Table of Contents

SECTION 1: BIOSTRATIGRAPHY AND PALEOECOLOGICAL STUDIES

Chapter 1: Quantitative nannofossil biostratigraphy of Quaternary sequences from guyots in the central and western Pacific Ocean; p. 3.

E. Erba

Chapter 2: Planktonic foraminifer biostratigraphy and the development of pelagic caps on guyots in the Marshall Islands Group; p. 21.

P.N. Pearson

Chapter 3: Siliceous microfossils in upper Neogene sediments from five guyots in the western North Pacific, with special emphasis on diatoms; p. 61.

J. Fenner

Chapter 4: Upper Oligocene to Pleistocene Ostracoda from guyots in the western Pacific: Holes 871A, 872C, and 873B; p. 87.

R. Whatley and I. Boomer

Chapter 5: Cretaceous and Paleogene manganese-encrusted hardgrounds from central Pacific guyots; p. 97.

D.K. Watkins, I. Premoli Silva, and E. Erba

Chapter 6: Paleogene larger foraminifer biostratigraphy from Limalok Guyot, Site 871; p. 127.

A. Nicora, I. Premoli Silva, and A. Arnaud Vanneau

Chapter 7: Campanian dwarf calcareous nannofossils from Wodejebato Guyot; p. 141.

E. Erba, D. Watkins, and J. Mutterlose

Chapter 8: Cretaceous calcareous plankton biostratigraphy of Sites 872 through 879; p. 157.

E. Erba, I. Premoli Silva, and D.K. Watkins

Chapter 9: Upper Cretaceous larger foraminifer biostratigraphy from Wodejebato Guyot, Sites 873 through 877; p. 171.

I. Premoli Silva, A. Nicora, and A. Arnaud Vanneau

Chapter 10: Biostratigraphy and systematic description of benthic foraminifers from mid-Cretaceous shallow-water carbonate platform sediments at Sites 878 and 879 (MIT and Takuyo-Daisan Guyots); p. 199.

A. Arnaud Vanneau and I. Premoli Silva

Chapter 11: Early Cretaceous calcareous algae of the northwest Pacific guyots; p. 221.

J.-P. Masse and A. Arnaud Vanneau

SECTION 2: SEDIMENTOLOGY AND PHYSICAL PROPERTIES

Chapter 12: Limalok Guyot: depositional history of the carbonate platform from downhole logs at Site 871 (lagoon); p. 233.

J.G. Ogg, G.F. Camoin, and A. Arnaud Vanneau

Chapter 13: Stratigraphy and diagenesis of the carbonate platform at Site 873, Wodejebato Guyot; p. 255.

J.M. Lincoln, Paul Enos, and J.G. Ogg

Chapter 14: Anatomy and evolution of the inner perimeter ridge (Sites 874 and 877) of a Campanian-Maastrichtian atoll-like structure (Wodejebato Guyot, Marshall Islands); p. 271.

G.F. Camoin, A. Arnaud Vanneau, D.D. Bergersen, M. Colonna, P. Ebren, Paul Enos, and J.G. Ogg

Chapter 15: Sedimentary sequence from Sites 875 and 876, outer perimeter ridge, Wodejebato Guyot;
p. 295.

Paul Enos, G.F. Camoin, and P. Ebren

Chapter 16: Carbonate buildup and sea-level changes at MIT Guyot, western Pacific; p. 311.

L.F. Jansa and A. Arnaud Vanneau

Chapter 17: MIT Guyot: depositional history of the carbonate platform from downhole logs at Site 878 (lagoon); p. 337.

J.G. Ogg

Chapter 18: Takuyo-Daisan Guyot: depositional history of the carbonate platform from downhole logs at Site 879 (outer rim); p. 361.

J.G. Ogg, G.F. Camoin, and L. Jansa

Chapter 19: Pedogenic alteration of basalts recovered during Leg 144; p. 381.

M.A. Holmes

SECTION 3: ORGANIC/INORGANIC GEOCHEMISTRY AND ISOTOPE STUDIES

Chapter 20: Neogene multispecies planktonic foraminifer stable isotope record, Site 871, Limalok Guyot;
p. 401.

P.N. Pearson and N.J. Shackleton

Chapter 21: Strontium isotope variations and sediment reworking of the upper Oligocene-Neogene interval from Sites 871 and 872; p. 411.

C. Israelson, P.N. Pearson, and B. Buchardt

Chapter 22: Ferromanganese and phosphatic hardgrounds on the western Pacific guyots drilled during Legs 143 and 144; p. 419.

I. Murdmaa, J. Nemliher, O. Bogdanova, A. Gorshkov, T. Kallaste, and V. Vasilyeva

Chapter 23: Preliminary investigation of the petrography and geochemistry of limestones at Limalok and Wodejebato Guyots (Sites 871 and 874), Republic of the Marshall Islands; p. 429.

