Funded Post-Expedition Activity Awards

• Chandranath Basak (University of Delaware): Deep Ocean circulation and water mass structure in the high latitude South Pacific
• Jesse Farmer (Princeton University): Pleistocene evolution of subantarctic nitrate utilization: Initial characterization using foraminifer-bound nitrogen isotopes from Sites U1540 and U1541
• Julia Gottschalk (Lamont-Doherty Earth Observatory, Columbia University): Changes in the hydrography and carbon cycling in the Southeast Pacific Ocean during marine isotope stage 11 and termination V
• Lisa Herbert (Stony University of New York, Stony Brook): Variation in trace metal sources and reactivity across glacial-interglacial cycles recorded in South Pacific sediments
• Vera Lawson (Rutgers University): IODP Exp 383 (Post Expedition Research)
• Jennifer Middleton (Lamont-Doherty Earth Observatory of Columbia University): Plio-Pleistocene variations in dust delivery to the Central South Pacific: IODP Expedition 383
• Ana Christina Ravelo (University of California, Santa Cruz): Frontal Dynamics and Deep Water Circulation from 1.25-3.8 Ma at U1540 in the Southern Ocean
• Yair Rosenthal (Rutgers, The State University of New Jersey): Expedition 383 Shore base- Rosenthal Yair (Reconstructing the density structure of the Pacific ACC During the LGM)
• Rebecca Smith (University of Massachusetts Amherst): Reconstructing central South Pacific sea surface temperatures across the Pleistocene using organic geochemical biomarker proxies
• Gisela Winckler (Lamont-Doherty Earth Observatory of Columbia University): Testing the relationship between dust flux and paleoproductivity in the Subantarctic Pacific (U1541)

• Stefanie Brachfeld (Montclair State University): Antarctic ice sheet dynamics tracked by lithic clast and Fe-oxide provenance
• Anna Glueder (Oregon State University): High resolution reconstruction of South Falkland slope surface and subsurface water properties during MIS 11
• Michelle Guitard (University of South Florida): Early Pleistocene temperature changes across the southern ACC boundary
• Sidney R. Hemming (Lamont-Doherty Earth Observatory of Columbia University): Pilot Study of 40Ar/39Ar Ages of dropstones from Iceberg Alley
• Bridget K. Lee (University of California, Riverside): Iron’s temporal impact on oceanic biogeochemical cycling through variations of bioavailable Fe input during glacial and interglacial periods
• Yasmina M. Martos (University of Maryland): Post Expedition Activity (PEA) following Expedition 382
• Suzanne OConnell (Wesleyan University): Antarctic deep-water circulation and glacial flux during the Pliocene and early Pleistocene as recorded in the Dove Basin, Site 1537, & Falkland Plateau, Site 1534
• Maureen E. Raymo (Lamont-Doherty Earth Observatory of Columbia University): Pacing of IRD and SST signals in the Southern Ocean in 41kyr world
• Brendan T. Reilly (Oregon State University): Towards developing a 3.4 million year record of geomagnetic, ice sheet, and environmental changes from the Scotia Sea
• Lisa Tauxe (Scripps Institution of Oceanography): Paleomagnetic and rock magnetic analysis of discrete samples obtained on IODP Expedition 382
• Jonathan Warnock (Indiana University of Pennsylvania): Diatom multiproxy evaluation of Holocene and Pleistocene climates

• Jeanine Ash (William Marsh Rice University): Linking tectonics and climate with porewater and methane geochemistry from the Corinth Rift Zone
• Cari Johnson (University of Utah): Provenance analysis, Gulf of Corinth
• Emilio Herrero-Bervera (University of Hawaii at Manoa): Relative Paleointensity (RPI) study of IODP Expedition 381 Holes M0078 A and B, 79A and 80A
• Malka L. Machlus (Research Foundation CUNY on behalf of KIngsborough Community College): 40Ar/39Ar geochronology of volcanic ashes and provenance of sand layers in cores obtained from the Gulf of Corinth, by IODP expedition 381
• Clint Miller (Rice University): Ultrahigh resolution Glacial/Interglacial climate record Corinth Active Rift
• Juan Lorenzo (Louisiana State University): Lithospheric-scale modeling in the Gulf of Corinth: Implications for the constraints on strain localization in an active continental rift
• John Snedden (University of Texas at Austin): Late Pleistocene calcareous nannofossils and marine diatoms biostratigraphy and paleoenvironmental history from Expedition 381 sediments
• Donna Shillington (Lamont-Doherty Earth Observatory): Improving seismic-core integration for Expedition 381 with 1D seismic waveform inversion
• Natalia V Zakharova (Central Michigan University): Mechanical properties and confined acoustic velocities of the Corinth Rift sediments

• Tianhaozhe Sun (The Pennsylvania State University): Studying the locking and shallow slip of the Nankai subduction fault by jointly investigating borehole fluid pressure and seafloor GPS observations

• Ellen A. Cowan (Appalachian State University): Identification of the Glacial Signal from WAIS in the Amundsen Sea from Late Miocene to Pliocene: IODP Expedition 379
• John M. Fegyveresi (Northern Arizona University): An integrated analysis of sediment porosity and pore structure, through targeted micro-CT analyses at IODP sites U1532 and U1533
• Anna Ruth W. Halberstadt (University of Massachusetts Amherst): Modeling the influence of orbital cyclicity, CO2, and ocean temperatures on west antarctic ice sheet contribution to Pliocene sea level
• Theresa King (University of South Florida): Reconstruction of Pliocene-Pleistocene interglacial ocean temperatures and paleoproductivity at IODP sites U1532 and U1533: An investigation of the oceanographic influences on the west antarctic ice sheet during warm periods
• Sandra Passchier (Montclair State University): PEA 379: Early Pliocene ice-sheet dynamics in the Amundsen Sea embayment reconstructed through facies and sediment provenance analysis, IODP Sites U1532 and U1533
• Michelle Penkrot (University of Florida): Characterizing variability in sediment composition at IODP Site U1533
• Delaney Robinson (University of Houston): Sediment Records of west antarctic ice sheet dynamics in the Amundsen Sea
• Reed P. Scherer (Northern Illinois University): Quantitative diatom record of Pleistocene and Late Pliocene glacial-interglacial cycles in the Resolution Drift, Amundsen Sea, Antarctica: IODP 379
• Christine Siddoway (Colorado College): From Cores to Continent: Use of detrital minerals and volcanic ash bed to expand knowledge of west antarctica’s bedrock and neotectonics

• Jeremy Deans (University of Southern Mississippi): 3-D characterization of pores and fluid pathways in an active submarine caldera-hosted hydrothermal system, Brothers volcano, IODP Expedition 376
• Aida Farough (Kansas State University): Investigating 3D Fluid Circulation and the Role of Bioclogging in the Active Hydrothermal System at Brothers Volcano, IODP Expedition 376
• Tobias W. Hoefig (Texas A&M University): Tracing the evolution of an arc-hosted hydrothermal system through metasomatism of phosphates
• Susan Humphris (Woods Hole Oceanographic Institution): Fluid-rock Reactions and Geochemical Exchange in the Hydrothermal Systems of Brothers Volcano: IODP Expedition 376
• Kannikha Parameswari Kolandaivelu (Virginia Polytechnic Institute and State University): Thermal structure and their control on heat output, hydrogelogic regimes and hydrothermal circulation at Brothers Volcano: Insights from downhole measurements, fluid inclusions, physical properties measurements and microbiology, IODP Expedition 376
• Jessica Labonté (Texas A&M University, Galveston): Challenging the limits of microbial life and adaptation in the acidic, metal-rich and high temperature Brothers volcano
• Jill M. McDermott (Lehigh University): Multiple S Isotope Analysis of Fluid and Minerals from Brothers Arc Volcano: IODP Expedition 376
• Susanne M. Straub (Columbia University): Origin of the Brothers dacites: insights from silicate phenocrysts and zircon
• Frank J. Tepley (Oregon State University): Compositional Variations in Unaltered Volcanic Material from Brothers Volcano

• Robert N. Harris (Oregon State University): Thermal properties of cored material and the thermal regime of the Hikurangi Margin, New Zealand
• Hiroko Kitajima (Texas A&M University): Experimental investigation on deformation and in-situ stress at the Hikurangi subduction margin
• Julia Morgan (William Marsh Rice University): Structural analysis and experimental deformation of sediments recovered from the Hikurangi Subduction Margin: Constraints on structural evolution and mechanical behavior during subduction
• Katerina Petronotis (Texas A&M University): Tectonic Evolution of the Hikurangi Plateau from Expedition 375 Paleomagnetic Analyses
• Hannah S. Rabinowitz (Brown University): Frictional behavior of input sediments at the Hikurangi Trench at P-T conditions relevant to slow slip events
• Demian Saffer (The Pennsylvania State University): Laboratory measurement of elastic wavespeeds and permeability of fault rocks and subduction inputs: Hikurangi Subduction Margin
• Heather Savage (Columbia University): Mapping Earthquake Slip Using Biomarker Thermal Maturity at Expedition 375 Site U1518
• Srisharan Shreedharan (The Pennsylvania State University): Frictional properties of sediments from the Hikurangi Subduction Zone, New Zealand: Implications for slow earthquakes
• Evan A. Solomon (University of Washington): Diagenetic reactions and fluid migration along the IODP Expedition 375 drilling transect – Insights from pore water oxygen and hydrogen isotope ratios 375
• Michael B. Underwood (New Mexico Institute of Mining & Technology): Collaborative Post-Expedition Research: Clay Mineral Assemblages in the Hikurangi Subduction System, IODP Expedition 372 and 375

• Jeanine Ash (Williams Marsh Rice University): Records of temperature and productivity from the Miocene to modern in the Ross Sea from stable and clumped isotope analyses
• Imogene Browne (University of South Florida): Exploring early to middle Miocene Antarctic polar amplification: Biomarker reconstructions of oceanic and atmospheric tempertures from IODP Expedition 374 Site U1521
• Justin P. Dodd (Northern Illinois University): Enhanced Silicate Weathering and Silica Burial in the Ross Sea During the Middle Miocene Climate Optimum/Climate Transition
• David Hardwood (University of Nebraska-Lincoln): Neogene Diatomm Biostratigraphy and Paleoecology of Expedition 374 Sediment Cores from the Ross Sea Region Antartica
• Denise K. Kulhanek (Texas A&M University): XRF-based sediment geochemistry to asses oceanic heat flux (Site U1523) and calcareous nannofossils as biostratigraphic and paleoenvironmental indicators in the Ross Sea, Antarctica (IODP Expedition 374)
• Molly O. Patterson (Binghamton University, State University of New York): Assessing the role of periodic and non-periodic processes on West Antarctic Ice Sheet stability/instability and deep water formation
• Brian Romans (Virginia Polytechnic Institute and State University): Pliocene-Pleistocene turbidity current history in a conduit of Antarctic Bottom Water (AABW) formation, Ross Sea, IODP Sites U1524 and U1525
• Amelia Shevenell (University of South Florida): Miocene to Pleistocene ice volume, ocean temperature, bottom water ventilation, and productivity over the Ross Sea continental shelf, Antarctica: Insights from stable isotope and trace element studies for foraminifers and bulk sediments

• Sebastian Cardona (Colorado School of Mines): Microscopic analyses of the sediments at the Tuaheni Landslide Complex, Hikurangi margin, New Zealand,
  IODP Expedition 372: unlocking microscopic evidence for mass-failure processes and gas-hydrate interaction
• Ann Cook (Ohio State University): Modeling methane hydrate accumulations in thin turbidite layers
• Brandon Dugan (Colorado School of Mines): Consolidation properties, fluid pressure, and fluid flow of the Tuaheni Landslide Complex (IODP Site U1517)
• Shuoshuo Han (University of Texas, Austin): Investigation of Subduction Thrust Fault Properties and Submarine Landslides at
  Northern Hikurangi Margin By Integrating Ocean Drilling and Seismic Data
• Gregory F. Moore (University of Hawaii): Core-Log-Seismic Integration for Expeditions 372 and 375
• Michael Nole (The University of Texas, Austin): Pore size, permeability, and constraints on gas hydrate accumulation in Hikurangi Margin sediments
• Paula S. Rose (Texas A&M University, Corpus Christi): Investigating sediment isotopic composition on the Tuaheni Landslide Complex (IODP Site U1517)
• Elizabeth Screaton (University of Florida): Permeabilities of IODP Expedition 372/375 Samples and Modeling of Fluid Pressure Response to Fault and Landslide Movement
• Marta E. Torres (Oregon State University): Strontium and carbon isotopes in fluids recovered during Expeditions 372/375

• Gerald Roy Dickens (Rice University): Eocene Carbon Cycling recorded in sediments of northern Zealandia
• Michelle Kim Drake (University of California, Santa Cruz): Reconstructing sea surface temperatures, salinity, and surface productivity during the last 13 Myr in the Tasman Sea
• Michael C. Gurnis (California Institute of Technology): Tasman Frontier: Cenozoic deformation and subsidences and the geodynamics of Tonga-Kermadec subduction intiation
• Dustin Harper (University of California, Santa Cruz): C and N Isotope Investigation of Organic-Rich Paleocene Sediments, Tasman Sea implications for Long-term Cooling and Carbon Storage
• Allison Keller (University of California, Riverside): Connections between early Cenozoic climate and high latitude ocean circulation in the Tasman Frontier: IODP Expedition 371
• Adriane Lam (University of Massachusetts Amherst): High-resolution Late neogene planktic foraminiferal biostratigraphy and reconstruction of the Tasman Front, IODP Expedition 371 Sites U1506 and U1510
• Stephen Pekar (Queens College): Developing high-resolution isotopic and elemental ratio records for the late early to middle Miocene (18-13 Ma) from Lord Howe Rise IODP Expedition Site U1510
• Donald Penman (Yale University): Paleogene carbon and silica cycle perturbations in the Tasman Sea
• Xiaoli Zhou (Rutgers University): Reconstructing late Cenozoic seawater chemistry in the southwest Pacific by foraminiferal trace elements – with implications for meridional gradients

