New Zealand workshops Archives

Investigating subduction processes at the Hikurangi margin, New Zealand

Kimpton Hotel Monaco

700 F Street NW, Washington, DC 20004

Athens Room

Sunday December 9, 2018, 1:15 PM – 5:30 PM

Conveners: Laura Wallace, Dan Bassett, Heather Savage, Samer Naif, Shuoshuo Han , Patrick Fulton

Participant list

Agenda

AgendaMeeting objectivesMeeting report

1:15pm | Welcome & Introductory Remarks – GeoPRISMS Chair Demian Saffer

Session 1 – Integrating observations from an unprecedented summer research at Hikurangi

1:20 – 1:35 | Paleoseismic constraints on past earthquake behaviour – Jamie Howarth

1:35 – 1:50 | Summary of IODP Exp 372/375 – Demian Saffer

1:50 – 2:05 | Summary of NZ3D – Nathan Bangs (MCS) and Ryuta Arai and Becky Bell (wide-angle)

2:05 – 2:20 | Summary of SHIRE – Harm van Avendonk (offshore) and Stuart Henrys (onshore)

2:20 – 2:35 | Parallels between Alaska and the Hikurangi margin, and synergies with activities at the Alaska Primary Site – Donna Shillington

2:35 – 3:15 | Discussion of implications for the physical controls on subduction processes

– Structure around SCD key questions, processes or domains (e.g. incoming plate, forearc, megathrust)

3:15 – 3:30 | Coffee break

Session 2 – Future plans

3:30 – 3:45 | Seafloor Observatory installation and plans for ongoing seafloor geodesy and seismology – Laura Wallace

3:45 – 4:00 | SAFFRONZ project and the interplay between hydrogeology and slow slip – Evan Solomon

4:00 – 4:15 | CSEM and MT as a window into hydrogeology – Samer Naif (offshore) and Wiebke Heise (onshore)

4:15 – 4:35 | Space for 2 minute (1 slide) pop-up talks summarizing other synergistic activities

Earthquake rupture and ground shaking scenario – Yoshi Kaneko
Seamount subduction prolongs shallow slow slip event in the forearc of the Northern Hikurangi Subduction Zone, New Zealand – Heather Shaddox
Hikurangi Full Waveform Inversion – Adrien Arnulf
Investigating the Coupling Between Deformation, Pore Pressure, and Fluid Flow in Subduction Forearcs – Tianhaozhe Sun
– Abhi Ghosh
Paleoseismic evidence for late Holocene earthquakes & tsunamis: Wairarapa to Northern Hawkes Bay – Jessica Pilarczyk
A biomarker thermal maturity study of EXP375 samples – Genevieve Coffey
Hikurangi Friction: Expedition 375 – Hannah Rabinowitz
Tracing volatiles from the seafloor through volcanic arcs using stable isotopes and thermodynamic modeling – Gabe Epstein
Reconciling Slow Slip Events with Distributed Visco-brittle Deformation – Adam Beall
Transition from rifting to seafloor spreading in the N. TVZ- Havre Trough back-arc – Cindy Ebinger
Hikurangi – Martha Savage

4:35 – 5:15 | Open Discussion

– What gaps in data/knowledge remain? What additional work needs to be done?

The Hikurangi margin offers an outstanding opportunity to address many of the key topics of GeoPRISMS Subduction Cycles and Deformation. Major international experiments to investigate subduction processes at the Hikurangi margin have taken place in the last year including two IODP drilling expeditions to investigate shallow slow slip events, and two seismic experiments with the R/V Langseth and R/V Tangaroa to investigate controls on plate coupling and slow slip. The objectives of a Hikurangi margin mini-workshop are to discuss new observations from the New Zealand focus site and their implications for an integrated understanding of subduction processes, as well as planning for upcoming experiments.

The first half of the miniworkshop will introduce the latest results from the recent GeoPRISMS-related research efforts at the Hikurangi margin (including IODP drilling and seismic experiments), and a discussion of the implications of these for GeoPRISMS SCD questions. The second half of the miniworkshop will consist of presentations on upcoming plans for field experiments and research at the Hikurangi focus site, and discussion on coordination of these efforts. We will also discuss any research gaps that might exist. In addition to a small number of overview talks on recent and future experiments, we will offer the opportunity for a limited number of short (~2 minutes) pop-up talks on synergistic activities at the Hikurangi subduction zone.

In addition to researchers focused on the Hikurangi margin, we welcome attendees interested in subduction deformation and megathrust processes in Cascadia and Alaska, to cross-fertilize ideas and research outcomes among all three of the GeoPRISMS primary sites. Student and early-career scientist participation is also encouraged.

Investigating subduction processes at the Hikurangi margin, New Zealand

2018 GeoPRISMS mini-workshop at AGU

December 9, 2018, Washington DC

Conveners: Laura Wallace^1,2, Dan Bassett¹, Samer Naif³, Patrick Fulton⁴, Heather Savage³, Shuo Shuo Han²

¹GNS Science, New Zealand, ²Univ. Texas Institute for Geophysics, ³Lamont-Doherty Earth Observatory, Columbia University, ⁴Cornell University

A mini-workshop to discuss the latest research results from the Hikurangi subduction zone (New Zealand), was held on Sunday afternoon before Fall AGU began in Washington, D.C. The mini-workshop had a record turnout, with 116 registrants from 9 different countries, the largest number of participants of any previous GeoPRISMS mini-workshop. A particular priority of this workshop was to get the broader community up to speed on the range of research activities and major experiments underway to better understand the Hikurangi subduction zone, and to facilitate discussion to better integrate results between these projects.

Subduction of the Pacific Plate beneath New Zealand’s North Island occurs at the Hikurangi subduction margin. The Hikurangi margin offers an outstanding opportunity to address many of the key topics of GeoPRISMS Subduction Cycles and Deformation, as outlined in the New Zealand primary site implementation plan. In particular, the strong along-strike variations in megathrust behavior and characteristics make it an ideal location to investigate the physical controls on subduction margin deformation and slip behavior, including seismic vs. aseismic slip.

Data acquisition and analysis at the Hikurangi margin are ongoing by scientists from New Zealand, the United States, Japan and Europe. Major experiments to investigate Hikurangi subduction processes have taken place in the last year including two IODP drilling expeditions to investigate slow slip processes (Expeditions 372 & 375), and two seismic experiments with the R/V Langseth and R/V Tangaroa to investigate controls on plate coupling and slow slip (Figure 1). Additional NSF and New Zealand-funded experiments have just taken place in the first few months of 2019.

Figure 1. Map of the North Island and offshore Hikurangi subduction zone with a summary of some instrumentation and recent offshore and onshore experiments undertaken at the Hikurangi subduction margin over the last 3 years.

The meeting began with an overview from Jamie Howarth (Victoria University of Wellington) on paleoseismological studies to establish a record of, and evidence for, large subduction zone earthquakes at the Hikurangi margin. Ongoing efforts in this area involve both onshore proxies for paleo-earthquakes, as well as offshore (turbidite) studies. Demian Saffer (Penn State) overviewed the results of recently completed IODP drilling (Figure 2), and discussed the implications of these results for controls on slow slip event processes. A number of active source seismic imaging investigations took place in 2017/2018 (Figure 1). Nathan Bangs (UTIG), Ryuta Arai (JAMSTEC), and Rebecca Bell (Imperial College, London) presented an overview of the 3D multi-channel seismic survey (NZ3D) to image the shallow slow slip region at north Hikurangi in unprecedented detail. Nathan Bangs also presented preliminary results of the first phase of the SHIRE experiment to image along-strike variations in properties of the subduction zone. Stuart Henrys (GNS Science) overviewed plans for the final, onshore phase of SHIRE that was successfully completed in early March 2019. The first part of the mini-workshop concluded with an overview from Donna Shillington on parallels between the Hikurangi margin megathrust and aspects of the megathrust in Alaska. There are striking parallels between Hikurangi and Alaska, offering clear research opportunities for the future.

