Strategies for Synthesis, Integration, and Future Opportunities


  Grand Hyatt Union Square, San Francisco
2nd Floor, Belvedere Room

 icon-calendar Sunday December 8, 2019, 1:15 PM – 5:45 PM

Conveners: The GeoPRISMS Steering and Oversight Committee – Becky Bell, Rebecca Bendick, Daniel Brothers, Mark Caddick, Char Deering, Katie Keranen, Luc Lavier, Rob Harris, Emily Roland, Kyle Straub, Jessica Warren, Demian Saffer

 icon-file-text-o Participant list

 icon-file-text-o Meeting agenda

AgendaMeeting objectives

12:00 – 1:15PM | Lunch to be provided (OneUP Lounge, Mezzanine Level)

1:15 – 1:30 | Welcome from GeoPRISMS Office and news from NSF (Demian Saffer, Jenn Wade)

1:30 – 1:45 | Welcome, Introduction & Charge to Discussion Groups (Demian Saffer)

Overarching goal is to prepare community to write proposals for longer term workshops/studies, and for future opportunities in research and E&O.

1:45-2:00 | Example of recent synthesis workshop – strategies & outcomes (Terry Plank)

2:00 – 3:30 | Breakout Discussions

  1. Strain localization and evolution of plate boundaries (Sarah Jaye Oliva; Erin Hightower)
  2. Linking geophysical imaging to active composition/state/properties (Andrew Gase; Cailey Condit)
  3. Fluids/metamorphism/rheology & exhumed records of plate margins (Andy Smye; Kayleigh Harvey)
  4. Fluid and volatile migration (James Muirhead; Suzanne Birner)
  5. Feedbacks between tectonic deformation and magmatism (John Green; Luc Lavier)
  6. The pace and mechanics of magma supply (Dan Rasmussen; Chad Deering)
  7. From slow slip to mega-earthquakes (Hiroko Kitajima; Connor Drooff)
  8. Coupling geodynamics and surface processes; geohazards on passive-aggressive margins (Tina Dura)

3:30 – 4:00 | Coffee Break

4:00-5:30 | Breakout report-outs & plenary discussion

  • Identify common themes and needs
  • Discuss strategy and timeline for implementing next steps: workshop proposal “packages”, products to be developed, etc…

5:45 | Adjourn for Evening Celebration, light catering & Cash Bar (Bayview Room, 36th Floor)

The goal of the workshop is to harness momentum from the large synthesis & integration workshop that took place in San Antonio in February 2019, and in particular to develop strategies for engaging the community in fundamental science that builds upon the last two decades of the GeoPRISMS and MARGINS programs. Unlike many of the previous GeoPRISMS workshop events, this gathering is planned as a “working meeting”, from which we hope to emerge with a clear set of planned activities and/or proposals for future small, focused workshops; science proposals that can/should be pursued; key needs for synthesis and integration and plans to implement these; and synthesis or integration products that tie together science in thematic areas.

2019 GeoPRISMS Synthesis & Integration Theoretical and Experimental Institute


 Hotel Menger, San Antonio, Texas
 February 27-March 1, 2019
Preceded by an Early Career Symposium

Attendees of the 2019 GeoPRISMS Synthesis & Integration TEI in front of the Alamo in San Antonio, TX

icon-chevron-right Photos from the workshop

AnnouncementAgenda | Presentation archiveStudent & Postdoc SymposiumFundingMore info

The 2019 GeoPRISMS Theoretical and Experimental Institute (TEI) will represent an opportunity for our community to synthesize results from the Rift Initiation and Evolution Initiative (RIE) and the Subduction Cycles & Deformation Initiative (SCD). During this meeting we will evaluate what has been accomplished so far in all GeoPRISMS themes and primary sites, and what gaps still need to be filled in the last years of the decadal program. We will also try to identify emerging new opportunities and to develop new research directions for our community after the end of the GeoPRISMS Program. The three-day meeting will be preceded by an Early-Career Investigator symposium on Tuesday February 26.

Key objectives that the workshop will try to achieve:

  1. Set the stage for legacy of GeoPRISMS, develop concrete ideas for legacy products or activities in the coming 2-3 years. This should include both science and Education and Outreach.
  2. The meeting program should identify the outstanding process-based questions and cross-cutting themes that engage both RIE and SCD communities. These burning science questions can help guide the integration of science results from GeoPRISMS, and it can lead to future proposals and funding opportunities.
  3. The Early Career Investigator (ECI) symposium will foster cross-disciplinary collaborations among young scientists. This symposium will be led by two young scientists in our community.
  4. The synthesis workshop will help position our science community for future years. We can evaluate the role that large research infrastructure will play, how science goals of the GeoPRISMS program can be met in other initiatives such as a SZ4D, and the importance of continued NSF support for cross-disciplinary and cross-shoreline research.

Organizing Committee

Katie Kelley (University of Rhode Island)
Harm Van Avendonk (University of Texas at Austin)
Jessica Warren (University of Delaware)
Kyle Straub (Tulane)
Rob Harris (Oregon State university)
Katie Keranen (Cornell)
Joe Dufek (University of Oregon)
Christie Rowe (McGill)
Philip Skemer (Washington University, St Louis)
Ikuko Wada (University of Minnesota)

Ex officio: Demian Saffer (GeoPRISMS Office/Pennsylvania State University)

Early Career Investigator symposium leaders:

Eric Mittelstaedt (University of Idaho)
Taryn Lopez (University of Alaska, Fairbanks)

Important Dates

October 10: Applications are invited via the meeting webpage
November 12: Application deadline
December: Successful applicants are invited to confirm participation
January 7: Deadline for confirmation of attendance
Late January: Final meeting agenda is released

Morning meeting of workshop conveners (including leaders of EC symposium)

Tuesday February 26 – Early Career Symposium | Ballroom A, Leaders: Taryn Lopez & Eric Mittelstaedt

12:00-12:30 | Registration for early career symposium attendees (booth by Ballroom A)

12:30-12:45 | Welcome, Introduction and outline of symposium | Demian Saffer, GeoPRISMS Chair; Taryn Lopez and Eric Mittlestaedt, ECS conveners

12:45-13:05 | Deformation at all timescales: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Emishaw Luelseged, James Muirhead, Sarah Jaye Oliva, and Tianhaozhe Sun

13:05-13:45 | Lightning Talks in breakout groups

13:45-14:30 | Breakout session: Deformation at all timescales

14:30-14:45 | Coffee Break

14:45-15:05 | Mass fluxes: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Helen Janiszewski, Michelle Muth, and Richard Palin

15:05-15:50 | Breakout session: Mass Fluxes

15:50-16:10 | Geohazards and margin stability: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Christine Chesley, Connor Drooff, Hui Tang, and Mel Zhang

16:10 -16:55 | Breakout session: Geohazards and Margin Stability

16:55 -18:00 | Wrap-up and Synthesis

TEI attendees are invited to put up their posters on Tuesday afternoon. Please refer to your poster ID#  to find your poster board.

18:00-20:00 | TEI registration, reception and ice breaker | Minuet & Patio Rooms


Wednesday February 27 – Day 1

7:00-8:00 | Breakfast | Minuet & Patio Rooms

8:00-09:40 | Early morning session: moderated by Philip Skemer and Rob Harris

08:45-09:00 | Discussion

09:00-09:20 | Summary of SCD Initiative | Sarah Penniston-Dorland

09:20-09:40 | Summary of RIE Initiative | Donna Shillington

09:40-10:00 | Coffee break

10:00-11:45 | Late morning session

10:00-10:30 | Outcome of Early-Career symposium. Eric Mittelstaedt and Taryn Lopez

10:30-11:30| Allied organizations

11:30-11:45 | Discussion. Moderated by conveners

11:45-13:15 | Lunch provided | Minuet & Patio Rooms

13:15-15:25 | Early afternoon session

THEME 1: Deformation at all timescales

TOPIC 1a: The role of structural inheritance in plate tectonic events
TOPIC 1b: Reconciling strain budgets at different time scales

15:25-15:45 | Coffee break

15:45 – 17:35 | Late afternoon session

15:45-16:05 | IEDA data repositories for the GeoPRISMS Community – Suzanne Carbotte

Breakout session 1: Deformation at all time scales

16:05-16:20 | Instructions on first breakout session presented by Ikuko Wada-Phil Skemer
16:20-16:35 | Dividing the participants in four groups and send them to breakout rooms
16:35-17:35 | Breakout meetings

  • Where do we have gaps in our understanding? What are remaining or emerging science questions?
  • What kind of infrastructure does our community need to address current science questions? What data sets must we collect?
  • Is an amphibious research program required to accomplish our goals? How do we maintain a cohesive community that conducts research across the shoreline?
  • How do we capture the momentum of the GeoPRISMS community? Can a Research Coordination Network (RCN) serve this purpose?

17:35-19:30 | Poster session with cash bar

Dinner on your own


Thursday February 28 – Day 2

7:00-8:00 | Breakfast | Minuet & Patio Rooms

08:00-09:40 | Early morning session

08:00-08:30 | Summaries of Breakout session 1. Moderated by Harm Van Avendonk and Katie Kelley. The breakout scribes present summaries

Group 1 | Group 2 | Group 3 | Group 4

THEME 2: Mass fluxes

TOPIC 2a: Fluid and volatile fluxes at plate boundaries.
TOPIC 2b: Evolution of the volcanic arcs, and the composition of continental crust

  • 08:30-08:45 | Introduction of the science theme | Harm Van Avendonk and Katie Kelley
  • 08:45-09:05 | What are the mechanisms and consequences of fluid and volatile exchange between the Earth, oceans, and atmosphere at rifted continental margins? | Keynote 2a/RIE – Tobias Fischer
  • 09:05-09:25 | How are volatiles, fluids, and melts stored, transferred, and released through the subduction system? | Keynote 2a/SCD – Terry Plank
  • 09:25-09:40 | Questions for both speakers. Moderated by Harm Van Avendonk and Katie Kelley

09:40-10:00 | Coffee break

10:00-11:45 | Late morning session

11:45-13:15 | Lunch provided | Minuet & Patio Rooms

13:15-14:30 | Early afternoon session

Breakout session 2: Mass fluxes

13:15-13:30 | Instructions on second breakout session; Dividing the participants in four groups and send them to breakout rooms. Presented by Harm Van Avendonk and Katie Kelley
13:30-14:30 | Breakout meetings.

  • What studies are necessary for synthesis what questions will be important beyond GeoPRISMS
  • Where do we have gaps in our understanding? What are remaining or emerging science questions?
  • What kind of infrastructure does our community need to address current science questions? What data sets must we collect?
  • Is an amphibious research program required to accomplish our goals? How do we maintain a cohesive community that conducts research across the shoreline?
  • How do we capture the momentum of the GeoPRISMS community? Would a Research Coordination Network (RCN) serve this purpose?

14:30-14:50 | Coffee break

14:50-17:30 | Late afternoon session

  • 14:50-15:20 | Summaries of Breakout session 2. Moderated by Joe Dufek and Kyle Straub. The breakout scribes present summaries

Group 1 | Group 2 | Group 3 | Group 4

Theme 3: The stability of margins and geohazards

Topic 3a: Feedbacks between tectonics, surficial processes, sediment transport and deposition
Topic 3b: Geohazards

17:10-17:30 | Questions for both speakers, and Discussion. Moderated by Joe Dufek and Kyle Straub

17:30-18:30 | Poster Session with cash bar – Ballroom C

19:30-21:30 | Conference dinner | Ballroom AB


Friday March 1 – Day 3

07:00-08:00 | Breakfast | Minuet & Patio Rooms

08:00-09:45 | Early morning session

Breakout session 3

08:00-08:15 | Instructions on third breakout session; Dividing the participants in four groups and send them to breakout rooms.Presented by Joe Dufek and Kyle Straub
08:15-09:15 | Breakout meetings

09:15-09:45 | Education and Outreach – Julia Morgan

09:45-10:05 | Coffee break

10:05-11:45 | Late morning session

  • 10:05-10:35 | Summaries of Breakout session 3. Moderated by Joe Dufek and Kyle Straub. The breakout scribes present summaries.

1. Origin and evolution of plate boundaries (Presenter: Sarah Jay Oliva)
2. Linking geophysical imaging to active composition/state/properties (Presenter: Christine Chesley)
3. Fluids/metamorphism/rheology & 7. Exhumed records of plate margins at depth
4. Fluid and volatile migration (Presenter: Darin Schwartz)
6. Feedbacks between tectonic deformation and magmatism (Presenter: Brandon Chiasera)
8. The pace and mechanisms of magma supply (Presenter: Jordan Lubbers)
9. From slow slip to mega-earthquakes (Presenter: Connor Drooff)
10. Coupling geodynamics and surface processes & 11. Geohazards on passive-aggressive margins (Presenter:

  • 10:35-11:05 | Legacy of MARGINS and GeoPRISMS data
  • 11:05-11:45 | Discussion of Mid-Scale Research

11:45-13:15 | Lunch provided | Minuet & Patio Rooms

13:15-14:55 | Early afternoon session

  • 13:15-13:45 | Group discussion on outstanding research questions
  • 13:45-14:15 | Discussion on emerging science opportunities
  • 14:15-14:55 | Discussion on synthesis of the GeoPRISMS program

14:55-15:15 | Coffee break

15:15-16:45 | Late afternoon session

  • 15:15-15:45 | Discussion of strategies, themes and focus areas for future community research
  • 15:45-16:15 | Discussion on leveraging GeoPRISMS research in other science programs
  • 16:15-16:45 | Future plans for GeoPRISMS | Demian Saffer, GeoPRISMS chair, and steering committee

Dinner on your own

Meeting adjourned

Tuesday February 26 – Early Career Symposium | Ballroom A, Leaders: Taryn Lopez & Eric Mittelstaedt

12:00-12:30 | Registration for early career symposium attendees (booth by Ballroom A)

12:30-12:45 | Welcome, Introduction and outline of symposium | Demian Saffer, GeoPRISMS Chair; Taryn Lopez and Eric Mittlestaedt, ECS conveners

12:45-13:05 | Deformation at all timescales: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Emishaw Luelseged, James Muirhead, Sarah Jaye Oliva, and Tianhaozhe Sun

13:05-13:45 | Lightning Talks in breakout groups

13:45-14:30 | Breakout session: Deformation at all timescales

14:30-14:45 | Coffee Break

14:45-15:05 | Mass fluxes: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Helen Janiszewski, Michelle Muth, and Richard Palin

15:05-15:50 | Breakout session: Mass Fluxes

15:50-16:10 | Geohazards and margin stability: Background, methods & opportunities for advancing GeoPRISMS science

Presenters: Christine Chesley, Connor Drooff, Hui Tang, and Mel Zhang

16:10 -16:55 | Breakout session: Geohazards and Margin Stability

16:55 -18:00 | Wrap-up and Synthesis

The TEI is funded by the National Science Foundation through the GeoPRISMS Office at The Pennsylvania State University. There is no registration fee. We will be able to cover most on-site expenses (venue costs, hotel expenses based on multiple occupancy, and most meals) for approximately 175 participants. Partial funding for travel may also be available, with preference given to students and postdocs. Confirmed participants whose on-site expenses are covered are expected to arrive on Tuesday evening and leave on Saturday morning.

