeoB2813-1; GeoB2814-3; GeoB2817-3; GeoB2818-1; GeoB2819-2; GeoB2820-1; GeoB2821-2; GeoB2822-2; GeoB2824-1; GeoB2825-3; GeoB2826-1; GeoB2827-2; GeoB2828-1; GeoB2829-3; GeoB2830-1; GeoB2903-1; GeoB2904-11; GeoB2905-1; GeoB2906-3; GeoB2907-1; GeoB2908-8; GeoB2909-1; GeoB2910-2; GeoB3104-1; GeoB3117-1; GeoB3129-1; GeoB3602-2; GeoB3603-1; GeoB3603-2; GeoB3604-4; GeoB3605-1; GeoB3606-1; GeoB3606-2; GeoB3607-1; GeoB3607-2; GeoB3608-1; GeoB3701-1; GeoB3702-2; GeoB3703-4; GeoB3704-2; GeoB3705-2; GeoB3706-3; GeoB3707-3; GeoB3708-1; GeoB3709-1; GeoB3710-1; GeoB3711-1; GeoB3712-1; GeoB3713-1; GeoB3714-3; GeoB3715-1; GeoB3717-1; GeoB3718-10; GeoB3718-4; GeoB3719-2; GeoB3720-1; GeoB3720-3; GeoB3721-4; GeoB3722-1; GeoB3722-2; GeoB3723-2; GeoB3724-1; GeoB3725-1; GeoB3801-5; GeoB3802-3; GeoB3803-1; GeoB3804-2; GeoB3808-7; GeoB3809-1; GeoB3810-2; GeoB3812-2; GeoB3822-1; GeoB3825-1; GeoB3826-2; GeoB3827-1; GeoB3906-9; GeoB3908-11; GeoB3909-1; GeoB3910-3; GeoB3911-1; GeoB3912-2; GeoB3914-3; GeoB3915-1; GeoB3916-1; GeoB3918-1; GeoB3925-2; GeoB4901-5; GeoB4902-4; GeoB4903-2; GeoB4904-6; GeoB4905-2; GeoB4906-4; GeoB4907-2; GeoB4908-3; GeoB4909-3; GeoB4910-4; GeoB4911-1; GeoB4912-3; GeoB4913-4; GeoB4914-4; GeoB4915-3; GeoB4916-3; GeoB4917-5; GeoB4918-4; GeoB4919-1; GeoB6201-3; GeoB6202-5; GeoB6203-1; GeoB6204-1; GeoB6205-1; GeoB6206-1; GeoB6207-2; GeoB6208-3; GeoB6209-2; GeoB6210-1; GeoB6211-1; GeoB6212-2; GeoB6213-1; GeoB6214-5; GeoB6216-1; GeoB6218-1; GeoB6219-7; GeoB6220-1; GeoB6221-1; GeoB6222-2; GeoB6223-3; GeoB6224-1; GeoB6225-2; GeoB6226-7; GeoB6228-2; GeoB6229-5; GeoB6230-1; GeoB6231-1; GeoB6232-1; GeoB6233-1; GeoB6234-1; GeoB6402-9; GeoB6408-2; GeoB6409-3; GeoB6411-4; GeoB6412-1; GeoB6413-4; GeoB6414-1; GeoB6416-2; GeoB6417-2; GeoB6418-3; GeoB6419-1; GeoB6420-2; GeoB6421-1; GeoB6422-5; GeoB6423-1; GeoB6424-2; GeoB6425-1; GeoB6428-3; GeoB6429-1; GeoB6501-3; GeoB6502-2; GeoB6507-1; GeoB6509-1; GeoB6512-1; Geosciences, University of Bremen; GEOTROPEX 83, NOAMP I; Giant box corer; Gig; Gig-5004; Gig-5018; Gig-5019; Gigiga; GIK13519-1; GIK13521-1; GIK16406-1; GIK16407-1; GIK16408-2; GIK16410-1; GIK16411-1; GIK16412-1; GIK16415-1; GIK16416-1; GIK16418-2; GIK16419-1; GIK16420-1; GIK16421-2; GIK16422-2; GIK16424-1; GIK16425-1; GIK16426-3; GIK16428-1; GIK16429-1; GIK16430-2; GIK16431-1; GIK16432-1; GIK16433-1; GIK16435-1; GIK16453-2; GIK16455-1; GIK16457-1; GIK16458-2; GIK16459-1; GIK16752-1; GIK16753-1; GIK16754-1; GIK16755-1; GIK16756-1; GIK16757-1; GIK16758-2; GIK16759-1; GIK16760-1; GIK16761-1; GIK16762-2; GIK16763-1; GIK16764-1; GIK16765-1; GIK16766-1; GIK16767-1; GIK16768-1; GIK16769-1; GIK16770-1; GIK16771-1; GIK16771-2; GIK16772-1; GIK16773-1; GIK16773-2; GIK16774-3; GIK16775-2; GIK16776-1; GIK16776-2; GIK16777-1; GIK16778-2; GIK16779-1; GIK16780-1