• Kira Homola (University of Rhode Island): Nitrogene Isotope Analysis of Dissolved Ammonium, Site C0023
• Harry-Luke Oliver McClelland (Washington University in St. Louis): An in vivo investigation into temperature-controlled stratification of sub-seafloor populations
• Justine Sauvage (University of Rhode Island): Strontium-Isotoic constraint of the hydrogeochemical regime at Site C0023 – implications for subseafloor metabolism off Muroto
• Tina Treude (University of California, Los Angeles): Anaerobic Oxidation of Methane along the Depth/Temperature Gradient of Drill Site C0023A (IODP Expedition 370)
• David T. Wang (Massachusetts Institute of Technology): The geochemistry of methane and its isotpologues at Site C0023, Nankai Trough off Cape Muroto, Japan
• Emily Whitaker (Texas A&M University): Basalt-hosted microbial community structure and exoenzymatic activity of IODP borehole c0023

• Kara Bogus (Texas A& M University): Late Cretaceous high-latitude paleoclimate records of Expedition 369 from palynology and palynomorph isotopes
• Dennis L. Harry (Colorado State University): Syn-rift extension and subsidence on the southern and southwestn Australia rifted margins
• Shannon Haynes (Priceton University): Changes in intermediate- and deep-ocean circulation in the high-latitude Southern Ocean across OAE1d and OAE2 on Expedition 369
• Brian T. Huber (Smithsonian Institution): Late Cretaceous paleotemperature history and paleoceanography at Mentelle Basin based on foraminiferal stable isotope analyses
• Matthew M. Jones (Northwestern University): Cyclostratigraphic characterization of Late Cretaceous Strata at Site U1512 and osmium isotope geochemistry of OAE2 at the southern high latitudes
• Ken MacLeod (University of Missouri): Preliminary documentation of isotopic values and trends for Cretaceous and Paleogene samples from the Mentelle Basin and Great Austrailian Bight (IODP Expedition 369)
• Tracy Quan (Oklahoma State University): Investigating the Nitrogene Cycles and Paleoenvironmental Conditions During Cretaceous Oceanic Anoxic Events and the Middle Eocene Climatic Optimum at Mentelle Basin
• Carl Richter (University of Louisiana at Lafayette): Revised Magnetostratigraphy and Rock Magnetic Analysis of Cores from IODP Expedition 369
• Gabriel Tagliaro (University of Texas at Austin): Middle Miocene Deep-Water Carbonate Crash: Ocean Productivity and Terrigenous Supply During Global Warming
• David K. Watkins (University of Nebraska-Lincoln): Calcareous nannofossils from Leg 369 – Naturaliste Plateau and Great Australian Bight biostratigraphy and paleoceanography

• Michael J Dorais (Brigham Young University): A Major Trace Element and Pb and Sr Isotopic Study of Zoned Minerals of Sites U1500 and U1502: Implications for the Magmatic Evolution of South china Sea Rift Basalts
• Jessica Hinojosa (California Institute of Technology): Insights into monsoon seasonality from South China Sea sediments
• Antonio Luna (University of South Florida): Fluid-mobile and lithophile trace elements systematics of Expedition 367-368 basement assemblages
• Caroline Robinson (Ohio State University): Sand Composition at Sites U1499 and U1500 as a Guide to Sediment Provenance History
• Steven Skinner (California State University, Sacramento): Emplacement of basalt at U1500B
• Joann M. Stock (California Institute of Technology): Emplacement and Deformation Fabric of the Northern Margin of the South China Sea
• Yang Zhang (Purdue University): Applying cycle-scaled magnetostratigraphy to rates of terrestrial input evidenced by lignin records during Eocene and Quaternary: IODP Expedition 367 & 368

• Carlos A. Alvarez Zarikian (Texas A&M University): Eocene to Miocene environmental reconstruction of the northern South China Sea (IODP Site U1501)
• Eric C. Ferre (Southern Illinois University): Paleomagnetic record of the South China Sea evolution in sedimentary, igneous and metamorphic rocks
• Aaron J. Gewecke (University of Nebraska-Lincoln): High-resolution diatom biostratigraphy/paleoecology and biogenic opal content of the Early-Late Oligocene boundary at IODP Site 1502
• Jian Lin (Woods Hole Oceanographic Institution): Integrating new physical properties measurements with seismic-core-log analysis and modeling of South China Sea rifted margin
• Chang Liu (Louisiana State University): Resconstruction of Cenozoic paleoclimate record in the South China Sea and its relation with global climate: Early Asian Monsoon development
• David W. Peate (University of Iowa): Whole-rock and microprobe analyses of Plagioclase ultraphyric Basalts from Sites U1500 & U1502
• Patricia Persaud (Louisiana State University and Agricultural and Mechanical College): Deformation history of the South China Sea from mylonites, in situ stress and numerical models
• Susanne M. Straub (Columbia University): Sr-Nd-Pb-Hf isotope studies of continental basement in the South China Sea
• Sophie Warny (Louisiana State University): Palynological evaluation of Hole U1501D and Hole U1499B

• Barbara Bekins (U.S. Geological Survey): Utilizing Expeditions 366 Data to Estimate Temperatures in the Mariana Forarc
• Patricia Fryer (University of Hawaii at Manoa): IODP Expedition 366 Mariana Forearc Serpentinite Mud Volcanoes: Comparative Mineraology of Serpentinite Mudflows
• Kevin Johnson (University of Hawaii): Crustal and Mantle Rocks in Mariana Forarc Mud Volcanoes
• Richard Kevorkian (University of Tennessee): Influence of Serpentinization on Microbial Single Cell Genomics at the Mariana Forarc
• Craig L. Moyer (Western Washington University): Extremophilic Archaeal Diversity Revealed by SSU-Amplicon Sequencing and Genome-Resolved Metagenomics from Mariana Forearc Serpentinite Mud Volcanoes
• Kelli Mullane (University of California, San Diego): High-Pressure Microcosm-Based Studies of Microbial Activity in Serpentinite Mud Volcanoes: International Ocean Discovery Program Expedition 366
• Roy E. Price (The State University of New York – Stony Brook University) : Nickel cycling and isotopic composition in pore fluids, muds, and clasts from IODP Exp. Leg 366, Mariana Forearc Mud Volcanoes
• Raymond Johnston (University of South Florida): Geochemical characterization and mobile elements systematics of serpentinite samples recovered during Expedition 366
• Brandi K. Reese (Texas A&M University- Corpus Christi): Characterization of the Active Microbial Community within the Mariana Convergent Margin Subsurface
• Jeffrey Ryan (University of South Florida): Mafic rock analysis and B and Li isotpic Characterization of serpentinite samples, IODP Expedition 366
• John W. Shervais (Utah State University): PEA Research Plan: Major and Trace Element Geochemistry of Peridotites and Volcanic Rocks
• C. Geoffrey Wheat (University of Alaska Fairbanks): Mariana Convergent Margin and South Chamorro Seamount
• Trevor Williams (Texas A&M University): Argon dating of volcanic ash to determine the age of the oldest serpentinite mudflows at Site U1498, IODP Expedition 366

• Stephanie Carr (Bigelow Laboratory for Ocean Sciences): Characterization of microbial communities and carbon metabolisms within interstitial fluids of the Nankai Trough
• Demian Saffer (Pennsylvania State University): Analysis of formation pressure data to investigate slow slip events in the Nankai Trough
• Laura Wallace (University of Texas at Austin): Post-expedition research (Exp. 365) on the Shingu Earthquake and slow slip events at the Nankai Trough

• Gail Christeson (University of Texas at Austin): Post Expeditionary Award: Exp 364 Core-log-seismic integration of the Chicxulub drill site
• Sean Gulick (University of Texas at Austin): Orienting cores using CT and borehole images for Chicxulub Expedition: A Post-Expedition Activity request
• Heather Jones (Pennsylvania State University): Calcareous nannoplankton recovery in the crater following the impact at Chixculub
• David A. Kring (Universities Space Research Association): Petrological & Geochronological Survey of Shock-metamorphosed & Hydrothermally-altered Samples of the Chicxulub Peak Ring: IODP Expedition 364
• Chris Lowery (University of Texas at Austin): Participation of Chris Lowery in Expedition 364 – Post Expedition Award
• Cornelia Rasmussen (University of Utah): Chronostratigraphic framework of the Chicxulub impact melt-rock lithologies and post-impact sediments
• Sonia M. Tikoo-Schantz (Rutgers University – New Brunswick): Origins of impact-related magnetization within the Chicxulub Impact Structure and implications for peak ring formation
• Michael T. Whalen (University of Alaska Fairbanks): Sedimentary processes, paleoecology, and paleooceanography at ground zero: Initial sedimentary deposits in the Chicxulub impact crater
• Axel Wittmann (Arizona State University): Participation of Inorganic Geochemist in Expedition 364 – Petrography, Mineralogy and Microgeochemistry of the Chicxulub Impact Structure’s Peak Ring Rocks

• Ivano Aiello (San Jose State University Research Foundation): Improving the sedimentological framework of Exp. 363
• James Zachos (The Regents of the University of California, Santa Cruz): Investigating long-term drivers of Neogene climate evolution
• Samantha Claudia Bova (Rutgers University): Radiocarbon constraints on the role of the western equatorial Pacific in glacial-interglacial atmospheric CO2 change
• Daniel Johnson (California Institute of Technology): The Salinity of the Last Glacial Maximum (LGM) Ocean in the Western Equatorial Pacific: IODP Expedition 363
• Kelly Gibson (University of South Carolina): Nutrient dynamics and productivity in the Western Pacific Warm Pool: regional responses to remote and local forcings from the Late Pliocene to the Mid-Pleistoncene Transition
• Robert Hatfeld (Oregon State University): Rock magnetic characterization of sediments recovered during IODP Expedition 363 and paleomagnetic characterization of the Gauss/Matuyama Boundary at IODP Site U1486
• Denise K. Kulhanek (Texas A&M University): IODP Expedition 363: Western Pacific Miocene carbonate burial and paleoproductivity (Sites U1489 and U1490) and eastern Indian Ocean biosiliceous paleoproductivity (Site U1483)
• Braddock K. Linsley (Columbia University): Initial Evaluation of Site U1486 for South Pacific Western Boundary Current and Paleo-Productivity Reconstruction
• Gregory Mountain (Rutgers University): Hi-Res Grain Size Analysis: Searching for direct evidence of bottom currents at Site U1490
• Ana Christina Ravelo (University of California, Santa Cruz): Sensitivity of west Pacific warm pool temperatures and deep ocean circulation to changes in boundary conditions during the last 6 million years
• Yair Rosenthal (Rutgers University): Hydroclimate variability at the hear of the WPWP
• James D. Wright (Rutgers University): Reconstructing the Glacial-Interglacial Difference in seawater δ180 and Assessing Pore-Water Diagenesis using Pore Water δ180 Measurements from Sites U1488 and U1489
• Yige Zhang (Texas A&M University): The Neogene Warmth of the Indo-Pacific Warm Pool

• Brandon Dugan (Colorado School of Mines): Grain-size distribution of sediments from Sites U1480 and U1481
• Gilles Guerin (Columbia University): Acoustic waves propagation and dissipation in IODP Hole U1481A
• Brian House (University of Californai, San Diego): Paleoclimate and paleoproductivity implications of organic matter in Exp 362 sediments
• Tamara Jeppson (University of Wisconsin-Madison): Velocity structure and elastic properties of North Sumatra subduction zone input sediments from core sample and geophysical log petrophysics
• Abby Kenigsberg (Pennsylvania State University): The Effects of Fault Composition and Microstructures on Fault Weakness, Elastic Properties, and Permeability
• Kitty Milliken (University of Texas at Austin): Petrologic Study of Sedimentary Materials, Expedition 362, Sumatra Seismogenic Zone: Assessing Compaction and Cementation
• Katerina Petronotis (Texas A&m University): Apparent Polar Wander Path of the Indian Plate in the Late Cretaceous and early Cenozoic from Expedition 362 paleomagnetic data
• Evan A. Solomon (University of Washington): Diagenetic reactions and fluid migration within input sediments at the Sumatra subduction zone – insights from pore water oxygen and hydrogen isotopes
• Marta E. Torres (Oregon State University): Stronitum and carbon isotopes in fluid recovered during Expedition 362
• Peter Vrolijk (New Mexico Institute of Mining and Technology): Thermal state, reactant characterization, and mudstone pore definition: Expedition 362 Sumatra Seismogenesis
• Xixi Zhao (University of California): Magnetostratigraphy and Rock Magnetism of IODP Expedition 362

• Jess Adkins (California Institute of Technology): Reconstructing the Depth Profile of Salinity at the Agulhas Current Region
• Melissa A. Berke (University of Notre Dame): Southern African Terrestrial Paleoclimate Acorss the Plio-Pleistocene Transtion
• Alejandra Cartagena Sierra (University of Notre Dame): Subtropical Front Migrations During the Mid-Pleistocene Transition at the Agulhas Plateau
• Christopher D. Charles (Scripps Institution of Oceanography): Benthic foraminiferal stable isotopic analyses of Pleistocene sediments from IODP Expedition 361
• Jason Coenen (Northern Illinois University): Tracking frontal system variability using diatom and other biogenic silica communities throughout the Pliocene at Site U1475, IODP Expedition 361
• Allison M. Franzese (Hostos Community College): Assessing Agulhas Leakage using Terrigenous Sediment Provenance
• Sidney Hemming (Columbia University): Radiogenic isotope applications to time-scale, ocean circulation and continental source changes from IODP 361 Sites
• Sophia Hines (California Institute of Technology): The δ234U value of pore waters
• Leah LeVay (Texas A&M University): Pliocene to earliest Pleistocene calcareous nannofossil evolution and productivity at IODP Site U1475, Aguhas Plateau
• Richard D. Norris (University of California, San Diego): The Atlantic-Indian Ocean Sea-saw in Export Production
• Rebecca Robinson (University of Rhode Island): Movement of Subtropical Front and the spatial extent of the nutrient-rich Southern Ocean