ENAM science advances: Progress and outlook


  Westin Canal Place
100 Rue Iberville, New Orleans, LA, 70130
Crescent Ballroom – 11th Floor

Sunday December 10, 2017, 8:30 AM – 1:00 PM

Conveners: Colton Lynner and Zach Eilon

 icon-file-text-o Participant list

 icon-file-text-o Meeting agenda

AgendaMeeting objectivesMeeting report

08:30  | Welcome and Introductions  – GeoPRISMS Chair Demian Saffer and Colton Lynner

Appalachian Mountains

08:45 Keynote | The Appalachians – Lara Wagner

09:05 – 09:25 | Pop-ups by early career participants

Characterizing the Southeastern Appalachian Margin via integrated potential field and structural modeling– Patrick Duff

Insights on magmatic addition beneath the Atlantic Coastal Plain from crustal refraction seismic data – Lindsay Worthington

Localized rifting and magmatism from the crustal velocity structure of the Southeastern United States – Rachel Marzen

Correlation of three-dimensional variations of seismic Moho with tectonic terranes in eastern North America – Cong Li

09:30  Keynote | Surprising magnetotelluric results from the Eastern North American Margin – Ben Murphy

09:50 | Discussion

10:25 | Break

Offshore Margin

10:40 Keynote | Offshore ENAM margin Final stages of continental breakup and early seafloor spreading history – Anne Bécel

11:00 – 11:20 |  Pop-ups by early career participants

Offshore Margin – Brandon Shuck

Refining the formation and early evolution of the Eastern North American Margin – John Greene

How fast were the ECMA SDRs emplaced? – Joshua “Bud” Davis

Expanded mid-Atlantic deep water allostratigraphy – James Gibson

11:20 | Discussion

Margin-wide Synthesis

11:50 Keynote | Margin-wide synthesis  – Roger Buck

12:10 – 12:20 | Pop-ups by early career participants

Explore the Uplifting Mechanism of the Adirondack Mountains – Xiaotao Yang

Lithospheric structure of the Southeastern US – Erin Cunningham

12:20 | Discussion

12:45 | Conclusion – Zach Eilon

The Eastern North American Margin (ENAM) GeoPRISMS focus site is a type locale for the terminal stage in the evolution of a passive rift margin. New observations, as well as reevaluations of legacy datasets, hold promise for improving our understanding of the evolution, history, and present-day topography of the Appalachian Mountains, anomalous volcanism along the margin, crustal and lithospheric structures as determined through multiple data types, the transition from ocean to continent and possible diachronous breakup, and dynamic processes in the mantle. The particular strength of the GeoPRISMS community lies in its combination of expertise in diverse fields (e.g. seismology, magnetotellurics, geology, structure and surface processes, geochemistry, and dynamical modeling) to address large outstanding problems. A crucial aspect to this community approach is the maintenance of periodic synthesis meetings that provide a multidisciplinary forum for comparison and integration of novel research findings. This mini-workshop will be held at the Westin Canal Place (http://www.westinneworleanscanalplace.com) on Sunday, December 10th, prior to the Fall 2017 AGU meeting, and will focus on new results from investigations of the ENAM at a variety of scales, with a focus on research highlights and outstanding research questions that demand integration of multiple perspectives. We have prioritized early-career (grad student + post-doc) contributions and ample discussion time to emphasise a forward-looking approach to this community endeavour.

ENAM science advances: progress and outlook

Sunday December 10, 2017 | AGU Fall Meeting 2017 | New Orleans, LA

Organizers: Zachary Eilon1 and Colton Lynner2

1UC Santa Barbara, 2U Arizona

The Eastern North American Margin (ENAM) science advances: progress and outlook mini-workshop was held on Sunday morning immediately preceding the 2017 AGU Fall Conference. This workshop was designed to provide an opportunity for community presentation and discussion of new and future work on the Eastern North American Margin. The timing of the workshop, approximately two years following the conclusion of the ENAM Community Seismic Experiment (CSE), was ideal for showcasing mature research projects that span the entirety of the margin, from the Appalachian Mountains to the offshore region. The workshop featured products of the amphibious broadband seismic and multi-channel seismic (MCS) data as well as the integration of EarthScope Transportable Array with the ENAM-CSE.

This workshop had 34 participants in total, including 20 (59%) early-career scientists (graduate students and post-docs) – this attendance despite weather related travel difficulties for many attendees. In order to promote the integration of multiple scientific perspectives and sub-disciplines that encompass the ENAM, the mini-workshop was organized thematically by geographic region. Sessions were divided between the Appalachian Mountains and the Onshore Margin, the Offshore Margin, and Margin-Wide Synthesis, ordered sequentially for a geographic and thematic progression. The format of the workshop was split approximately evenly between keynote presentations (20 minutes each), pop-up talks (5 minutes each) and discussion time. Keynote speakers were asked to give an overview of the active research topics and outstanding questions in each region. Pop-up talks were selected from graduate-students and early career researchers who applied to speak at the mini-workshop. This format allowed 15 separate presenters to highlight their recent research products, while also building in opportunities for participants to talk through consistencies and incongruences between cutting-edge results.

Here, we summarize the main conclusions of the presentations and discussions (for speaker affiliations, see workshop schedule, below):

Appalachians and Onshore Margin: 

Lara Wagner provided a thorough tectonic and literature background for ENAM research; she emphasized that for a “passive” margin, ENAM looks surprisingly active, with ongoing seismicity, Eocene volcanics near Harrisonburg, and steep relief. Lara noted that variations in the Appalachian orogen along-strike may reflect pre-existing Grenville structure underlying the present margin. Her surface wave models reveal a localized low-velocity upper mantle anomaly precisely co-incident with the Eocene volcanics, posited as a lithospheric hole/drip. In addition, she images a slow anomaly resembling delamination beneath the Cape Fear Arch and distinct lithospheric structure across the Grenville front that indicates significant lithosphere-asthenosphere (LAB) boundary topography well inboard of the ocean-continent transition.

Patrick Duff used magnetic and gravity modeling along with legacy seismic datasets to argue for ~370km of shortening during Appalachian orogenies. He showed that lower-crustal variability was not necessarily needed in order to account for the gravity signal. His results suggest that the Carolina Terrane does not extend the entire depth of the crust and that the Grenville basement extends farther east than previously thought.

Lindsay Worthington showed new results from the on-land component of the ENAM-CSE active source experiment. Her results show a surprisingly simple lower-crustal structure beneath the onshore portion of the margin, with elevated supra-Moho velocities perhaps indicating crustal underplating related to the initial formation of the ENAM on one of the two lines. High crustal velocities seem to be only present on the southern line, suggesting high variability in crustal structure and underplating.

Rachel Marzen’s work on the SUGAR lines (South Georgia Basin) crosses Mesozoic rift basins and multiple potential suture zones between accreted terranes. They observed high Vp and Vs within the Inner Piedmont and Carolina accreted terranes that are underlain by a low velocity zone at ~5 km depth. Differences in the basin structure, lower crustal velocities, and crustal thickness between the two lines reflect varying extension and magmatism despite their extremely close proximity.

Cong Li’s P-s receiver function study (ably presented in his absence by Xiaotao Yang) indicates good correlation between Bouger gravity and Moho topography in New England, suggesting that Mesozoic terrane boundaries still control today’s Moho gradients with significant offsets in Moho topography associated with the northern Appalachians.

Ben Murphy presented magneto-telluric (MT) evidence for a deep, electrically-resistive body beneath the piedmont, spanning the region from Georgia to Virginia and extending from just east of the mountain belt to the coastline. He argued, based on extensive sensitivity testing, that this feature must be deep (up to 300 km) and so strongly resistive that it must be dry and colder than ~1200˚C; this MT signature is comparable to that of a craton. Ben also sees conductors beneath the Appalachians, and arguably beneath the Harrisburg anomaly.

Much of the discussion for this session focused on the discrepant tomographic and MT results beneath the coastal plain. Whereas tomographic images clearly delineate a thin piedmont seismic lithosphere (in contrast to thicker lithosphere inboard of the Grenville front), the MT data indicates almost the exact opposite, with thick resistors outboard of the orogen. There was also significant discussion regarding the differences between lower crustal active source lines (both on a small scale, such as the differences between the two ENAM-CSE onshore active source lines, and on a margin-wide scale, such as differences in Moho topography or variability between terranes and rifting contexts). There appear to be variation in the factors controlling Moho topography, crustal underplating, and lower-crustal structure both along strike and orthogonal to the passive margin.

This was the first of a series of discussions related to the theme of lateral heterogeneity and observational discrepancies along the ENAM. The discrepancy between MT and seismic tomographic results, along with our understanding of lithospheric structure in a passive margin, suggests there is something chemically or thermally unique about the onshore portion of the margin. We discussed a variety of mechanisms, including hydration state, thermal anomalies, seismic anisotropy, magmatic underplating, etc., that could account for both the thin seismically-inferred lithosphere and the thick lithosphere indicated by MT data. The group’s consensus was that more work is needed to settle the debate. In a similar vein, the lateral crustal heterogeneities indicated by receiver-function, active source, and modeling data require highly variable structural controls in order to account for the difference in observations over short lateral scales, and these may provide insight into a spectrum of mechanisms involved in margin formation along strike. We concluded this section (as with the entire workshop) with the questions: 1) Is there such a thing as a type locale for a magmatic (or really any type) of passive margin? 2) What is the necessary scale of an experiment to capture all of the complexities and variability of a passive margin? 3) What does the lithosphere-asthenosphere boundary look like across the ENAM?

Offshore Margin:

Anne Becel presented high quality MCS and wide-angle refraction results spanning the entire continental margin. Among the notable features were a continuously map-able Moho, erosional unconformities demarcating rift-related sedimentation, well-captured seaward-dipping reflectors (SDRs) and thick ocean-continent transitional crust in the region of the East Coast Magnetic Anomaly (EMCA). Modelling indicates that the ECMA is produced by a 10-15 km thick packet of SDRs with high magnetic susceptibility. Anne argued that rough basement topography in transitional crust, including 10-20 km tilted blocks, is an indication that early seafloor spreading was very slow. She shows that the Blake Spur Magnetic Anomaly (BSMA) coincides with thickening extrusive basalts and high-velocity lower crust, both attributable to hotter potential temperatures (Tp) at the time of formation.

Brandon Shuck’s OBS results were in strong agreement with Anne’s findings. He used petrological modelling to argue that thickened Blake Spur Magnetic Anomaly (BSMA) crust implies Tp ~ 1450˚C, positing that heterogeneity in source mantle fertility could explain along-strike crustal thickness variations. Noting that the BSMA has no African margin counterpart, Brandon suggested that this feature represents a melt pulse upon final lithospheric breakup.

John Green presented refined magnetic anomaly correlations throughout the offshore ENAM and assigned updated ages and chron numbers to M0-M25 and eight pre-M25 anomalies, identifying five correlated magnetic anomalies between the East Coast Magnetic Anomaly (ECMA) and the BSMA. His results suggest that, if the BSMA source is oceanic crust, the BSMA may have formed ~168.5 Ma and represent the initiation of oceanic crust formation. His results also suggest asymmetric crustal accretion indicating possible ridge re-orientation early in Atlantic opening, potentially involving a ridge jump.

Joshua Davis presented his modelling of ECMA SDR emplacement, seeking to explain the paradoxical observations that this feature is a single (positive) magnetic anomaly – implying extraordinary SDR emplacement rates – with no negative analogue. He argued that this feature was not produced within the span of a single magnetic reversal, but is in fact an induced anomaly (explaining the absence of similar negative anomalies) that may have formed slowly (5-20 My).

James Gibson expanded deep water allostratigraphy observations to show that bottom-current erosion rates vary along the margin. Fast erosion and large slope failures in the south contrast with well-developed fan structures to the north; deep currents may have controlled transport of slope sediments to the deep sea.

At the conclusion of the Offshore Margin session, discussions focused primarily on the location of initiation of oceanic crustal formation and on the best ways to assimilate offshore results with onshore data. Previous published studies have suggested the ECMA as the location of initial formation of oceanic material, but several pop-up talks presented results that indicate the BSMA is the site of initial crustal formation. BMSA rifting initiation seems to be a fairly robust result, coming from both seismic and magnetic data. This new conclusion alters the estimates of the extent of thinning and spreading of continental material along the margin. There may be far more highly attenuated continental material along that ENAM than previously thought. Merging offshore structural inferences to those made onshore remains a challenge facing the ENAM community, as applying uniform processing techniques to both datasets has yet to be widely achieved. Both regions show laterally variable structures and Moho topography. Connecting the site of rift initiation (either the ECMA or BSMA) to the inferred magmatic underplating and sea-ward dipping reflectors seen in both the offshore and onshore active-source data also remains an area of focus for the ENAM community. Placing the magmatic features of the margin in the context of oceanic crustal formation and highly attenuated continental crust represents an unprecedented opportunity to advance our understanding of intrusive structures in rifted margins, and may provide a tool with which to address the level of lateral variability in crustal structure across the ENAM.

Margin Overview:

Roger Buck gave an expansive overview of the large outstanding geodynamic questions in the context of rifts: Are plumes important for rift initiation? What role does pre-existing structure play? Roger discussed the rarity of a rift directly abutting a large orogenic province such as the Appalachians, and discussed implications of this juxtaposition. He focused on the chicken-egg problem of melting and rifting, as well as the possibility of using SDRs as a proxy for paleo-elastic thickness. He raised the possibility that Newark-series basins (which pre-date CAMP) represent a failed rift, emphasizing that with time, failed rifts can become stronger than the plate around them.

Xiaotao Yang showed results of his full-waveform ambient noise Vs tomography in the Adirondacks, where accreted terranes inboard of the Appalachian orogen are co-located with a Bouger gravity high. He showed localized low VS in the upper mantle in this region; when modeled, the associated density structure explains the high topography, perhaps related to edge-driven convection.

Erin Cunningham’s S-p and P-s receiver function common conversion point maps reveal crustal thickening beneath the eastern Tennessee seismic zone, after she has processed the data using a novel sediment removal filter technique.

The conclusion of the Margin Overview session served as both a discussion on the overall structures and processes associated with the ENAM and on mature passive margin formation worldwide. As one of the GeoPRISMS primary sites, inferences made at ENAM should be applied more broadly to advance our understanding of rifting processes. This lead to significant discussion as to whether such applications are justified, given all of the variability and discordant results observed along the margin. Even the most basic questions, such as: What is the Moho topography? What is the LAB structure? Where did rifting begin? Is there magmatic underplating beneath the margin? seem to have answers that strongly depend on the specific seismic lines, imaging techniques, and geophysical observables being used. Our final conclusion was that we have learned that ENAM is more complex and recently active than was previously appreciated, and that there may be no such a thing as a ‘type-locale’ for a passive margin. The ENAM community has a lot more discovery and discussion lying ahead as we reconcile the different observations and begin to unravel the controls on the variable nature of the margin.

Volcanoes in Extensional and Compressional Settings


  Grand Hyatt San Francisco
345 Stockton Street, San Francisco, CA
Union Square Room – 36th Floor

Sunday December 11, 2016, 1pm-5pm

Conveners: Cindy Ebinger, Christelle Wauthier, Cliff Thurber, Maya Tolstoy, Einat Lev, James Muirhead, Josef Dufek

 icon-file-text-o Participant list

AgendaMeeting objectivesMeeting report

1:00 | Coffee & Cookies

1:30 | Introduction by Conveners

1:40 | Invited talks: Key observations and modeling at compressional and extensional systems

  • Challenges in Volcano Research – Josef Dufek
  • Volcanoes in Compressional SettingsDiana Roman
  • Volcanoes in Extensional Settings and Triggered Eruptions – Colin Wilson

2:30-2:50 | Pop-ups by early career participants

3:00 | Break

3:10 – 4:15 | Science Cafe discussions with multi-disciplinary groups

4:20 | Wrap-up and Summary – Future Directions

5:00 | Workshop ends

Photo taken in the Afar depression where a large volume dike intrusion triggered an explosive volcanic eruption. Credit: Cynthia Ebinger

Photo taken in the Afar depression where a large volume dike intrusion triggered an explosive volcanic eruption. Credit: Cynthia Ebinger

The over-arching goal of this mini-workshop is to bridge disciplines to address critical problems of magma and volatile transfer and their role in strain localization during plate boundary deformation, as well as to consider the role of tectonic stressing on volcanic eruption cycles and magma emplacement. The planned workshop will enable cross-disciplinary research, strengthen and link the GeoPRISMS community, and feature early career scientists. It will also enable comparison and contrasts between arcs, back-arcs, and continental rift zones, and facilitate discussions with numerical modelers keen to understand the role of magmatism and volatile release in lithospheric deformation processes. This workshop will allow the community to interact and develop linkages that will utilize new and existing data products from Alaska, East Africa, Cascadia (including Juan de Fuca ridge processes), and Hikurangi margin in New Zealand to maximize the scientific impact of GeoPRISMS and to guide new research initiatives.