; GIK16781-1; GIK16782-1; GIK16783-1; GIK16784-1; GIK16785-1; GIK16786-1; GIK16787-1; GIK16788-1; GIK16789-1; GIK16790-1; GIK16791-1; GIK16792-1; GIK16793-1; GIK16794-1; GIK16795-1; GIK16796-1; GIK16797-2; GIK16798-1; GIK16799-1; GIK16800-1; GIK16801-1; GIK16802-1; GIK16803-1; GIK16804-1; GIK16805-1; GIK16806-1; GIK16807-1; GIK16808-1; GIK16809-1; GIK16810-1; GIK16811-1; GIK16812-2; GIK16813-1; GIK16814-1; GIK16815-1; GIK16816-1; GIK16817-1; GIK16818-1; GIK16819-1; GIK16820-1; GIK16821-1; GIK16822-2; GIK16823-1; GIK16824-1; GIK16825-1; GIK16826-2; GIK16827-1; GIK16828-1; GIK16829-2; GIK16830-1; GIK16831-1; GIK16832-1; GIK16833-2; GIK16835-1; GIK16836-1; GIK16837-1; GIK16838-1; GIK16839-1; GIK16841-1; GIK16842-1; GIK16843-1; GIK16844-1; GIK16845-1; GIK16846-1; GIK16847-1; GIK16848-1; GIK16849-2; GIK16850-1; GIK16851-1; GIK16852-1; GIK16853-2; GIK16854-1; GIK16855-1; GIK16856-1; GIK16856-2; GIK16857-1; GIK16858-1; GIK16859-2; GIK16860-1; GIK16861-1; GIK16862-1; GIK16863-2; GIK16864-1; GIK16865-1; GIK16866-1; GIK16867-1; GIK16867-2; GIK16868-1; GIK16869-1; GIK16870-1; GIK16871-1; GIK16872-1; GIK16873-1; GIK16874-2; GIK16875-1; GIK16876-1; GIK16877-1; GIK16878-2; GIK16879-1; GIK16880-1; GIK17836-1; GIK17843-1; GIK17851-1; GIK17862-1; GIK17866-1; GIK17884-1; GIK17912-1; GKG; Grab; GRAB; Gravity corer; Gravity corer (Kiel type); Guinea Basin; Gulf of Guinea; Hunter Channel; INMD; INMD-101BX; INMD-104BX; INMD-109BX; INMD-110BX; INMD-111BX; INMD-113BX; INMD-115BX; Intercore correlation; IOW226920-3; Jean Charcot; Joides Resolution; JOPSI-2; JOPSI-2_15-100-VG; JOPSI-2_15-101-VG; JOPSI-2_15-103-VG; JOPSI-2_15-107-VG; JOPSI-2_15-110-VG; JOPSI-2_15-111-VG; JOPSI-2_15-121-VG; JOPSI-2_15-122-VG; JOPSI-2_15-125-VG; JOPSI-2_15-126-VG; JOPSI-2_15-127-VG; JOPSI-2_15-129-VG; JOPSI-2_15-12-VG; JOPSI-2_15-130-VG; JOPSI-2_15-131-VG; JOPSI-2_15-135-VG; JOPSI-2_15-136-VG; JOPSI-2_15-138-VG; JOPSI-2_15-139-VG; JOPSI-2_15-140-VG; JOPSI-2_15-141-VG; JOPSI-2_15-143-VG; JOPSI-2_15-144-VG; JOPSI-2_15-145-VG; JOPSI-2_15-146-VG; JOPSI-2_15-147-VG; JOPSI-2_15-148-VG; JOPSI-2_15-14-VG; JOPSI-2_15-150-VG; JOPSI-2_15-151-VG; JOPSI-2_15-152-VG; JOPSI-2_15-153-VG; JOPSI-2_15-154-VG; JOPSI-2_15-156-VG; JOPSI-2_15-158-VG; JOPSI-2_15-159-VG; JOPSI-2_15-15-VG; JOPSI-2_15-160-VG; JOPSI-2_15-161-VG; JOPSI-2_15-164-VG; JOPSI-2_15-165-VG; JOPSI-2_15-167-VG; JOPSI-2_15-168-VG; JOPSI-2_15-169-VG; JOPSI-2_15-16-VG; JOPSI-2_15-170-VG; JOPSI-2_15-171-VG; JOPSI-2_15-172-VG; JOPSI-2_15-173-VG; JOPSI-2_15-174-VG; JOPSI-2_15-175-VG; JOPSI-2_15-176-VG; JOPSI-2_15-177-VG; JOPSI-2_15-178-VG; JOPSI-2_15-179-VG; JOPSI-2_15-17-VG; JOPSI-2_15-180-VG; JOPSI-2_15-181-VG; JOPSI-2_15-182-VG; JOPSI-2_15-183-VG; JOPSI-2_15-184-VG; JOPSI-2_15-185-VG; JOPSI-2_15-186-VG; JOPSI-2_15-187-VG; JOPSI-2_15-18