Date: Thu, 23 Apr 1998 08:37:37 -0600 (CST)
From: Jennifer_Rumford@ODP.TAMU.EDU
Subject: printed journal goes electronic
I would like to post a brief notice that might be of interest to
serial and reference librarians.
The Proceedings of the Ocean Drilling Program Initial Reports ISSN:
1096-2158 (IR) and Scientific Results ISSN: 1096-7451 (SR) volumes are
now available in electronic format on the WWW. See the bottom of this
message for a sample table of contents.
There is NO subscription charge to access this material. The site is
open to the public.
Material is posted in Acrobat PDF format, and if possible, the
Abstracts for each paper are posted in HTML for easy browsing. Each
volume has a an HTML table of contents, and most contain additional
data sets in ASCII format.
The Ocean Drilling Program (ODP) consists of basic research into the
history of the ocean basins and the nature of the crust beneath the
ocean floor. For more information about the Ocean Drilling Program see
our web site: http://www-odp.tamu.edu/
For information specifically about the ODP Publications see:
http://www-odp.tamu.edu/publications/
The Initial Reports volume for Leg 176, which will be published late
this fall, is the first IR volume that will be available in
electronic-only format, both in CD-ROM and on the WWW. The redesign of
the existing material to make better use of the capabilities of the
WWW is currently in progress.
The Program is also sponsoring a program to donate sets of the
Proceedings printed/CD-ROM volumes to qualified libraries. For more
information about this, please feel free to contact me.
If there are other librarians who would be interested in learning of
this site, please forward this message. If you are aware of other
lists that might be good sites to distribute this information, I'd
love to hear about them.
Thank you very much for your time.
Jennifer Pattison Rumford
Chief Production Editor
Ocean Drilling Program
jennifer_rumford@odp.tamu.edu
The most recent IR volume covers Leg 169, Sedimented Ridges II
Sites 856-858, 1035-1038.
The most recent SR volume is Leg 154, Ceara Rise-Sites 925-929. A
table of contents for the volume follows.
1. Planktonic foraminifer biostratigraphy at Site 925: middle
Miocene-Pleistocene
W.P. Chaisson and P.N. Pearson (2.1 MB) pp. 3-32
2. Late Paleocene to middle Miocene planktonic foraminifer
biostratigraphy of the Ceara Rise
P.N. Pearson and W.P. Chaisson (6.8 MB) pp. 33-68
3. Sediment fluxes based on an orbitally tuned time scale 5 Ma to 14
Ma, Site 926
N.J. Shackleton and S. Crowhurst (3.5 MB) pp. 69-82
4. Calibration of Miocene nannofossil events to orbitally tuned
cyclostratigraphies from Ceara Rise
J. Backman and I. Raffi (1.8 MB) pp. 83-100
5. The Oligocene time scale and cyclostratigraphy on the Ceara Rise,
western equatorial Atlantic 101
G.P. Weedon, N.J. Shackleton, and P.N. Pearson (1.9 MB)
pp. 101-114
SECTION 2: SEDIMENT STUDIES
6. Development of a high-quality natural gamma data set from the Ceara
Rise: critical groundwork for core and log data integration
T.A. King and W.G. Ellis, Jr. (2.4 MB) pp. 117-134
7. High-resolution compressional-wave velocity measurements in
Pleistocene sediments of the Ceara Rise (western equatorial Atlantic):
implications for orbital driven sedimentary cycles
J. GrĀtzner, F.C. Bassinot, and J. Mienert (1.5 MB) pp.
135-150
8. Elastic property corrections applied to Leg 154 sediment, Ceara
Rise 151
K. Moran (177 KB) pp. 151-156
9. Life cycle(s) of sediment physical properties, Ceara Rise
T.D. Herbert, S. DiDonna, F. Bassinot, J. Gruetzner, and
K. Moran (2.9 MB) pp. 157-168
10. Rock magnetic properties of sediments from Ceara Rise (Site 929):
implications for the origin of the magnetic susceptibility signal
C. Richter, J.-P. Valet, and P.A. Solheid (1.3 MB) pp.
169-180
11. High-resolution rock-magnetic study of Ceara Rise sediments at
Site 925
P.A. Solheid, S.K. Banerjee, C. Richter, and J.-P. Valet
(1.2 MB) pp. 181-186
SECTION 3: PLIOCENE-PLEISTOCENE PALEOCEANOGRAPHY
12. Carbonate production and dissolution in the western equatorial
Atlantic during the last 1 m.y.
W.B. Curry and J.L. Cullen (2.4 MB) pp. 189-200
13. Oxygen isotopic composition of interstitial waters from Leg 154:
determination of the temperature and isotopic composition of the
glacial ocean
D.P. Schrag, G. Hampt, and D.W. Murray (435 KB) pp.