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Rationale

As GeoPRISMS focus site studies build increasingly diverse and higher resolution data bases, and as numerical modeling embraces melt generation and migration processes, the roles of magmatic fluids and magma mass transfer in plate boundary deformation at time scales of minutes to millennia are illuminated. Likewise, studies of magmatic plumbing systems at arc and rift volcanoes reveal the location and characteristics of magma reservoirs and pathways, the time-space patterns of volatile and magma fluxing in pre-eruptive and eruption processes, as well as longer-term fluxes of volatiles and magma to and from Earth’s mantle. Mid-ocean ridge magmatic processes may also play a role in, and be modified by, subduction processes, as in the Cascadia study region.

Despite these exciting new discoveries, the active and time-averaged plate boundary deformation community rarely has opportunities to interact with the volcanology community, in part owing to classical organization by discipline. Likewise, the rift and subduction communities are traditionally distinct and separate, yet there are many, and most likely more, commonalities in terms of magmatic process that could be explored and invigorated. For example, new studies in the East African rift system indicate that volatile fluxing from magmatic continental rift zones is comparable to that of much narrower mid-ocean ridges, with broad implications for crustal growth and global fluxes (e.g., Lee et al., 2016). The Juan de Fuca Studies of arc and back-arc magmatism and super-volcano eruption are informed by stress-triggering studies of tectono-magmatic interactions at mid-ocean ridges and late-stage continental rifts (e.g., Rowland et al., 2010; Allen et al., 2012), or document the role of stress triggering in volcanic eruptions (e.g., Manga and Brodsky, 2006). In a new comparative study, Gregg and Pritchard (2016) consider constraints on rhyolitic magma chamber properties in a variety of settings, and their comparison highlights discrepancies between techniques, as well as new directions. No comparable study has been undertaken with regard to basaltic systems in continental and ocean islands, however. Thus, the potential for discovery and insight from comparative studies across diverse geodynamic settings remains high.

The over-arching goal of this mini-workshop during the AGU meeting is to bridge disciplines to address critical problems of magma and volatile transfer and their role in strain localization during plate boundary deformation, as well as to consider the role of tectonic stressing on volcanic eruption cycles and magma emplacement. The planned workshop will enable cross-disciplinary research, strengthen and link the GeoPRISMS community, and feature early career scientists. It also will enable comparison and contrasts between arcs, back-arcs, and continental rift zones, and facilitate discussions with numerical modelers keen to understand the role of magmatism and volatile release in lithospheric deformation processes.

A late 2016 workshop is timely as it gives the community time to interact and develop linkages that will utilize new and existing data products from Alaska, East Africa, Cascadia (including Juan de Fuca ridge processes), and Hikurangi margin New Zealand to maximize the scientific impact of GeoPRISMS, and to guide new research initiatives.

References

Allan, A.S., Wilson, C.J., Millet, M.A. and Wysoczanski, R.J., 2012. The invisible hand: Tectonic triggering and modulation of a rhyolitic supereruption. Geology, 40(6), pp.563-566.

Lee, H., Muirhead, J.D., Fischer, T.P., Ebinger, C.J., Kattenhorn, S.A., Sharp, Z.D. and Kianji, G., 2016. Massive and prolonged deep carbon emissions associated with continental rifting. Nature Geoscience, 9, pp. 145–149.

Manga, M., & Brodsky, E., 2006. Seismic triggering of eruptions in the far field: volcanoes and geysers. Annu. Rev. Earth Planet. Sci, 34, pp. 263-291.

Rowland, J.V., Wilson, C.J. and Gravley, D.M., 2010. Spatial and temporal variations in magma-assisted rifting, Taupo Volcanic Zone, New Zealand. Journal of Volcanology and Geothermal Research, 190(1), pp.89-108.

GeoPRISMS Mini-Workshop: Magmatic Systems in Extensional and Compressional Settings

December, 11, 2017
AGU Fall Meeting 2016 San Francisco, CA

Organizers: Cindy Ebinger (Rochester), Christelle Wauthier (PSU), Cliff Thurber (Wisconsin), Maya Tolstoy and Einat Lev (LDEO), James Muirhead (Syracuse), Josef Dufek (Georgia Tech)

Overview

A diverse and enthusiastic community of scientists interested in magmatic systems in a variety of settings attended the pre-AGU GeoPRISMS workshop to discuss and plan future research initiatives in light of new studies in continental and mid-ocean rift zones, and in volcanic arc settings. The over-arching goal of this mini-workshop was to facilitate community-building, and to provide a relaxed setting for early-career scientists in particular to communicate their results, and their ideas on future directions.
Three review talks on the physics of crustal magmatic systems (Joe Dufek), and active deformation (Diana Roman) and time-averaged deformation (Colin Wilson) in rifts and arcs established context. Joe’s talk outlined the time and length scales of processes, and critical parameters controlling magma movement and eruptions: crustal state-of-stress, rheology of crust surrounding magma body, thermodynamics and heat transfer of the magma body, and magma composition and volatile content. He highlighted the need for multi-disciplinary observations at key locales, the focus-site hallmark of GeoPRISMS. Diana focused on magmatic systems in compressional settings where fluid and gas pathways tend to be closed. Seismicity may track hydraulic fracture accompanying the upward migration of magma and gasses, enabling some constraint on flux rates, and potentially, rheology of the intruded rocks. Diana’s summary demonstrated the need for long-term monitoring at volcanoes. Colin drew on precise dating and field relations to understand the ‘chicken and egg’ question of tectonic or over-pressure as the trigger for large-volume intrusion and eruption episodes in back-arcs and rift zones. He suggested that critical insights will come from quantification of extrusive to intrusive ratios as the community develops eruption forecast models, and considers the relative importance of buoyancy forces, overpressures, open or closed fault systems, and dynamic triggering from distant earthquakes.
Graduate students and post-docs introduced themselves and their research in 3-minute pop-ups. The future planning aims were achieved through small group discussions focused on specific questions, with questions and questioners changing every 15 minutes. Groups were assembled to achieve breadth and diversity of perspectives. This series of café-style discussions on a specific questions enabled scientists to share perspectives on 1) magma and volatile transfer and their role in strain localization during plate boundary deformation, and 2) the role of tectonic stressing on volcanic eruption cycles and magma emplacement. The café questions facilitated comparison and contrasts between arcs, back-arcs, and continental rift zones, and facilitate discussions with numerical modelers keen to understand the role of magmatism and volatile release in lithospheric deformation processes. As outlined below, participants shared experiences with data and models of from Alaska, East Africa, Cascadia (including Juan de Fuca ridge processes), and Hikurangi, New Zealand focus sites, and looked forward to guide new research initiatives. Summaries of feedback from each group to each of the questions are outlined below.

Question 1: What are the physics of Open Vent Systems, and their responses to external triggers?
Einat Lev, barista

Why study OVs?
• Can reveal details about conduits, which are impossible to see at other volcanoes (e.g., Are conduits cylindrical or elongated? One or several?)
• Can more readily expose response to external triggers: e.g., change in lava lake level after an earthquake locally or far away, change in gas flux or gas composition values or ratios

The bulk of the discussion included defining what OVs are. Options ranged between:
a. only active lava lakes, where the conduit is visible and magma is directly exposed to the surface
b. Continuously degassing volcanoes with or without repeating extrusion of magma as effusive or explosive. But aren’t all volcanoes emitting some gat at some level all the time? Are any volcanoes really “closed? Presumably yes: e.g., volcanoes that were considered not active, until a large eruption took place.
c. Volcanoes that emit material (gas or magma) without detectable deformation

The deformation based definition was mostly rejected, as it appears that most volcanoes that were considered to not be deforming, are actually deforming once data is more complete and available. Also, volcanoes that do have lava lakes, and are unquestionably “open” (e.g., Masaya, Kilauea), are deforming

The discussion led to moving from defining volcanoes as “open” versus “closed” to defining a range of “Openness”, and volcanoes can fall anywhere on that range, and also change places during their evolution.
• Suggested study: Global ranking of level of openness
• Suggested series of studies: Explore past eruptive history to determine level of volcano openness during volcano’s history
• Suggested study: place multi-gas sensors on all volcanoes that are open

It was noted that gas emission from a volcano doesn’t have to concentrated at a central conduit, but is often diffuse and occurs more regionally on the flanks and through other cracks. Needs to be factored in when evaluating a volcano’s openness level

Follow-on Questions :
Is a volcano like Santiaguito, which has long-term cyclic effusion of high-viscosity lava dome, with frequent gas explosion, considered open?
Is magma flux overall higher at open volcanoes, to keep them open?
Is conduit convection a requirement for an open volcano to stay open?
Is the answer different for Felsic volcanoes (new magma is presumably required) and basaltic (adding heat is presumably sufficient)?
Is the Taupo volcanic zone considered an open volcano?

A hypothesis raised early in the discussion claimed that OVs were occurring at local extensional regime, even at compressional arc settings. This was ruled out with many counter examples of OVs at compressive regions (mostly in the Aleutians). Also, obviously the volcanoes in the African Rift and in Iceland are mostly under extension, and yet only a few are OV.

Question 2. How do hot and cooled intrusions into continental and slow-spreading oceanic crust influence state of stress and rheology (e.g., underplate, foundering, along-axis propagation)?
Cindy Ebinger, barista

As many of the participants worked on extrusion and eruptive processes, some time was devoted to discussion of intrusive-extrusive ratios, and the fate of cumulates in continental crust. Magma intrusions change the density of the crust, and heat transfer to enclosing rock mass decreases strength. Volatile percolation through fractures may lead to fault zone weakening, and overpressurized zones. These combined processes could instigate crustal foundering, or strain localization at plate boundary zones. Mid-ocean ridge specialists offered insights from oceanic Layer 3.

In terms of future studies, the consensus was that quantification of intrusive (I) and extrusive (E) volumes is essential not only for mass balance and geochemical systems, but for improved models of state-of-stress and crustal rheology. Initial data sets suggest that the ratio of E:I may differ between compressional and extensional settings, with more magma stored in the crust in compressional settings. If so, then consequence would be a hotter and weaker lower crust. The E:I ratio is also important to testing models of mantle melt retention and extraction. Studies of enclaves, selvages and xenoliths within eruptive lavas will also provide insights into heating and infiltration of lower crust.

Follow on questions include:
What fraction of the magmatic system assists in crustal destabilization ?
When and where do crustal sill complexes form?
How much of the system is stimulated during eruption ?
What are the time and length scales of magma recharge, and how do they vary between extensional and compressional settings.

All agreed that permanent observatories where an arsenal of geophysical tools can be utilized to monitor subtle changes in properties over time, and coupled to gas and magma flux observations.

Question 3. (a) What are the characteristic forms of the magma transport and storage areas at various depths?
Cliff Thurber, barista

The discussions focused virtually entirely on the magma storage topic. Several common threads emerged from the discussions. Foremost among these was the need for the application of multiple techniques, both geophysical and geochemical, and the integration of the results across a suite of representative systems. Systems that could serve as test cases where significant work has already been accomplished include Santorini, Uturuncu, Taupo, Afar, Soufriere Hills, Laguna del Maule, and of course Mount St. Helens. A hypothesis testing approach can help develop models that account for the observations from all available datasets. New experimental results are needed to guide model interpretations, and new and improved modeling techniques are also required, especially in terms of distinguishing between magma versus other fluids.

A second discussion thread was the need to study exhumed systems. The examination of plutons can provide direct information on the conditions in the crust when and where a large body of magma grew, along with giving information on size and shape as well as the growth history. The degree to which plutons represent the subsurface structure of volcanic systems of different types is a subject of vigorous debate, however. Another potential target is core complexes on slow-spreading ridges.

A third, related thread is, how is the space for magma created in the crust, at different scales? Does the top move up, or the bottom move down? What is the degree of emplacement versus assimilation, and how does that differ across systems and at different depths? The critical role of crustal rheology in controlling how magma bodies form and grow was emphasized.

Regarding magma transport, comments focused mainly on seismic and geodetic techniques: long-period earthquakes and tremor, migrating seismicity, and deformation observations.

(b) What controls the magma residence time at depth and its migration toward the surface?

The discussion on this topic focused on buoyancy, volatiles, stress, rheology, and triggering. These factors must interact in complex ways. What degree of overpressure can exist in a magma reservoir, and how does that depend on size, shape, and depth, as well as the above factors? Geochemical observations can reveal time scales, but not necessarily the factors that control those time scales. The process of feeding new magma into an existing reservoir must play an important role, particularly as one form of triggering. The importance of tectonic triggering is uncertain, although tectonic-magmatic connections are clear in some cases.

Question 4. What are the feedbacks between local tectonics and magmatic/volcanic processes in triggering volcanic eruptions and unrest (nearby magma bodies, dikes, fault slip, megathrust shaking)?
Christelle Wauthier, barista

There is clear evidence that eruptions can be triggered by large magnitude earthquakes, like recently highlighted in the Southern Andes. However, the timing and exact conditions to be met are still unclear. Many participants suggested that a way to look into this problem could be to investigate magma reservoir dynamics and look for potentially specific signatures and patterns in volatile/diffusion profiles/pressure in magma reservoir. It was proposed that study changes in CO2 to track magma pressure changes would work for subduction systems but not for all setting and volcanoes.

Many participants also suggested that we need to constrain two characteristics to investigate magma-tectonic interactions in active volcanic areas further: 1/ absolute crustal stresses (local + regional ambient stress field; 2/ amount of fluid/volatiles leading to pressure conditions in magma reservoirs. The first one, absolute crustal stresses, could be estimated using multiple events and also field geology and paleo-seismology (lakes containing turbidites deposits can be a great target to investigate past tectonic and volcanic events). Mapping carefully all existing faults and magma bodies/volcanic features (i.e., cones and fissures) is also required to constrain fully the stress field. We would also need to look at potentially aseismic events/change of stress field orientation that could change the magma pressure and eruption dynamics. The second one, amount of fluid/volatiles in magma reservoirs, can be estimated through geochemistry. It has also been suggested that looking at a given volcano history from a statistical perspective could give us clues on when the magma chamber is “ready to go” if there it is affected by a small perturbation in stress.

Follow on questions:
– How sensitive are volcanoes to external factors (tectonic, climate…)?
– What are the pressure/conditions in the magma chamber?
– That are the pressure changes induced by an earthquake in magma reservoirs?
– Can we use machine learning /cross-correlation statistical algorithms to investigate multiple streams of data to understand a given system better?

All agreed that looking synergistically at datasets obtained through remote-sensing or local geophysical stations (geodetic, seismic, gravity, MT…) on volcanoes can be utilized to monitor subtle changes in properties over time, and coupled to volatiles geochemistry and magma flux observations. However, we also need to look at past event to study magma-tectonic interactions at more significant timescales and not only recent “snapshots”.

Question 5: How can we use variations in the flux and chemistry of volatiles and fluids, in combination with deformation data, to constrain different magmatic, volcanic, and tectonic processes?
James Muirhead, barista

Combined volatile/fluid and deformation data was seen as a means for constraining the geometry and interconnectivity of magma pathways, magma volumes and magma depths, as well as timescales of magma generation, recharge, and ascent in plumbing systems.

Participants inquired about the characteristics geometries of the structures that transport gas/fluids at volcanoes. Furthermore, little is known about how these pathways differ for different volcanic-tectonic settings, volcano types, and magma plumbing system geometries. Others were curious about whether gas/fluid data could provide information regarding active behavior of tectonic structures. Is fluid/volatile ascent driving deformation, or are changes in fluid flow reflecting a response to changes in stress and/or strain?