-VG; JOPSI-2_15-190-VG; JOPSI-2_15-191-VG; JOPSI-2_15-192-VG; JOPSI-2_15-193-VG; JOPSI-2_15-194-VG; JOPSI-2_15-195-VG; JOPSI-2_15-196-VG; JOPSI-2_15-197-VG; JOPSI-2_15-198-VG; JOPSI-2_15-199-VG; JOPSI-2_15-19-VG; JOPSI-2_15-1-BG; JOPSI-2_15-200-VG; JOPSI-2_15-201-VG; JOPSI-2_15-203-VG; JOPSI-2_15-204-VG; JOPSI-2_15-205-VG; JOPSI-2_15-206-VG; JOPSI-2_15-207-VG; JOPSI-2_15-20-VG; JOPSI-2_15-21-VG; JOPSI-2_15-22-VG; JOPSI-2_15-24-VG; JOPSI-2_15-25-VG; JOPSI-2_15-26-VG; JOPSI-2_15-27-VG; JOPSI-2_15-28-VG; JOPSI-2_15-29-VG; JOPSI-2_15-34-VG; JOPSI-2_15-35-VG; JOPSI-2_15-36-VG; JOPSI-2_15-37-VG; JOPSI-2_15-38-VG; JOPSI-2_15-39-VG; JOPSI-2_15-3-BG; JOPSI-2_15-40-VG; JOPSI-2_15-41-VG; JOPSI-2_15-43-VG; JOPSI-2_15-46-VG; JOPSI-2_15-48-VG; JOPSI-2_15-49-VG; JOPSI-2_15-4-BG; JOPSI-2_15-5-BG; JOPSI-2_15-63-VG; JOPSI-2_15-65-VG; JOPSI-2_15-67-VG; JOPSI-2_15-6-BG; JOPSI-2_15-75-VG; JOPSI-2_15-76-VG; JOPSI-2_15-77-VG; JOPSI-2_15-78-VG; JOPSI-2_15-79-VG; JOPSI-2_15-7-BG; JOPSI-2_15-80-VG; JOPSI-2_15-82-VG; JOPSI-2_15-84-VG; JOPSI-2_15-85-VG; JOPSI-2_15-87-VG; JOPSI-2_15-88-VG; JOPSI-2_15-89-VG; JOPSI-2_15-90-VG; JOPSI-2_15-91-VG; JOPSI-2_15-92-VG; JOPSI-2_15-93-VG; JOPSI-2_15-94-VG; JOPSI-2_15-97-VG; JOPSI-2_15-98-VG; JOPSI-2_15-99-VG; JOPSI-3; JOPSI-8; JOPSII-2a; JOPSII-2a_10-BG; JOPSII-2a_12-BG; JOPSII-2a_13-BG; JOPSII-2a_14-BG; JOPSII-2a_15-BG; JOPSII-2a_16-BG; JOPSII-2a_17-BG; JOPSII-2a_18-BG; JOPSII-2a_19-BG; JOPSII-2a_20-BG; JOPSII-2a_23-BG; JOPSII-2a_24-BG; JOPSII-2a_25-BG; JOPSII-2a_27-BG; JOPSII-2a_28-BG; JOPSII-2a_29-BG; JOPSII-2a_4-BG; JOPSII-2a_5-BG; JOPSII-2a_6-BG; JOPSII-2a_7-BG; JOPSII-2a_8-BG; JOPSII-6; KAL; Kasten corer; KN11002; KN11002-0043; Knorr; KNR110-50; KNR110-55; KNR110-58; KNR110-66; KNR110-71; KNR110-75; KNR110-82; KNR110-91; KOL; Kongo delta; Label; Leg108; Leg159; Leg175; M12/1; M16/1; M16/2; M20/1; M20/2; M23/1; M23/2; M23/3; M28/2; M29/1; M29/2; M29/3; M34/1; M34/2; M34/3; M34/4; M39; M41/1; M46/2; M46/4; M47/3; M48/2; M48/2_386; M51; M6/5; M6/6; M65; M9/4; Melville; Meteor (1964); Meteor (1986); Meteor Rise; MIC; Mid Atlantic Ridge; MiniCorer; MUC; MULT; MultiCorer; Multiple investigations; Namibia Continental Margin; Namibia continental slope; NE Atlantic off Liberia; NE-Brazilian continental margin; NE off San Thome; NIOZ78; NIOZ80; Northeast Brasilian Margin; Northern Brasil-Basin; Northern Cape Basin; northern Congo fan; Northern Guinea Basin; Ob; Ob2; Ob2-259; Ob2-260; Ob2-261; Ob4; Ob4-500; Ob4-501; ODP sample designation; off Angola; off Cameroon; off Cote d Ivoire; off eastern Ghana; off Gabun; off Ghana; off Guinea; off Kunene; off Lagos; off Liberia; off Nigeria; off Nigeria-Delta; off northern Gabun; off south Gabun; OKEAN; Okean Grab; PC; Petr Lebedev; Piston corer; Piston corer (Kiel