The second half of the mini-workshop focused on future plans at the Hikurangi margin. Laura Wallace (GNS Science/UTIG) overviewed ongoing and upcoming seafloor geodetic experiments (Figure 1) to clarify the nature of offshore interseismic deformation and the distribution of slow slip events on the shallow megathrust. Evan Solomon (University of Washington) discussed plans for an experiment to undertake sampling of sediment and fluids from offshore seeps, acquire heat flow data, and deploy seafloor flow-rate meters (Figure 1) to evaluate the role of fluids in Hikurangi megathrust behavior (the SAFFRONZ project). The SAFFRONZ cruise was successfully completed on the R/V Revelle, in February of 2019. Samer Naif (LDEO) overviewed their recently completed HT-RESIST experiment (December 2018/March 2019; Figure 1) to deploy offshore MT instruments and undertake controlled-source electromagnetic (CSEM) surveys to map along strike variations in the fluid content and the relationship of this to megathrust behavior. All of these studies are supported by a combination of NSF/GeoPRISMS funding, and funding from international partners in New Zealand, Japan, and the U.K. Following the talks we had short pop-up talks from a number of participants to overview additional investigations at Hikurangi.

Figure 2: Seismic image (after Barker et al., 2018, GRL) showing the transect that was drilled on IODP Expeditions 372 and 375 to investigate shallow slow slip events at the offshore northern Hikurangi margin.

Large portions of the mini-workshop were devoted to discussion of using these new observations from the New Zealand focus site, to develop an integrated understanding of subduction margin processes from geophysical, geological, and geochemical field perspectives. Many of the themes discussed included (1) the state of the incoming plate and the role of incoming sediment and basement properties in subduction thrust behavior and margin evolution; (2) physical properties of the forearc and megathrust, and the influence of this on megathrust behavior; (3) fluid sources and fluxes, with emphasis on the forearc; (4) the relationship between micro-seismicity, slow slip events, and tremor.

Overall, there are close to 100 scientists from several different countries involved in GeoPRISMS-related studies on the Hikurangi subduction zone. The mini-workshop at Fall AGU offered the first opportunity for many of these scientists to get together to discuss the results of these recent major experiments at the New Zealand focus site, and their implications for deformation and earthquake cycle processes at the Hikurangi margin. It also provided an important opportunity to coordinate efforts for the additional upcoming experiments in 2019, and to explore synergies between the various research groups working there.

2013 Planning Workshop for the New Zealand Primary Site

April 15-17, 2013

Te Papa Museum, Wellington, New Zealand

Download the Implementation Plan

AnnouncementAgenda - Presentation archiveStudent SymposiumWhite Papersmore infoOutcomes

Many thanks again to all of you for participating in and contributing to a most informative and inspiring planning workshop for future GeoPRISMS and related research in New Zealand. The discussions point toward a clear plan forward, with strong motivations for focused community-based investigations of several key regions in and around New Zealand.

Announcement

The GeoPRISMS Steering and Oversight Committee is pleased to announce a workshop to develop a detailed implementation plan for the NSF GeoPRISMS New Zealand Primary Site. New Zealand was chosen as a primary site because all of the GeoPRISMS Subduction Cycles and Deformation (SCD) themes can be addressed particularly well at the Hikurangi/Kermadec and Fiordland subduction zones. The SCD themes include arc magmatism and volatile cycling, subduction initiation, subduction margin deformation processes (both seismic-cycle and longer timescales), and links between surface processes and subduction margin tectonics. In addition to serving as an excellent natural laboratory for modern subduction processes, New Zealand also offers opportunities to investigate an exhumed Paleozoic to Mesozoic subduction system.

The workshop is intended to clarify the main research objectives for the New Zealand primary site, and to develop an implementation plan and timeline to achieve these objectives considering available resources and infrastructure. More details about GeoPRISMS science objectives, can be found here, along with the initial Implementation Plan for the New Zealand primary site, which will serve as a starting point for this workshop.

The program will include a number of overview presentations on New Zealand and related subduction margins, existing scientific infrastructure within New Zealand (such as GeoNet), potential for multinational partnerships on New Zealand-based research, and break-out discussions that will lead to conclusive decisions about science implementation at the New Zealand primary site. White papers will be solicited in advance of the workshop to ensure community input.

 Researchers from all countries with an interest in New Zealand subduction zone science are welcome to apply. Post-docs, senior graduate students, and members of under-represented groups are especially encouraged to apply. Funding from GeoPRISMS/NSF and the New Zealand Ministry for Business, Innovation, and Employment (MBIE) is expected to cover a significant fraction of travel and accommodation costs for ~50 participants traveling from outside of New Zealand. We also expect to support participation from a similar number of New Zealand-based scientists. Applications require a brief statement of interest and anticipated contribution to the workshop and a short C.V.

Note: April 2013 will be a busy time for meetings and workshops (EGU, SSA, Chikyu+10), thus interested participants should plan their travel and meeting schedules accordingly. The Seismological Society of America meeting is planned for April 17-19 in Salt Lake City. If participants plan to attend both SSA and the GeoPRISMS NZ workshop, the time difference makes it possible to depart New Zealand the evening of April 17th, and arrive in Salt Lake City by mid-day on April 17th. There are also daily direct flights from Auckland, New Zealand to Tokyo, convenient for participants who plan to attend both the GeoPRISMS NZ meeting and the Chikyu+10 meeting in Tokyo (April 21-23).

Workshop Conveners:

Susan Ellis, GNS Science – New Zealand
Adam Kent, Oregon State University
Nicola Litchfield, GNS Science – New Zealand
Kathleen Marsaglia, California State University at Northridge
Jeff Marshall, California State University at Pomona
Demian Saffer, Pennsylvania State University
Susan Schwartz, University of California, Santa Cruz
Laura Wallace, University of Texas, Austin
Richard Wysoczanski, NIWA – National Institute of Water and Atmospheric Research – New Zealand

Student Symposium | Sunday, April 14

6:30-8:30 pm Icebreaker and registration* at Foxglove Restaurant, Wellington waterfront

*Note that participants can also register at Te Papa during the days of the workshop. The registration desk at Te Papa will be open from 8:00 AM on April 15, and will be located in front of the Soundings Theatre or in the reception area of the Telstra Centre.

Day 1 | Monday, April 15

Moderators: Laura Wallace and Susan Ellis
8:30-8:40 Welcome from the conveners and housekeeping issues
8:40-8:50 Welcome from Prue Williams (the NZ Ministry for Business, Innovation and Employment)
8:55-9:10 introduction to the aims of the workshop and the GeoPRISMS Program | 1Mb – Julia Morgan (GeoPRISMS Office)

Talks introducing New Zealand’s subduction zones and the primary topics in subduction margin evolution and behavior
9:10-9:45 Overview of Zealandia and its subduction record since the Paleozoic | 12Mb – Nick Mortimer (GNS Science)

TOPIC 1: What are the geological, geochemical, and geophysical responses to subduction initiation and early arc evolution and how do they affect subduction zone formation?
9:45-10:10 Causes and consequences of subduction initiation | 2Mb – Mike Gurnis (Caltech)
10:10-10:35 The expression of subduction initiation in New Zealand | 12Mb – Rupert Sutherland (GNS Science)

10:35 Morning Tea. Posters will be available for viewing during all morning and afternoon teas and lunches. There will also be an extended afternoon tea on Day 3 for more poster viewing

Moderators: Adam Kent and Richard Wysoczanski
TOPIC 2: What are the pathways and sources of magmas and volatiles emerging in the arc and forearc, and how do these processes interact with upper plate extension?
11:05-11:30 Volatile fluxes at subduction zones, the model perspective |  4Mb – Brad Hacker (University of California-Santa Barbara)
11:30-11:55 Volatile fluxes and arc magmatism: The observational record and unresolved questions |  1Mb – Paul Wallace (University of Oregon)
11:55-12:20 The Kermadec Arc system: our understanding about the present and past |  3Mb – Christian Timm (GNS Science)
12:20-12:45 Taupo Zone volcanism, extension and large silicic eruptions |  6Mb – Colin Wilson (Victoria University of Wellington)

12:45 Lunch

Moderators: Kathleen Marsaglia and Demian Saffer
TOPIC 3: What controls subduction thrust fault slip behaviour and its spatial variability?
1:40-2:05 Global perspective on controls on megathrust slip behavior | 4Mb – Satoshi Ide (University of Tokyo)
2:05-2:30 Overview of Hikurangi margin subduction tectonics and megathrust slip behavior | 5Mb – Laura Wallace (University of Texas, Institute for Geophysics)

TOPIC 4: Feedbacks between climate, sedimentation, and forearc deformation
2:30-2:55 Global overview of interaction among subduction margin sedimentation, climate, eustasy, and forearm deformation |  7Mb – Mike Underwood (University of Missouri)
2:55-3:20 The passage of sediment from mountain source to ocean sink: Results from the MARGINS S2S Waipaoa sedimentary system, Hikurangi Margin |  5Mb – Alan Orpin (NIWA)
3:20-3:45 Offshore Hikurangi Margin: tectonic deformation – sedimentation – climate interactions |  8Mb – Phil Barnes (NIWA)