• Donna Blackman (University of California, San Diego): Geophysical structure of Hole U1473A – Implications for present/past seawater circulation and relation to faulting
• Julie Bowles (University of Wisconsin – Milwaukee): Rock magnetic and magnetic anisotrophy contributions to oceanic core complex and lower crustal processes
• Michael J. Cheadle (University of Wyoming): 4-D growth of lower oceanic crust: U-Pb dating and chemistry of zircons from IODP Hole U1473A, Atlantis Bank, SWIR
• Jeremy R. Deans (University of Southern Geology): Re-oriented deformation fabrics and the kinematic architecture of the lower crust within the footwall of an oceanic core complex: Atlantis Bank IODP Hole U1473A, Expedition 360
• Henry J.B. Dick (Woods Hole Oceanographic Institution): Down-Hole Mineral Chemistry of IODP Hole 1473
• Virginia Edgcomb (Woods Hole Oceanographic institution): Research Plan and Request for Post-cruise Funds for Expedition 360 Microbiology
• James Andrew M. Leong (Arizona State University): Organic carbon geochemistry of the altered lower crust
• Jason B. Sylvan (Texas A&M University): Quantity and constraints on microbial biomass in subseafloor gabbroic basement

• Carlos A. Alvarex Zarikian (Texas A&M University): Paleoenvironmental reconstruction of the Maldives and central Indian Ocean (OMZ and bottom water conditions) based on Ostracods and Foraminifers
• Clara Blattler (Princeton University): Characterizing carbonate diagenesis in the Maldives through calcium and magnesium isotope analyses
• Gregor P. Eberli (RSMAS, University of Miami): Calibration on Monsoon-Related Drift Deposits and Testing the Extended Biot Theory in Carbonates
• Junhua Guo (California State University, Bakersfield): Aragonite cycles study in the basinal Site U1467: interplay of climatic influence, diagenetic alternation, and sea-level change
• Juan Carlos Laya Pereira (Texas A&M University): Diagenetic evolution of the Miocene Kardiva Platform and shallow contourite deposits, The Maldives. Implication for the sedimentary evolution of the carbonate deposits
• Anna Ling Hui Mee (University of Miami, Rosenstiel School of Marine and Atmospheric Sciences): Influence of Ocean Currents on the Kardiva Platform Drowning
• Angela L. Slagle (Columbia University): FMS images from carbonate drift sequences in the Maldives Inner Sea, IODP Expedition 359: Electrofacies analysis and astrochronology
• Peter K. Swart (University of Miami): Linking the Carbon Isotope Stratigraphy of the Maldives (Exp 359) with the Pelagic Record
• James D. Wright (Rutgers University): Foraminiferal Stable Isotope Measurements on the Plio-Pleistocene section at Site U1467: Oxygen Minimum Zone and Thermocline Variations

• Tamara Jeppson (U.S. Geological Survey): Hydraulic and frictional properties of Nanaki Trough accretionary prism materials at hydrothermal conditions
• Christine Regalla (Northern Arizona University): Restoration of deformation of the Nankai frontal thrust, Site C0024
• Gilles Guerin (Lamont-Doherty Earth Observatory): LWD acoustic velocity and attenuation, IODP Hole C0024A
• Zirou Jim (University of Wisconsin-Madison): Measuring the viscous properties of Nankai accretionary prism materials – inferring stress accumulation rate from strain rate budgets
• Hiroko Kitajima (Texas A&M University): Expedition 358 PEA: Strength and P-wave velocity of rocks from Site C0002
• Gregory F. Moore (University of Hawaii): Core-log-seismic integration and structural restoration at Site C0024
• James C Sample (Northern Arizona University): Geochemical determinations of carbonate temperature, age, and fluid sources from Site C0002, Expedition 358
• Hiroki Stone (University of Wisconsin-Madison): Containing in-situ stress from borehole breakout analysis acknowledging static and dynamic mud weights
• Michael B. Underwood (New Mexico Institute of Mining & Technology): Clay mineral assemblages and diagenesis in the inner accretionary prism of Nankai Trough: IODP Expedition 358

• William Brazelton (University of Utah): Brazelton Post-Expedition Activity Proposal for IODP Expedition 357: Serpentinization and Life
• Emilio Herrero-Bervera (University of Hawaii at Manoa): Rock Magnetic and Magnetostratigraphy study of IODP Expedition 357
• Barbara E. John (University of Wyoming): Constraints on the formation of oceanic detachment faults: a textural and microstructural study of early/high-temperature fault rocks from Atlantis Massif (IODP Expedition 357)
• Susan Q. Lang (University of South Carolina): Identifying the potential metabolisms of microorganisms living in the Atlantis Massif subsurface using lipid biomarkers: IODP Expedition 357
• Marvin Lilley (University of Washington): Hydrogen and methane in Expedition 357 core samples
• Lisa Mayhew (University of Colorado – Boulder): Fe transformations and changing mineralogy in (ultra)mafic rocks of the Atlantis Massif
• Beth Orcutt (Bigelow Laboratory for Ocean Sciences): Post-Expedition Award for IODP X357: Single-Cell Approaches to Determine Microbial Diversity and Function in an Actively Serpentinizing System
• Matthew O. Schrenk (Michigan State University): Rates and Pathways of Microbial Sulfate Reduction in Subseafloor Habitats of the Atlantis Massif

• Kara Bogus (Texas A&M University): Paleoclimate of northwestern Australian shelf: insights from palynology and geochemisty
• Isla S. Castaneda (University of Massachusetts Amherst): Mid-Late Pliocene multi-proxy organic geochemical sea surface temperature history of the NW Australian shelf
• Beth Christensen (Adelphi University): Dust and Downslope Transport: Measures of continental climate and oceanographic change on the Plio-Pleistocene NW Australian shelf
• Craig Fulthrope (The University of Texas at Austin): Late Miocene Siliciclastic Influx and Plio-Pleistocene Reef Development on the Australian Northwest Shelf
• Michael C. Gurnis (California Institute of Technology): Post Miocene tectonic subsidence and geodynamic interpolations from the western margin of Australia
• Michelle A. Kominz (Western Michigan University): Tectonic Subsidence of Australia’s Northwest Shelf
• Emily Levin (University of California, Davis): High Resolution Environmental Magnetic Study of Pilocene Sediments from the Northwestern Shelf, Australia
• Cecilia M. McHugh (Queens College C.U.N.Y): Aridity and Monsoon Climatic Patterns for the Neogene and Quaternary, NW Australia
• Donald C. Potts (University of California, Santa Cruz): IODP 356-Macrofossil Analyses

• Elizabeth Morris Griffith (Ohio State University): Indus Basin record of Himalayan weathering intensity: evidence from riverine 87Sr/86Sr
• Denise K. Kulhanek (Texas A&M University): Calcareous nannofossils from IODP Expedition 355: Biostatigraphy, productivity and alkenone pCO2 estimates, and a possible new proxy for provenance
• Mitchell Lyle (Oregon State University): Carbonate-oragnic carbon variation in the Arabian Sea: Pleistocene and Miocene sections of U1457
• Peter D. Clift (Louisiana State University): Reconstructing long-term weathering and provenance evolution of the Indus Basin
• Sophie Warny (Louisiana State University): Pollen record as a proxy of monsoon precipitation and vegetation change
• Sarah J. Feakins (University of Southern California): Biomarker reconstructions of monsoon precipitation and vegetation change
• Lisa Tauxe (Scripps Institution of Oceanography): Rock and paleomagnetic investigations of Expedition 355 materials
• Sherwood W. Wise (Florida State University): Miocene-Pliocene Calcareous Nannofossil Biostratigraphy of IODP Site U1457 Arabian Sea

• Jarrett Cruz (Florida State University): Calcareous nannofossil biostratigraphy from Expedition 354 (Bengal Fan)
• Petra Dekens (San Francisco State University): Reconstructing SST and SSS in the Bay of Bengal
• Valier Galy (Woods Hole Oceanographic Institution): Evolution of the Indian Monsoon since the Paleocene: implications for the global C cycle
• James Gleason (University of Michigan): U-Pb detrital zircon geochronology and provenance of Bengal Fan turbidite sands
• Camilo Ponton (University of Southern California): Long-term monsoon evolution: atmospheric circulation, precipitation regimes and vegetation cover
• Brendan Reilly (Oregon State University): Mid to Late Pleistocene stratigraphy of the 8 degrees N Bengal Fan transect: chronology and characterization of Pleistocene hemipelagic layers and their over/underlying turbidites
• Kimberly Rogers (University of Colorado): Himalayan drainage history from detrital zircon U-Pb and Hf isotope geochronology of Bengal Fan turbidite sands
• Peter Selkin (University of Washington Tacoma): Rock magnetism of Quaternary clastic deposits from the Bengal Fan, IODP Expedition 354
• Trevor Williams (Columbia University): K/Ar and Ar/Ar thermochronology of sediment grain size fractions to understand Himalayan uplift and erosion, IODP Expedition 354

• Steve Clemens (Brown University): Initial processing for benthic and planktonic 18O, Sites U1446 and U1448
• Liviu Giosan (Woods Hole Oceanographic Institution): Assessing the potential for source and weathering proxies for monsoon paleohydrological reconstructions of the Bay of Bengal
• Yongsong Huang (Brown University): Pilot study of IODP 353 samples: using organic geochemical proxies to reconstruct Indian monsoon at orbital and tectonic timescales
• Priyank Jaiswal (Oklahoma State University): Imprints of monsoonal cyclicity in sediment physical properties
• John Kirkpatrick (University of Rhode Island): Coupling of ammonium oxidation and sulfate reduction in the Bay of Bengal Sediment
• Stephen Phillips (University of New Hampshire): Millenial-scale variability in lithogenic sediment accumulation and productivity in the Bay of Bengal
• Marci Robinson (Brown University, USGS): Progress toward a Pliocene sea surface salinity gradient reconstruction in the Bay of Bengal
• Katie Taladay (University of Hawaii): Weathering and erosional response of the eastern Himalaya to changing monsoon strengths, glacial cycles, and tectonic uplift: using a multi-proxi approach
• Kaustubh Thirumalai (University of Texas at Austin): Holocene and late Pleistocene variability of Indian monsoon intensity

• Aaron Avery (Florida State University): Biostratigraphy of Sites 1439A, 1440B, and 1442A of IBM Forearc
• Gail Christeson (University of Texas Institute for Geophysics): IBM Forearc logging data: comparison with oceanic crust
• Eric Ferre (Southern Illinois University): Calcite fractures and veins: oxygen isotopes, fabric and alterations
• Daniel Heaton (Oregon State University): High precision ⁴⁰Ar/³⁹Ar geochronology of the Izu Bonin Mariana Forearc, IODP Expedition 352
• Wendy Nelson (University of Houston): Fingerprinting mantle melting in the earliest subduction zone lavas using Re-Os isotopes and PGEs
• Katerina Petronotis (Texas A&M University): Rock magnetic properties of sediments from Expedition 352 IBM Forearc Sites U1439 and U1440
• Mark Reagan (University of Iowa): Microbeam analyses of boninite and fore-arc basalt glasses from IODP Expedition 352
• Jeffrey Ryan (University of South Florida): Fluid-mobile and trace element characterization of Expedition 352 igneous rocks
• William Sager (University of Houston): Paleomagnetism of IODP Expedition 352 igneous and basalt sediment samples: evidence for paleolatitude change and crustal formation
• John Shervais (Utah State University): Chemical stratigraphy of volcanic rocks from Expedition 352 – major and trace element geochemistry by XRF and ICPMS

• Mohammed Aljahdali (Florida State University): Oligocene Calcareous Nannofossil Biostratigraphy of Site U1438 in the Western Pacific Ocean
• Andrew Barth (Indiana University–Purdue University Indianapolis): Zircon U‐Pb Geochronology for Site U1438, Amami Sankaku Basin
• Kara Bogus (Texas A&M University): Palynology and Palynomorph Geochemistry through the Neogene at IODP Site U1438: paleoclimate and post-depositional implications
• Michael Gurnis (California Institute of Technology): Validating Thermal, Subsidence and Seismic Models for Site U1438: Towards a Plate Tectonic and Geodynamic Integration of the Amami Sankaku Basin
• Rosemary Hickey-Vargas (Florida International University): Major and Trace Element Studies of Rocks Recovered on IODP Expedition 351
• Lorne Loudin (University of New Hampshire): Isotopic Signatures of Miocene Sediments from the Amami Sankaku Basin, Expedition 351: Implications for the Onset of the Asian Monsoon
• Kathleen Marsaglia (California State University Northridge): The Sedimentary/Volcaniclastic Record of Subduction Initiation and Magmatic Arc Development at IODP Site U1438
• Frank Tepley (Oregon State University): Major and Minor Elemental Characterization of Paleogene and Neogene Tephra From the Northern Izu-Bonin-Mariana Arc, and of Volcanic Phases from Basaltic Oceanic Crust of the Philippine Sea Plate
• Gene Yogodzinski (University of South Carolina): Hf-Nd Isotopes in Volcanogenic Samples from IODP Site 1438