type); PL3-21; PL3-22; PL3-24; PL3-32; PL3-9; PLEBE3; Polarstern; PROBOSWA; PS08; PS16; PS16/262; PS16/271; PS16/278; PS16/284; PS16/337; PS16/342; PS16/345; PS1750-7; PS1752-5; PS1754-1; PS1754-2; PS1756-6; PS1776-6; PS1777-7; PS1778-1; PS1778-5; PS18; PS18/238; PS18/269; PS2082-1; PS21 06AQANTX_4; PS2110-1; PS2230-1; PS2231-1; PS2233-1; PS2234-1; PS2235-1; PS2237-1; PS2238-1; PS2239-1; PS2240-1; PS2241-1; PS2242-1; RC08; RC08-18; RC11; RC11-21; RC11-26; RC11-86; RC12; RC12-241; RC12-267; RC12-291; RC12-294; RC13; RC13-184; RC13-189; RC13-205; RC13-210; RC13-227; RC13-228; RC13-229; RC13-276; RC15; RC15-93; RC15-94; RC16; RC16-66; RC24; RC24-1; RC24-12; RC24-16; RC24-27; RC24-7; RC9-100; Reference; Reference/source; Rio de Janeiro - Salvador - Recife; Rio Grande Rise; RL; Robert Conrad; Romanche fracture zone; Rumohr-Lot; Sample code/label; sample depth; Santos Plateau; Sedimentation rate; Sed rate; see reference(s); Sierra Leone Basin/Guinea Basin; Sierra Leone Rise; SL; Slope off Argentina; SO84; SO86; Sonne; South African margin; South Atlantic; South Atlantic Ocean; South Atlantic Ridge; Southern Cape Basin; southern Congo fan; Southwest Guinea Basin; ST. HELENA HOTSPOT; STAT2; T78-32; T78-33; T78-38; T78-42; T78-45; T78-46; T80-11; TOC; Tyro; Uruguay continental margin; V15; V15-141; V15-142; V15-157; V15-168; V16; V16-25; V16-36; V19; V19-240; V19-248; V19-281; V19-282; V19-283; V19-291; V20; V20-212; V20-227; V20-228; V22; V22-108; V22-168; V22-171; V22-172; V22-174; V22-177; V22-182; V22-186; V22-188; V22-26; V22-38; V22-83; V22-86; V24; V24-221; V24-229; V24-235; V24-237; V24-240; V25; V25-56; V25-59; V25-60; V26; V26-104; V26-46; V26-63; V26-82; V27; V27-175; V27-178; V27-228; V27-232; V27-238; V27-239; V27-240; V27-248; V29; V29-135; V29-144; V29-153; V30; V30-36; V30-40; V30-41; Van Heesen Ridge; van Veen Grab; Vema; Vema Channel; VGRAB; Victor Hensen; Victoria - Victoria; Vit20; Vit20-3171,1; Vit20-3171,5; Vit20-3173; Vit20-3174; Vit20-3175; Vit20-3180; Vit20-3181; Vit20-3182; Vit20-3183; Vit20-3184; Vit20-3185; Vit20-3186; Vit20-3187; Vit20-3188; Vit20-3189; Vit20-3190; Vit20-3191; Vit20-3192; Vit20-3193; Vit20-3194; Vit20-3195; Vit20-3196; Vit20-3197; Vit20-3199; Vit20-3202; Vit20-3203; Vit20-3204; Vit20-3205; Vit20-3206; Vit20-3209; Vit20-3212; Vit20-3213; Vit20-3214; Vit20-3215; Vit20-3216; Vit20-3217; Vit20-3218; Vit20-3219; Vit20-3220; Vit20-3221; Vit20-3223; Vit20-3224; Vit20-3225; Vit20-3226; Vit20-3228; Vit20-3229; Vit20-3237; Vit20-3239; Vit20-3240; Vit20-3241; Vit20-3243; Vit20-3244; Vit20-3245; Vit20-3246; Vit20-3247; Vit20-3248; Vit20-3249; Vityaz-2; Walvis Bay/Namibia; Walvis Ridge; Walvis Ridge, Southeast Atlantic Ocean; Water sample; West Angola Basin; Western Equatorial Atlantic; WS
Tipo	Dataset

Acesso ao item digital