3:45 Afternoon tea

4:15 First breakout sessions, based around the 4 main topics. The goal for these breakouts will be to identify the most exciting science that can be done in NZ to help address each main Topic

TOPIC 1: What are the geological, geochemical, and geophysical responses to subduction initiation and early arc evolution and how do they affect subduction zone formation?
Breakout leaders: Mark Reagan (University of Iowa), Tim Stern (Victoria Univ. Wellington)
Scribes: Justin Ball (Univ. Colorado), Katrina Jacobs (VUW, Wellington)

TOPIC 2: What are the pathways and sources of magmas and volatiles emerging in the arc and forearc, and how do these processes interact with upper plate extension?
Breakout leaders: Ian Smith (University of Auckland), Kaj Hoernle (GEOMAR)
Scribes: Madison Myers (Univ. of Oregon), Melissa Rotella (VUW, Wellington)

TOPIC 3: What controls subduction thrust fault slip behaviour and its spatial variability?
Breakout leaders: Bill Fry (GNS Science), Kelin Wang (Canadian Geological Survey, PGC)
Scribes: Noel Bartlow (Stanford University), Dan Bassett (Oxford University)

TOPIC 4: Feedbacks between climate, sedimentation, and forearc deformation
Breakout leaders: Clark Alexander (Skidaway Inst. Oc.), Ingo Pecher (Univ. of Auckland)
Scribes: Corina Cerovski-Darriau (Univ. of Oregon), David Oakley (Penn State)

5:10 Switch up breakout sessions (people migrate to a different breakout session)

6:00 End of Day 1

Day 2 | Tuesday, April 16

Moderators: Susan Schwartz and Jim Gill

8:30 Introduction to Day 2

8:40 Report from Day 1 breakout leaders, plenary discussion on outcomes of breakouts

10:00 Morning Tea

Moderators: Nicola Litchfield and John Townend
Series of talks on existing scientific infrastructure and current initiatives in NZ subduction science, including emerging IODP projects
10:30-10:50 New Zealand GeoNet: Impacts on geological hazards monitoring and research in New Zealand |  2Mb – Ken Gledhill (GeoNet)
10:50-11:05 The NZ active faults data base and onshore active faulting studies at New Zealand’s subduction zones |  3Mb – Nicola Litchfield (GNS Science)
11:05-11:20 The SAHKE Project: Imaging the subduction plate boundary beneath Wellington |  2Mb – Stuart Henrys (GNS Science)
11:20-11:35 New Zealand marine geological and geophysical research capabilities and databases |  2Mb – Geoffroy Lamarche (NIWA)
11:35-12:00 Overview of current knowledge and initiatives on the Kermadec arc volcanoes, including emerging IODP opportunities there | Cornel De Ronde (GNS Science)
12:00-12:15 Using IODP drilling to unlock the secrets of slow slip events, the Hikurangi subduction margin |  1Mb – Demian Saffer (Penn State)
12:15-12:30 Proposed IODP drilling at the Lord Howe Rise to understand subduction initiation at the Tonga/Kermadec Trench |  3Mb – Rupert Sutherland (GNS Science)

12:30 Lunch

Moderators: Susan Ellis and Jeff Marshall
Series of talks on the role of subduction science in understanding seismic, tsunami, and volcanic hazards and risk in New Zealand
1:20-1:35 It’s Our Fault: A project to understand earthquake risk posed to the Wellington region |  5Mb – Russ Van Dissen (GNS Science)
1:35-1:50 Developing an effective community response to the next Great East Coast Subduction Zone Earthquake and Tsunami |  2Mb – David Johnston (GNS Science, Massey University)
1:50-2:05 The integrated role of research and monitoring in the assessment of volcanic hazards and risk in New Zealand |  1Mb – Gill Jolly (GNS Science)

2:05-3:30 A series of short topical talks (~10 mins each + 2 minutes for questions/discussion).
Variable mantle and subduction components in the sources of Havre Trough back arc lavas |  22Mb – Erin Todd (USGS)
Tomographic imaging of the mantle wedge beneath the North Island and relationship to volcanic arc processes |  1Mb – Martin Reyners (GNS Science)
Magnetotelluric imaging studies of the Hikurangi margin–from arc to forear |  2Mb – Wiebke Heise (GNS Science)
Fluids as sentinels of deep crustal changes and history in the Hikurangi forear | Agnes Reyes (GNS Science)
Seismological studies of slow slip in New Zealand |  1Mb – Bill Fry (GNS Science)
Episodic tremor and slip at the Japan Trench before the 2011 Tohoku earthquake: Implications for understanding shallow megathrust processes at the NZ focus site |  2Mb – Yoshihiro Ito (Tohoku University)
Heat flow along the Hikurangi margin |  2Mb – Rob Harris (Oregon State University)

3:30 Afternoon Tea

4:00 Breakout sessions based on the four main geographic regions of NZ subduction: (1) Hikurangi Margin, (2) Fiordland, (3) Kermadec Arc/Havre Trough (+Colville Ridge, South Fiji Basin, across to Lord Howe Rise), and (4) Taupo Volcanic Zone. These breakouts are intended to develop and discuss the main science priorities in each of these geographic areas, and identify data needed to do the science. Synergies that exist across the four Topics (from Day 1) in each of these locations will also be discussed. Note, the conveners may change the organization and aims of Day 2 breakout sessions depending on the interests emerging from the Day 1 breakouts.

Location 1: Hikurangi Margin
Breakout leaders: Rob Harris (Oregon State University) and Stuart Henrys (GNS Science)
Scribes: Rachel Lauer (Penn. State), Jiao Ruohong (VUW, Wellington)

Location 2: Fiordland
Breakout leaders: Andy Tulloch (GNS Science) and Tracy Rushmer (Macquarie University)
Scribes: Besim Dragovic (Boston University), Samir Naif (UCSD-Scripps)

Location 3: Kermadec Arc/Havre Trough/South Fiji Basin/Lord Howe Rise
Breakout leaders: Fernando Martinez (Univ. Hawaii), Simon Turner (Macquarie University)
Scribes: Sophie Barton (NIWA/VUW), Erin Todd (USGS)

Location 4: Taupo Volcanic Zone
Breakout Leaders: Pilar Villamor (GNS Science), Kari Cooper (Univ. California-Davis)
Scribes: James Muirhead (Univ. of Idaho), Hannu Seebeck (VUW, Wellington)

5:00 Switch up breakout groups

6:00 End of Day 2

7:00 Conference dinner: Dockside Restaurant, Wellington waterfront

Day 3 | Wednesday, April 17

Moderators: Adam Kent and Rupert Sutherland

8:30 Introduction to Day 3

8:40 Report from Day 2 breakout leaders, plenary discussion on breakout outcomes

10:15 Morning Tea

Moderators: Nicola Litchfield and Clifford Thurber
Series of talks from international partners on scientific infrastructure (e.g., marine vessels, equipment) and potential funding resources for international collaborators to conduct subduction studies in New Zealand
10:45-11:05 Review of NSF programs, infrastructure for subduction studies | Bilal Haq (NSF)
11:05-11:20 Japanese perspective |  4Mb – Shuichi Kodaira (JAMSTEC)
11:20-11:35 German perspective |  3Mb – Achim Kopf (Univ. Bremen)
11:50-12:05 UK perspective |  1Mb – Lisa McNeill (Univ. of Southhampton)
11:35-11:50 Canadian perspective |  2Mb – Kelin Wang (Canadian Geological Survey, PGC)

12:05 Lunch

12:45 Breakouts by each of the scientific topics (from Day 1) to develop an implementation plan for collaborative, multinational subduction science in NZ for the next ten years. This breakout is intended to define the research that is best-suited for GeoPRISMS goals and resources, but is also intended to define a path forward for future NZ-led initiatives and those that international partners would like to contribute to and/or lead. Conveners may decide to modify the focus/organization of the breakouts depending on the outcomes from the previous days’ breakout discussions.