More information on Expedition 351 (Izu Bonin Mariana Arc Origins)

• Graham Andrews (California State University, Bakersfield): Zircon Geochronology and Compositions to Constrain Magmatic and Sedimentary Processes in the Izu Rear Arc
• Peter Blum (Texas A&M University): High-Resolution K, Th, and U Stratigraphy from Natural Gamma Radiation Record of Mud-Rich Tephra Sequence at Rear-Arc Site U1437
• Cathy Busby (University of California, Santa Barbara): Zircon Geochronology and Compositions to Constrain Magmatic and Sedimentary Processes in the Izu Rear Arc
• Susan DeBari (Western Washington University): Testing Hypotheses for Magma Differentiation in the Izu Bonin Rear Arc – The Generation of Intermediate and Felsic Magmas through Time
• Zachary Kita (University of Nebraska-Lincoln): The Mid-Pleistocene Transition: Comparison of Japan Sea and Philippine Sea Calcareous Nannofossil Assemblages
• Kevin Konrad (Oregon State University): Understanding the Evolution of the Izu Arc Through High Resolution 40Ar-39Ar Geochronology of Site U1437, IODP Expedition 350
• Julia Ribeiro (University of Texas at Dallas): Volatile Cycle in the Izu-Bonin Intraoceanic Arc from Miocene to Quarternary
• Axel Schmitt (University of California, Los Angeles): Zircon Geochronology and Compositions to Constrain Magmatic and Sedimentary Processes in the Izu Rear Arc
• Robert Stern (University of Texas at Dallas): IODP 350 Probes a Distal Arc Volcaniclastic Apron: A Synoptic View from Integrating Logs
• Susanne Straub (Columbia University): Quantification of Dispers Volcanic Ash in IODP Site 1437 (Izu Rear Arc)

More information on Expedition 350 (Izu Bonin Mariana Forearc)

• Elizabeth Brown (University of South Florida): Geochemical and Morphological Discrepancies in Fossil Foraminifera: A Temporal Comparison to Modern Morphotypes in the South China Sea
• Peter Clift (Louisiana State University): Reconstructing Weathering and Provenance Evolution in Southeast Asia Since 17 Ma
• Frederick Colwell (Oregon State University): Microbiology of Sediment Interfaces in Deep Cores from the South China Sea
• Anthony Koppers (Oregon State University): High-precision 40Ar/39Ar Geochronology of Oceanic Basement, A Seamount Apron Series and Air Fall Tuffs from the South China Sea
• Denise Kulhanek (Texas A&M University): Oligocene Calcareous Nannofossil Biostratigraphy and Paleoceanography of IODP Site U1435, South China Sea
• Jian Lin (Woods Hole Oceanographic Institution): Seismic Stratigraphy and Downhole Geophysical Record of the South China Sea
• Trevor Williams (Columbia University): Heat Flow and Synthetic Seismograms from Downhole Measurements in the South China Sea, IODP Expedition 349
• Sophie Warny (Louisiana State University): Palynological Analysis of Sediments Recovered from the South China Sea Expedition
• Xixi Zhao (University of California, Santa Cruz): Magnetostratigraphy and Rock Magnetic Study of Sediments and Rocks from IODP Expedition 349

More information on Expedition 349 (South China Sea Tectonics)

• Brian Boston (University of Hawaii at Manoa): Log-Seismic Integration for Expedition 348, Hole C0002F/N
• Kevin Brown (University of California, San Diego): IODP Expedition 348: Nankai Smectite Studies
• Demian Saffer (Pennsylvania State University): Triaxial Strength and Deformation Experiments on Core Samples from the Inner Wedge, Expedition 348
• James Sample (Northern Arizona University): Thermal and Fluid History of Fault Zones from Isotopic Analysis of Carbonate Veins and Cements, Nankai Megasplay Fault System
• Anja Schleicher (University of Michigan): The Formation of Asperities in Clay Rich Rocks of the Accretionary Prism, Nankai Subducation Zone
• Chen Song (University of Missouri-Columbia): Clay Mineral Assemblages andPermeability at Intermediate Depths of the Nankai Accretionary Samples from IODP Expedition 348
• Harold Tobin (University of Wisconsin-Madison): Structure, Mechanics, Physical Properties, and Inferred Stress Conditions in the Nankai Accretionary Prism Inner Wedge, Site C0002
• Robert Valdez (Pennsylvania State University): New Insights into the Mechanical and Hydraulic Properties of the Deep Interior of the Nankai Accretionary Prism

More information on Expedition 348 (NanTroSEIZE Plate Boundary Riser 3)

• Jeanine Ash (University of California Los Angeles): Carbonate Clumped-Isotope and Triple Oxygen Analysis of Baltic Sea Foraminifera to Constrain Quaternary Temperatures and Hydrology
• Dalton Hardisty (University of California at Riverside): A Chromium Record of Baltic Hypoxia
• Emilio Herrero-Bervera (University of Hawaii at Manoa): Magnetostratigraphy and Rock Magnetic Characterization Study of IODP Expedition 347 Sites M0059, 60, 65, 66, and 67
• Nadine Quintana Krupinski (University of California at Santa Cruz): The Baltic Sea: A Marginal Marine Environment as a Potential Recorder and Player in Global Climate
• Ellen Martin (University of Florida): Gateways, Circulation and Salinity in the Baltic Sea During the Holocene and Weichselian
• Sandra Passchier (Montclair State University): Understanding Ice Dynamics, Meltwater Discharge, and Paleocirculation in the Baltic Sea Paleoenvironment Through Laser Particle Size and XRF Analysis
• Natascha Riedinger (University of California at Riverside): The Impact of Glacial-Interglacial Sedimentary Cycles on the Metal Inventory and its Consequence for the Deep-Biosphere in the Baltic Sea, IODP Expedition 347
• Anna Stepanova (Texas A&M University): Late Pleistocene-Holocene Ostracoda and Environmental Changes in the Baltic Sea
• Sarah Strano (Oregon State University): Expedition 347 Paleomagnetism and Age Model: Initial Chronologic Constraints for Glacial Baltic Sea Basin Sediments Records
• Jonathan Warnock (Northern Illinois University): Diatom-Based Salinity and Pollution Reconstructions of the Holocene and Recent Baltic Sea

More information from Expedition 347 (Baltic Sea Paleoenvironment)

• William Anderson (Florida International University): Late Pleistocene Organic Matter Stable Isotope Stratigraphies of Selected IODP 346 Sites
• Bobbi Brace (University of Nebraska-Lincoln): Calcareous Nannofossil Assemblage Changes during the Middle Pleistocene Transition: Evidence from IODP Site U1427 in the Japan Sea/East Sea
• Steven Clemens (Brown University): Stable Isotopes of Planktonic Foraminifera from East China Sea Site U1429
• Gerald Dickens (Rice University): Carbon and Sulfur Cycling in Shallowly Buried Sediment of the Japan Sea/East Sea
• Ann Dunlea (Boston University): Provenance Variations, NGS Enhancement, and Scanning XRF Calibration in Sediment from Japan Sea/East Sea
• Liviu Giosan (Woods Hole Oceanographic Institution): Developing Paleoenvironmental Proxies for the Sea of Japan/East Sea Based on Color Spectrophotometry and XRF Scanning
• Christopher Kinsley (Massachusetts Institute of Technology): Assessing the Use of Radiogenic Isotopes to Track Past Changes in Westerly Jet Position
• Richard Murray (Boston University):  Volcanic Ash in Sediment from the Japan Sea/East Sea and East China Sea
• Larry Peterson (University of Miami): Deep Ventilation of the Sea of Japan/East Sea and its Relationship to Plio-Pleistocene Climate Change
• Carlos Alvarez Zarikian (Texas A&M University): Ostracod Variability During the Last Glacial Cycle and Interglacials MIS 5, MIS 9, and MIS 11, and Their Linkages to Bottom Water Ventilation and Climate Variability in the East China Sea and the Japan Sea

More information on Expedition 346 (Asian Monsoon)

• Michael Cheadle (University of Wyoming): The Formation of Cumulates and of Layering in the Lower Oceanic Crust at Hess Deep (IODP Expedition 345): A Combined Multidisciplinary, High-Resolution Approach
• Sarah Friedman (Southern Illinois University): Rock Magnetic Properties of the Lower Oceanic Crust at Hess Deep, IODP Expedition 345
• Andrew Horst (Syracuse University): Magnetic and Textural Analysis of Foliated Gabbros
• Barbara John (University of Wyoming): Growth and Cooling of Fast Spread Gabbroic Ocean Crust at Hess Deep (IODP Expedition 345): An Integrated Geochronologic and Trace-Element Approach
• Naomi Marks (University of California, Davis): Characterizing the Fluid-Rock Interaction of the Lower Plutonic Crust at Hess Deep
• Jonathan Snow (University of Houston): Lithostratigraphy of IODP Site U1415 Gabbros
• Robert Wintsch (Indiana University): Bulk Mineralogy and Geochemistry of the Lower Crust at a Fast Spreading Center: The EPR at the Hess Deep

More information on Expedition 345 (Hess Deep Plutonic Crust)

• Richard Berg (University of Washington): Characterization of Fluid Sources and Biogeochemical Cycling at the CRISP-A2 Research Sites
• Ashley Burkett (Indiana State University): Preliminary Investigations into Geochemical Changes of Benthic Foraminiferal Calcite Offshore Costa Rica
• Robert Harris (Oregon State University): The Thermal and Fluid Flow Regine of the CRISP Transect (CRISP-2A) and Their Implications
• Miriam Kastner (University of California, San Diego): Composition, Origin, Pathways, and Role of Fluids in the Costa Rica CRISP II Subduction Zone
• Alberto Malinverno (Columbia University, LDEO): Present Horizontal Stress Orientation in the Costa Rica Subduction Margin from Borehole Breakout Analysis
• Cristina Millan (Ohio State University): Analysis of Mineral-Fluid and Veins: Implications for the Structural and Hydrological Regime across an Erosional Convergent Margin
• Katerina Petronotis (Texas A&M University, IODP): Magnetostratigraphy and Paleolatitutde Studies of IODP Expedition 344 (CRISP) Drill Sites
• Demian Saffer (Pennsylvania State University): High Stress Consolidation, Ultrasonic, and Permeability Measurements: Constraints on Physical Properties and in situ Stress along the Costa Rica Plate Interface
• Elizabeth Screaton (University of Florida): Permeabilities of Expedition 344 Samples and Implications for Fluid Flow
• Evan Solomon (University of Washington): Geochemical Investigations of Fluid/Rock Reactions and the Nature of Fluid Flow along the CRISP Transect
• Susanne Straub (Columbia University, LDEO): The Impact of Subduction Erosion on the Central American Volcanic Arc
• Marta Torres (Oregon State University): Isotopic Tracers of Fluid Sources, Pathways and Diagenetic Reactions at Site U1380 and U141
• Xixi Zhao (University of California, Santa Cruz): Paleomagnetism of Sites U1380, U1381, U1413, and Basement Rocks of Site U1414

More information on Expedition 344 (Costa Rica Seismogenesis Project, Program A Stage 2; CRISP-A2)

• Frederick Chester (Texas A&M University): Use of Drilling Data to Constrain Stress State and Sediment Strength
• Patrick Fulton (University of California, Santa Cruz): Post-Expedition Research: Effects of Rapid Heating on JFAST Clays
• Tamara Jeppson (University of Wisconsin-Madison): Ultrasonic Velocity Derivation of Elastic Properties from the japan Fast Trench Drilling Project
• James Kirkpatrick (University of California, Santa Cruz): Catching the Quake: Core Observations of the Tohoku Rupture
• J. Casey Moore (University of California, Santa Cruz): Visualizing the Structural Context of a Plate Boundary Thrust
• Christine Regalla (Pennsylvania State University): Age and Accretion History of the Frontal Wedge Using ¹⁰Be
• James Sample (Northern Arizona University): Investigation of the Geochemistry of Interstitial Waters and Sediments from JFAST Expedition 343

More information on Expedition 343 (Japan Trench Fast Drilling Project; JFAST)

• Peter Blum (Texas A&M University, IODP): High-resolution Chemo- and Cyclo-stratigraphy of North Atlantic E/O and O/M Transitions
• Pincelli Hull (Yale University): Timing and Paleoceanography of Targeted Eocene Intervals at the Southeast Newfoundland Ridge
• Christopher Junium (Syracuse University): Cretaceous and Paleogene Nitrogen and Sulfur Cycle Dynamics: The Record from the Newfoundland Drifts
• Sandra Kirtland Turner (University of California, San Diego): Exploring
• Climate Variability in the Early Eocene
• Peter Lippert (University of Arizona): Magnetostratigraphy of Upper Eocene to Lower Oligocene Drift Sediments from the North Atlantic (IODP Sites U1404, U1406, and U1411, Expedition 342)
• Richard Norris (University of California, San Diego): Origin of Paleogene Carbonate Accumulation Events
• Donald Penman (University of California, Santa Cruz): High-­resolution Benthic Foraminifer Stable Isotope Stratigraphy of Chron 20r (Middle Eocene)
• Brian Romans (Virginia Polytechnic Institute): Late Eocene to Early Miocene (35-30 Ma) History of Deep-Western Boundary Current Activity in the Western North Atlantic
• Howie Scher (University of South Carolina): Glacial Evolution of Northern Hemisphere Ice Sheets Using Radiogenic Isotopes from Newfoundland Ridge Sediment Cores
• Jessica Whiteside (Brown University): Ecological Resilience to Ocean Deoxygenation and Acidification: Insight from Expedition 342

More information on Expedition 342 (Paleogene Newfoundland Sediment Drifts)