J.L. Wyatt, T.M. Quinn, and G.R. Davies

Chapter 24: Geochemistry, diagenesis, and petrology of an Upper Cretaceous rudist reef from Site 877, Wodejebato Guyot; p. 439.

B.N. Opdyke, P.A. Wilson, and Paul Enos

Chapter 25: Strontium-isotope geochemistry of carbonates from Pacific guyots; p. 447.

P.A. Wilson, B.N. Opdyke, and H. Elderfield

Chapter 26: Clay mineralogy of the shallow-water deposits on Allison and Resolution Guyots, Sites 865 and 866; p. 459.

I. Murdmaa, V. Kurnosov, and V. Vasilyeva

Chapter 27: Short-chain organic acids in interstitial waters from western Pacific guyots; p. 469.

J.A. Haggerty and J.B. Fisher

Chapter 28: Alteration of basalts from the West Pacific Guyots, Legs 143 and 144; p. 475.

V. Kurnosov, B. Zolotarev, V. Eroshchev-Shak, A. Artamonov, G. Kashinzev, and I. Murdmaa

SECTION 4: IGNEOUS PETROLOGY AND RADIOMETRIC AGE DATING

Chapter 29: Petrologic studies of basement lavas from northwest Pacific guyots; p. 495.

D.M. Christie, J.J. Dieu, and J.S. Gee

Chapter 30: Mineral compositions in Leg 144 lavas and ultramafic xenoliths: the roles of cumulates and carbonatite metasomatism in magma petrogenesis; p. 513.

J.J. Dieu

Chapter 31: Sr-Nd-Pb isotope geochemistry of Leg 144 West Pacific Guyots: implications for the geochemical evolution of the ''SOPITA'' mantle anomaly; p. 535.

A.A.P. Koppers, H. Staudigel, D.M. Christie, J.J. Dieu, and M.S. Pringle

Chapter 32: Radiometric ages of basement lavas recovered at Loen, Wodejebato, MIT, and Takuyo-Daisan Guyots, northwestern Pacific Ocean; p. 547.

M.S. Pringle and R.A. Duncan

SECTION 5: GEOPHYSICS

Chapter 33: Physiography and architecture of Marshall Islands guyots drilled during Leg 144: geophysical
constraints on platform development; p. 561.

D.D. Bergersen

Chapter 34: Paleomagnetic investigations of volcanic rocks: paleolatitudes of the northwestern Pacific guyots; p. 585.

M. Nakanishi and J.S. Gee

Chapter 35: Cretaceous hotspot tracks through the Marshall Islands; p. 605.

D.D. Bergersen

Chapter 36: Magnetic petrology and magnetic properties of western Pacific guyots: implications for seamount paleopoles; p. 615.

J. Gee and M. Nakanishi

Chapter 37: Magnetic structures of seamounts in the western Pacific Ocean deduced from Leg 144 downhole magnetometer logs; p. 631.

H. Ito and Y. Nogi

SECTION 6: DOWNHOLE MEASUREMENTS, HOLE 801C

Chapter 38: Magnetic reversal stratigraphy of Jurassic oceanic crust from Hole 801C downhole magnetometer measurements; p. 641.

H. Ito, Y. Nogi, and R.L. Larson

Chapter 39: Geophysical aging of oceanic crust: evidence from Hole 801C; p. 649.

R.D. Jarrard, R.L. Larson, A.T. Fisher, and L.J. Abrams

Chapter 40: Elastic-wave velocities in Jurassic-age oceanic crust from analysis of sonic full waveform logs in Hole 801C; p. 665.

D. Moos, M. Van Schaack, and H. Ito

SECTION 7: SYNTHESES

Chapter 41: Stratigraphy and sediment accumulation patterns of the upper Cenozoic pelagic carbonate caps of guyots in the northwestern Pacific Ocean; p. 675.

D.K. Watkins, P.N. Pearson, E. Erba, F.R. Rack, I. Premoli Silva, H.W. Bohrmann, J. Fenner,
and P.R.N. Hobbs

Chapter 42: Synthesis of terrigenous accumulation rates and biostratigraphic studies at sites in the northwestern Pacific Ocean, with comparisons to adjacent regions of the Pacific gyre; p. 691.

F.R. Rack, T.R. Janecek, E. Erba, J. Fenner, and J.S. Gee

Chapter 43: Carbonate and pore-water geochemistry of pelagic caps at Limalok and Lo-En Guyots, western Pacific; p. 737.

C. Israelson, B. Buchardt, J.A. Haggerty, and P.N. Pearson

Chapter 44: Composition of ferromanganese crusts and nodules at northwestern Pacific guyots and geologic and paleoceanographic considerations; p. 745.

Y.A. Bogdanov, O.Y. Bogdanova, A.V. Dubinin, A. Gorand, A.I. Gorshkov, E.G. Gurvich,
A.B. Isaeva, G.V. Ivanov, L.F. Jansa, and A. Monaco

Chapter 45: Geologic history of Wodejebato Guyot; p. 769.