TOPIC 1: What are the geological, geochemical, and geophysical responses to subduction initiation and early arc evolution and how do they affect subduction zone formation?
Breakout leaders: Mike Gurnis (Caltech) and Jim Gill (Univ. California-Santa Cruz)
Scribes: Rob Holt (VUW, Wellington) and Sapthala Karalliyada (VUW, Wellington)

TOPIC 2: What are the pathways and sources of magmas and volatiles emerging in the arc and forearc, and how do these processes interact with upper plate extension?
Breakout leaders: David Hilton (UCSC-Scripps) and Ken Rubin (Univ. Hawaii)
Scribes: Simon Barker (VUW, Wellington) and Adrian Shelley (VUW, Wellington)

TOPIC 3: What controls subduction thrust fault slip behaviour and its spatial variability?
Breakout leaders: Harold Tobin (Univ. Wisconsin) and Harmony Colella (Miami Univ. Ohio)
Scribes: Pegah Faegh Lashgary (VUW, Wellington) and Erin Todd (Univ. Calif.-Santa Cruz)

TOPIC 4: Feedbacks between climate, sedimentation, and forearc deformation
Breakout leaders: Mike Underwood (Univ. Missouri) and Alan Orpin (NIWA)
Scribes: Calum Chamberlain (VUW, Wellington) and Laurel Childress (Northwestern Univ.)

1:45 Break for afternoon tea and extended poster session

2:45 Switch up breakout groups

Moderators: Demian Saffer, Laura Wallace, and Richard Wysoczanski
3:45 Reconvene for final decisions on implementation plan for NZ focus site

3:50 The student symposium participants will present their integrated perspective on the priorities and path forward

4:05 Implementation plan breakout summaries (~10-15 minutes for each breakout)

5:00 Plenary discussion of the overall implementation plan. Participants may be asked to decide/vote on the most suitable priorities for the GeoPRISMS implementation plan.

6:00 Wrap up and closure of meeting

GeoPRISMS Student Symposium for the New Zealand Primary Site

Cotton Building Room 217, Victoria University, Wellington, NZ
Sunday, April 14, 2013

8:00 AM Welcome and Symposium Objectives | 200Kb – Jeff Marshall (CSU Pomona)
8:10 AM Introduction to GeoPRISMS |  12Mb – Juli Morgan (Rice University, GeoPRISMS Chair)
8:30 AM The tectonic setting of New Zealand |  9Mb – Susan Ellis (GNS Science)
9:00 AM Subduction megathrust processes in New Zealand |  9Mb – Laura Wallace (University of Texas, Austin)
9:30 AM Arc volcanism in New Zealand |  19Mb – Graham Leonard (GNS Science)
10:00 AM New Zealand sedimentation & tectonics |  14Mb – Kathie Marsaglia (CSU Northridge)

10:30 AM Coffee Break

11:00 AM Student Poster Session with 2-3 min presentations at each poster

12:30 PM Pick-up Lunch, Get on bus for Field Trip

12:30-6:00 Wellington Fault Geologic Field Trip led by Nicola Litchfield (GNS Science) and Tim Little (Victoria University of Wellington)
The fieldtrip is intended to view the Wellington fault, a major active, right lateral strike slip fault that runs through downtown Wellington and continues northward along the length of the North Island. We will have fieldtrip stops to view the fault in Wellington, and will finish up at a prime location to see the Wellington fault in Upper Hutt. We will also discuss the effects that an 1855 Magnitude 8.2 rupture of another nearby strike-slip fault (the Wairarapa fault) had on the Wellington region.

6:30 PM Workshop Registration, Ice Breaker at Foxglove Restaurant

The follow-up Student Career Dinner will be held in Wellington Monday, April 15, 7pm at Osteria del Toro restaurant.

Download the compiled white papers

Why do some subduction zones have M9 earthquakes and others less than M7.5? Composition and state variations on the subduction thrust | 400Kb – Roy Hyndman

Mission Immiscible or supercritical fluid? | 400Kb – Yoshihiko Tamura et al.

Heat Flow along the Hikurangi Margin | 1Mb – Robert Harris et al.

Fluid Redistribution Coupled to Deformation Around the NZ Plate Boundary | 400Kb – Richard Sibson et al.

GeoPRISMS Science Goals in the Havre Trough Back-Arc Basin | 500Kb – Fernando Martinez and Robert Dunn

Developing an effective community response to the next “Great East Coast Subduction Zone Earthquake and Tsunami” | 500Kb – David Johnston et al.

What should we look for at Hikurangi in light of our findings in the Japan Trench? | 100Kb – Virginia Toy et al.

The active margin carbon cycle | 200Kb – Laurel Childress and Neal Blair

Unlocking the Secrets of Slow Slip by Scientific Drilling at the Northern Hikurangi Subduction Margin, New Zealand | 300Kb – Laura Wallace et al.

Seafloor instability processes and products on the active Hikurangi margin | 300Kb – Joshu Mountjoy et al.

Geochemical Fluxes through the New Zealand Arc System | 300Kb – Stuart Simmons et al.

Seafloor and Subseafloor Monitoring of Slow Slip at the Northern Hikurangi Margin | 400Kb – Laura Wallace et al.

Resolving Fundamental Questions of Subduction Initiation in New Zealand | 2Mb – Mike Gurnis et al.

Testing induced vs spontaneous subduction initiation mechanisms in the SW Pacific | 200Kb – Nick Mortimer et al.

Imaging the Southern Hikurangi Margin locked subduction interface and upper plate by passive and active seismic and magnetotelluric arrays | 700Kb – Stuart Henrys et al.

GeoPRISMS Data Portal: New Zealand Primary Site | 2Mb – Andrew Goodwillie

Cambrian Rocks of the Takaka Terrane, the Foundation of Zealandia: A Complex Record of Subduction Initiation and Arc Development Exposed in the Nelson Area of the South Island | 300Kb – Kate Pound et al.

Constrains on the thermal history of crystal-rich magmas from crystal residence timescales | 200Kb – Adam Kent and Kari Cooper

Brothers submarine arc volcano: gateway to the sub-arc mantle | 200Kb – Cornel de Ronde et al.

Louisville seamount subduction: tracking mantle flow beneath the central Tonga-Kermadec arc | 700Kb – Christian Timm et al.

Characterization of structure and properties of the northern Hikurangi Margin using OBS seismology for studies of slow slip and along-strike variations in plate interface coupling | 400Kb – OBS working group

Subduction inputs of the Hikurangi Margin, New Zealand | 200Kb – Michael Underwood et al.

How do subduction zones end? | 300Kb – Simon Lamb et al.

Proposal to study subduction initiation in northern Zealandia | 200Kb – Tim Stern and Rupert Sutherland

Linking fluid chemistry to mechanics and geophysical structure along the Hikurangi Margin | 300Kb – Susan Ellis et al.

Constraining melt transport, storage and chemical modification in monogenetic vents: focus on the Auckland Volcanic Field | 700Kb – John C. Lassiter et al.

Look before it leaps: the interplay of magmatism, tectonism and basement structural inheritance in a migrating rifting arc | 500Kb – Julie Rowland et al.

Integrating current research on subduction processes and records into learning and teaching: potential for GeoPRISMS knowledge transfer | 100Kb – Kate Pound et al.

Paleoseismology at the Hikurangi Margin | 200Kb – Jessica Pilarczyk et al.

Three-dimensional seismic imaging of slow slip zones along the northern Hikurangi Margin | 200Kb – Nathan Bangs et al.

Determining slip behavior in the near-trough region of the Hikurangi subduction zone with GPS-Acoustic seafloor geodesy | 300Kb – Kelin Wang et al.

Variations in remote triggering susceptibility along the Hikurangi margin and implications for the time-dependent strength of subduction zones | 300Kb – Nicholas J van der Elst et al.

Lateral Migration of Subduction Systems: Progression of the Hikurangi Margin Southwestward Through Increased Plate Coupling to Continuum Compression | 400Kb – Philip E. Wannamaker et al.

Geospatial variation in magmatic and volatile fluxes to the oceans and atmosphere from active subaerial/submarine volcanism in the New Zealand Primary Site | 400Kb – Ken Rubin et al.

Havre Trough and the “Rifting Phase” of Back-arc Basin Evolution | 10Mb – Erin Todd et al.

Gas Hydrates in New Zealand | 200Kb – Ingo A. Pecher et al.

Exterra: Understanding Convergent Margin Processes Through Studies of Exhumed Terranes – GeoPRISMS New Zealand Focus Site | 300Kb – Besim Dragovic et al.

Interaction of subduction and rifting on the exhumed Cretaceous convergent margin arc of Zealandia | 200Kb – Andy Tulloch et al.