• Christina Belanger (South Dakota School of Mines & Technology): Dynamics and Drivers of Faunal Changes in Relation to Productivity and Oxygenation
• Laurel Childress (Northwestern University): Preliminary Investigation of Tectonic and Glacial Influence on Sedimentary Provenance in the Distal Surveyor Fan (Site U1417 by Geochemical and Biomarker Comparison
• Ellen Cowan (Appalachian State University): Identification of the Glacial Signal from the Southern Alaska Margin
• Sean Gulick (University of Texas at Austin): Integrating Expedition 341 Discoveries with Regional Seismic Images
• John Jaeger (University of Florida): Establishing the Sedimentary Source-to-Sink Record of Southern Alaska Cordilleran Ice Sheet Dynamics in the Pleistocene
• Alan Mix (Oregon State University): Gulf of Alaska Stratigraphy and Paleocoeanography
• Kenneth Ridgway (Purdue University): IODP Expedition 341 South Alaska Margin Tectonics, Climate and Sedimentation aboard the JOIDES Resolution
• Joseph Stoner (Oregon State University):
• Lindsay Worthington (University of New Mexico):
• Leah Schneider (Texas A&M University): Calcareous Nannoplankton Productivity across the Late Pleistocene-Holocene and Phytoplankton Interactions in the Gulf of Alaska
• Laureen Drab (Columbia University): Sediment Input Variation and Transport from Core and Logging Measurements in Sites U1417 and U1418, Expedition 341 Gulf of Alaska: Implications for Surveyor Fan Development and Plio-Pleistocene Climate Change
• Angela Slagle (Columbia University): Correlation of Borehole and Seismic Data in the Gulf of Alaska at Sites U1417, U1418, U1420, and U1421 through synthetic seismograms

More information on Expedition 341 (Southern Alaska Margin Tectonics, Climate & Sedimentation)

• Alistair Harding (University of California, San Diego) and Donna Blackman (University of California, San Diego): Steps Toward Quantifying Hydration of the Lithosphere within the Atlantis Massif Oceanic Core Complex

More information on Expedition 340T (Atlantis Massif Oceanic Core Complex)

• Mohammed Aljahdali (Florida State University): Calcareous Nannofossils Biostratigraphy of Site U1396 and Stable Isotope Stratigraphy
• Andrew Fraass (University of Massachusetts Amherst): The Paleoceanography of Site U1396, Expedition 340
• Robert Hatfield (Oregon State University): Construction of a Composite Record and Initial Magnetic Characterization of the Paleomagnetic Signal Recorded in Sediments from U1395 and U1396
• Matthew Hornbach (Southern Methodist University): Determining in-situ Pore-Pressure of Expedition 340 Submarine Slide Debris: Integration of Physical Properties Results with Rock Physics Models
• Michael Manga (University of California, Berkeley): Thermomechanical Properties of Expedition 340 Volcaniclastic Deposits
• Michael Martinez-Colon (University of South Florida): Late Pleistocene Paleoceanography and Benthic Foraminiferal Recolonization Events Associated with Tephra Layers at Hole U1397A
• Molly McCanta (Tufts University): Temporal Scales of Magma Storage Region and Conduit Processes: A Petrologic Investigation of Magmatic Evolution and Eruptive Cycles in the Lesser Antilles
• James McManus (Oregon State University): Major and Trace Element Analyses on Pore Fluids and Sediments from Expedition 340: Lesser Antilles Volcanism and Landslides
• Angela Slagle (Columbia University, LDEO): Core-log-seismic Integration at IODP Sites U1394, U1395, U1397, and U1399: An Approach to Velocity Modeling Based on Synthetic Seismograms
• Bongkeum Song (Virginia Institute of Marine Science): Sulfate Reducing Anaerobic Ammonium Oxidation as a Novel Bioenergetic Process in Deep Subseafloor Sediments

More information on Expedition 340 (Lesser Antilles Volcanism and Landslides)

• Gary Acton (University of California, Davis): Geomagnetic Field Variability and Environmental Change From a Study of Quaternary Sediments From Expedition 339, Mediterranean Outflow
• Barbara Balestra (Queens College, City University of New York): Coccolithophores as Ecological Proxies of Photic Zone Dynamics in the Late Quaternary in the Iberian Margin: Evidence from IODP Expedition 339
• Roger Flood (Stony Brook University): Sediment Structure and Bed Correlation Studies, IODP Expedition 339
• Lawrence Krissek (Ohio State University): Fine-fraction Mineralogy of Terrigenous Sediments from the Gulf of Cadiz Contourite Drift System: Contributions to Interpreting Depositional Processes, Paleoceanography, and Provenance
• Madeline Miller (California Institute of Technology): Expedition 339 Pore Water Studies
• Carl Richter (University of Louisiana at Lafayette): High-resolution Environmental Magnetic Properties and Relative Geomagnetic Paleointensity of IODP Expedition 339 Cores
• Alexandrina Tzanova (Brown University): Sensitivity and Role of the Mediterranean Sea on Climate through the Late Miocene/Pliocene – Tales from the Iberian Margin
• Trevor Williams (Columbia University, LDEO): Synthetic Seismograms for Lithostratigraphy-seismic Integration in the Gulf of Cadiz, IODP 339
• Chuang Xuan (Oregon State University): Age-Calibrated Centennial and Millennial Geomagnetic and Environmental Magnetic Variations from Portuguese Margin Sediments Cored on IODP Expedition 339, and Their Linkage to Oceanographic and Contourite Deposition Changes
• Carlos Zarikian (Texas A&M University, IODP): Variability in the Mediterranean Outflow Water (MOW) Circulation since the late Miocene and its Effects on Ostracod Assemblages Around the Iberian Margin

More information on Expedition 339 (Mediterranean Outflow)

• Brandon Dugan (Rice University): Pore-Scale Properties of Sediments from Site C0002
• Kitty Milliken, (University of Texas at Austin): High-Resolution SEM Imaging of Pores in Mudrocks of the Kumano Basin and Underlying Prism, Site C0002, Nankai Margin
• Greg Moore (University of Hawaii): Core-Log-Seismic Integration for Expedition 338, Site C0002
• Katelyn Olcott (Pennsylvania State University): Laboratory Measurements of Rock Mechanical Properties on Core and Stress Constraints at Site C0002 and Site C0022
• Sebastien Ramirez (University of Texas at Austin): Sand Provenance Study of Kumano Basin and Accretionary Prism at IODP C0002
• Derek Sawyer (Rice University): Insight into Submarine Landslide Flow Behavior from Particle Size Analysis and 3D Seismic, Site C0021, IODP Expedition 338
• Anja Schleicher (University of Michigan): Clay Mineralization in Sediments of the Nankai Subduction Zone
• Joanne Tudge (University of Wisconsin-Madison): LWD Lithostratigraphy and Correlations Between Slope Basin Sites, and Shikoku Basin Input Sites, at the
• Nankai Trough Accretionary Prism
• Mike Underwood (University of Missouri-Columbia): XRD Analyses of Clay Mineralogy using Samples from IODP Expedition 338
• Susanna Webb (University of Wisconsin-Madison): Resistivity Image Facies Analysis and LWD-based Structural Geology of the Inner Accretionary Prism and Basaltic Basement, Sites C0002 and C0012

More information on IODP Expedition 338 (NanTroSEIZE Stage 3: Plate Boundary Deep Riser 2)

• Jiason Fang (Hawaii Pacific University): Isolate Piezophilic Bacteria from the Deeply Buried Shimokita Coalbed and Determine Stable Carbon Isotope Biogeochemistry of the Piezophiles
• Wei-Li Hong (Oregon State University): Strontium Isotopes in Pore Fluid and Carbonate Recovered During Expedition 337
• Stephen Phillips (University of New Hampshire): Rock Magnetic Analysis and Authigenic Carbonate Characterization in Expedition 337 Sediments: Depositional and Diagenetic History Associated with a Terrestrial-Marine Transition and Sub-seafloor Coalbed
• Marcella Purkey (University of Nebraska-Lincoln): Late Neogene Marine Diatom Biostratigraphy and Paleoenvironmental History from Expedition 337 and 2006 Chikyu Shakedown Cruise Sediments
• Natascha Riedinger (University of California, Riverside): Metal Cycling and its Relevance in the Biogeochemical Processing of Carbon and Sulfur in Deep Subsurface Marine Sediments off Shimokita, Expedition IODP 337
• Justine Sauvage (University of Rhode Island): Microbial Energetics in Subseafloor Hydrocarbon Reservoirs, Shimokita Peninsula, Northwestern Pacific
• Glen Snyder (Rice University): Use of I-129 as a tracer of Organic Diagenesis in Coalbeds and as an Indicator of Drilling Mud Contamination in Rise Drilling Cores
• Elizabeth Trembath-Reichert (California Institute of Technology): Exploring Deep-Biosphere Potential for Methanotrophy, Diaztrophy, and Syntrophy

More information on Expedition 337 (Deep Coalbed Biosphere off Shimokita)

• Katrina Edwards (University of Southern California): Deep Biosphere Beneath North Pond
• Samuel Hulme (San Jose State University): Mapping Hydrothermal Circulation at North Pond Using Trace-Element Compositions of Pore Waters
• Tania Lado Insua (University of Rhode Island): C-14 Analysis of North Pond Pore Fluids
• Heath Mills (Texas A&M University): Characterization of the Metabolically Active Fraction of the Total Microbial Community within Expedition 336 North Pond Sediment and Basalt
• Joseph Russell (University of Delaware): Microbial Cultivations from Unexplored Subseafloor Ridge Flanks
• Geoff Wheat (University of Alaska Fairbanks): Post-Expedition Research for North Pond IODP Expedition 336

More information on Expedition 336 (Mid-Atlantic Ridge Microbiology)

• Jeffrey Alt (University of Michigan): Hydrothermal Alteration of the Dike-Gabbro Transition in Hole 1256D
• Jeremy Deans (Texas Tech University): Evaluating Strain in the Lower Oceanic Crust at Super Fast Spreading Rates, IODP Hole 1256D Expedition 335
• Henry Dick (Woods Hole Oceanographic Institution): An Investigation of the Down-Hole Mineralogy of Hole 1256D with Emphasis on the Dike-Gabbro Transition
• Eric Ferre (Southern Illinois University): Shape-preferred Orientation of Oceanic Gabbros at IODP Site 1256D and Implications for Magmatic Processes
• Gilles Guerin (Columbia University, LDEO): Permeability and Temperature in ODP/IODP Hole 1256D
• Mark Kurz (Woods Hole Oceanographic Institution): Preliminary Noble Gas Measurements in Oceanic Crust at U1256D
• Jessica Till (University of Minnesota): A Study of Magnetic Microstructure and Remanence in Intact Lower Oceanic Crust
• Masako Tominaga (Woods Hole Oceanographic Institution): The First Order Mechanical Property Measurements of the Intact Upper Crust and Gabbros Recovered from Hole 1256D
• Douglas Wilson (University of California, Santa Barbara): The Downhole Magnetic Field in ODP Hole 1256D
• Natalia Zakharova (Columbia University, LDEO): Shear Wave Anisotropy in Oceanic Crust Formed by Superfast Spreading

More information on Expedition 335 (Superfast Spreading Rate Crust 4)

• Susan Foley (Florida State University): Calcareous Nannofossils and Diatoms from IODP Expedition 334 Off Costa Rica: Shore-Based Studies
• Michael Formolo (University of Tulsa): Carbon Cycling and the Biogeochemistry of Redox Sensitive Elements in Deep Sediments from Expedition 334
• Robert Harris (Oregon State University): The Thermal Regime and Physical Properties of the CRISP Transect
• Alberto Malinverno (Columbia University, LDEO): Quantifying Borehole Shape in IODP Holes U1378A and U1379A from Density and Ultrasonic LWD Measurements
• Amanda Martino (Pennsylvania State University): Exploring for Life at Great Depth and Examining Patterns of Microbial Diversity in the Costa Rica Margin Subsurface
• Peter Sak (Dickinson College): Constraining the Rates, Timing, and Magnitude of Subduction Erosion Along the Middle American Trench
• Evan Solomon (University of Washington): Constraining Fluid Sources, Flow Pathways, and Fluid/Rock Reactions along the CRISP Transect
• Nicole Stroncik (Texas A&M University, IODP): Alteration Processes of Volcanic Material and Noble Gas Isotopic composition of Authigenic Carbonates Cored during Expedition 334
• Marta Torres (Oregon State University): Strontium and Carbon Isotopes in Fluids Recovered during Expedition 334
• Xixi Zhao (University of California, Santa Cruz): A Paleomagnetic Study of the Costa Rica Seismogenesis Project (CRISP)

More information on Expedition 334 (Costa Rica Seismogenesis Project, Program A Stage 1; CRISP-A1)

• Hugh Daigle (Rice University): Consolidation and Pore-scale Properties of Sediments from Sites C0011, C0012, and C0018, IODP Expedition 333, Nankai Accretionary Complex
• Mehmet Ekinci (University of Missouri-Columbia): Subduction Inputs to Nankai Trough: An Integrated Study of Permeability, Microfabric, and Clay Mineralogy using Samples from IODP Expedition 333
• Yongjun Gao (University of Houston): Depth-profile of Geochemical Compositions and Alterations of Basement Rock Prior to Subduction Front: IODP Drilling Site C0012
• Yuehan Lu (University of Alabama): Using Organic Geochemical Proxies of Sediment from the Site C0018 to Understand the Submarine Landslide history in the Nankai Trough, Southwest of Japan
• Beth Novak (Western Washington University): Paleomagnetism and Magnetic Fabrics of Expedition 333 Samples: Refined Magnetostratigraphy and Evaluation of Inclination Error of Nankai Trough Sediments
• Elizabeth Screaton (University of Florida): Permeabilities of Expedition 333 Samples and Implications for Fluid Flow
• Rachel Scudder (Boston University): Continued Assessment of Volcanic and Terrigenous Inputs to the Nankai Trough “Subduction Factory”
• Bora Song (Rice University): Experimental Deformation and Structural Analysis of Sediments from Sites C0011, C0012, and C0018, IODP Expedition 333, Nankai Accretionary Complex
• Marta Torres (Oregon State University): Strontium and Carbon Isotopes in Fluids and Carbonates Recovered during Expedition 333