J.M. Lincoln, Paul Enos, G.F. Camoin, J.G. Ogg, and D.D. Bergersen

Chapter 46: Diagenesis of platform carbonates, Wodejebato Guyot, Marshall Islands; p. 789.

Paul Enos, G.F. Camoin, P.A. Wilson, B.N. Opdyke, J.M. Lincoln, J.L. Wyatt, T.M. Quinn, P. Ebren, M. Colonna, and G.R. Davies

Chapter 47: A model for depositional sequences and systems tracts on small, mid-ocean carbonate
platforms: examples from Wodejebato (Sites 873-877) and Limalok (Site 871) Guyots; p. 819.

A. Arnaud Vanneau, D.D. Bergersen, G.F. Camoin, P. Ebren, J.A. Haggerty, J.G. Ogg, I. Premoli Silva, and P.R. Vail

Chapter 48: Geochemistry of MIT and Takuyo-Daisan carbonate platforms compared with other northwest Pacific guyots drilled during Leg 144: implications for their diagenetic history; p. 841.

J.A. Haggerty and R.J. van Waasbergen

Chapter 49: Synthesis of stratigraphies from shallow-water sequences at Sites 871 through 879 in the western Pacific Ocean; p. 873.

E. Erba, I. Premoli Silva, P.A. Wilson, M.S. Pringle, W.V. Sliter, D.K. Watkins, A. Arnaud Vanneau, T.J. Bralower, A.F. Budd, G.F. Camoin, J.-P. Masse, J. Mutterlose, and W.W. Sager

Chapter 50: Paleobiogeographic evolution of shallow-water organisms from the Aptian to the Eocene in the western Pacific; p. 887.

I. Premoli Silva, A. Nicora, A. Arnaud Vanneau, A.F. Budd, G.F. Camoin, and J.-P. Masse

Chapter 51: Initial transgressive phase of Leg 144 guyots: evidence of extreme sulfate reduction; p. 895.

B. Buchardt and M.A. Holmes

Chapter 52: Stratigraphic, vertical subsidence, and paleolatitude histories of Leg 144 guyots; p. 915.

R.L. Larson, E. Erba, M. Nakanishi, D.D. Bergersen, and J.M. Lincoln

Chapter 53: Comparison of the origin and evolution of northwest Pacific guyots drilled during Leg 144;
p. 935.

J.A. Haggerty and I. Premoli Silva

SECTION 8: DATA REPORTS

Chapter 54: Data Report: Mass accumulation rate calculations and laboratory determinations of calcium
carbonate and eolian material in Neogene sediments from the Marshall Islands, Sites 871, 872, and 873;
p. 953.

F.R. Rack, H.W. Bohrmann, and P.R.N. Hobbs

Chapter 55: Data Report: Bulk sediment composition and magnetic susceptibility variations in Hole 880A, Takuyo-Daisan Guyot; p. 973.

F.R. Rack, M.W. Lawyer, and J.S. Gee

Chapter 56: Data Report: Consolidation testing of pelagic oozes and saprolitic clays from Leg 144; p. 985.

P.R.N. Hobbs, H.W. Bohrmann, and F.R. Rack

Chapter 57: Data Report: Geochemical analysis of multiple planktonic foraminifer species at discrete time intervals; p. 993.

B.N. Opdyke and P.N. Pearson

Chapter 58: Data Report: Isotope geochemistry of pore water from the sedimentary cover at Limalok, Lo-En, and Wodejebato Guyots; p. 997.

B. Buchardt, C. Israelson, P.A. Wilson, and B.N. Opdyke

Chapter 59: Data Report: Electron microprobe analyses of Cretaceous limestones from MIT Guyot; p. 1001.

R.J. van Waasbergen and J.A. Haggerty

SECTION 9: REPRINT

Chapter 60: Highly permeable and layered Jurassic oceanic crust in the Western Pacific; p. 1007.

R.L. Larson, A.T. Fisher, R.D. Jarrard, K. Becker, and the Ocean Drilling Program Leg 144 Shipboard Scientific Party

(Reprinted by permission from Earth and Planetary Science Letters, 191:71-83, 1993)

SECTION 10: INDEX

Index; p. 1023.

BACK-POCKET FIGURES

Chapter 12: Figure 1. Stratigraphy of Hole 871C from core descriptions and downhole logs.

Chapter 17: Figure 1. Stratigraphy of Hole 878A from core descriptions and downhole logs.

Chapter 18: Figure 1. Stratigraphy of Hole 879A derived from core descriptions and downhole logs.

CD-ROM TABLES

Chapter 30: Table 2. Representative olivine analysis.

Chapter 30: Table 3. Representative clinopyroxene and orthopyroxene analyses.

Chapter 30: Table 4. Representative plagioclase analyses.

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Last Modified: 12 January 1996