Call for White Papers

Scientists interested in participating in the development of the integrated science and implementation plan for New Zealand are invited to submit White Papers in advance of the workshop. The White Papers will play an important role in the workshop outcomes and design, including guiding breakout discussions and speakers at the workshop, and they are thus an important mechanism for community input.

White Papers should propose specific science objectives, show suitability for addressing the research themes outlined in the GeoPRISMS Science Plans, and consider the relative merits of PI-driven versus “community” approaches to collecting necessary data sets. Example White Paper topics could include specific scientific questions and/or targets in New Zealand, possible community experiments (including joint international proposals), and implementation strategies for carrying out thematic studies. White Paper authors should consult relevant parts of the GeoPRISMS Science Plan & Draft Implementation Plan

White papers should be submitted to the GeoPRISMS Office by March 15, 2013. All White Papers will be made available to meeting participants and the community prior to the workshop, and will be used in the implementation strategy decision-making process during the workshop.

Guidelines

MS Word Doc template – Please use this template for your white paper submission

White Papers submitted by proponent teams are preferred to ensure broader consensus, although individuals are also welcome to submit.

Graduate students and post-doctoral fellows are encouraged to participate in the process of assembling a white paper; similarly, PIs are encouraged to include students, post-docs, and young investigators in author teams.

Authors can contribute more than one white paper.

White Papers should be clear and succinct and are limited to 2 pages of text plus 1 page of figures and references.

White Papers can be submitted even if the authors are unable to attend the meeting.

White Papers that address the integration or complementarity of GeoPRISMS with ongoing international projects are particularly encouraged.

The conveners reserve the right to restrict dissemination of papers deemed to be too narrow in scope or not aimed at goals of integrating resources of the relevant programs.

Please provide the following header information on each paper (see Word Template):

White Paper Title
Authors and Affiliations
Contact information
Proposed sites and/or themes addressed
Key types of existing or forthcoming data/infrastructure to build upon

Agenda

Final participant list (last update 4-8-13)

Participant lodging list (last update 4-9-13)

Conference hotel: Ibis Hotel, Wellington

Conference venue: Museum of New Zealand Te Papa Tongarewa , Wellington

NZ Field Guides

This is a non-exhaustive list of relevant fieldtrips located in the North Island.

Information provided by Nicola Litchfield from previous fieldtrips

White Island Tour: Products and Processes of Recent Activity
The Geology of Mayor Island (Tuhua): a Brief Introduction
Coastal Hazards of the Bay of Plenty
An introduction to Sunny Matata and its great 18 May 2005 Debris Flows
Earthquakes and Eruptions at Okataina Volcanic Centre
Waipaoa Sedimentary Field Trip, Gisborne
Overview of Hikurangi Margin Slow Slip Event, Gisborne (2-days field trip)
Wellington Fault: Neotectonics and Earthquake Geology of the Wellington-Hutt Valley Segment
Hikurangi Margin Subduction Thrust Fieldtrip: Late Quaternary Upper Plate Deformation in the Southern Wairarapa Valley and Palliser Bay

An implementation planning workshop was held for the New Zealand Primary Site in Wellington, New Zealand on 14-16 April, at Te Papa Museum. There were 170 participants from ten different countries, demonstrating the excellent opportunities for international collaboration at this primary site. The large number of participants and high-quality white papers submitted (38 white papers–more than for any of the other GeoPRISMS primary site workshops) reflected the high level of enthusiasm among both the US and international subduction zone community for future studies in New Zealand. The workshop consisted of a number of keynote and invited talks, and break-out sessions to discuss and prioritize the main scientific objectives and most suitable GeoPRISMS goals.

The major SCD topics addressed at the meeting included:

(1) What are the geological, geochemical and geophysical responses to subduction initiation and early arc evolution and how do they affect subduction zone formation?
(2) What are the pathways and sources of magmas and volatiles emerging in the arc and forearc, and how do these processes interact with upper plate extension?
(3) What controls subduction thrust fault slip behaviour and its spatial variability?
(4) What are the feedbacks between climate, sedimentation, and forearc deformation?

Workshop objectives were to refine these questions with reference to scientific opportunities in New Zealand, and to specify focus areas and implementation approaches to address them, to guide future research within GeoPRISMS and beyond.

Four geographic regions emerged as focus areas where several of these topics could be well addressed:

(1) The Puysegur Trench is arguably the best-expressed example on Earth of a subduction zone being “caught in the act” of initiating, providing a unique opportunity to define the geodynamic boundary conditions to test models for subduction intiation. Key questions include: How does the new slab first enter the mantle? What is the fluid expression and thermal structure of subduction initiation? Focused geophysical surveys can tackle fundamental questions about the onset of convergence and associated vertical motions, offshore thermal and crustal structure, newly developing arc volcanism, as well as the geometry of subduction initiation. These new datasets will be underpinned by the uniquely well-constrained plate kinematic history during subduction development, a complete Miocene rock uplift history onshore Fiordland, among others.

(2) The Hikurangi Subduction Margin offers an outstanding opportunity to address the controls on variability in megathrust slip behaviour, due to strong along-strike variations in interseismic coupling and slow slip event behavior observed there. Participants also recognized the outstanding opportunities to assess feedbacks between climate, sedimentation and forearc deformation, which can build upon previous MARGINS S2S studies in the Waipaoa catchment. Other questions to be addressed at Hikurangi include: How do topography, thermal structure, and material properties of incoming plate control fault zone structure, slip behavior, accretionary wedge evolution, and uplift and erosion of the forearc? What are the pathways and timescales of sediment input? What is the slip behavior and rheology of the near-trench portion of subduction fault? Discussions for future work emphasized integrated geophysical, geological, and geochemical studies of the onshore and offshore forearc and incoming plate to discern the major controls on variations in subduction interface behaviour and overall margin evolution. Moreover, a series of IODP proposals are currently in the system to investigate the mechanisms behind shallow slow slip event occurrence at North Hikurangi, and these provided an important focal point for discussions on future studies. Future studies at Hikurangi will leverage on existing datasets and scientific infrastructure such as a comprehensive geodetic and seismic network (www.geonet.org.nz), as well as significant ongoing and planned efforts by international partners in NZ, Japan, and Germany.

(3) The Taupo Volcanic Zone elicited significant excitement as the most productive rhyolitic system on Earth, which also coincides with an extensional fault system. Some of the major questions to be addressed there include: How does the mafic flux from the mantle translate to voluminous rhyolitic magma production? How does arc volcanism interact with upper plate extension? World-class datasets bearing on the distributions, age, geochemistry, physical volcanology and petrology of many rocks from the Taupo and adjacent arc volcanoes have already been acquired by New Zealand-based researchers. As a result substantial scope exists to supplement and synthesise these data and combine them with integrative geophysical and geochemical investigations. Moreover, comparison of the Kermadec Arc corridors with outcomes from the TVZ affords an opportunity to assess the influence of the continental/oceanic crust transition in the overlying plate on arc development, as well as changes in the nature of the subducting plate. An opportunity to link with the Hikurangi margin group also exists, and a targeted geochemical, geophysical, and geological corridor would enable assessment of controls on magmatism and volatile cycling for the entire subduction system, from the incoming plate and forearc through to the arc.

(4) The Kermadec Arc offers a prime setting for addressing questions relating to magmatic and volatile fluxes at a well-developed volcanic arc from the forearc through to the backarc. The Havre-Lau backarc system, which progresses from oceanic spreading in the north to rifting and disorganised spreading in the south, also offers insights into backarc extension dynamics and the reorientation of arc systems. The effect of Hikurangi Plateau subduction on the magmatic products of the arc is also a topic of interest, requiring some along-strike comparisons. Moreover, it was also recognized that an outstanding record of Eocene subduction initiation at the Tonga-Kermadec-Hikurangi Trenches exists in the region west of the Kermadec Trench. The Kermadec Arc working group recognized that a key initial part of the project will be to identify corridors across the arc in which to target their field programs. Targeted field programs would include shipboard geophysics (passive and active seismic, electromagnetic, among others), rock sampling for geochemistry, petrology, and chronology, and hydrothermal fluid sampling.
Results from an upcoming GeoMar/Sonne cruise in the Kermadec Arc will provide results to help define which corridor(s) to focus on. The marine-based science plan developed by the Kermadecs group would complement ongoing and planned efforts by New Zealand, Japanese and German colleagues, and these international collaborations will amplify outcomes of GeoPRISMS goals in the Kermadec Arc.