More information on Expedition 333 (NanTroSEIZE Stage 2: Subduction Inputs 2 and Heat Flow)

• Rachel Lauer (Pennsylvania State University): Pore Pressure Analysis to Estimate Hydraulic Parameters and evaluate the Role of Aseismic Transients in the Seismic Cycle
• Demian Saffer (Pennsylvania State University): Analysis of observatory Data from IODP Sites C0010 and C0002

More information on Expedition 332 (NanTroSEIZE Stage 2: Riserless Observatory)

• Leah Brandt (Pennsylvania State University): Exploring Anaerobic Oxidation of Methane in the Deep, Hot Biosphere
• Juan Carlos Corona (Binghampton University, SUNY): XRD Analysis and Reitveld Refinement of Squeeze Cake Samples, and Electron Microprobe Analysis of Sulfide Mineralogy from Hydrothermal System
• Hilairy Hartnett (Arizona State University): Carbon in the Deep Hot Biosphere: Molecular-level Organic Characterization to Assess the Influence of Microbial Communities and High-Temperature Reactions in IODP Expedition 331 Cores
• Christopher House (Pennsylvania State University): Metagenomics of the Okinawa Back-arc Basin
• Sean McAllister (Western Washington University): Deep Subsurface Iron-oxidizing Bacterial Communities from the Iheya North Hydrothermal Field
• James McManus (Oregon State University): Reactive Iron, Major-Element, and Trace-Element Analyses on Sediments Associated with IODP Expedition 331: Deep Hot Biosphere.
• Craig Moyer (Western Washington University): Microbial Community Structure and Diversity of the Deep Hot Biosphere

More information on Expedition 331 (Deep Hot Biosphere)

• Michael Dorais (Brigham Young University): An Electron Microprobe and LA-ICPMS Study of the Silicate Minerals of the Louisville Seamount Samples
• Daniel Ebuna (University of California, San Diego): Correlation of Multichannel Seismic Profiles with IODP 330 Results
• Patrick Fulton (University of Texas at Austin): Characterization of Hydrogeologic Properties of Cretaceous-Age seamounts and Their Relationship to Alteration State
• Jeffrey Gee (University of California, San Diego): Evaluating the Paleolatitude History of the Lousiville Hotspot
• Johnathon Kell (University of Nebraska-Lincoln): Calcareous Nannofossils of the Louisville Seamounts
• Anthony Koppers (Oregon State University): High-Precision ⁴⁰Ar/³⁹Ar Geochronology of the Louisville Seamount Trail
• John Mahoney (University of Hawaii): Isotopic (Nd-Pb-Sr) Investigation of Igneous Rocks from the Louisville Seamount Trail, IODP Expedition 330
• Jason Sylvan (University of Southern California): Biomass, Culturability, and Diversity of Subsurface Microbes along the Louisville Seamount Trail

More information on Expedition 330 (Louisville Seamount Trail)

• Steven D’Hondt (University of Rhode Island): Quantification of Contamination Potential in South Pacific Gyre Sediment
• Helen Evans (Columbia University, LDEO): Absolute Paleointensity from the Cretaceous Long Normal
• Robert Harris (Oregon State University): The Hydrology and Evolution of Oceanic Crust as Documented by IODP Expedition 329, South Pacific Gyre Microbiology
• Bryce Hoppie (Minnesota State University, Mankato): Early Diagenesis in Subseafloor Sediment of the South Pacific Gyre
• Richard Murray (Boston University): Preliminary Assessment of the Subseafloor Inorganic Geochemistry of the South Pacific Gyre
• Brandi Reese (Texas A&M University): Characterization of the Metabolically Active Fraction of the South Pacific Gyre Subsurface Microbial Community
• David Smith (University of Rhode Island): Optimizing Cultures for Microorganisms Inhabiting Sediments of the South Pacific Gyre
• Arthur Spivack (University of Rhode Island): C-14 Analysis of Expedition 329 Sedimentary Pore Fluids
• Carlos Zarikian (Texas A&M University): Variability of Deep Water Masses in the South Pacific Gyre and Biostratigraphy of Expedition 329 Sites
• Wiebke Ziebis (University of Southern California): Microbial Activities in Deep Subsurface Sediments Underlying the Oligotrophic South-Pacific Gyre

More information on Expedition 329 (South Pacific Gyre Subseafloor Life)

• James Cowan (University of Hawaii): Sources and Sinks of Microbial Diversity and Organic Carbon of Sediment-Buried Basement Environments
• Andrew Fisher (University of California, Santa Cruz): Ridge-Flank Hydrogeologic Properties and Processes, IODP Expedition 327
• Samuel Hulme (University of Hawaii): Trace Element Analysis of Borehole Fluids and Pore Waters Collected on IODP Expedition 327, Juan de Fuca Ridge
• Katherine Inderbitzen (University of Miami): Clay Mineral Composition of Sediments from Grizzly Bare Seamount, Juan de Fuca Ridge Flank
• Amanda Turner (University of Southern California): Cross Comparison Studies of Microbiology and Alteration Reactions on Subseafloor Basalts
• Geoff Wheat (University of Alaska Fairbanks): Post-expedition Research for Juan de Fuca IODP Expedition 327
• Dustin Winslow (University of California, Santa Cruz): Characterization of Multi-scale Permeability Using Borehole and Regional Hydrothermal Models

More information on Expedition 327 (Juan de Fuca Ridge-Flank Hydrogeology)

• Andre Droxler (Rice University): IODP Expedition 325 Post-Cruise Research
• Emilio Herrero-Bervera (University of Hawaii): Rock Magnetic Characterization and Magnetostratigraphic Studies of Cores from the Great Barrier Reef
• Luigi Jovane (Western Washington University): Paleomagnetic and Environmental Magnetic Studies of Cores from the Great Barrier Reef
• Tania Lado-Insua (University of Rhode Island): Identification of Strata and Coral Communities by Multivariate Statistics on Physical Properties
• Brad Linsley (University at Albany, SUNY): Preliminary Analysis of IODP Expedition 325 Great Barrier Reef Coral Samples
• Heath Mills (Texas A&M University): Subsurface Microbial Ecology: Microbial Life Beneath the Great Barrier Reef
• Donald Potts (University of California, Santa Cruz): Identification and Validation of Isoporan Corals as Environmental Recorders
• William Thompson (Woods Hole Oceanographic Institution): U-series Coral Geochronology for the Great Barrier Reef

More information on Expedition 325 (Great Barrier Reef Environmental Changes)

• Helen Evans (Columbia University, LDEO): Lithostratigraphic Characterization of the Sediment Section from IODP Expedition 324 Shatsky Rise Using Downhole Logging Data
• Joerg Geldmacher (Texas A&M University, IODP): Hf Isotopic Measurements of Expedition 324 Rock Samples
• Andrew Greene (University of Hawaii): Investigation of the Source of Magmas that Erupted at Shatsky Rise using Os and Hf Isotopes
• Gerry Iturrino (Columbia University, LDEO): Lithological Characterization and Structural Analyses of Sediments and Lava Flows from Shatsky Rise Using Downhole Measurements
• Anthony Koppers (Oregon State University): High Precision ⁴⁰Ar/³⁹Ar Geochronology of Shatsky Rise
• John Mahoney (University of Hawaii): A Nd-Pb-Sr Isotopic Study of Shatsky Rise Basement, IODP Site U1350
• James Natland (University of Miami): Cr-spinel in Basalt from Shatsky Rise
• William Sager (Texas A&M University): Paleomagnetism of Igneous Samples from Shatsky Rise, Expedition 324
• Masako Tominaga (Woods Hole Oceanographic Institution): Downhole Log-based Lithology and Magnetic Characterization of Holes U1347A, U1348A, and U1349A at Shatsky Rise
• Stella Woodard (Texas A&M University): Constraining the Age of Subsidence History of the Shatsky Rise during the Cretaceous

More information on Expedition 324 (Shatsky Rise Formation)

• Ivano Aiello (Moss Landing Marine Laboratories): High-resolution Sedimentologic Analysis of Bering Sea Core Sediments
• Beth Caissie  (University of Massachusetts Amherst): Sea-ice History During Marine Isotope Stages 11 to 10 in the Bering Sea
• Mea Cook  (Williams College): Thin-section Study of Laminated Sediments from the Bering Slope (IODP Site U1345)
• Sarah Fowell (University of Alaska Fairbanks): Continental Climate and Marginal Sea Conditions: Palynology and Paleoclimate of Pleistocene Beringia
• Gilles Guerin (Columbia University, LDEO): Acoustic Logs Reprocessing and Seismic/Well Integration Bering Sea, IODP Expedition 323
• Steve Lund  (University of Southern California): Development of a Paleomagnetic Chronostratigraphic Framework for Quaternary Deep-Sea Sediments From IODP Expedition 323: Bering Sea Paleoceanography
• Alan Mix  (Oregon State University): Bering Sea Watermass History from Pore Water Isotope and Chlorinity
• Ana Christina Ravelo  (University of California, Santa Cruz): Sea Surface Temperature, Paleoproductivity, and Paleoclimatology of the Bering Sea during the Last 5 Million Years
• Heather Schrum (University of Rhode Island): The Biogeochemistry of Bering Sea Sediment
• Sam VanLaningham (University of Alaska Fairbanks): Examining Sea Level Change in the Bering Sea During the Last 150,000 years Using ⁴⁰Ar-³⁹Ar Terrigenous Sediment Fingerprints
• Emily Walsh (University of Rhode Island): The Microbial Community Composition of the Bering Sea Site U1344
• Carlos Zarikian (Texas A&M University, IODP): Glacial-Interglacial Variability in Intermediate and Deep Water Conditions in the Bering Sea during MIS 9-12 Based on C and O Isotopes and Benthic Foraminifer Assemblages from Sites Cored During IODP Expedition 323

More information on Expedition 323 (Bering Sea Paleoceanography)

• Brandon Dugan (Rice University): Compressibility and Permeability of Sediments from IODP Sites C0011 and C0012: Implications for Fluid Flow and Chemical Transport
• Matt Ikari (Pennsylvania State University): Friction and Permeability Measurements on Core Samples of Subduction Input Material: IODP Expedition 322
• Rachel Scudder (Boston University): Assessment of Volcanic Terrigenous Inputs to the Nankai Trough Subduction Factory
• Angela Slagle (Columbia University, LDEO): Correlation Between Core, Log, and Seismic Data in Shikoku Basin Sediments at IODP Sites C0011 and C0012
• Glenn Spinelli (New Mexico Institute of Mining and Technology): Amorphous Silica Alteration at the NanTroSEIZE Subduction Input Sites
• Marta Torres (Oregon State University): Strontium and Carbon Isotopes in Fluids and Carbonates Recovered During Expedition 322
• Michael Underwood (University of Missouri-Columbia): Clay Mineral Assemblages and Their Influences on Geotechnical and Frictional Properties: NanTroSEIZE Stage 2-Subduction Inputs
• Xixi Zhao (University of California, Santa Cruz): Magnetostratigraphy and Rock Magnetism of IODP Expedition 322

More information on Expedition 322 (NanTroSEIZE Stage 2: Subduction Input)

• James Channell (University of Florida): Magnetic Stratigraphy and Magnetic Properties of Neogene Sediments from IODP Expedition 320/321
• Kusali Gamage (Texas A&M University, IODP): Permeability Measurements and Fluid Flow of the Equatorial Pacific Biogenic Sediments
• Steven Hovan (Indiana University of Pennsylvania): Eolian Records of Tradewind Strength and Latitudinal Position of the ITCZ in the Tropical Pacific
• Mitchell Lyle (Texas A&M University): XRF Scanning for Profiles of Chemical Composition and Biogeochemical Cycling, Site U1338
• Alberto Malinverno (Columbia University, LDEO): An Astronomical Age Model Based on High-Resolution Downhole Logs at IODP Site U1337 and U1338
• Daniel Murphy (Texas A&M University): Pacific Abyssal Circulation Through the Neogene
• Leah Schneider (Pennsylvania State University): Equatorial Pacific Nannoplankton Assemblage and Productivity Response to mid-Miocene Cooling
• Bridget Wade (Texas A&M University): Early to Middle Miocene Biotic Evolution and Recalibration to the Global Polarity and Astronomical Time Scale
• Roy Wilkens (University of Hawaii): Detailed Sedimentation Rates at Site U1338, Equatorial Pacific, from Spectral Tuning

More information on Expedition 321 (Pacific Equatorial Age Transect I)