Understanding the geometry, volume, and chemistry of the hydrothermal system of a volcano was seen as critical for interpreting any fluid/gas geochemistry data and the potential for the hydrothermal system to scrub the SO2 signature. Magnetotellurics was discussed as useful tool when combined with geochemical data. Additionally, continuous monitoring of gas species (e.g., C/S ratios) and fluxes, and isotopes and compositions for magma volumes, depths, and timescales of accent. Automated Multi-GAS measurements of fumaroles and springs was favored, as were diffuse degassing surveys and permanent soil probes. Deformation data discussed included GPS, InSAR, seismicity, and borehole strain data to infer magma/fluid movement and changes in stress. Participants highlighted the need to differentiate between hydrothermal and magmatic gas to understand if deformation is related to magma and/or hydrothermal fluid movement, through measurements of isotopes in spring waters, fumaroles, volcanic lakes and eruptive plumes. It was additionally important to understand the degree of coupling between the magmatic and hydrothermal systems to understand if changes in hydrothermal activity may relate to magma recharge. Finally, the need to understand the geological, magmatic, and eruptive history of the volcano was frequently emphasized. This included diffusion modeling of crystals to look at timescales of magma ascent and recharge events, using uranium series to understand timescales of melt generation and separation, and melt inclusion studies to understand sources of fluids (e.g., mantle vs slab), initial volatile contents, and potential degassing histories.

Target volcanoes were therefore identified as ones that ideally have the following characteristics: (1) have been recently active and shown signs of deformation/unrest; (2) have well-constrained hydrothermal systems; (3) have a well constrained geological/eruptive history; (4) have known magma volatile contents from inclusion studies; and (5) have undergone previous geochemical studies investigating timescales of magma generation and ascent. Potential volcanoes identified by participants that may fulfil these categories included Popocatepetl, Colima, St Helens, Soufrier Hills, Katla, Bardabunga, Santorini, and Nyamuragira.

Question 6: What do precursory signals tell us about the physical mechanisms triggering eruptions?
Maya Tolstoy, barista

A variety of precursory signals were discussed, including seismic, geodetic and geochemical signals. Since there are likely different triggers in different settings, precursory signals are undoubtedly variable depending on the setting and the type of eruption.

Earthquakes are one well-known precursory signal, but they are stress indicators as opposed to movement indicators, though magma movement can generate changes in stress making it hard in some situations to separate the two in a volcanic environment. There was a lot of discussion of recent observations that downward propagation of earthquakes has been observed as precursory signals, and it was speculated that this may represent the downward propagation of a pressure wave. Does this imply that something other than magma (and near the surface) is triggering the eruption? Might hydrothermal processes be involved?

There was also discussion about why some volcanoes respond to the passage of surface waves and others do not, without a clear reason. It may be telling us something about the shape or other properties of the magma body and is worth further investigation.

Another point of considerable interest was the utility of precursory signals in predicting eruptions. If we better understood what is causing them, we may be able to better discriminate when a signal is truly precursory, thus reducing false alarms, which are quite common. Conversely research into why some signals appear precursory, but in the end are not, may help us address the question at hand about the physical mechanisms triggering eruptions.

It was noted that there are exciting new time series measurements coming out of CO2/SO2 ratios that can inform us about the depth the magma is coming from (the deeper the magma the more the CO2). Another up and coming area of research is EM/MT and the question was raised whether you could use these techniques to see the magma moving. It’s possible there are also other precursory signals that we aren’t usually looking for (the example of was given of well depths).

Overall, better global statistics would help address some of these questions, but there is also a need to conduct careful studies of specific volcanoes to understand the details.

Question 7. The rate of crustal production and development of crustal structure is ultimately sensitive to the degree of fractionation versus crustal melting that occurs in thermally mature systems. How can we quantify the heat budget in different levels of the crust subject to variable intrusion histories?
Joe Dufek, barista

The discussion related to this question was wide ranging, and covered topics from the geometry and thermal implications of shallow intrusions to better describing melting relationships from experimental petrology. One common theme of the discussion was developing better descriptions of the melting relations and rheology of partially molten regions of magma reservoirs that can feedback to deformation of the reservoir, and also into the stresses in the system that may influence successive intrusions. This discussion focused on the need for petrologic experiments conducted over composition and pressure ranges that are not well represented in thermodynamic databases, particularly with hydrous mineralogies. The rheological discussion focused both on how these properties could be measured experimentally, and also how they could be incorporated into numerical models that examine both crustal stresses and heat flow.

A second theme explored was the link between hydrothermal systems and magmatic systems, and the resulting heat transfer. The coupling between these systems is gaining greater interest, and has obvious heat transfer implications. However, detailed modeling of each system is usually done in isolation, and these communities have developed different perspectives, terminologies and goals.

Some discussion revolved around the implications of crustal melting versus fractionation for the long-term growth of the crust, and in particular what settings and isotopic systems can best resolve current amounts of melting. There was an emphasis on regional studies aimed at describing the end member lithologies, their melting behavior, and isotopic descriptions of these end members to better quantify relative sources in magma genesis. A major topic of discussion was the use of the crystal-scale chronometers and reconciling the different timescales in mature magmatic systems.

Developing better understanding of the link between tectonics and magmatism was discussed in almost every group. Discussion focused on tectonics role in modifying intrusion histories, and also the dual role of tectonics and magmatism on the thermal state of the crust (the discussions mostly focused on extensional environments). A common theme of these discussions was the integration of different datasets that better define the current and past rates of deformation in regions as well as measurements indicating the current state of magma bodies including pre-eruptive seismic, deformation, gas flux measurements, and geochemical measurements of erupted magmas. Models that make predictions that have implications (and can be tested) by multiple datasets were discussed as a way of integrating measurements.

Joe Dufek, Georgia Tech
Cindy Ebinger, Tulane
Einat Lev, LDEO
James Muirhead, Syracuse
Cliff Thurber, U. Wisconsin
Maya Tolstoy, LDEO
Christelle Wauthier, PSU

2017 Theoretical and Experimental Institute on Rift Initiation and Evolution


icon-mHotel Albuquerque, Albuquerque, New Mexico
Alvarado Ballroom D
February 8-10, 2017

 icon-download Read the report

 

AnnouncementAgenda | Presentation archiveStudent & Postdoc SymposiumField TripMore info

The Theoretical and Experimental Institute (TEI) for the Rift Initiation and Evolution (RIE) initiative is now open for applications. The TEI will be held over three full days from February 8-10, 2017 and is intended to summarize progress and recent scientific advances related to the RIE initiative, and to identify high-priority science for future GeoPRISMS RIE efforts. (Please see the Science and Implementation Plan). Applicants do not need to have worked on projects funded by GeoPRISMS. We expect a broad and diverse audience drawn from domestic and international research communities, including graduate students and early career scientists, who are interested in the initiation and evolution of rifts.

Funding

The TEI is funded by the National Science Foundation through the GeoPRISMS Office at The Pennsylvania State University. There is no registration fee. We will be able to cover most on-site expenses (venue costs, hotel expenses based on double occupancy, and breakfast & lunch) for approximately 80 participants. Most participants will have to cover their travel to and from the meeting; partial funding for travel is available for students and postdocs. We will not be able to provide dinners on-site, but there are several restaurants nearby. Confirmed participants whose on-site expenses are covered are expected to arrive on Tuesday evening and leave on Saturday morning.

Organizing Committee

Tobias Fischer (University of New Mexico)
Donna Shillington (LDEO/Columbia University)
Estella Atekwana (Oklahoma State University)
Rebecca Bendick (University of Montana)
Juliet Biggs (University of Bristol)
Esteban Gazel (Virginia Tech)
Liz Hajek (Pennsylvania State University)
Luc Lavier (University of Texas, Austin)

Ex officio: Demian Saffer (GeoPRISMS Office/Pennsylvania State University)

Important Dates

October 4: Applications are opened
November 21: Application deadline
December 9: Successful applicants are invited to confirm participation
December 22: Deadline for confirmation of attendance
Late January: Final meeting agenda is released

Feb 7 – Student and Postdoc Symposium

(Alvarado Ballroom A+B)

1:00: Welcome & overview of GeoPRISMS and NSF – Demian Saffer (PSU) and Jennifer Wade (NSF)
1:30: Overview of RIE science questions – James Muirhead (Syracuse) and Yelebe Birhanu (Bristol)
2:00: 1 min, 1 slide pop ups on research related to RIE (part 1)
2:30: Career opportunities panel
3:00: Coffee break
3:15: 1 min, 1 slide pop ups on research related to RIE (part 2)
3:45: Group discussion
5:00: Concluding remarks
5:00-7:00: Ice breaker and student & postdoc posters


Feb 8 – Day 1

7:00 Breakfast (Franciscan Ballroom)

8:00 Welcome from GeoPRISMS Office & NSF | Demian Saffer and Jennifer Wade (Alvarado Ballrooms D & E)

8:15 Introduction to the RIE TEI | Tobias Fischer (UNM) and Donna Shillington (LDEO)

8:30 Session 1 | Rift evolution from initiation to post rift architecture

  • A brief history of ideas about rifting and the controversial role of magma in rift initiation | Roger Buck (LDEO) – Keynote (20 min)
  • Controls on continental rifting processes from geophysical observations at mature margins | Harm Van Avendonk (UTIG) – Keynote (20 min)
  • The interplay between morphodynamics and substrate fluid flow– An examination of active processes along passive margins | Danny Brothers (USGS) – Keynote (20 min)
  • Panel discussion with moderator – 30 min

10:00 Break

10:30 Session 2 | Geodynamics

  • Geodynamic models of rifting | Jolante Van Wijk (New Mexico Tech) – Keynote (20 min)
  • The Woodlark Rift: a case study in young continental breakup | Zach Eilon (Brown) – 15 min
  • Mineral-scale constraints on the geodynamics of rifting | Andrew Smye (Penn State) – 15 min
  • Results of a high resolution heat flow survey across the Wagner Basin, Gulf of California | Robert Harris (Oregon State U) – 15 min
  • Seismic anisotropy across the Eastern North American Margin (ENAM) | Colton Lynner (U. Arizona) – 15 min
  • Panel discussion – 20 min

12:10 Lunch (Franciscan)

1:10 Report from Student Symposium and Break out 1 intro (Alvarado Ballroom D & E)

1:30 Break out 1 | Science gaps and priorities (Alvarado Ballrooms A, B, F, D & E, view the break out groups assignment)

2:30 Break

3:00 Session 3 | Magmatism, volcanism and volatile exchanges (Alvarado Ballrooms D & E)

4:30 Pop Up #1 (give 1 min summaries of posters)

James Conder | Popup
Luel Emishaw | Popup
John Greene | Popup

5:00 – Poster/cash bar & Posters

John Greene | Poster
Erin Heilman | Poster
Lisa Lamb | Poster
Madison Myers | Poster

Dinner on your own


Feb 9 – Day 2

7:30 Breakfast (Franciscan)

8:30 Session 4 | Faulting and Strain (Alvarado Ballrooms D & E)

10:10 Break

10:40 Poster pop ups #2

11:10 Breakout reports & discussion

12:00 Lunch (Franciscan)

1:00 Session 5 | Surface processes and feedbacks with lithospheric processes

  • Lost in translation: Defining thresholds for signal storage in landscapes and stratigraphy | Kyle Straub (Tulane) – Keynote 20 min
  • The role of surface processes in stabilizing half-graben structures | Jean-Arthur Olive (LDEO) – 15 min
  • Stratigraphic record of rift development at the Ledi-Geraru paleontological site, Afar, Ethiopia | Erin DiMaggio (Penn State) – 15 min
  • The effects of rapid sedimentation upon continental breakup: Seismic imaging and thermal modeling of the Salton Trough, Southern California | Liang Han (UTIG) – 15 mins
  • Rift tectonics and sedimentation: Insights from an onshore-offshore synthesis of the Corinth Rift, Greece | Rob Gawthorpe (Bergen / CSM) – 15 min
  • Panel discussion – 20 min

2:40 Break

3:00 Poster session

5:00 cash bar

7:00 Conference Dinner (Alvarado Ballroom E)

8:00 – 8:30 Overview of the Rio Grande Rift (Karl Karlstrom and Laura Crossey, UNM, Alvarado Ballroom E)


Feb 10 – Day 3

7:30 Breakfast (Tablao)

8:30 Session 6 | Hazards at rifts and rifted margins (Alvarado Ballroom D & E)

10:00 Break

10:30 Session 7 | Collaborative opportunities

  • Rift Volcanism: Past, Present and Future | Juliet Biggs (University of Bristol)
  • Wide rifting: From tectonics through surface processes, surface and groundwater hydrology to endemic spring biota | Gary Axen (New Mexico Tech)
  • EarthScope updates | Donna Shillington (LDEO)
  • Africa Array updates | Andrew Nyblade (Penn State)

12:00 Lunch (Alvarado Ballrooms B & C)

1:00 Intro to Breakout 2

1:30 Breakout 2 | High priority data gaps / work needed to address science questions (Alvarado Ballrooms B, C, F, D & E)

2:30 Break

3:00 Short reports of breakout (1 slide one most exciting thing discussed) / Plenary Discussion

5:00 Concluding remarks – Tobias Fischer (UNM) and Donna Shillington (LDEO)

5:30 Meeting adjourns


Feb 11 – Field Trip

8:00 am Breakfast (Fireplace)

9:00 am Board the bus in front of the hotel with your box lunch.

~4:30 pm arrive at hotel.

Upload your pop-up slides before Friday February 3!

On Tuesday before the TEI we will hold a student and postdoc symposium which will feature short presentations by attendees and discussion with the conveners and NSF program managers. The symposium runs from 1:00 – 5:00 and will be followed at 5:00 – 7:00 by student posters and cash bar. We encourage all students and postdocs to attend and to arrange their travel accordingly, after confirmation of attendance.

1:00: Welcome & overview of GeoPRISMS and NSF – Demian Saffer (PSU) and Jennifer Wade (NSF)
1:30: Overview of RIE science questions – James Muirhead (Syracuse) and Yelebe Birhanu (Bristol)
2:00: 1 min, 1 slide pop ups on research related to RIE (part 1)
2:30: Career opportunities panel
3:00: Coffee break
3:15: 1 min, 1 slide pop ups on research related to RIE (part 2)
3:45: Group discussion
5:00: Concluding remarks
5:00-7:00: Ice breaker and student & postdoc posters

Kasha Katuwe Tent Rocks National Monument, NM. credit: Bureau of Land Management

We will organize an optional field trip to the nearby (~1 hour drive from Albuquerque) Kasha-Katuwe National Monument in the Jemez Volcanic field to look at pyroclastic volcanic deposits and get an overview of the Rio Grande Rift. This trip will involve some light hiking.

Departure: 9:00 am in front of the hotel main entrance.
Return: ~4:30 pm to the hotel

If the conditions allow we will go to Kasha Katuwe (Tent Rocks). If there is too much snow, we will go to an alternative location at lower elevation. The elevation at Kasha Katuwe ranges from 5,500 to 6,700 feet and we will hike to 6,700. It is a nice hike with a great view from the top. We will be in a national monument, so no hammering on rocks or collecting of materials. It can be cold and windy and it can also be very sunny so be prepared for changing weather conditions and wear some layers.

