Sager, William W; Polgreen, Evelyn L; Rack, Frank R (1993): (Table 1) Ages and depths of magnetostratigraphic boundaries in ODP Hole 132-810C [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.785422, Supplement to: Sager, WW et al. (1993): Magnetic polarity reversal stratigraphy of Hole 810C, Shatsky Rise, western Pacific Ocean. In: Natland, JH; Storms, MA; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 132, 47-55, https://doi.org/10.2973/odp.proc.sr.132.304.1993
Always quote citation above when using data! You can download the citation in several formats below.
Abstract:
A magnetic stratigraphy study was undertaken on Hole 810C cores to provide age constraints and to characterize sedimentation on the summit of Shatsky Rise. Sediments from this hole are mostly nannofossil oozes recovered by the advanced hydraulic piston corer which gave virtually complete recovery to 136 m below seafloor. High-resolution magnetic measurements were made aboard ship with a pass-through cryogenic magnetometer, and these results were confirmed with discrete samples also measured with a cryogenic magnetometer. The sediments give clearly defined magnetic polarity zones within the upper 100 m below seafloor. It was possible to make a convincing match with the polarity reversal time scale from the surface to 76.8 m below seafloor, through the base of the Gilbert Chron near the Pliocene/Miocene boundary. Because of slow sedimentation and hiatuses punctuating the middle to upper Miocene section, the match with the time scale is less certain below this depth. For core recovered beneath 100 m below seafloor, it was mostly impossible to define clear polarity zones, except for a section of reversed polarity in Maastrichtian sediments, from 113.1 to 116.4 m below seafloor, that is tentatively correlated with Chron 31r. The magnetic stratigraphy shows that sediment accumulation was slow (about 2.5 m/m.y.) during the late Miocene, but increased to 15.0 to 18.5 m/m.y. during the late Pliocene and Pleistocene. Missing sections within the Matuyama Chron and an extended Brunhes Chron suggest that actual sediment accumulation rates were at times higher and lower than these averages. Furthermore, differences in sediment accumulation between Site 810 and nearby Site 577 suggest that the normal pelagic sedimentation regime atop Shatsky Rise is perturbed by bottom currents resulting in locally patchy sediment accumulation.
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Latitude: 32.423000 * Longitude: 157.846000
Date/Time Start: 1990-07-23T02:00:00 * Date/Time End: 1990-07-28T08:00:00
Minimum DEPTH, sediment/rock: 18.1 m * Maximum DEPTH, sediment/rock: 98.5 m
Event(s):
132-810C * Latitude: 32.423000 * Longitude: 157.846000 * Date/Time Start: 1990-07-23T02:00:00 * Date/Time End: 1990-07-28T08:00:00 * Elevation: -2634.0 m * Penetration: 136.1 m * Recovery: 143.81 m * Location: North Pacific Ocean * Campaign: Leg132 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 16 cores; 136.1 m cored; 0 m drilled; 105.7 % recovery
Parameter(s):
| # | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
|---|---|---|---|---|---|---|
| 1 | DEPTH, sediment/rock | Depth sed | m | Geocode – mbsf | ||
| 2 | Age model | Age model | ka | Sager, William W | Age model, paleomag, Berggren et al (1985) | |
| 3 | Age model, optional | Age model opt | ka | Sager, William W | Age model, paleomag, Cande and Kent (1992) | |
| 4 | Ageprofile Datum Description | Ageprof dat des | Sager, William W | Age model, paleomag, Cande and Kent (1992) | o = old boundary, y = young boundary |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
102 data points
Data
| 1 Depth sed [m] | 2 Age model [ka] | 3 Age model opt [ka] | 4 Ageprof dat des |
|---|---|---|---|
| 18.1 | 730 | 780 | 1n(o), Brunhes/Matuyama |
| 20.8 | 910 | 980 | 1r.1n(o), top Jaramillo |
| 28.6 | 1880 | 1980 | 2n(o), bottom Olduvai |
| 31.3 | 2140 | 2210 | 2r.1n, middle Reunion |
| 38.0 | 2470 | 2600 | 2An.1n(y), Matuyama/Gauss |
| 46.3 | 2920 | 3050 | 2An.2n(y), top Kaena |
| 49.2 | 3080 | 3130 | 2An.3n(y), top Mammoth |
| 50.8 | 3180 | 3220 | 2An.3n(y) |
| 55.8 | 3400 | 3550 | 2An.3n(o), Gauss/Gilbert |
| 62.7 | 3880 | 4030 | 3n.1n(y), top Cochiti |
| 64.3 | 3970 | 4130 | 3n.1n(o), bottom Cochiti |
| 66.7 | 4100 | 4270 | 3n.2n(y), top Nunivak |
| 67.9 | 4240 | 4430 | 3n.2n(o), bottom Nunivak |
| 68.5 | 4400 | 4610 | 3n.3n(y), top Sidufjall |
| 69.3 | 4470 | 4690 | 3n.3n(o), bottom Sidufjall |
| 70.4 | 4570 | 4810 | 3n.4n(y), top Thvera |
| 73.6 | 4770 | 5050 | 3n.4n(o), bottom Thvera |
| 76.8 | 5350 | 5710 | 3An.ln(y) |
| 79.2 | 5680 | 6080 | 3An.2n(y) |
| 81.7 | 5890 | 6380 | 3An.2n(o) |
| 83.9 | 6370 | 6740 | 3Bn(y) |
| 84.8 | 6500 | 6900 | 3Bn.ln(o) |
| 85.2 | 6700 | 7250 | 4n.1n(y) |
| 85.5 | 6780 | 7380 | 4n.1n(o) |
| 86.0 | 6850 | 7460 | 4n.2n(y) |
| 87.2 | 7280 | 7890 | 4n.2n(o) |
| 88.0 | 7350 | 8050 | 4r.1n(y) |
| 88.2 | 7410 | 8080 | 4r.1n(o) |
| 88.6 | 7900 | 8530 | 4An(y) |
| 89.2 | 8210 | 8860 | 4An(o) |
| 89.9 | 8410 | 9070 | 4Ar.1n(y) |
| 91.0 | 8920 | 9780 | 5n.2n(y) |
| 96.1 | 10420 | 10830 | 5n.2n(o) |
| 98.5 | 11030 | 11380 | 5r.2n(y) |