• Gary Acton (University of California, Davis): The Nature and Timing of Paleoenvironmental Change From a Study of the Magnetism and Color of Eocene and Oligocene Sediments from Expedition 320, Pacific Equatorial Age Transect (PEAT)
• Margaret Delaney (University of California, Santa Cruz): Redox Chemistry of Interstitial Waters and Sediments Expedition 320 Pacific Equatorial Age Transect
• Helen Evans (Columbia University, LDEO): Identifying the Rock Magnetic Signature of Chert and Porcellanite Layers in Sites U1331 and U1332 from Downhole Logging Data and Core Samples
• Lizette Leon-Rodriguez (Rice University): Lysocline Fluctuations of the Eocene in the Equatorial Pacific: Towards a Better Understanding of Oceans and the Global Climate Dynamics
• Theodore Moore, Jr. (University of Michigan): Paleogene Paleoceanographic Change
• Brandon Murphy (University of California, Santa Cruz): Sub-orbital Resolution Age Models for Major Events in the Greenhouse to Icehouse Transition
• Carl Richter (University of Louisiana at Lafayette): Magnetostratigraphy, Relative Paelointensity, and Rock Magnetic Studies on Cores from the IODP Equatorial Pacific Expeditions
• Rebecca Robinson (University of Rhode Island): Exploring Early Cenozoic Nitrogen Cycling in the Pacific Ocean Using Microfossil-bound N Isotopes
• Howie Scher (University of South Carolina): The Once Bimodal Pacific: Deep Water Circulation and Links to Abrupt Climate Change
• Trevor Williams (Columbia University, LDEO): Characterization of High Levels of Natural Gamma Radioactivity and Uranium in the Top 2 meters of Sediment Column in the Eastern Equatorial Pacific

More information on Expedition 320 (Pacific Equatorial Age Transect)

• David Boutt (University of Massachusetts Amherst): Permeability Anisotropy and Poroelastic Property Evolution of Mudstones recovered from Expedition 319
• Timothy Byrne (University of Connecticut): Structural Geology of the Forearc of the Eastern Nankai Trough: Constraints from Corescale Observations from IODP Expedition 319 and Seismic Reflection data, Southwest Japan
• Peter Flemings (University of Texas at Austin): Geotechnical Characterization of IODP Site C0009 and Petrophysical Analysis of the Megasplay Fault at IODP Site C0010
• Nicholas Hayman (University of Texas at Austin): Structural Geology of Cores Recovered during IODP Expedition 319
• Shijun Jiang (Florida State University): Lower Pliocene-Upper Miocene Calcareous Nannofossil biostratigraphy of Site C0009, IODP Expedition 319 to the Nankai Trough off Japan
• J. Casey Moore (University of California, Santa Cruz): Borehole Images and Borehole Failure: Why We See What We See
• Demain Saffer (Pennsylvania State University): Experimental Measurements of Permeability and Vp & Vs in Core Samples: IODP Expedition 319
• Anja Schleicher (University of Michigan): Nature and Origin of Clay Mineralization in Sediments of the Nankai Subduction Zone

More information on Expedition 319 (NanTroSEIZE Stage 2: Riser/Riserless Observatory 1)

• Stephanie Carr (Colorado School of Mines): Microbiology Characterization of Labile Carbon and Microbial Communities of Deep Marine Sediments
• Robert Dunbar (Stanford University): Initial Characterization of Site U1357 Cores: Towards Development of an Annually Resolved Record of Climate and Glacial Variability in East Antarctica
• Travis Hayden (Western Michigan University): Understanding Compaction of Diatomite as a Function of Both Time and Depth, and One-Dimensional Backstripping the Wilkes Land Margin: Constraining Magnitude and Duration of Extension and Rifting
• Matthew Olney (University of South Florida): Investigating the Occurrence of Sea Ice Using Diatoms and Quartz Grain Textural Analysis
• Sandra Passchier (Montclair State University): Cenozoic Antarctic Ice-Sheet Dynamics Based on Ice-Rafted Debris and Bulk Sediment Geochemical Studies of Sites U1356, U1358, and U1359
• Stephen Pekar (Queens College, City University of New York): Investigating the Timing and Locations of When and Where the East Antarctic Ice Sheet Reached Present-Day (and Larger) Size during the Oligocene
• Christina Riesselman (Stanford University): Sea Ice, Nutrient Utilization, and Primary Production on the Wilkes Land Margin, Antarctica
• Lisa Tauxe (University of California, San Diego): Post-cruise Paleomagnetic Research
• Trevor Williams (Columbia University, LDEO): Late Miocene Cycle Stratigraphy from Downhole Logs from IODP Sites U1359 and U1361, Wilkes Land

More information on Expedition 318 (Wilkes Land Glacial History)

• Staci Blair (Florida State University): Calcareous Nannofossil Biostratigraphy of IODP Expedition 317, Canterbury Basin (New Zealand): Applications to Sequence Stratigraphy and Paleoceanography
• Beth Christensen (Adelphi University): Pliocene and Older Benthic Foraminiferal Biofacies of the Canterbury Basin
• Craig Fulthorpe (University of Texas at Austin): Integration of Seismic Interpretations and Expedition 317 Coring and Logging Results
• Gilles Guerin (Columbia University, LDEO): Acoustic Logs Reprocessing and Petrophysical Characterization of Shelf Sands, Canterbury Basin, IODP Expedition 317
• John Jaeger (University of Florida): Sediment Dispersal Processes Affecting Strata Development on the Canterbury Continental Margin; a Mineralogical Approach to Sedimentary Provenance
• Michelle Kominz (Western Michigan University): Porosity Measurement and Lithology Dependence:
  IODP Expedition 317 Canterbury Basin Sea Level
• Kathleen Marsaglia (California State University, Northridge): Sand Provenance and Sandstone Diagenesis in the Canterbury Basin, New Zealand
• Cecilia McHugh (Queens College, City University of New York): Sedimentation Processes During Sequence and Sequence Boundary Development: Canterbury Basin, New Zealand
• Mathieu Richaud (California State University, Fresno): High-resolution Foraminiferal Constraints on Paleobathymetry during a Late Quaternary Transgressive-Regressive Sequence, Canterbury Bight, New Zealand
• Angela Slagle (Columbia University, LDEO): Wireline Log-based Stratigraphy along a Shelf-Slope Transect in the Canterbury Basin, New Zealand

More information on Expedition 317 (Canterbury Basin Sea Level)

• David Goldsby (Brown University): An Experimental Investigation of the Frictional Behavior of Nankai Trough Sediments and Rocks Recovered from Expedition 316 Drilling
• Robert Harris (Oregon State University): Analysis of Thermal Data and Divided Bar Measurements on Samples Collected during IODP Expedition 316
• Matthew Knuth (University of Wisconsin-Madison): Ultrasonic Velocity Derivation of Elastic Properties and the Implications for Porosity and Effective Stress in the Slope Sediments and Underthrust Sections of the Nankai Accretionary Prism Seaward of the Kumano Basin
• Kitty Milliken (University of Texas at Austin): Post-expedition Studies in Sedimentary Petrology, NanTroSEIZE Expedition 316, Frontal Splay and Thrust Faults
• Elizabeth Screaton (University of Florida): Expedition 316 Permeabilities and Implications for Fluid Flow Driven by Thrust Faulting
• Evan Solomon (University of California, San Diego): Sr, Li, Cl, and He Isotope Systematics in the Nankai Accretionary Prism: Implications for Fluid Sources, Pathways, and Budgets
• Xixi Zhao (University of California, Santa Cruz): A Magnetostratigraphic and Rock Magnetic Study of Sediments and Rocks from IODP Expedition 316

More information on Expedition 316 (NanTroSEIZE Stage 1: Shallow Megasplay and Frontal Thrusts)

• Timothy Byrne (University of Connecticut): Structural Geology of the Forearc-Prism Boundary: Constraints from IODP Expedition 315 across the Nankai Trough, Southwest Japan
• Junhua Guo (University of Missouri, Columbia): Fabric, Composition, and Consolidation State of Sediment at Nankai Prism, IODP Expeditions 315 and 316
• Samuel Hulme (University of Hawaii): Rare Earth Element Behavior in the Nankai Trough Subduction Zone Traces the Paths of Subduction Fluids in an Accreting Margin
• Jonathan Lewis (Indiana University of Pennsylvania): Geometry, Kinematics, and Relative Ages of Core-scale Faults at Site C0001 of IODP Expedition 315: Core, Thin Section, and CT-Scan Constraints
• William Likos (University of Missouri, Columbia): Laboratory Characterization of Fault-Zone Hydrologic Properties
• Josep Pares (University of Michigan): Fabric Evolution of Sediments at Nankai Accretionary Prism using Rock Magnetism and X-Ray Analysis
• Michael Underwood (University of Missouri, Columbia): Influence of Mudstone Composition and Fabric on Geotechnical Properties: NanTroSEIZE Stage 1
• Wenlu Zhu (University of Maryland): Effect of Clay Content and Mineralogy on Mechanical and Transport Properties of NanTroSEIZE Core Samples

More information on Expedition 315 (NanTroSEIZE Stage 1: Megasplay Riser Pilot)

• Sean Gulick (University of Texas at Austin): Scales of Deformation in Fault Zones from the Nankai Trough using Seismic-Logging-While-Drilling Correlations
• Kylara Martin (University of Texas at Austin): Differences in Resistivity Measurements and Implications for Lithology, Permeability, and Fracture Characteristics, Nankai Trough, Japan
• J. Casey Moore (University of California, Santa Cruz): Characterization and Evolution of Faults and Stress Orientation across the Accretionary Prism
• Dale Sawyer (Rice University): Expanded Processing of Checkshot and VSP Data From the Nankai Trough and Comparison with Other Measures of Subsurface Velocity
• Harold Tobin (University of Wisconsin-Madison): Contrasting Mechanics, Seismic Structure, and Inferred Stress Conditions in the Nankai Accretionary Prism, Kumano Region

More information about Expedition 314 (NanTroSEIZE Stage 1: LWD Transect)

• Miriam Katz (Rennselaer Polytechnic Institute): Sequence Stratigraphy and Paleoenvironmental Reconstructions from Benthic Foraminifera: Insights on Controls of the New Jersey Margin Architecture, IODP Expedition 313
• Denise Kulhanek (Florida State University): Calcareous Nannofossil Biostratigraphy and Paleoceanography of the New Jersey Shallow Shelf (IODP Expedition 313)
• Kenneth Miller (Rutgers University), James Browning (Rutgers University), and Peter Sugarman (New Jersey Geological Survey): Sr-isotope and Siliceous Microfossil Chronology and Semi-quantitative Lithologic Studies, Expedition 313
• Donald Monteverde (New Jersey Geological Survey): Post Late Eocene Lithofacies Beneath the New Jersey Shallow Shelf: Anchoring a Hi-Resolution MCS Seismic Grid to Cores and Logs from Expedition 313
• Michael Mottl (University of Hawaii): Trace Element and Isotopic Composition of Interstitial Water from the New Jersey Shallow Shelf
• Gregory Mountain (Rutgers University): Forward and Inverse Modeling the Neogene Evolution of the New Jersey Continental Margin Based on Results from IODP Expedition 313

More information on Expedition 313 (New Jersey Shallow Shelf)

• Jeff Alt (University of Michigan): Hydrothermal Alteration of Lower Sheeted Dikes and Gabbros, IODP Hole 1256D: A Petrographic and Mineralogic Study
• Neil Banerjee (Texas A&M University, IODP): Major-Element and Trace-Element and Stable Isotopic Study of Oceanic Crust Formed at a Superfast Spreading Rate
• David Christie (Oregon State University): Trace Element Variation in Whole Rocks and Constituent Minerals Formed at a Superfast Spreading Rate
• Rosalind Coggon (University of Michigan): Expedition 312 Post-Cruise Support for Rosalind Coggon: The Compositions of Epidote Veins and Hydrothermal Fluids in Hole 1256D
• Nicholas Hayman (Duke University):Microstructure of Intrusive Contacts in the Sheeted Dikes and Gabbros of Hole 1256D, Expedition 312
• Stephanie Ingle (University of Hawaii): Trace Element Variation in Whole Rocks and Constituent Minerals Formed at a Superfast Spreading Rate
• Stephen Swift (Woods Hole Oceanographic Institution): Vertical Seismic Profiles in Upper Ocean Crust at IODP Hole 1256D
• Anahita Ani Tikku (Rensselaer Polytechnic Institute): Verification and Enhancement of IODP Expedition 312 Physical Properties Measurements
• Masako Tominaga (Texas A&M University): Core-Log Reorientation and Integration of Expedition 312 Samples: Foundation for Interdisciplinary Direction Study of Superfast Oceanic Crust
• Douglas Wilson (University of California, Santa Barbara): Paleomagnetism of Expedition 312 Samples and Integration with Downhole Magnetic Field Measurements

More information on Expedition 312 (Superfast Spreading Rate Crust 3)

• Udo Fehn (University of Rochester): Determination of ¹²⁹I/I Ratios in Pore Waters and Sediments from the Northern Cascadia Margin, IODP Expedition 311
• Gilles Guerin (Columbia University, LDEO): Determination of Gas Hydrate Distribution from Acoustic Log Velocity and Attenuation, Cascadia Margin, IODP Expedition 311
• Miriam Kastner (University of California, San Diego): Fluid Sources, Transport Processes, and Relations to Mode of Occurrence of Gas Hydrates at the Northern Cascadia Margin, IODP Expedition 311
• Alberto Malinverno (Columbia University, LDEO): Combining Information from Well Logs and Sediment Cores to Estimate Gas Hydrate Concentration in Expedition 311 Sites
• Leena Paleka (University of California, San Diego): IODP Expedition 311 Microbiology
• John Pohlman (Virginia Institute of Marine Science): Analyses of Gas and Dissolved Organic Carbon Recovered during Expedition 311, Northern Cascadia Margin
• Marta Torres (Oregon State University): Geochemical Analyses of Pore Fluids and Sediment Recovered during Expedition 311, Cascadia Margin.
• Anne Trehu (Oregon State University): Subsurface Temperature and Physical Properties of the Cascadia Accretionary Complex from Expedition 311

More information on Expedition 311 (Cascadia Margin Gas Hydrates)

• Paterno Castillo (University of California, San Diego): Petrologic and Geochemical Investigation of the Volcaniclastic Sediments Drilled During IODP Expedition 310 in Tahiti
• Anne Cohen (Woods Hole Oceanographic Institution): Establishing the Pattern of Deglacial Warming in the Central Tropical Pacific from Sr/Ca Ratios of Fossil Corals
• Julia Cole (University of Arizona): Characterizing the Record of Climate Variability in Annually Banded Subfossil Corals from Tahiti (IODP Expedition 310)