Meeting venue: The Hotel Albuquerque in Albuquerque, NM

From rifting to drifting: evidence from rifts and margins worldwide mini-workshop


 icon-map-marker Grand Hyatt San Francisco
345 Stockton Street, San Francisco, CA
Union Square Room – 36th Floor

Sunday December 13, 2015, 8 – 1:30pm

Conveners: Rebecca Bendick, Ian Bastow, Tyrone Rooney, Harm van Avendonk, Jolante van Wijk

 icon-file-text-o Participant list

AgendaMeeting objectivesSTEPPE WorkshopMeeting report

Topic 1: Melt Generation in Extensional Environments
8:00-8:30 | Overview talk by Tyrone Rooney
8:30-8:45 | Panel discussion moderated by Harm van Avendonk

Topic 2: Magma-lithosphere interaction
8:45-9:15: Magma-lithosphere interaction | Chris Havlin
9:15-9:30: Panel discussion moderated by Ian Bastow

9:30-10 | Coffee

Topic 3: Stretching the lithosphere
10:00-10:30 | Stretching of the lithosphere |  Suzon Jammes
10:30-10:45 | Panel discussion moderated by Rebecca Bendick

Topic 4: Rifting and Oceanic Spreading
10:45-11:15 | Rifting and oceanic spreading – the focusing of melt delivery in space and time – Derek Keir
11:15-11:30 | Panel discussion moderated by Jolante van Wijk

11:30-12:30 | Lunch outside the venue

Discussion
12:30-13:00 | Summary of current results
13:00-13:30 | Avenues for future study

The purpose of this workshop is to facilitate discussion on the current state of research into continental extension. Our aim is to be broadly inclusive by bringing an audience with widely varying backgrounds to a common understanding of the state of the art in this field. Our ultimate goal will then be to pursue a discussion on future research challenges for the community and how these challenges align with the existing science plans for the GeoPRISMS Eastern North America and East African Rift Focus Sites. We will organize this meeting around the following themes:

  1. Melt generation in extensional environments: Mantle decompression, thermal state and composition of the mantle.
  2. Magma-lithosphere interaction: diking, metasomatism, thermal weakening, changing the composition of the lithosphere, coupling between deformation and melt migration.
  3. Stretching of the lithosphere: Strain localization in brittle and ductile rheology,  rates of extension, punctuated events.
  4. Feedback loops – rifting and surface processes: sedimentation, margin architecture
  5. Rifting and oceanic spreading – the missing link: Lithospheric breakup, focusing of melt delivery,  evolution of mantle deformation
Conveners:
Rebecca Bendick (University of Montana)
Ian Bastow (Imperial College London)
Tyrone Rooney (Michigan State University)
Harm van Avendonk (Univ. Texas Institute for Geophysics, UT-Austin)
Jolante van Wijk (New Mexico Tech)

Conveners: Michael McGlue and Christopher Scholz

Description: This STEPPE workshop will investigate source-to-sink processes through an examination of the Lake Tanganyika rift (East Africa), which faithfully records profound signals of tectonics, climate variability, and surface processes in a high-continuity sedimentary archive. The workshop will bring together inter-disciplinary experts to discuss the geodynamic, atmospheric, hydrologic, and biological processes affecting the Tanganyika hinterland that influence sediment generation and transport, as well as the limnological and depositional processes influencing stratal architecture and the composition of sediment. Lake Tanganyika is widely considered to be the premier target to recover a long-term, high resolution record of tropical climate, evolutionary biology, and rift tectonics via scientific drilling, and it is also an active frontier petroleum basin. The goal of the workshop is to lay the framework for future scientific drilling and consider the best pathways for deconvolving forcing mechanisms from the depositional signal, potentially through the application of new analytical techniques, integration of large digital datasets, or process modeling. Interested participants (especially early career scientists – students, post-docs, etc.) are encouraged to participate and contact the conveners for more information (michael.mcglue@uky.edu or cascholz@syr.edu).

From rifting to drifting: evidence from rifts and margins worldwide mini-workshop

AGU Fall Meeting 2015, San Francisco, USA

Conveners: Rebecca Bendick1, Ian Bastow2, Tyrone Rooney3, Harm van Avendonk4, Jolante van Wijk5

1University of Montana, 2Imperial College London, 3Michigan State University, 4Univ. Texas Institute for Geophysics, UT-Austin, 5New Mexico Tech

On Sunday December 13, 2015, from 8am to 1:30pm, a representative cross section of researchers interested in rifting met in the Grand Hyatt San Francisco before the AGU Fall Meeting. Our primary focus was to facilitate discussion on the current state of research into continental extension. Our aim was to be broadly inclusive by bringing an audience with widely varying backgrounds to a common understanding of the state of the art in this field. Our ultimate goal was to initiate a discussion on future research challenges for the community and how these challenges align with the existing science plans for the GeoPRISMS Eastern North America and East African Rift Focus Sites. To facilitate community building and cross disciplinary linkages, the meeting was coordinated with the STEPPE consortium (Sedimentary Geology, Time, Environment, Paleontology, Paleoclimatology, Energy) workshop investigating source-to-sink processes of the Lake Tanganyika rift (East Africa), which took place directly following the GeoPRISMS workshop from 2 to 8pm.

The meeting was structured to allow for discussion under four broad subheadings:

Topic 1: Melt Generation in Extensional Environments

A 30 minute introduction to this topic was presented by Tyrone Rooney. The talk covered the historical context of rifting studies and then focused on the relationship between magma and lithospheric strength. The concept of magma within the lithosphere facilitating rifting was introduced. The presentation examined how magmas provide an important temporal record of mantle processes during extension. It was shown how thermochemical constraints of the upper mantle source region of rift magmas could be probed with erupted lavas. In particular, the dual challenges of mantle potential temperature and pyroxenites in the upper mantle were highlighted as important frontiers in our understanding of mantle melting processes. The role of volatiles in some rifting environments (Rio Grande Rift) was introduced. The role of magmas in influencing seismic images of the upper mantle and also acting as a mechanism of strain accommodation during late stage rifting was also discussed. Finally, an examination of the continental lithospheric mantle as a possible magma source was also presented.
The discussion, moderated by Harm van Avendonk, first explored the issue of the role of water in magma generation processes. In particular, there were questions asked about the storage of water in water-bearing phases but also the ability of olivine to store volatiles. Further discussions continued on the role of hydrous phases on lithospheric rheology. The first key question arising from these discussion was – where could volatiles reside and how much in the source of rift magmas (especially water and carbon dioxide). Suggestions on approaching this question through studies of xenoliths and reconstructing lithospheric architecture were made. The second key question focused on the role of structural inheritance. It was acknowledged that crustal heterogeneity and mantle lithosphere heterogeneity may not necessarily correspond. Finally the third key question related to the amount of melt generation with the timing and magnitude of stretching.

Topic 2: Magma-lithosphere interaction

A 30 minute introduction to this topic was presented by Chris Havlin. This presentation first delivered an overview of the physics and thermodynamics of melt transport. This was further subdivided on the basis of porous flow within the mantle and lithosphere and in terms of crustal fractures and channels and how lithospheric inheritance influenced melt transport. The porous flow concept was expanded to examine the dependence on pressure gradients, buoyancy and dynamic pressure. The concept of a ‘freezing boundary’ was raised in terms of a melt focusing mechanism, which if dipping, could redistribute melt. Within the lithosphere the concept of lithospheric and crustal fabrics was raised. It was acknowledged that grain size may affect porosity and surface tension. As a result, melt is preferentially directed into smaller grain size domains. The presentation also examined end-member models of strain i.e. whole lithospheric heating, and basal heating and impact of the porosity front shallowing over time creating an effective thinning of the lithosphere. Finally, it was shown that there could be a growing zone of modified lithosphere whereby mechanically it behaves as does the asthenosphere but chemically it may still resemble the lithospheric mantle.
The discussion, moderated by Ian Bastow, first examined the concept of the background state of stress in rifting environments and how stress may change with changes in viscosity. It was noted that thinning does not require large extensional stresses. A point was raised on the competing grain size effects on porosity and surface area in relation to bulk permeability. Questions were raised by the group as what happens in relation to thinning and melt alteration of the lithosphere in seemingly amagmatic rift segments. It was acknowledged, however, that segments defined as amagmatic due to a lack of surface volcanism may still possess significant melt at depth within the lithosphere. As a result of these discussions, two key questions arose: (1) What is the role of melt in magmatic and amagmatic (in terms of surface volcanism) rift segments? and (2) What are the feedbacks between melt transport and lithospheric thinning and what are the mechanisms?

Topic 3: Stretching the lithosphere

A 30+ minute introduction to this topic was presented by Suzon Jammes. The presentation first examined the concept of mechanical stretching and the genetic relationship of stretching as an important factor in the Wilson Cycle. The factors controlling this mechanical stretching focused on exhumation, tectonic inheritance, and the control of rift and margin architecture. The topic of depth-dependant stretching was examined and how vertical decoupling was incompatible with pure and simple shear endmembers. An introduction to time-dependant stretching mechanisms followed with some idealized cross section of basinward migration of deformation. Dr. Jammes presented an evolutionary model whereby mechanical stretching was followed by the creation of a ‘necking zone’ for major crustal thinning and finally an exhumation phase. The discussion continued into a discussion of how rifting processes are determined by rheological layering of the lithosphere and the impact of structural inheritance and sensitivity to this vertical layering.

The discussion, moderated by Rebecca Bendick, was more limited due to time constraints but did establish a key question of how the feedbacks with melting might vary in terms of the recognized global variety of architectures of rifts and rifted margins.

Topic 4: Melt delivery and focusing

A 30 minute introduction to this topic was presented by Derek Keir. Dr. Keir showed how within the East African Rift changes in mantle potential temperature are probable first order controls on magma supply. It was also shown how variations in magmatism are multi-scalar with lateral variation at several scales both in the presence and absence of melt and melt chemistry. There was a view that melt pathways and focusing might represent the best mechanism for generating smaller scale variability and examples from the Black Sea and Afar were shown. Afar provided a particularly interesting case as in this region it was show that volcanism responded to increasing subsidence. That is, the more the thinning, the more melt and thus more melt focusing. Dr. Keir showed how a mantle potential temperature anomaly of at least 100 degrees could help explain observed seismic velocities and also the presence of melt throughout the region. A comparison was made between Afar and slow spreading ridges and also to Krafla (Iceland) between 1975 and 1984. The discussion continued as to the impact of melt focusing in time and space and how it is influenced by the temporal accumulations of tectonic stresses. The result of this was described as a general migration of volcanism from the rift flanks towards the rift axis with the competing tectonic and gravitational stresses.

The discussion, moderated by Jolante van Wijk, examined comparisons between the Havlin models discussed in topic 2 and those presented by Keir in topic 4. Some discussion centered on the concept of focusing at the lithosphere-asthenosphere boundary and then subsequent defocusing within the crust. It was acknowledged that geochemical data were critical to address these issues. It was noted that magmatic sources clearly differ along strike within the rift and thus are inconsistent with a single centralized source.

From rifting to drifting: evidence from rifts and margins worldwide | December 13 AGU 2015

Broad discussion

Following a break, the group reconvened to try and systematize some of the key concepts raised. The issues can be summarized as follows:

1. Rift Initiation

  • What is the role of mantle plumes?
  • How can mechanical heterogeneity facilitate initial rifting?
  • What role does chemical heterogeneity in the lithospheric mantle control initial extension?
  • What is the initial thermo-chemical structure of the lithosphere and asthenosphere in a nascent rift?
  • What does incipient rifting look like? Okavango suggests preexisting structure critical
  • Is this a top down or bottom up process? How does extension propagate?

2. Evolution of rifting in time and space

  • Why do rifts ultimately fail?
  • What is the role of nonlinear feedbacks?
  • How can datasets from igneous petrology and the sedimentary record provide a temporal insight into rift evolution?
  • What is the time evolution of strain?

3. Rift Architecture

  • How do non-uniqueness issues create difficulties in creating global models of rift evolution?
  • How can real constrains be linked with ever more innovative and detailed simulations?
  • What variables control the strength of the lithosphere?
  • What is the role of far-field vs. local controls on strain and rift evolution?

4. Volatiles in extensional environments

  • What are the volatile pathways from depth to the surface?
  • How deep are the volatiles derived from?
  • What is the role of rift valley volcanoes in global production of volatiles (e.g., CO2, SO2)?
  • How can lithospheric heterogeneity and inheritance influence the volatile budget?

In summary the basic concepts on which the group agreed that were critical for GeoPRISMS were:

  1. What is the history of melt? Where is it formed, when is it formed, why is it formed, how is it focused, and what pathways does it take through the lithosphere?
  2. What is the material (thermal and chemical) heterogeneity in the rift lithosphere? How does inheritance play a role, is there spatial organization at play, and how can we assess the importance of these heterogeneities to rifting?
  3. Comparison of focus areas is needed. How do ENAM and the EAR differ and how are they similar? What can be learned from focused studies at both sites?

RIE Implementation Workshop


 November 4-6, 2010
Santa Fe, New Mexico

 icon-download Download the Implementation Plan

AnnouncementAgenda - Presentation archiveStudent PresentationsWhite Papersmore infoOutcomes

A MARGINS/GeoPRISMS-sponsored workshop on the new GeoPRISMS Rift Initiation and Evolution (RIE) Initiative will be held November 4-6, 2010 in Santa Fe, New Mexico. This workshop will produce the implementation plan for the RIE component of the GeoPRISMS Science Plan. Participants will further refine the themes and the unanswered questions proposed in the RIE Initiative in the GeoPRISMS Draft Science Plan. We will also develop the science implementation plan. Two key goals of this workshop are to resolve which themes and questions require “Primary Sites” for concentrated, collaborative investigations, and to finalize selection of one or two such Sites. The RIE Initiative addresses four broad questions:

  1. Where and why do continental rifts initiate?
  2. How do fundamental rifting processes (such as tectonics, magmatism, and erosion, transport, and sedimentation), and the feedbacks between them, evolve in time and space?
  3. What controls the structural and stratigraphic architecture of rifted continental margins during and after breakup?
  4. What are the mechanisms and consequences of fluid and volatile exchange between the Earth, oceans, and atmosphere at rifted continental margins, and between the lithosphere and the mantle?

The workshop will consist of two days of presentations, poster-sessions and breakout group discussions, followed by a half-day discussion to finalize the implementation plan including decisions on Primary Sites. Workshop participants will focus on refining RIE science goals and establishing accomplishment milestones in order to answer the RIE research questions in a 5 and 10 year time period. Participants will also evaluate strategies to address these goals, including opportunities for collaboration with international and national research partners, sister organizations, and industry. On the afternoon of the third day, there will be an optional half-day field trip to various sites within the Rio Grande rift.
Interested researchers from all countries should submit an application online by August 1, 2010. The application should include a brief statement of interest and a short C.V. All scientists interested in rifted margin studies are encouraged to apply, independent of past involvement in MARGINS or GeoPRISMS. Post-docs, senior graduate students, and members of underrepresented groups are especially encouraged to participate. Selected participants will be notified by Sept. 1, 2010. Funding from NSF is expected to cover a significant fraction of travel and accommodation costs for U.S. participants. Questions or comments may now be directed to the GeoPRISMS Office: info (at) geoprisms.nineplanetsllc.com.

Workshop Conveners:

Mike Oskin – University of California, Davis (Chair)
Ramon Arrowsmith – Arizona State University
Peter Flemings – University of Texas, Austin
Donna Shillington – Lamont Doherty Earth Observatory
Jolante van Wijk – University of Houston

Day 1 | Wednesday, November 3

4-7:00 pm Loretto Hotel Lobby Registration in the Loretto Hotel lobby with cash bar. Collect your meeting folder and name tag here. Post day one posters.

7:00 pm Meeting organizers gather for dinner out.

Day 2 | Thursday, November 4

7:30 am Zuni Ballroom Coffee and Muffins (grad student orientation)

8:00 am Meeting welcome and logistics | Mike Oskin/organizing committee

8:10 am Summary of RIE Science Plan | Juli Morgan

8:20 am NSF & Other VIP comments

8:30 am Theme Session 1 – Initiation
how and why do continental rifts initiate? |   1Mb – Ramon Arrowsmith
Science Plan Review
Afar/Aden example |   10Mb Derek Keir

Woodlark basin example | Suzanne Baldwin

9:30 am break & posters

10:00 am Theme Session 2 – Evolution
How do fundamental rifting processes (such as tectonics, magmatism, and erosion, transport, and sedimentation), and the feedbacks between them, evolve in time and space? |   3Mb Donna Shillington
Science Plan Review
model perspective |   3MbLuc Lavier
observation perspective |   9MbGraham Kent

11:00 am Grad-student poster pop-ups

11:20 am Charge to Break-Out Groups (Mike Oskin)

11:30 am Break outs 1 & 2 (small groups discuss, each w/leader and scribe)

talk about this science topic. 4 groups, two sets of questions (theme 1 and theme 2). Issues to consider: a) What is the compelling science? b) What is achievable in 5 years? c) What is achievable in 10 years (GeoPRISMS nominal lifetime)? d) What are highest priorities for sequestered GeoPRISMS program funds? e) Which themes require Primary Sites for concentrated, collaborative investigations? f) What specific types of experiments or observations are needed at these sites? g) Provide a ppt summary slide of implementation strategy.