In addition to these geographically-focused efforts, there was strong support for continuing studies of Exhumed Terranes in New Zealand, which provide unique exposures of Mesozoic subduction in the Fiordland and Otago regions of the South Island, as well as parts of the eastern North Island. It was recognized that the only pristine Cretaceous arc section in the Circum-Pacific exists in Fiordland in the South Island, offering a prime locale to investigate the root zones of an ancient arc, at outcrop scale.

New Zealand offers major opportunities to leverage international collaborations, including those within the New Zealand-based geoscience community, and major ongoing and planned efforts by Japanese and European collaborators, among others. Although the science priorities identified are many and varied, we expect that most of these can be realistically accomplished due to the additional resources of the broader, international community that can be brought to bear on these topics.

We would like to thank the meeting attendees for their enthusiastic participation, which made the workshop a great success. We would also like to thank the speakers for stimulating and informative talks, and the breakout leaders for their key role in steering discussions. The white paper authors made major contributions by sharing their ideas for future work, which will also provide an important resource for development of the implementation plan in the coming months. The conveners were impressed by the enthusiastic participation of the graduate students and post-docs. On the final day, the students presented a well-organized implementation plan for the New Zealand focus site, which will help guide the final implementation plan. Finally, a successful workshop would not have been possible without financial support from NSF/GeoPRISMS, the New Zealand Ministry for Business, Innovation and Employment, the Consortium for Ocean Leadership, GNS Science, and the New Zealand Earthquake Commission.

A number of important tasks lie ahead. The conveners and breakout leaders will develop a draft implementation plan for the New Zealand Primary Site to be available for comment and input from participants by the end of June. At the end of July, the conveners will integrate the community input into the plan, and will release the final implementation plan by late summer. This comprehensive implementation plan will serve as a guide for NSF proposals submitted to next year’s NSF GeoPRISMS solicitation in July 2014. We also hope that the implementation plan will help to guide future international collaborative work at the New Zealand focus site.

Workshop Conveners (in alphabetical order):

Susan Ellis, GNS Science – New Zealand
Adam Kent, Oregon State University
Nicola Litchfield, GNS Science – New Zealand
Kathleen Marsaglia, California State University at Northridge
Jeff Marshall, Cal Poly Pomona
Demian Saffer, Pennsylvania State University
Susan Schwartz, University of California, Santa Cruz
Laura Wallace, University of Texas, Austin
Richard Wysoczanski, NIWA – New Zealand

Photos from the workshop

Kermadec Arc – Havre Trough Planning Mini-Workshop

Fillmore ABC, Grand Hyatt San Francisco

345 Stockton Street, San Francisco, CA

Sunday, December 8, 2013, 8:00 am – 12:00 pm

Conveners: Adam Kent, Mark Reagan, Laurent Montesi, Kaj Hoernle

AgendaMeeting objectivesMeeting report

8.00 | Introductory Remarks and logistics – Adam Kent
8.10 | Introduction to the GeoPRISMS program – Peter van Keken
8.20 | GeoPRISMS NSF plans and opportunities – Jenn Wade
8.30 | Keynote: KAHT system introduction – Ian Smith

Ongoing projects

Opportunities

10.30 | Subduction fluxes – Erin Todd/ Jim Gill
10.45 | Subduction Initiation: lessons from the IBM – Mark Reagan
11.00 | Pop up talks

Recent Tonga dives – Osamu Ishizuka
Nicaragua EM | Samer Naif
NE Lau- Tofua arc – Ken Rubin
Fernando Martinez
Marth Torres
Jessica Warren
Dan Bassett

11.45 | Discussion: Priorities

The Kermadec Arc and Havre Trough (KAHT) represent a classic intraoceanic arc – back-arc system. The KAHT extends north from the Taupo Volcanic Zone of New Zealand to the Tonga-Lau subduction system. With a well-defined arc front, remnant arcs (the Colville and Kermadec Ridges), and a back arc > 100 km wide, the KAHT system is a prime setting for investigating arc processes from subduction initiation, through arc splitting, to backarc formation, including tectonic and mass transfer processes.

Recently, the KAHT has become the focus of international research into intraoceanic arc systems, and it is part of the New Zealand GeoPRISMS focus site. A number of groups are already working in the system, including GeoPRISMS researchers and a significant number of other international groups (Germany, Japan, New Zealand, Australia). The goal of the workshop is to share details about science plans and existing results, and to coordinate future activities to maximize the synergy between different expeditions and research programs. Researchers with existing or planned future programs in this region are encouraged to attend the workshop.

Kermadec Arc-Havre Trough Planning Mini-Workshop

AGU Fall Meeting 2013, San Francisco, USA

Conveners: Adam Kent¹, Mark Reagan², Laurent Montési³, Kaj Hoernle⁴

¹Oregon State University; ²University of Iowa; ³University of Maryland; ⁴GEOMAR, Germany

On Sunday December 8, 2013 a diverse group of international researchers gathered at the Grand Hyatt, San Francisco for a GeoPRISMS-sponsored Mini-Workshop aimed at advancing collaborative science within the Kermadec-Havre Trough system (KAHT), part of the SCD New Zealand Focus Site. This followed from the successful New Zealand Planning Workshop held in Wellington in April 2013. The primary goal of this Mini-Workshop was to bring representatives of international groups together to discuss recent results, review ongoing science plans, and to identify area for future work under the aegis of GeoPRISMS.

Kermadec Arc-Havre Trough Planning Mini-workshop (8am-12 pm, December 8, 2013)

Following an introduction from the organizers and short presentations by NSF and GeoPRISMS representatives, a keynote presentation by Ian Smith, University of Auckland, provided background on the KAHT system as a classic intra-oceanic arc, and emphasized some of the key science opportunities such as progressive changes in convergence rate and continental contributions along strike from North to South, the significant proportion of felsic rocks that are present, and the possibility for studies of arc initiation in older preserved arc remnants.

These opportunities were also discussed and expanded on by reports from a number of international groups that are either already working in the region or that have well advanced plans. Most of these groups are actively seeking collaborators, reinforcing the potential of the KAHT system for driving multidisciplinary collaborative research. Kaj Hoernle (GEOMAR, Germany) discussed results for upcoming cruises aimed at understanding the inception and evolution of the Vitiaz Arc that was subsequently split into the Tonga-Kermadec and Lau-Colville Ridges. These ridges offer important targets for understanding the timing of initiation and evolution of the KAHT system – particularly in comparison with recent results from the Izu-Bonin-Mariana Arc (IBM) to the North. This point was also emphasized by Mark Reagan (U. of Iowa), who summarized advances in understanding of arc initiation in the IBM – and there may be close parallels between the KAHT and IBM. Yoshi Tamura (JAMSTEC) outlined ambitious plans for ROV studies of arc initiation, origin of basalts, caldera volcanism, and hydrothermal fluids associated with submarine volcanism within the KAHT. This proposed project would be conducted by a Japanese-led team of international researchers. Adam Kent (Oregon State U.) presented results provided by Richard Wysoczanski (NIWA, New Zealand) of sampling cruises to a number of submarine KAHT volcanoes as well as a number of regional and focused geophysical surveys. Many of these data sets will provide valuable for future selection of targets for detailed study. Erin Todd (USGS) discussed trace element and isotopic variations in dredged lavas from the Havre Trough – focusing on the interplay between tectonic and magmatic processes. Erin emphasized the importance of the KAHT for resolving the effects of melting styles, tectonic settings, and mantle thermal conditions on magma production during the rifting phase of backarc basin evolution.

These presentations were followed by a number of “pop up” talks – short presentations detailing other opportunities presented by KAHT research. These included Fernando Martinez (U. of Hawaii) discussing the large difference in spreading rates between the Lau Basin and Havre Trough. Samer Naif (Scripps Institution of Oceanography) described the potential for use of marine EM techniques and Dan Bassett (U. of Oxford) discussed the interplay between structure, mechanics, and seismicity. Jessica Warren (Stanford) detailed a global data base of abyssal and forearc peridotite compositions and Ken Rubin (U. of Hawaii) and Osama Ishizuka (GSJ/AIST) showed results from recent cruises to the northern Lau and the Tonga Trench respectively, that provided additional information on the range of mantle compositions and magmatic processes in the Kermadec-Tonga system.

The final part of the workshop was spent discussing future plans for KAHT research, with a consensus that the system offers many exciting new opportunities for international collaborative research.