More information on Expedition 310 (Tahiti Sea Level)

• Jeffrey Alt (University of Michigan): The Transition from Low-Temperature to Hydrothermal Alteration in Hole 1256D
• Neil Banerjee (Texas A&M University, IODP): Geochemical and Biogeochemical Study of Oceanic Crust formed at a Superfast Spreading Rate
• Kari Cooper (University of California, Davis): Uranium-series Geochemistry and Lithium Isotope Signature of Altered Igneous Crust at ODP/IODP Site 1256
• Sedelia Durand (Florida International University): A Multi-prong Investigation into Magma Chamber Processes at Site 1245D, Expeditions 309 and 312
• Yongjun Gao (University of Houston): Down-Hole Major, Trace, and Isotopic Variation of Whole Rocks and Minerals in IODP Hole 1256D
• Lisa Gilbert (Williams College/Mystic Seaport): Physical Properties of the Ocean Crust at Hole 1256D
• Emilio Herrero-Bervera (University of Hawaii): Rock Magnetic Characterization and Absolute Paleointensity Determination of Oceanic Rocks Recovered During Expedition 309
• Haroldo Lledo (Binghamton University, SUNY): Geochemistry of the Oceanic Crust at Site 1256
• Douglas Wilson (University of California, Santa Barbara): Orientation of Expedition 309 Samples by Integration of Sample Images and Downhole-Logging Images

More information on Expedition 309 (Superfast Spreading Rate Crust 2)

• Brandon Dugan (Rice University): Laboratory and Modeling Constraints on the Physical Hydrogeology of the Brazos-Trinity Basin IV and the Ursa Region, IODP Expedition 308
• Peter Flemings (Pennsylvania State University): In-situ Conditions and Hydrodynamics of the Ursa Basin
• John Germaine (Consultant): Geotechnical Analysis of Whole Core From the Ursa Basin
• William Gilhooly (University of Virginia): Geochemical Characterization of Fluid Flow in Overpressure Systems
• Christopher House (Pennsylvania State University): Intensive DNA Sequencing of Sediments with Differing Hydrogeology
• Gerardo Iturrino (Columbia University, LDEO): Interpretation of Downhole Measurements and Deformation Patterns from the Brazos Trinity and Ursa Basins, Gulf of Mexico
• Hui Long (Pennsylvania State University): Analysis and Interpretation of T2P and DVTP-P Deployments in Gulf of Mexico, IODP Expedition 308
• J. Casey Moore (University of California, Santa Cruz): Are Injectites Present in the Ursa Basin, and If Not Why Not?
• Carlos Pirmez (Shell International Exploration & Production): Turbidite Sedimentation in Brazos-Trinity Basin IV: Age Dating and Flow Characterization
• Derek Sawyer (Pennsylvania State University): Sedimentation and Erosion in the Ursa Basin
• Anatoliy Shumnyk (Florida State University): Calcareous Nannofossils from the Gulf of Mexico (Brazos-Trinity and Ursa Minibasins) during the Latest Quaternary: IODP Expedition 308

More information on Expedition 308 (Gulf of Mexico Hydrogeology)

• Miriam Andres (University of Miami): Authigenic Minerals as Recorders of Microbial Activity: Challenger Mound Transect, IODP Expedition 307
• Emily Browning (University of Nebraska-Lincoln): Biostratigraphy of Porcupine Basin
• Tracy Frank (University of Nebraska-Lincoln): Interplay Between Oceanography, Depositional Processes, and Diagenesis at Sites U1316-U1318
• Jamshid James Gharib (University of Hawaii): Trace and Rare Earth Element Geochemistry and Rates of Diffusion and Reaction in the Porcupine Carbonate Mound Pore Fluids
• Jay Gregg (University of Missouri-Rolla): Dolomite and Dolomitization Processes in Neogene Sediments of the Belgica Carbonate Mound Province, Porcupine Seabight, North Atlantic
• Ivana Novosel (Rice University): Authigenic Mineral Formation in Deep-sea Carbonate Mounds: Chemical Analyses of Pore-fluids and Sediments Collected on IODP Expedition 307
• Vladimir Samarkin (University of Georgia): Rates of Sulfate Reduction and Methane Oxidation and Microbial Distributions in Samples from Expedition 307: Modern Carbonate Mounds: Porcupine Drilling
• Arthur Spivack (University of Rhode Island): Determination of Hydrogenase Activities at IODP Sites 1316, 1317 and 1318
• Trevor Williams (Columbia University, LEDO): CT-scanning of Coral-rich Carbonate Mound Sediments from IODP Holes U1317B and E

More information on Expedition 307 (Modern Carbonate Mounds: Porcupine Drilling)

• Gary Acton (University of California, Davis): Polarity Transitions and Geomagnetic Excursions Recorded in Sediments Cored During IODP Expedition 306: Their Age and Relationship to Orbital Forcing and Climate Change
• Helen Evans (University of Florida): Magnetic Stratigraphy and Relative Paleointensity from IODP Site 1313
  from 2.4-6 Ma
• Robert Harris (University of Utah): The Thermal and Hydrologic State of IODP Hole 642E, Norwegian Margin
• Sean Higgins (Columbia University, LDEO): Linking Sediment Sources and Fluxes with Ocean Circulation Changes at IODP Expedition 306 Sites and Collaborative Sonic Log Processing at CORK Site 642E
• Shelley Judge (Ohio State University): Analysis of Pleistocene Ice-Rafting Debris from the Central North Atlantic (IODP Sites U1313 and U1314)
• Denise Kulhanek (Florida State University): Paleoclimatic and Biostratigraphic Significance of Calcareous Nannofossils from IODP Expedition 306
• Simon Nielsen (University of Florida): King’s Trough Smearslide Project
• Harunur Rashid (Massachusetts Institute of Technology): Reconstructing Millennial-scale SST Variability and Deep-water Ventilation during Marine Isotope Stages 5 to 11 by Using Paired Mg/Ca and δ¹⁸O in Planktonic, and δ¹³C and Cd/Ca in Benthic Foraminifera
• Carlos Zarikian (Texas A&M University, IODP): Deep Ocean Ostracod Assemblages from the North Atlantic as Indicators of Paleoceanographic Changes during the Late Cenozoic

More information on Expedition 306 (North Atlantic Climate 2)

• James Beard (Virginia Museum of Natural History): Serpentinization, Rodingite Formation and Other Metamorphic and Hydrothermal Processes in a Rapidly Exhumed, Still Cooling, Mid-Ocean Ridge Gabbro Body, Atlantis Massif, Mid-Atlantic Ridge: Studies of IODP Expedition 304/305 Samples from Hole 1309D
• Donna Blackman (University of California, San Diego):Integrating Site U1309 Physical Properties Data with Regional Geophysical Data
• David Christie (Oregon State University) and Allison Charney (University of Connecticut): Compositional Variability of Magmas at an “Amagmatic” Slow-spreading Plate Boundary
• Bryce Ronald Frost (University of Wyoming): Studies in Ocean Floor Metamorphism at IODP Site U1309
• Patricia Fryer (University of Hawaii): Petrographic and Raman Spectroscopy Analysis of Secondary Phases in Rocks from the Atlantis Core Complex: IODP Expedition 304/305
• Jeffrey Gee (University of California, San Diego): Magnetic Constraints on the Thermal and Tectonic Evolution of Atlantis Massif
• Craig Grimes (University of Wyoming): Crustal accretion and cooling history of oceanic crust and upper mantle on Atlantis Massif, 30 N, Mid-Atlantic Ridge (IODP Expedition 304)
• Amber Harris  (University of Rhode Island): P-Wave Velocity Measurements of Discrete, Hard Rock Samples Returned to In Situ Conditions
• Nicholas Hayman (Duke University): Expressions of Melt Transport During the Final Phases of Deformation, Before Exhumation of the Atlantis Massif (IODP 304-305 Holes 1309B&D)
• Greg Hirth (Woods Hole Oceanographic Institute): EBSD Analysis o Mafic and Ultramafic Rocks from Expedition 304/305: Implications for the Onset of Serpentinization and Melt Migration
• Barbara John (University of Wyoming): Deciphering the construction and accretion history of lower oceanic crust, 30°N MAR (IODP Expedition 304/305)
• Kevin Johnson (University of Hawaii): IODP Post-Expedition Research: Expedition 304/305 Atlantis Massif Oceanic Core Complex Geochemical Source Characteristics and Lower Crustal Intrusive Processes from Olivine Gabbros and Melt Inclusions
• Garry Karner (Columbia University, LDEO): Kinematic and Isostatic Modeling of Young Oceanic Lithosphere Extension and the Generation of Oceanic Core Complexes Constrained by Expedition 304/305 Results
• Olivia Mason (Oregon State University): Diversity of Endolithic Microorganisms 400-1400 mbsf
• Jay Miller (Texas A&M University, IODP): Primary Sulfide Mineral Abundance, Composition, and Paragenesis in Gabbroic and Near Ultramafic Rocks from Atlantis Massif, IODP Expeditions 304 and 305
• Martin Rosner (Woods Hole Oceanographic Institutions): Li and Os Isotopes Studies of Metamorphic Veins and Whole Rock from IODP Expedition 304/305
• Xixi Zhao (University of California, Santa Cruz): Rock Magnetic Evaluation of Lower Crustal Gabbros from Site U1309, Atlantis Massif

More information on Expedition 304/305 (Oceanic Core Complex Formation: Atlantis Massif)

• James Channell (University of Florida): Magnetic Stratigraphy of IODP Expedition 303 Sediments
• John Damuth (University of Texas at Arlington): Analysis of IODP 303 Sediments Using NUV/VIS/NIR Spectrophotometry: In Search of a Rapid and Inexpensive Method of Identifying Late Quaternary Climatic Cycles
• Samuel Henderson (Rutgers University): The Accumulation History on Eirik Drift during the Quaternary:  Implications from Grain Size Measurements
• David Hodell (University of Florida): Late Pleistocene Stable Isotope and Elemental (Scanning XRF) Stratigraphies of Selected IODP 303 Sites
• Lawrence Krissek (Ohio State University): Pleistocene Records of Ice-rafting at Orbital and Sub-orbital Timescales in the North Atlantic Ocean from IODP Expedition 303 Cores
• Mitchell Malone (Texas A&M University, IODP): North Atlantic Deep Ocean Oxygen Isotopic Composition, Salinity, and Temperature During the Last Glacial Maximum
• Stephen Obrochta (Duke University): Evaluating the Nature of Millennial-Scale Variability and Heinrich Events During the Penultimate Glaciation
• Joseph Stoner (University of Colorado): Magnetic Stratigraphy of IODP Expedition 303 Sediments
• James Wright (Rutgers University): High Resolution Sedimentation Rate History Sites 1305 and 1308, IODP Expedition 303
• Roy Wilkens (University of Hawaii): Stable Isotope Stratigraphy of IODP Sites 1306 and 1307: The Cornerstone to High-resolution Paleoceanographic Studies on Eirik Drift

More information on Expedition 303 (North Atlantic Climate 1)

• Steve Clemens (Brown University): Biomarkers and Compound-Specific Hydrogen Isotope Ratios as Indicators of Arctic Ocean Salinity at MSP-302, Lomonosov Ridge
• Thomas Cronin (U.S. Geological Survey): Pliocene-Quaternary Paleoceanography, Central Arctic Ocean from Benthic Foraminifers and Ostracodes from ACEX 302 Cruise
• Gerald Dickens (Rice University): Reconstructing Environmental Conditions in the Central Arctic Ocean through Sediment Chemistry
• John King (University of Rhode Island): Sedimentation Rate Estimates and Paleoceanographic Reconstruction from Paleomagnetic and Environmental Magnetic Studies of Arctic Sediments
• Nahysa Martinez (Boston University): Geochemical and Paleoceanographic History of the Arctic Ocean
• Theodore Moore, Jr. (University of Michigan): Salinity History of the Arctic Ocean
• Kathryn Moran (University of Rhode Island): Sea Ice Cover of the High Arctic Ocean Via Grain Size and X-Ray Analysis of Sediments from the Lomonosov Ridge
• Matthew O’Regan (University of Rhode Island): Stress History of Central Arctic Ocean Sediments from the Lomonosov Ridge
• David Smith (University of Rhode Island): Investigation of Arcitic Sediments for Microbial Biomass and Community Structure
• Kristen St. John (James Madison University): Cenozoic Ice-rafting History of the Arctic Ocean

More information on Expedition 302 (Arctic Coring Expedition; ACEX)

• Andrew Fisher (University of California, Santa Cruz): Hydrologic and Geophysical Investigations of the Upper Oceanic Crust
• Samuel Hulme (University of Hawaii): Minor and Trace Element Geochemistry of Basaltic Formation Fluids: Sediment Pore Water Results
• Michael Hutnak (University of California, Santa Cruz): Modeling of Single-Hole Packer, CORK, and Tracer Experiments
• Mark Lever (University of North Carolina at Chapel Hill): Microbial Imprints on Juan de Fuca Subsurface Fluid Geochemistry: The Methanogens
• Mark Nielson (Oregon State University): Measuring Microbial Activity in Basalt Cores From IODP Expedition 301
• William Sager (Texas A&M University): Paleomagnetism of the Igneous Section, Hole 1301B: Implications for Crustal Magnetization and Alteration
• Geoffrey Wheat (University of Alaska Fairbanks): Minor and Trace Element Geochemistry of Basaltic Formation Fluids: Sediment Pore Water Results

More information on Expedition 301 (Juan de Fuca Hydrogeology)