201-206
14. Variations in planktonic foraminifer faunas and carbonate
preservation at Site 927: evidence for changing surface water
conditions in the western tropical Atlantic Ocean during the middle
Pleistocene
J.L. Cullen and W.B. Curry (2.6 MB) pp. 207-228
15. Late Pliocene to mid-Pleistocene (2.6-1.0 m.y.) carbonate
dissolution in the western equatorial Atlantic: results of Leg 154,
Ceara Rise
T. Bickert, R. Cordes, and G. Wefer (741 KB) pp. 229-238
16. Late Pliocene to Holocene (2.6-0 Ma) western equatorial Atlantic
deep-water circulation: inferences from benthic stable isotopes
T. Bickert, W.B. Curry, and G. Wefer (2.7 MB) pp.
239-254
17. Changes in upper water-column structure at Site 925, late
Miocene-Pleistocene: planktonic foraminifer assemblage and isotopic
evidence
W.P. Chaisson and A.C. Ravelo (633 KB) pp. 255-268
18. Changes in the dynamics of western equatorial Atlantic surface
currents and biogenic productivity at the "mid-Pleistocene revolution"
(~930 ka)
F.C. Bassinot, L. Beaufort, E. Vincent, and L. Labeyrie
(1.5 MB) pp. 269- 284
19. Pleistocene variations in deep Atlantic circulation and calcite
burial between 1.2 and 0.6 Ma: a combined data-model approach
P. deMenocal, D. Archer, and P. Leth (1.8 MB) pp.
285-298
20. Deep-water circulation, chemistry, and terrigenous sediment supply
in the equatorial Atlantic during the Pliocene, 3.3-2.6 Ma and 5-4.5
Ma
R. Tiedemann and S.O. Franz (1.8 MB) pp. 299-318
21. Early Pliocene deep-water circulation: stable isotope evidence for
enhanced northern component deep water
K. Billups, A.C. Ravelo, and J.C. Zachos (1.6 MB) pp.
319-330
22. Biogenic and terrigenous sedimentation at Ceara Rise, western
tropical Atlantic, supports Pliocene-Pleistocene deep-water linkage
between hemispheres
S.E. Harris, A.C. Mix, and T. King (1.9 MB) pp. 331-346
SECTION 4: PRE-PLIOCENE PALEOCEANOGRAPHY
23. Miocene evolution of carbonate sedimentation at the Ceara Rise: a
multivariate data/proxy approach
T.A. King, W.G. Ellis, Jr., D.W. Murray, N.J. Shackleton,
and S. Harris (5.4 MB) pp. 349-366
24. The late Miocene stable isotope record, Site 926
N.J. Shackleton and M.A. Hall (601 KB) pp. 367-374
25. Biogenic carbonate production and preservation changes between 5
and 10 Ma from the Ceara Rise, western equatorial Atlantic
D.W. Murray and L.C. Peterson (1.2 MB) pp. 375-388
26. 10Be and 9Be concentrations in the deep sea sediments at Site 925,
Ceara Rise, in the western equatorial Atlantic: implication of 10Be
flux change
M. Murayama, H. Nagai, M. Imamura, S. Hatori, K.
Kobayashi, and A. Taira (533 KB) pp. 389-394
27. Late Miocene-Holocene paleoceanography of the western equatorial
Atlantic: evidence from deep-sea benthic foraminifers
H. Yasuda (1.8 MB) pp. 395-432
28. Milankovitch-scale climate variability recorded near the
Oligocene/Miocene boundary
B.P. Flower, J.C. Zachos, and H. Paul (605 KB) pp.
433-440
29. Multispecies planktonic foraminifer stable isotope stratigraphy
through Oligocene/Miocene boundary climatic cycles, Site 926
P.N. Pearson, N.J. Shackleton, G.P. Weedon, and M.A.
Hall (3.4 MB) pp. 441-450
30. Latest Oligocene through early Miocene isotopic stratigraphy and
deep-water paleoceanography of the western equatorial Atlantic: Sites
926 and 929
B.P. Flower, J.C. Zachos, and E. Martin (1.1 MB) pp.
451-462
SECTION 5: CENOZOIC HISTORY
31. Terrigenous sedimentation at Ceara Rise
D.M. Dobson, G.R. Dickens, and D.K. Rea (471 KB) pp.
465-474
32. Phosphorus geochemistry in Ceara Rise sediments
M.L. Delaney and L.D. Anderson (981 KB) pp. 475-482
33. Early Oligocene diatoms on the Ceara Rise and the Cenozoic
evolution of biogenic silica accumulation in the low-latitude Atlantic
N. Mikkelsen and J.A. Barron (623 KB) pp. 483-490
34. Influences on calcite Sr/Ca records from Ceara Rise
and other regions: distinguishing ocean history and calcite
recrystallization
G. Hampt and M.L. Delaney (1.2 KB) pp. 491-500
35. Secular variations in sedimentary organic during the last 35 m.y.
in the tropical Atlantic, Site 925
N. Ohkouchi and E. Wada (255 KB) pp. 501-506
36. Inorganic geochemical composition of Oligocene to Miocene
sediments and productivity variations in the western equatorial
Atlantic: results from Sites 926 and 929
G.P. Weedon and N.J. Shackleton (1.3 KB) pp. 507-526
SECTION 6: DATA REPORT
37. Data Report: Measurements of magnetic susceptibility for the
Oligocene and lower Miocene of Site 925
G.P. Weedon (966 KB) pp. 529-532
BACK POCKET MATERIALS
Oversized Tables Chapter 27:
Table 4. Calculated accumulation rates for the benthic
foraminifer species from Hole 926A.
Table 5. Calculated accumulation rates for the benthic
foraminifer species from Hole 928A.
Table 6. Calculated accumulation rates for the benthic
foraminifer species from Hole 929A.