Mini-Workshop for the South Island, New Zealand Primary Site coordination

Grand Hyatt San Francisco

345 Stockton Street, San Francisco, CA

Union Square Room – 36^th Floor

Sunday December 14, 2014, 1:30 – 5pm

Conveners: Mike Gurnis, Sean Gulick, Ellen Syracuse, Tim Stern, Phaedra Upton

Participant list

AgendaMeeting objectivesMeeting report

Introduction

1:30 | Introductory remarks and logistics – Michael Gurnis

1:40 | Introduction to GeoPRISMS and NSF funding schedule for focus sites – Peter van Keken

1:50 | Recap of science priorities defined for Puysegur and Fiordland in the GeoPRISMS implementation plan – Sean Gulick

2:10-3:00 | Ongoing and already proposed projects – Chair: Tim Stern

1. The exhumed arc roots exposed at Fiordland and opportunities for an ExTerra Field Institute – Sarah Penniston-Dorland and Joshua Schwartz

2. Surface processes and the history of earthquakes from the sedimentary record in Fiordland – Jamie Howarth

3. Measuring Crustal and fault structure across Puysegur with active source seismology – Harm Van Avendonk

4. Constraining mantle volatiles in Fiordland and Puysegur with an MT experiment – Michal Kordy

5. The need for magnetic measurements along Puysegur and the history of spreading between AUS and PAC – Joann Stock

6. Investigating adakitic volcanism and subduction initiation at Solander Island and the adjacent seafloor – Brian Jicha

7. Exploring the hyperextended margin of the Campbell Plateau – Simon Lamb & Tim Stern

8. On going work – Martha Savage

9. Investigating Exhumed Lower Arc Crust in Fiordland | Joshua Schwartz

3:00-3:15 | Short break

3:15-4:15 | Discussion and breakout

Discussion will focus on studies that are needed to fill existing science/dataset gaps in the implementation plan. Discussion will also include leveraging existing datasets, and on linking in with other planned/proposed studies. Coordinating logistics, such as taking advantage of ships that will be in the area, should also be discussed. Participants are welcome to come with a few slides if appropriate—please let us know in advance if you plan to bring slides, so we can be sure to fit this in.

4:15-5:00 | Develop a short listing that prioritizes the science gaps that need to be filled

The South Island of New Zealand offers a wealth of prospects for subduction zone research. The Puysegur Trench region — a juvenile subduction zone “caught in the act” of initiation — provides unique opportunities to investigate the geodynamics of the process. In Fiordland tectonic motions have led to deep exhumation of the only pristine Cretaceous arc section in the circum-Pacific and offers a prime locale to investigate the root zones of an ancient arc at outcrop scale. Excellent opportunities exist in both regions to address fault slip and its spatial variability. Addressing questions on subduction initiation, exhumed terranes, and subduction thrust slip behavior in one region is an exciting opportunity, and will require large geophysical field deployments, targeted geological fieldwork, sampling, geochemical analysis, multi- scale geodynamic models, and integration of diverse data types. Solving the questions may require ocean drilling and sampling through IODP. The South Island mini-workshop will focus on: 1. Brief reviews and discussion of latest work on GeoPRISMS science questions within Puysegur and Fiordland; 2. Presentation of specific plans on a wide range of studies (including geological sampling, passive and active geophysical experiments, and IODP drilling); 3. Review and discuss the capabilities of facilities from the US, NZ and other countries and how they could be used to address plans; and 4. Make plans for science collaboration. Researchers in any geoscience field are invited to participate in the workshop, including those who have not worked in the region previously.

South Island, New Zealand primary site coordination mini-workshop

AGU Fall Meeting 2014, San Francisco, USA

Conveners: Sean Gulick¹, Mike Gurnis², Ellen Syracuse³, Tim Stern⁴, Phaedra Upton⁵

¹University of Texas; ²Caltech; ³Los Alamos National Laboratory; ⁴Victoria University of Wellington ⁵GNS Science, NZ

On Sunday December 14, 2014, from 1:30 to 5 pm, a diverse group of researchers met in the Grand Hyatt San Francisco before the AGU Fall Meeting to discuss coordination of work within the South Island, New Zealand GeoPRISMS primary site. The South Island of New Zealand offers extraordinary opportunities to address subduction cycles and dynamics science questions. Members of the community are gearing up for work in New Zealand and so the time was ripe to foster collaboration between US scientists and others internationally.

South Island, New Zealand primary site coordination mini-workshop (1:30pm-5 pm, December 14, 2014)

Following an introduction from the organizers, Sean Gulick (UT Austin) recapped the science priorities defined for Puysegur and Fiordland in the GeoPRISMS Implementation Plan. Sean described how the South Island of New Zealand offers a wealth of prospects for subduction zone research. The Puysegur Trench region – a juvenile subduction zone “caught in the act” of initiation – provides unique opportunities to investigate the geodynamics of this fundamental plate tectonic process. In Fiordland, tectonic motions have led to deep exhumation of a pristine Cretaceous arc section and offers a prime locale to investigate the root zones of an ancient arc at outcrop scale. Addressing questions on subduction initiation, exhumed terranes, and subduction thrust slip behavior in one region is an exciting opportunity and will require large geophysical field deployments, targeted geological fieldwork, sampling, geochemical analysis and geodynamic models.

The overview was followed by shorter talks describing specific targets or nascent efforts for larger activities. Joshua Schwartz (CS Northridge) described how an exhumed arc root exposed at Fiordland provides opportunities to address how volatiles, fluids, and melts are stored, transferred, and released through the subduction system. Sarah Penniston-Dorland (U Maryland) then described how Fiordland presented an outstanding locale for an ExTerra Field Institute in which a group of experienced scientists and students would spend several weeks in the field familiarizing newcomers to the area, collecting rock samples and making other detailed field observations. Jamie Howarth (GNS Science) discussed surface processes and the history of earthquakes from the sedimentary record. Jamie described his own work using sequences of turbidites to understand landslides and erosion in the Southern Alps and how the large magnitude earthquakes within Fiordland can be better understood through the study of turbidites.

Harm Van Avendonk (UT Austin) gave a talk on measuring crustal and fault structure across Puysegur with active source seismology. Harm described how the fundamental geophysical unknowns in Puysegur limit our understanding of subduction initiation. Through detailed models of seismic wave propagation through Puysegur, Harm showed how crustal structure, crustal thickness and dip of the nascent plate boundary could be determined with east-west active source seismic lines. Recent seismic work elsewhere showed that the necessary data could be acquired with an active source experiment. The field geophysical theme continued with a talk by Michal Kordy and Phil Wannamaker (U of Utah) on constraining mantle volatiles with an MT (magnetotellurics) experiment. They showed how major changes in electrical resistivity are likely associated with volatiles in the mantle and how a combined onshore and offshore MT experiment across Fiordland and Puysegur could constrain the volatile release during subduction initiation. Joann Stock (Caltech) made the case for magnetic measurements along Puysegur – the only subduction zone in which the kinematics of both over-riding and under thrusting plates are well known during the initiation phase.

Brian Jicha (U of Wisconsin) and Gene Yogodzinski (U of South Carolina) gave a talk on adakitic volcanism and subduction initiation at Solander Island. Solander is the only sampled volcanism along Puysegur and the andesites there are adakitic. Brian reviewed the other locations in which adakites are found and that melting of MORB eclogite in the subducting oceanic crust is one aspect of their formation. Most studies of subduction initiation have been made on western Pacific arcs and Puysegur provides an opportunity to study a nascent arc which has a different petrological expression. The case was made that there is a large area of submarine volcanism around Solander that has yet to be sampled and that the time is now ripe to do so.

Several talks explored work currently underway on the South Island that complements those planned for GeoPRISMS. Simon Lamb and Tim Stern (Victoria U of Wellington) gave a talk exploring the putative hyperextended margin of the conjugate to Campbell Plateau that might be the crust now below the central part of the Southern Alps. Martha Savage (Victoria U) gave an overview of several other South Island projects including seismic anisotropy over the extent of the island and drilling within the Alpine Fault.