12:30 pm Lunch & posters

2:00 pm Theme Session 3 – Architecture
What controls the structural and stratigraphic architecture of rifted continental margins during and after breakup? |   1Mb Jolante van Wijk
Science Plan Review
stratigraphic architecture |   4MbWonsuck Kim

passive margin deformation |   6MbFrank Bilotti

3:00 pm break & posters

3:30 pm Theme Session 4 – Fluids
What are the mechanisms and consequences of fluid and volatile exchange between the Earth, oceans, and atmosphere at rifted continental margins, and between the lithosphere and the mantle? |   2Mb Peter Flemings
Science Plan Review
mantle / volcanism |   6Mb Tobias Fischer

crustal fluid systems |   17MbJoe Cartwright

4:30 pm Break outs 3 & 4

5:30 pm Break for dinner on your own– recommend that break-out group report writers eat together. Grad-student group dinner.

7:00-9:00 pm breakout group report preparation / grad-student poster judging

Day 3 | Friday, November 5

7:30 am Coffee and Muffins & poster trade-out (take down day 1, post day 2)

8:00 am Overview of schedule and goals of day | Mike Oskin

8:10 am Break-out 1A & 1B report & discussion (10 min presentation from each group, followed by 15 minute discussion of theme implementation strategy)

8:45 am Earthscope collaboration opportunities | Mousumi Roy

9:10 am Break-out 2A & 2B report & discussion

9:45 am Break

10:00 am USGS & IODP collaboration opportunities |   2MbCarolyn Ruppel

10:25 am Break-out 3A & 3B report & discussion

11:00 am industry collaboration opportunities | Lori Summa

11:25 am Break-out 4A & 4B report & discussion

12:00 pm Lunch (& grad student implementation report prep)

1:30 pm Implementation Strategies 1 (Short talks based on submitted white papers)

2:45 pm Break

3:00 pm Grad student-led presentation on implementation strategy

3:30 pm Implementation Strategies 2

4:45 pm Charge to break-out groups and discussion of site ranking procedure

5:00 pm Break-out group discussion: Formulate 1 or 2 straw implementation plans based on evaluation of sites, White Paper presentations

6:00 pm Meeting banquet, award for best grad-student poster & special presentation  | Karl Karlstrom & Laura Crossey

7:30 pm Poster Session & break-out group report preparation

Day 4 | Saturday, November 6

7:30 am – Coffee and Muffins

8:00 am Intro to structure of science plan writing and organization of day | Mike Oskin

8:15 am Group Discussion of Overall Implementation Plan (including reports of break-out groups from end of day 2)
a) What is the compelling science? b) What is achievable in 5 years? c) What is achievable in 10 years (GeoPRISMS nominal lifetime)? d) Which themes require Primary Sites for concentrated, collaborative investigations? e) What are highest priorities for sequestered GeoPRISMS program funds?

9:45 am Summarize viable implementation strategies for consideration.

10:00 am Break & non-binding secret ballot on implementation strategies

10:30 am Group Discussion of Primary Sites

11:30 am Decision on Primary Sites (by consensus or by ballot)

12:00 pm Meeting ends, optional half-day field trip

12:00 pm Lunch (writing team only)

1:00-5:00 pm Writing team meeting

 icon-download Download the compiled white papers

The Walker Lane Rift System: A Natural Laboratory to Study Rift Initiation that Culminated in Seafloor Spreading (in the Gulf of California) |  1Mb Cathy Busby et al.

The East African Rift System: A possible primary or thematic site |  6MbAtekwana et al., Ebinger, Gaherty et al., Reilinger et al., Rooney et al.

Oblique rifted margins: Lena trough as an archetype |  1Mb – Dick et al.

Submarine Landslides Rapid Response Opportunities |  1Mb Brandon Dugan et al.

Active Faulting and Magmatic Processes: Fundamental Constraints on Passive Margin Formation |  6Mb – Cindy Ebinger et al.

US Atlantic Continental Margin |  1Mb Gaherty et al., Hornbach et al., Olsen et al.

Continental Breakup and Formation of Rifted Margins: The Gulf of Mexico as a Natural Laboratory |  10Mb D. Harry et al.

Woodlark Rifting White Paper: Important processes and implementation |  25Mb Mann et al.

Final participant list (last update 09-24)

Conference venue: Loretto Hotel

Thank you to the meeting attendees for participating in the difficult process of reaching a consensus on the future direction of GeoPRISMS. The active engagement of a vibrant community is essential to the success of the program. Also, a special thanks to all of the speakers, break-out group leaders / co- leaders, and White Paper authors, without whom we could not have had such a meaningful debate on the direction of the RIE component of GeoPRISMS. Finally, we want to recognize the enthusiastic participation of the graduate students, which greatly influenced this process. For those that could not attend, the decision process on Primary Sites is as follows:

Active Margin: East Africa Rift system (onshore / lacustrine)
Passive Margin: North Atlantic (U.S., Nova Scotia, and Newfoundland)

There remains a number of important tasks ahead. The conveners and selected meeting participants will develop a draft of the implementation plan by January 5 for review by the community. This plan will be submitted to NSF by February 1 if not sooner. It is apparent from the size of the Primary Sites (each are 1000s of km in length), that additional planning workshops will be forthcoming to further focus community efforts and develop proposals for gathering of community data sets.

Workshop Conveners (in alphabetical order):

Mike Oskin – University of California, Davis (Chair)
Ramon Arrowsmith – Arizona State University
Peter Flemings – University of Texas, Austin
Donna Shillington – Lamont Doherty Earth Observatory
Jolante van Wijk – University of Houston

2011 Planning Workshop for the ENAM Primary Site

October 27-29, 2011
Bethlehem, Pennsylvania

AnnouncementAgenda - Presentation archiveStudent SymposiumWhite Papersmore infoOutcomes

We are pleased to announce a joint workshop aimed at assembling the EarthScope and GeoPRISMS communities interested in the formative onshore and offshore geological, geophysical, and geodynamic processes of Eastern North America (ENAM). Our goal is to focus community effort and research approaches on crucial science targets with a national and international forum of scientists from universities, national labs, industry, federal, and state agencies. The transportable array of EarthScope arrives in the mid-Atlantic region in 2012-13 and GeoPRISMS recently selected ENAM as a primary site for Rift Initiation and Evolution (RIE) study.

The workshop will take as its starting point the ENAM RIE portion of the GeoPRISMS Science and Implementation Plans and the Earthscope Science Plan. The goals of the workshop will be to clarify common research objectives on the Grenville and Appalachian foundation, the structural, magmatic, and geodynamic setting of rift initiation, the rift-to-drift record preserved in sedimentary archives, the processes that characterize the evolution to a mature passive margin, and the active lithospheric and surficial processes that characterize the modern margin with an emphasis on possible feedbacks between surface and deep-Earth processes.

We anticipate funding to support ~75 researchers with a diversity of interests to participate in this workshop, both from the US and abroad, independent of past involvement in MARGINS, GeoPRISMS, or EarthScope research efforts. Post-docs, senior graduate students, and members of underrepresented groups are especially encouraged to apply. Applications should include a brief statement of interest and anticipated contribution to the workshop, and a short (1 to 2 page) CV.

The workshop will be held at the new STEPS facility at Lehigh University in Bethlehem, PA. The program will include a number of overview presentations of eastern North American geology, geophysics, and geodynamics, updates on current GeoPRISMS and Earthscope research projects, break-out sessions, and plenary discussions leading to conclusive decisions on collaborative science targets and research corridors.

Workshop Conveners:

Frank J. Pazzaglia, Lehigh University
Peter Flemings, University of Texas at Austin
Vadim Levin, Rutgers University
Dan Lizarralde, Woods Hole Oceanographic Institute
Basil Tikoff, University of Wisconsin
Martha Withjack, Rutgers University
Maggie Benoit, The College of New Jersey – Student Coordinator and Symposium Convener

Student Symposium | Wednesday, October 26

Day 1 | Thursday, October 27

7:00 Breakfast and registration.

Moderators: Frank Pazzaglia and Vadim Levin
8:00 Welcome, introductions and workshop goals | Frank Pazzaglia
8:15 NSF Program Director comments | C. Estabrook and Bil Haq
8:45 Review of EarthScope and GeoPRISMS science and implementation strategies and key decisions that must be made by each program
GeoPRISMS, research corridors, leveraging effort with industry and USGS, integration with EarthScope efforts |  3Mb – Juli Morgan

EarthScope, foundation of the 2004 workshop, key ENAM research topics, fate of TA and FA instruments and the possibility of an east coast observatory, extension of PBO to the east coast, integration with GeoPRISMS efforts |  3Mb – B. Tikoff

9:30 Plenary talks to introduce the ENAM region Session I
Modification of continental crust and lithosphere by continental rifting/breakup and by terrane accretion |  4Mb W. Thomas
Rifting and drifting in Eastern North America |  5Mb P. Olsen

Insights into rifting processes from variations in magmatism and structure along eastern North America |  9Mb D. Shillington

10:30 Working break, questions and discussion

11:00 Plenary talks to introduce the ENAM region session II
The lithosphere of the Appalachian orogen and the Atlantic passive margin: A seismological perspective |  2Mb K. Fischer
Analogue and numerical models that inform the rifting process  |  2MbJ. Armitage

Forward modeling of rift and passive margin formation; implications for South and Central Atlantic rifted margins | R. Huismans

12:00 Recent relevant EarthScope and GeoPRISMS projects
Southeastern suture of the Appalachian Mountain experiment (SESAME) project – broadband seismic experiment to study continental accretion and rifting |  6Mb L. Wagner

The Salton Seismic Project (SSIP): A joint GeoPRISMS + EarthScope + USGS investigation of Rift Initiation and Evolution |  5MbJ. Hole

12:40 Lunch

Moderators: Martha Withjack and Peter Flemings
1:30 Emerging hot topics (all of these are inter-related and important cross-program synergy building activities)
Late Cenozoic fluvial incision through the Susquehanna River drainage basin: A response to dynamic topography | S. Miller
Mantle dynamics and the recent evolution of the Eastern North American margin |  2Mb R. Moucha
EarthScope seismology |  3Mb M. Benoit

GeoPRISMS seismology |  3MbJ. Gaherty

2:10 Working break, questions and discussions. Includes an introduction to break-out process and objectives.

2:45 Breakout session I. Topical breakouts – introduction to key research ideas, participants are asked to rotate among two or more.
a. Orogenic processes – building the ENAM framework
b. Rifting processes – magmatism and the opening of the Atlantic Ocean
c. Post-rift processes – transformation to a passive margin

d. Neotectonics and surface processes – active processes on the passive margin

4:00 Emerging hot topics (all of these have important broader impacts)

Active deformation in Eastern North America |  3Mb M. Pritchard

Offshore active processes and hazards |  5MbP. Flemings

Diachronous evolution of syn-rift deformation and onset of seafloor spreading in the central Atlantic: Application of inverse continuum-based plate reconstruction methods |  7MbE. Kneller

Cenozoic history written in a passive continental margin: it’s there for the reading |  4Mb G. Mountain

5:00 Working break, questions and discussions

5:30 Breakout session II. Focus areas (e.g. Discovery Corridors) of the science topics; indentification of GeoPRISMS and EarthScope overlap

a. Orogenic processes – building the ENAM framework

b. Rifting processes – magmatism and the opening of the Atlantic Ocean

c. Post-rift processes – transformation to a passive margin

d. Neotectonics and surface processes – active processes on the passive margin

6:45 Board bus in for transport to the mountain-top campus

7:00 Dinner – Dinner presentation by Bob Sheridan on historic integrated approach to ENAM rifting and passive margin evolution

Moderator: Maggie Benoit

8:30 ENAM datasets and broad undergraduate involvement

GeoPRISMS and MARGINS data portal | A. Goodwillie

Potential for an ENAM REU |  3MbE. Johnson

9:30 Board bus for transport back to STEPS

Day 2 | Friday, October 28

7:00 Breakfast

Moderators: Dan Lizzarralde and Peter Flemings
8:00 Report from breakout sessions I and II and open discussion
9:30 Short presentation
Mineral, Virginia, earthquake illustrates seismicity of a passive-aggressive margin |  2MbS. Stein
Geodynamic modeling of the Canadian Margin | S. Ings
Other presentations

10:30 Working break and open discussion

11:00 Reports from aligned facilities and international partners
USGS: USGS work along the Atlantic Margin |  3MbD. Brothers
Implications of RIE basic science and models for an understanding of source and reservoir rocks on passive margin |  500KbG. Karner
Exploring pre-Cretaceous terranes and basins beneath the Atlantic Coastal Plain: Implications for rift-initiation and evolution |  2Mb W. Horton
New geoscience programs and initiatives for offshore Nova Scotia | D. Brown
European perspective on rifted margins | R. Huismans
Magma starved rifting: Galicia/Newfoundland breakup and initiation of  seafloor spreading |  1MbD. Sawyer

12:30 Questions and discussion

1:00 Lunch

Moderators: Basil Tikoff and Lori Summa
2:00 Breakout session I. Focus areas, discovery corridors, and synergy
Specific topics to be defined by the group discussion, possible including ES-GP synergy, fate of the TA in ENAM, and a possible PBO in ENAM. Rooms TBD.

6:30 Dinner

8:00 Poster session (Posters are up the entire meeting)

Day 3 | Saturday, October 29

All workshop participants are invited to attend a half-day field trip to examine Newark Rift Basin and its stratigraphy, sedimentology, and structure. The field trip will begin shortly following the close of the workshop.

Moderators: Frank Pazzaglia and Juli Morgan
8:00 Breakout session reports and open discussion

9:30 Student reports and perspectives

10:00 Break

10:30 Broader impacts

Panel discussion
EarthScope |  1Mb R. Arrowsmith and M. Fouch
GeoPRISMS |  1Mb J. Morgan and M. Benoit
DaVinci Science Center | D. Smith
IRIS |  4MbB. Woodward
R/V M.G. Langseth Facility |  4MbS.Higgins

11:00 Decision making

1. Where are the GeoPRISMS focus areas?
2. Where/how does GeoPRISMS leverage their efforts (industry and USGS)?
3. Are there GeoPRISMS thematic studies to be performed?
4. What are the highest priority EarthScope science targets?
5. What is the fate of the TA and FA once the scheduled deployment ends in 2015?
6. What would be the goals of an ENAM PBO?
7. What emerges as the best oppportunity for GeoPRISMS-EarthScope synergy?

12:30 Lunch (box lunch provided for field trip participants) and closure

1:30 Field trip to the Newark Basin exposures along the Delaware River

GeoPRISMS Student Symposium for the New Zealand Primary Site

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

The Graduate Student Symposium and Field Trip are designed to (1) introduce students to the objectives and opportunities of the EarthScope and GeoPRISMS Programs, (2) provide geologic and geophysical background about Eastern North America, both onshore and off (3) enable brief student presentations, as well as discussion and interaction in a comfortable setting, and (4) visit relevant geologic field sites in Pennsylvania. All symposium participants will enter the ENAM workshop with a rich background in the workshop topics and objectives, and an understanding of implementation strategies for moving the research horizon forward, as well as a strong cohort of colleagues and a greater voice in decision-making that will take place during the workshop.

8:00 Registration, Breakfast, and Welcome

9:00 Geologic, geophysical, geodynamic, and geomorphic background of ENAM – Appalachian, rift, and recent landscape evolution | Pazzaglia, Withjack, McKeon

10:20 Break

10:30 EarthScope and GeoPRISMS science strategies and rationale for ENAM workshop | Maggie Benoit

11:00 Student research presentations (poster and oral)

12:00 Field trip to Appalachian foreland, basin analysis reconstruction of the Appalachian range. (Box lunch provided) | Frank Pazzaglia

6:30 Student Dinner

6:00 Registration and Science workshop mixer. STEPS concourse A

 icon-download Download the compiled white papers

Kinematic reconstruction of the central US and conjugate northwest African margin | icon-file 300Kb Van Avendonk et al.