The talks were followed by open discussion on both the science and logistics of the various plans presented. In terms of science returns, the participants discussed how the seismic experiments link the plate kinematics to the structure and evolving force balance. The MT experiment would map the first appearance of volatile release heralding the transformation of basalt to eclogite that could have provided a major jump in the force driving subduction initiation. Discussed at length was the question of optimizing the logistics of the passive MT and active seismic experiments while providing opportunities to sample volcanic rocks around Solander Island. The two geophysics experiments have different footprints: the seismic lines are more tightly aligned on the Puysegur margin while the MT experiment extends farther afield. The vessel that deploys or recovers the MT instruments might also be able to dredge for samples around Solander. The broader group discussed logistical aspects of holding an ExTerra Field Institute in the remote Fiordland location highlighting the advantages of coordination with any geophysical deployment. The group identified numerous opportunities and ways to coordinate activities through both NSF programs and international collaboration.

Workshop to cultivate and coordinate GeoPRISMS studies of the Hikurangi subduction margin

Grand Hyatt San Francisco

345 Stockton Street, San Francisco, CA

Union Square Room – 36^th Floor

Sunday December 14, 2014, 9 – 12pm

Conveners: Laura Wallace, Mike Underwood, Samer Naif, Bill Fry, Stephen Bannister, and Nathan Bangs

Participant list

AgendaMeeting objectivesMeeting report

Introduction

9:00 | Introductory remarks and logistics – Laura Wallace

9:05 | Introduction to GeoPRISMS and NSF funding schedule for focus sites – Peter van Keken

9:15 | Recap of science priorities defined for Hikurangi in the GeoPRISMS implementation planb – Mike Underwood

9:30-10:30 | Ongoing and already proposed projects – Chair: Samer Naif

Status of IODP drilling and observatory proposals at North Hikurangi – Demian Saffer
OBS and seafloor pressure sensor deployments (HOBITSS project) – Laura Wallace
Hikurangi Heatflow – Laura Wallace to overview on behalf of Rob Harris and Anne Trehu
Hikurangi fluid budgets | Susan Ellis
Current offshore Hikurangi research – Phil Barnes
Hikurangi seismological studies | Bill Fry, Donna Eberhart-Phillips, Martha Savage
Japan-led seismological and seafloor geodetic efforts – Yoshihiro Ito
Hikurangi 3D Seismic proposal – Nathan Bangs
Physical controls on variations in slip behavior at Hikurangi- interdisciplinary proposal to do 2D seismic, CSEM, paleoseismology, GPS, and numerical modeling – Kirk Mcintosh

10:30-10:45 | Open discussion of additional ongoing/proposed projects not discussed above

10:45-11:00 | Short break

11:00-12:30 | Discussion: Studies that should be proposed at the Hikurangi margin – Chairs: Mike Underwood and Laura Wallace

MVUW contributions to Hikurangi research proposed or in process – Martha Savage

The Hikurangi subduction margin in New Zealand offers an outstanding opportunity to address many fundamental questions on subduction margin deformation and megathrust behavior. The objectives of the Hikurangi mini-workshop will be to foster new relationships among researchers who will develop amphibious projects across a spectrum of geophysical, geological, and geochemical approaches. Discussion will occur within the context of existing planned projects, including a proposed IODP transect. Data acquisition activities are ongoing by New Zealand, United States, Japanese and European scientists. We will discuss ways of leveraging and coordinating these existing efforts with new efforts to maximize potential GeoPRISMS outcomes at the Hikurangi focus site.

We encourage all researchers interested in subduction processes at the Hikurangi margin to attend. We also encourage attendees interested in subduction deformation and megathrust processes in Cascadia and Alaska, to cross-fertilize ideas and implementation strategies among all three of the GeoPRISMS primary sites. Some of the topics to be discussed include:

the state of the incoming plate and the role of incoming sediment properties in subduction thrust behavior and margin evolution;
physical properties of the megathrust and the influence of this on megathrust behavior;
fluid sources and fluxes, with emphasis on the forearc;
microseismicity, episodic slip, and tremor.

Attendees will collectively identify new research activities that address these topics most effectively, with an emphasis on leveraging existing studies/datasets.

Workshop to cultivate and coordinate GeoPRISMS studies of the Hikurangi subduction margin (9am-12 pm, December 14, 2014)

On Sunday, December 14, 2014, an enthusiastic group of more than 70 international researchers from a variety of disciplines met in San Francisco at AGU to discuss studies that should be proposed at the Hikurangi subduction margin (part of the New Zealand focus site) for the upcoming GeoPRISMS funding rounds. The meeting began with a brief overview of the GeoPRISMS program by Peter van Keken, which was followed by Mike Underwood’s review of the Hikurangi margin science priorities, which are based largely on discussions at the New Zealand Focus site workshop that was held in April 2013. The objective of the mini-workshop was to promote and coordinate new collaborations to fill critical gaps in the GeoPRISMS Implementation Plan. To that end, a series of short talks highlighted projects that are either ongoing, already proposed, or soon to be proposed. The last half of the meeting was focused on open discussion during which participants identified new research opportunities.

The community has already made major progress in advancing key science objectives identified for the Hikurangi margin. Demian Saffer overviewed the IODP drilling proposals to investigate shallow slow slip events (SSEs) at the northern Hikurangi margin; the proposal for riserless drilling has passed through panel reviews and now awaits scheduling by the JOIDES Resolution Facilities Board. A proposal for riser drilling also reviewed well and has been forwarded to the Chikyu Facilities Board. Already underway is the Hikurangi Ocean Bottom Investigation of Tremor and Slow Slip (HOBITSS) to investigate vertical deformation of the seafloor and seismicity related to the shallow SSEs, supported by funding from NSF, New Zealand, and Japanese sources. An NSF-funded heat-flow survey led by Rob Harris is scheduled for May/June 2015 to constrain the thermal regime of the subduction interface. Proposals have been submitted to NSF to (1) acquire 3-D seismic data of the shallow SSE source, (2) conduct onshore and offshore geophysical investigation of megathrust properties along-strike, and (3) to install long-term borehole observatories at the proposed IODP sites.

Numerous representatives from the New Zealand geoscience community introduced ongoing and planned geophysical, geological, and modeling initiatives that dovetail nicely with GeoPRISMS goals. In particular, there are a large number of seismological, electromagnetic (onshore), numerical modeling, and paleoseismological investigations conducted by New Zealand-based researchers. To leverage these existing and planned studies (and not duplicate efforts), it is particularly important for GeoPRISMS-funded investigators to collaborate with and communicate with their New Zealand-based counterparts. David Johnston of GNS Science informed participants about a New Zealand-based initiative called “East Coast Life at the Boundary (LAB)”, part of which is targeted at communication of research results on the Hikurangi margin to the general public and local policymakers. This offers an excellent opportunity for GeoPRISMS researchers at Hikurangi to work with the East Coast LAB to coordinate outreach activities in New Zealand. We also heard about ongoing and already funded efforts by Japanese and European researchers focused on the offshore Hikurangi margin over the next four years.

The last half of the mini workshop was dedicated to discussion of critical science gaps. The main discussion focused on:

microseismicity, episodic slow slip, and tremor;
the state of the incoming plate and the role of incoming sediment properties in subduction thrust behavior and margin evolution;
past and present megathrust slip behavior and the physical controls on that behavior;
fluid and volatile fluxes in the forearc.

From this discussion we identified some of the most critical studies that are needed to fill gaps. Paleoseismology studies will help resolve the past earthquake behavior of the subduction thrust and whether or not the modern-day geodetic locking pattern is static or varies with time. Increased efforts towards sampling and geochemical analysis of onshore and offshore fluid seeps will yield important insights into volatile cycling and hydrogeology above a shallow subduction thrust. A new idea was raised to use the seafloor drill rig MeBo for coring at numerous points on the Hikurangi Plateau (a Large Igneous Province) where the sedimentary cover is thin (<200 m). Such sampling would address the role of 3-D stratigraphic variability in modulating subduction-interface slip behavior. Controlled-source electromagnetic (CSEM) transects in the offshore forearc and incoming plate will evaluate the role of fluids in megathrust slip behavior and margin evolution. Seafloor (GPS-Acoustic) geodetic studies will help resolve the slip behavior of the shallow subduction thrust. Densification of onshore geodetic instrumentation, and addition of strain meters, tiltmeters, and borehole seismometers will lower the threshold of slow slip event detection, enabling higher-resolution investigation of SSEs and seismicity, and detection of smaller events. Modeling of Hikurangi SSEs assuming a rate-state friction framework, as well as other approaches, will help resolve the physical controls on the diversity of SSE behavior.
The conveners appreciate the participants’ contributions, and thank them for their help in achieving the goals of the mini-workshop.