Deep-crustal seismic study of continental rifting in the Newfoundland Basin |  300KbVan Avendonk et al.

A central Appalachian EarthScope transect in Virginia: Examining upper mantle interaction with Paleozoic sutures, Eocene magmatism, and modern seimicity |  3MbBailey et al. 

Testing the lithospheric counterflow hypothesis |  1MbBeaumont et al.

Integrating lithospheric structure, mantle dynamics, and surface processes to investigate topographic and lithospheric evolution of the southeastern US continental margin |  600KbBenoit et al.

EarthScope in New England Appalachians: Structural inheritance and the long-term strenght of continental lithosphere |  500Kb Crespi et al.

Submarine groundwater discharge: linking the continental and oceanic hydropsheres |  500Kb Dugan et al.

Accretion of terranes and growth of continental crust along the southern margin of Laurentia during assembly of Pangea [and modifications by opening of the Gulf of Mexico] |  500Kb Dumond et al.

Slope failure control on margin morphology at the Cape Fear Slide |  500KbFlemings et al.

The role of magmatism in rifting: insight from the lithospheric mantle |  50KbGaherty et al.

GeoPRISMS Data Portal |  900Kb Goodwillie et al.

An REU site at James Madison University: understanding the Rift-to-Drift transition in Eastern North America and the North Atlantic |  200KbJohnson et al.

South Georgia Rift Basin: Rift Initiation and Evolution (RIE) Assessment through Controlled Source Seismology |  500Kb Knapp et al.

High-resolution marine magnetic anomaly data across the margin would delineate structures controlling lithospheric formation and rift localization |  1MbMiller et al.

Late Cenozoic stream incision in the Appalachian region |  300Kb Miller et al.

Evolution of continental crust through two Wilson cycles in ENAM |  700Kb Thomas et al.

Call for White Papers

The transportable array of EarthScope arrives in the eastern United States in 2012-13, and GeoPRISMS has identified the Eastern North America Margin (ENAM) as a primary site of the Rift Initiation and Evolution (RIE) initiative. Collectively, EarthScope and GeoPRISMS research spans the shoreline and, in doing so, provides an integrated framework for understanding the Appalachian mountain building processes, rift-initiation (including orogenic inheritance), and the evolution and structure of a mature continental margin. The associated broader impacts of natural hazards and assessment of the nation’s natural resources, including traditional and alternative sources of energy in the most densely populated part of the country, are fundamental to both programs.

The October 2011 Workshop has two main purposes. First, it will focus community effort and research approaches in the eastern United States, including identification of important EarthScope and GeoPRISMS RIE science targets. In particular, the GeoPRISMS RIE community could use the meeting to identify critical areas to target for focused research. Second, the workshop will establish research strategies that maximize EarthScope and GeoPRISMS synergies to address common research goals.

Scientists interested in participating in the development of the integrated science and implementation plan for ENAM are invited to submit White Papers. The White Papers will play an important role in the workshop outcomes, including guiding breakout discussions 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 and EarthScope 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 Eastern North America, potential “Discovery Corridors” (onshore and off), possible community experiments (including joint proposals between EarthScope, GeoPRISMS, or other partners), and implementation strategies for carrying out thematic studies. White Papers addressing the evolution of the passive margin may wish to make an explicit case for how they address one of more of the key RIE questions.

White papers should be submitted to the GeoPRISMS Office by September 15, 2011. In preparation, White Papers authors should consult relevant parts of the Earthscope Science Plan and the GeoPRISMS Science Plan linked below.

All White Papers will be made available to meeting participants and the community prior to the workshop.

Guidelines

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 the EarthScope and GeoPRISMS communities and science goals 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

Workshop Hotel: The Comfort Suites 120 W. Third St., Bethlehem, PA 18015 (610) 882-9700Workshop Meeting Venue: Lehigh University STEPS Facility Lehigh University 27 Memorial Drive West Bethlehem, PA 18015 (610)758-3000

Figure 1. Workshop attendees gather outside the STEPS facility at Lehigh University during the EarthScope-GeoPRISMS Science Workshop for Eastern North America.

Workshop attendees gather outside the STEPS facility at Lehigh University during the EarthScope-GeoPRISMS Science Workshop for Eastern North America.

An EarthScope- GeoPRISMS Science Workshop for Eastern North America (ENAM) was held at Lehigh University in Bethlehem, PA on October 27-29, 2011. Approximately 95 people were in attendance. Despite a poorly timed Nor’easter on the last day of the workshop – which ultimately led to four days of power outage in Bethlehem and interesting travel for the participants – the workshop was very successful. A consensus plan for the GeoPRISMS ENAM primary site was reached, and synergies with the EarthScope program were fully explored.

The scale, the complicated record of multiple Wilson cycles, and the along-strike geologic variations of ENAM made selecting a single focus area impractical. Consequently, the workshop identified three potential regions for GeoPRISMS focused research, and articulated the alignment with EarthScope priorities for each of those locations. Additionally, significant discussion addressed thematic and synoptic studies that are less site specific, but which also afford synergistic opportunities between GeoPRISMS and EarthScope science goals.

The three focus areas identified are:

(1) A long, NW-SE oriented swath from the Appalachian foreland in Kentucky to true oceanic crust offshore the Blake Plateau, through the city of Charleston, SC (“The “Charleston Swath”). This area presented clear opportunities for the GeoPRISMS and EarthScope communities to work together on a number of topics. In combination, onshore and offshore studies could address fundamental questions about orogeny, rifting, post-rifting, and neotectonic deformation. The swath includes a classic section through the Appalachian mountains (including the highest topography in the Appalachians), multiple accreted terranes, rifting recorded in the South Georgia basin onshore, effusive breakup magmatism beneath the Carolina trough offshore, two zones of known seismicity (Charleston and Eastern Tennessee), large landslides preserved on the slope and the extensive Blake Ridge gas hydrate province. Work in this area could connect to the funded OINK EarthScope project in the mid-continent, thereby forming a complete swath from the orogenic foreland to oceanic crust.

(2) A swath across the Canadian Appalachians to true oceanic crust offshore Nova Scotia. This area is critical to understanding magmatism as a fundamental control on the process of rifting: It contains the transition from magmatic (south) to amagmatic (north) rupture and continental breakup along eastern North America. Consequently, this study area provides the opportunity to determine the characteristics and causes of this transition (i.e., differences in lithospheric properties and rheologies, extension magnitudes). Attractive targets for the onland component are accretion of the northern Appalachian regions, strike-slip tectonism along terrane boundaries, the record of rifting in the Fundy basin, and the active seismicity of the Charlevoix region. The area has logistical advantages, including abundant offshore industry seismic-reflection data and government and academic seismic-refraction data and some onshore permanent seismic observatories. While the motivation for this study area comes primarily from magmatic-to-amagmatic transition recorded offshore, there was interest in extending the footprint of Transportable Array of USArray into New Brunswick and Nova Scotia, to provide the onshore context for an offshore OBS deployment.

(3) A mid-Atlantic focus area that stretches along strike from about Philadelphia, PA to Richmond, VA and across strike from the Appalachian Plateau to the offshore Baltimore Canyon and Carolina troughs. Onshore, this area offers numerous advantages to studying orogenesis and rifting, and is less affected by terrane accretion than the northern or southern Appalacians. As a corollary, the mid-Atlantic section of the Appalachian orogen provides opportunities to understand the transition between the southern and northern Appalachians. This area contains exposures of both Iapetan and Mesozoic rift margins, and it records a wide range of magmatism, valuable for timing constraints and geodynamic inferences. A key advantage of this area is that it is well suited for linked, interdisciplinary studies of geomorphology, Cenozoic basin development, and upper mantle structure and dynamics. Mantle imaging in this area has already begun, with a recently completed, year-long seismic deployment (TEENA).

In addition to these focus areas, there were two areas of interest from an EarthScope perspective.

First, the New England region was considered for studying orogenic and rift initiation processes. This area provides an extremely telescoped orogeny, the presence of island-arcs as accreted terranes, a major extensional basin, and the presence of an ancient hotspot track. Second, there was interest in extending the scope of the funded SESAME EarthScope project in a variety of ways, including studying the role of terrane (continental fragment) accretion, the role of Iapetan transform faulting on subsequent deformation, or the nature of incomplete rifting on the southern end of the Appalachians. In general, there was support for conducting multiple cross-strike and along-strike swaths through the Appalachian Mountains, in order to develop a time-integrated evolution of the entire mountain belt.

Finally, a model was proposed for future EarthScope community projects that could leverage academic resources and interest in ENAM including, for example, the relatively high number of four-year colleges in the region. The goal would be to enable inclusive participation of geoscientists, in particular, faculty who are experts in the regional tectonic evolution ENAM. One possibility would be to provide community resources for pursuing a variety of synoptic studies. Discussions also considered the next generation of EarthScope science projects, perhaps including extended backbone ENAM TA and PBO deployments.

The meeting attendees are thanked for their active participation and contributing to the spirit of consensus building on the GeoPRISMS implementation plan for the Eastern North American margin, and identifying opportunities for further engaging EarthScope. The graduate students, in particular, were actively engaged in the workshop process and their insights and input were formally presented and played a significant role in moving the discussion forward during the decision-making process. The speakers, break-out group leaders, and white paper authors all contributed to the success the workshop.

The conveners and selected break-out leaders plan to prepare a comprehensive workshop report for distribution by January 2012, and an updated draft of the GeoPRISMS ENAM science implementation plan by February 2012. The implementation plan will be made available for public comment prior to final release. It will serve as a guide for proposals submitted for the next NSF GeoPRISMS solicitation, July 1, 2012, and the next EarthScope solicitation deadline, July 16, 2012.

Workshop Conveners (in alphabetical order):

Frank J. Pazzaglia, Lehigh University
Peter Flemings, University of Texas at Austin
Vadim Levin, Rutgers University
Dan Lizarralde, Woods Hole Oceanographic Institute
Basil Tikoff, University of Wisconsin
Martha Withjack, Rutgers University
Maggie Benoit, The College of New Jersey – Student Coordinator and Symposium Convener

2012 Planning Workshop for the East African Rift System Primary Site


October 25-27, 2012
Morristown, New Jersey

AnnouncementAgenda - Presentation archiveStudent SymposiumWhite Papersmore infoOutcomes

The GeoPRISMS Steering and Oversight Committee is pleased to announce a workshop to develop a detailed science plan for the GeoPRISMS East African Rift System (EARS) Primary Site. The East African Rift System was chosen as a primary site for GeoPRISMS because it offers significant opportunities to study a wide range of questions outlined in the GeoPRISMS Science Plan for the Rift Initiation and Evolution (RIE) Initiative. More details about GeoPRISMS science objectives in the East African Rift can be found in the GeoPRISMS Science Plan and the Draft Implementation Plan; these documents will serve as the starting point for this workshop.

The main goals of the workshop are to clarify the community research objectives in the EARS, to discuss candidate “Discovery Corridors,” to identify opportunities for international partnerships, and to develop a detailed Implementation Plan for GeoPRISMS research, considering the available resources and infrastructure, to guide GeoPRISMS proposers and reviewers. The success of GeoPRISMS studies in the East African Rift also will depend on developing strong partnerships with international communities with similar research interests.

The program will include a number of overview presentations on the EARS, along with plenary and break-out discussions, culminating in decisions regarding science implementation in the East African Rift. White papers will be solicited in advance of the workshop to ensure community input.

The meeting will take place in Morristown, NJ from October 25-27, with a graduate student symposium on Wednesday, October 24.

Researchers from all countries are encouraged to apply, independent of past involvement in GeoPRISMS. Post-docs, senior graduate students, and members of under-represented groups are especially encouraged to participate. Funding from NSF and other sources is expected to cover a significant fraction of travel and accommodation costs for ~80 participants with a diversity of interests, including limited funds for international attendees. Applications should include a brief statement of interest and anticipated contribution to the workshop and a short curriculum vitae.

Workshop Conveners:

Ramon Arrowsmith
Estella Atekwana
Maggie Benoit
Andrew Cohen
Rob Evans
Matthew Pritchard
Donna Shillington
Tyrone Rooney

Student Symposium | Wednesday, October 24

8:00 – 5:00 Graduate Student Symposium & Field Trip
5:30 Workshop Registration & Ice Breaker (with Cash Bar)
7:00 Graduate Student Dinner

Day 1 | Thursday, October 25

Moderators: Maggie Benoit, Tyrone Rooney
8:00 Opening remarks
· Welcome from NSF – B. Haq, J. Wade
· Introduction to GeoPRISMS – Julie Morgan
· Goals of meeting – Conveners

8:30 Introductory Talk: Overview of the EAR | Cindy Ebinger (U. Rochester)

9:00 Plenary Topic 1: How does the presence or absence of an upper-mantle plume influence extension?
a. Seismological imaging of plumes and associated magmatism in rifts |  12Mb Gabriel Mulibo and JP O’Donnell (Penn State U.)
b. Origin of magmas from geochemical perspective |  1MbTyrone Rooney (Michigan State)
c. Plume dynamics and surface uplift |  8Mb Sarah Stamps (Purdue U.)

9:45 Plenary Topic 2: How does the mechanical heterogeneity of continental lithosphere influence rift initiation, morphology, and evolution?
a. Mechanisms for thinning the lithosphere, including thermal/chemical erosion, and interaction with large scale lithospheric structures |  11Mb Ben Holtzman (LDEO)
b. Control of pre-existing structures on early rifting |  3MbAubreya Adams (Wash. U)
c. Geochemical heterogeneity of the lithosphere |  2Mb Wendy Nelson (U. Houston)

10:30 Coffee Break & Poster Session

Moderators: Matt Pritchard, Rob Evans
11:00 Plenary Topic 3: How is strain accommodated and partitioned throughout the lithosphere, and what are the controls on strain localization and migration?
a. Magmatism during rifting events |  1MbDavid Ferguson (LDEO)
b. Modeling and observations of faulting and magmatism during rifting |  2Mb Juliet Biggs (U. Bristol)
c. Active deformation processes |  1MbBecky Bendick (U. Montana)

11:45 Plenary Topic 4: What factors control the distribution and ponding of magmas and volatiles, and how are they related to extensional fault systems bounding the rift?
a. Geochemical studies of magmas and volatiles |  35MbTobias Fischer (U. New Mexico)
b. Geophysical imaging of magmas and fluids (MT, seismic) |  1Mb Derek Keir (Natl. Ocean. Centre, Southampton)
c. Shallow dynamics of magma chambers/dikes and eruptions |  1Mb Manahloh Bechalew (U. Rochester)

12:30 LUNCH

Moderators: Andrew Cohen, Estella Atekwana
1:45 Plenary Topic 5: How does rift topography, on either the continental- or basin-scale, influence regional climate, and what are the associated feedback processes?
a. Climate and tectonics and feedbacks |  3Mb Manfred Strecker (U. Potsdam)
b. Modeling perspective | Joellen Russell (U. Arizona)
c. Tectonics and sedimentation at basin scale |  24Mb Chris Scholz (Syracuse U.)

2:30 Pop-ups by Graduate Students

3:00 Introduction to BREAKOUT 1 – Prioritizing science objectives. Divide into groups based on science questions in the draft implementation plan. What are the highest-priority questions? What kinds of observations do we need to address them and what are the characteristics of places where they should be made? What kind of modeling/experimental work is needed?

3:15 Break & Poster Session

3:45 BREAKOUT 1 – Round 1

4:30 BREAKOUT 1 – Round 2

How does the presence or absence of an upper-mantle plume influence extension?
Leader: Rob Moucha
Scribe: Sara Mana

How does the mechanical heterogeneity of continental lithosphere influence rift initiation, morphology, and evolution?
Leader: Anne Egger
Scribe: Kate Selway

How is strain accommodated and partitioned throughout the lithosphere, and what are the controls on strain localization and migration?
Leader: Roger Buck
Scribe: Andrew Katunwehe

What factors control the distribution and ponding of magmas and volatiles, and how are they related to extensional fault systems bounding the rift?
Leader: Laurent Montesi
Scribe: Dorsey Wanless

How does rift topography, on either the continental- or basin-scale, influence regional climate, and what are the associated feedback processes?
Leader: Naomi Levin
Scribe: Gail Ashley

Moderators: Donna Shillington, Ramon Arrowsmith
5:30 Plenary Topic 6: Hazards and Resources in the EAR and Links to Rifting
a. Seismic hazard |  1MbAtaley Ayele (Addis Ababa U.)
b. Volcanic hazard |  3MbNicolas d’Oreye (Natl. Museum of Nat. Hist. Lux.) & Lukawa N’yombo (Goma Volcanic Observatory)
c. Oil/gas exploration |  14MbDozith Abeinomugisha (PEPD Uganda)

6:30 Adjourn for Day

7:00 Conference Dinner

8:00 Poster Session
He-Ne-Ar-CO2-N2 Isotope and Relative Abundance Characteristics of the East Africa Rift System (EARS) | icon-file 1.2Mb – David Hilton
Projects and Current Initiatives for Scientific Research and Hazard Assessment in the Albertine Rift | icon-file 2.7Mb – François Kervyn
Achieving Scientific Projects in Central Africa: Some Shared Experience |  3.6Mb – Nicolas D’Oreye
Volcano Monitoring in the Virunga Volcanic Province, DR Congo |   2.8 Mb – Nicolas D’Oreye
Distribution of Faults and Volcanic Centers in the Early Stages of Continental Breakup: Natron Basin, Tanzania |  285Kb – James Muirhead
Active Kinematics of Lithospheric Extension Along the East African Rift System |  610Kb – Robert Reilinger
Magma Sources Involved in the 2002 Nyiragongo Eruption, As inferred from an InSAR Analysis |  900Kb – Christelle Wauthier

8:00 GeoPRISMS Data Resources Mini-workshop |  1MbAndrew Goodwillie

Day 2 | Friday, October 26

Moderators: Rob Evans, Donna Shillington

8:00 Report from breakouts & plenary discussion

9:00 Plenary Topic 7: Synergies with other agencies / international projects

NSF/USAID PEER Program Annica Wayman (USAID) and DeAndra Beck (NSF)
Overview of recent and funded NSF programs |  1MbRob Evans (WHOI) and Donna Shillington (LDEO)
New NSF-IES (Integrated Earth Systems) and other programs |  1Mb Leonard Johnson and Jennifer Wade (NSF)
AfricaArray |  1Mb Andy Nyblade (Penn State U.)
Hominin Sites and Paleolakes |  1MbAndy Cohen (U. Arizona)
Lake Drilling Project |  2Mb Chris Scholz (Syracuse U.)
Afar consortium |  1Mb Kathy Whaler (Edinburgh)/Derek Keir (NOCS)
Summary of French programs |  1MbCecile Doubre (U. Strasbourg)
NASA |  1MbSimon Carn (Mich. Tech. U)
GEOBSNET |  1Mb François Kervyn (Royal Museum for Central Africa, Belgium)

10:30 Coffee Break & Poster Session

Moderators: Andrew Cohen, Rob Evans
11:00 Plenary Topic 8: African partnerships panel. (5 min presentations how to build successful, mutually beneficial collaborations in Africa, followed by plenary discussion

12:30 LUNCH

1:30 Quick Pop-Ups and Plenary Discussion

2:30 Introduction to BREAKOUT 2 – Implementation strategies. Divide into groups based on science questions in the draft implementation plan. In the context of high-priority science and critical observations/modeling from BREAKOUT 1, discuss implementation strategies for each question, including the best places in the EAR to implement science questions, opportunities to leverage other activities, and high-priority thematic studies.

2:45 BREAKOUT 2, Round 1

3:30 BREAKOUT 2, Round 2

How does the presence or absence of an upper-mantle plume influence extension?
Leader: Jim Gaherty
Scribe: Maryjo Brounce

How does the mechanical heterogeneity of continental lithosphere influence rift initiation, morphology, and evolution?
Leader: TBA
Scribe: Julie Elliot

How is strain accommodated and partitioned throughout the lithosphere, and what are the controls on strain localization and migration?
Leader: John Nabelek
Scribe: Erin DiMaggio

What factors control the distribution and ponding of magmas and volatiles, and how are they related to extensional fault systems bounding the rift?
Leader: Adam Soule
Scribe: Brandon Chiasera

How does rift topography, on either the continental- or basin-scale, influence regional climate, and what are the associated feedback processes?
Leader: Ramon Arrowsmith
Scribe: Amy Morrissey

4:15 Coffee Break

4:45 Reports from Breakout 2

5:30 Plenary Discussion

6:00 Adjourn for the Day

7:00 Dinner on your own

8:00 Poster Session

Day 3 | Saturday, October 27

8:00 Reports from Breakout 2

8:30 Plenary Discussion

9:00 Introduction to BREAKOUT 3 – Finalizing implementation plan. Divide into groups that represent the spectrum of science for the EAR. Discuss integrated strategies to accomplish the highest impact in the EAR, including the best locations for focused, multidisciplinary study, key observations, thematic studies and leveraging opportunities.

9:15 BREAKOUT 3

10:15 Graduate Student Perspective & Implementation Plan

10:45 Coffee Break and Poster Session

11:15 Reports from BREAKOUT 3 and final plenary discussion with decision making on areas for focused research and highest priority thematic studies.

11:45 Wrap-up discussion

12:00 Meeting Adjourns

12:00-6:00 Post-Meeting Field Trip, (Lunch Provided – Register with GeoPRISMS office)

GeoPRISMS Student Symposium for the East Africa Primary Site

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

8:00 -9:00 AM Breakfast and Registration

9:00 – 10:30 AM Plenary Session:

Introductions
Overview of GeoPRISMS and EARS Planning Meeting – Maggie Benoit and Juli Morgan
Overview of EARS Geophysics – Donna Shillington
Overview of EARS Geochemistry – Tyrone Rooney
Overview of EARS Surface Processes – Ramon Arrowsmith

10:30 – 12:00 PM Student Posters and Presentations

12:00 – 5:30 PM Field Trip to Newark Basin led by Martha Withjack and Roy Schlische

7:00 PM Student Dinner

 icon-download Download the compiled white papers

Landscape and lakescape evolution: source-to-sink study of geomorphic, tectonic, climatic, andvegetation interactions in a tropical rift basin (Lake Malawi) | icon-file 300Kb – Arrowsmith et al.

The Lake Tanganyika Drilling Project: A potential ~10 Ma continuous record of integrated tectonicand climatic history for the western African rift |  200Kb – Cohen et al.

Studying early stage of rifting in Northern Tanzania |  700Kb – Doubré et al.

The GeoPRISMS Dataportal |  200Kb – Goodwillie

Active Kinematics of Lithospheric Extension Along the East African Rift |  6Mb – Reilinger et al.

Geochemical and petrographic approaches for the study of rifting in the EAR |  60Kb – Rooney et al.

SEGMeNT: An NSF-Continental Dynamics project to study the weakly extended Malawi (Nyasa) Rift |  7Mb – Shillington et al.

Geodetic Constraints of Rift Initiation across the Somalia-Lwandle Plate Boundary in Madagascar |  600Kb – Stamps et al.

An Investigation of Continental Rift-Parallel Deformation |  400Kb – Stamps et al.

Call for White Papers

GeoPRISMS has identified the East African Rift System (EARS) as a primary site of the Rift Initiation and Evolution (RIE) initiative. GeoPRISMS research spans the shoreline and, in doing so, provides an integrated framework for understanding the effects of inherited lithospheric weakness, magmatism, volatiles, climate, and sedimentation on rift initiation and evolution. The associated broader impacts of natural hazards and assessment of geological resources, including traditional and alternative sources of energy, are significant.

The October 2012 Planning Workshop for the EARS Primary Site has two main purposes. First, it will focus community effort and research approaches in the EARS, including prioritization of important GeoPRISMS RIE science targets. In particular, the GeoPRISMS RIE community will use the meeting to identify critical areas for focused research. Second, the workshop will establish research strategies that maximize synergies between GeoPRISMS and ongoing international efforts to address common research goals.

Scientists interested in participating in the development of the integrated science and implementation plan for EARS are invited to submit White Papers in advance of that 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 the Eastern Africa Rift System, potential “Discovery Corridors” and justifications for them, possible community experiments (including joint international proposals), and implementation strategies for carrying out thematic studies.

White papers should be submitted to the GeoPRISMS Office by September 15, 2012. In preparation, White Paper authors should consult relevant parts of the GeoPRISMS Science Plan and the Draft Implementation Plan.

All White Papers will be made available to meeting participants and the community prior to the workshop.

Guidelines

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:

– 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

Helpful Links

Final participant list (last update 10-18-12)
Post meeting field trip – Saturday October 27, 12:00-6:00PM (lunch provided)
Conference Hotel and Venue: Hyatt Morristown

Meeting participants

The workshop conveners have provided the following synthesis of the outcomes of discussions that took place at the workshop, based on the informative talks and in-depth discussions that explored the full spectrum of scientific opportunities for GeoPRISMS in the EARS. Below, they offer a framework for the draft implementation plan, for your comment and feedback.

The initial model envisaged has a primary focus area within the EARS where significant interdisciplinary research could be linked to address the questions outlined in the science plan. Investigations in areas that complement work in the primary area and leverage previous and ongoing US and international projects are also integral to this model – we call these areas Collaborative Targets of Opportunity to emphasize that studies in these areas should focus on multi-disciplinary GeoPRISMS questions that cannot be answered in the primary focus area (as opposed to the wider range of projects that could be submitted for NSF Core funding or that might be supported by other NSF programs and initiatives). This initial model is a direct outcome of your meeting input, and we would greatly appreciate your feedback to help refine this draft plan.

Primary focus area: The Eastern Rift. The Eastern Branch of the EARS was identified in breakout groups and by the graduate students as a location where a focused inter-disciplinary effort could substantially impact our understanding of rift processes and effectively address the majority of the science questions that form the core of the science plan. This region would encompass the rift from the Tanzanian divergence in the south to Lake Turkana and southern Ethiopia to the north. Particular opportunities highlighted by discussion and relevant to the science plan include (but are not limited to) the role/origin of a plume in this part of this rift; the interaction of the rift and plume with major lithospheric structures; an active magmatic system; along-strike variations in the amount of cumulative extension and lithospheric thickness (from thin in the north to thick in the south); the preservation of a record of the interplay of climate and tectonics. The existing studies characterizing this region provide a rich framework upon which GeoPRISMS science will build.

Collaborative Targets of Opportunity:

Target 1: The Afar and Main Ethiopian Rift. This region is the focus of intense recent and ongoing international and US efforts in this part of the rift system. Further GeoPRISMS studies that could enhance our understanding of rifting processes include (but are not limited to) efforts that examine strain localization, and studies probing the origin and role of a plume in rifting.

Target 2: The Western Rift and SW branch. This site would provide the opportunity to examine the role of magmatism in rifting by comparing this less magmatic system with the highly magmatic Eastern Rift. It also contains the most weakly extended portions of the rift and thus can be used to tackle questions concerning incipient rifting. Finally, lakes along the Western Rift contain a rich record of tectonic and climatic events. New GeoPRISMS studies in this area can leverage recently funded NSF programs and other previous and ongoing tectonic and climate investigations.

Target 3: Synoptic investigations along the entire rift. As identified in many discussions at the workshop, there are questions in the science plan that are best addressed by examining the rift as a whole. These concern rift-wide variations in the origin and timing of volcanism, the strain field along and across the rift and large scale structure and dynamics underpinning the rift system. Thus, key components of the implementation plan should include broad and open data assimilation efforts, strategic infilling of climatic, geochemical, and geophysical observations, and modeling and experimental work, which would provide a framework for the focused investigations along the rift.

Feedback on this draft framework is welcome – please feel free to contact any of the conveners below with your input, and you can send your comments to info@geoprisms.nineplanetsllc.com. The next step in this process is to use this framework to write an implementation plan for GeoPRISMS science in the East Africa Rift based on the discussion and input received at the workshop. This process will involve soliciting more community feedback and NSF advice. We will circulate a draft version of the implementation plan to the community for further input.

In addition, we plan to reach out to more colleagues in Africa by summarizing the proposed implementation plan at the upcoming Colloquium of African Geology in January 2013.

 icon-chevron-right Photos from the workshop

EarthScope-GeoPRISMS Opportunities in Eastern North America


  Austin, TX
May 20-21, 2011

 

Conveners: Frank J. Pazzaglia, Donna Shillington, Peter Flemings, Basil Tikoff

A mini-Workshop following the 2011 EarthScope National Meeting. Note, this is the first of two planned workshops jointly sponsored by EarthScope and GeoPRISMS, on Eastern North America.

AnnouncementAgenda/Presentation archiveRead the report

Description

This one day workshop will be held on Friday afternoon and evening, May 20 and Saturday morning, May 21, immediately following the EarthScope National Meeting. The purpose of this meeting is to bring stakeholders from the EarthScope and GeoPRISMS communities together, along with other interested parties, to discuss science opportunities along Eastern North America in anticipation of the USArray deployment in 2012-2013. This workshop will address several objectives:
Identify key scientific questions and targets both onshore and offshore
Review planned onshore and offshore deployments/experiments (e.g., USArray, FlexArray, OBS, MCS surveys, etc.)
Discuss future experiments and opportunities
Explore the integration of EarthScope and GeoPRISMS science

Outline goals for a larger Eastern North America Science Workshop to be held Fall 2011

The workshop will be held at the Hyatt Lost Pines Resort in Bastrop, TX, ~20 mins east of Austin, and will include a small number of plenary presentations from researchers working in Eastern North America, to be followed by break-out sessions to discuss opportunities and coordinated research activities. Although funding is tentative at this time, we anticipate being able to cover one night’s accommodations (double occupancy) for ~30 participants, as well as transportation from downtown Austin.

Mini-Workshop convened by:

Frank Pazzaglia (Lehigh University)
Peter Flemings (University of Texas, Austin)
Donna Shillington (Lamont Doherty Earth Observatory)
Basil Tikoff (University of Wisconsin)

Workshop objectives, goals, and deliverables

  • Prioritize scientific questions and onshore/offshore targets that address key EarthScope and GeoPRISMS objectives
  • Summarize previous planned onshore and offshore deployments and experiments
  • Develop a list of potential future experiments and their motivations (including community experiments)
  • Recommendations for continuing integration of the EarthScope and GeoPRISMS communities, particularly the promotion of interdisciplinary collaboration, leveraging existing data, and how EarthScope and GeoPRISMS can work together on upcoming and planned experiments
  • Assess the advantages and disadvantages of focusing community efforts on distinct “research corridors” or distinct areas of study for address the scientific goals of both GeoPRISMS and EarthScope.
    Assess the types of approaches that could be used for focused studies and the desirable attributes of any potential “research corridors.”
  • Develop specific goals and a preliminary agenda for a larger science workshop to be held in Lehigh, PA, in fall 2011
  • Prepare a report on the outcomes of the mini-workshop for release immediately after the mini-workshop to assist researchers interested in submitting proposals for approaching deadlines

Friday, May 20

12:00-2:30     Arrival and Check-in

3:00 – 6:00     Session 1: Overview
GeoPrisms Research Vision in Eastern North America
EarthScope Science in the Eastern US
National Science Foundation update
Related Science Programs update

Plenary Presentations and “pop-up” Presentations by participating scientists

6:00 – 7:30     Dinner

7:30 – 9:30     Session 2: Breakout Sessions to define science objectives and strategies
Group 1: Deep Earth Processes

Group 2: Near Surface Processes

Saturday, May 21

7:00 – 8:00     Breakfast

8:00 – 10:00     Session 3
Summarize high-priority scientific targets

Discuss best strategies to achieve these goals

10:15 – 12:15     Session 4: Implementation Plan for Fall Meeting
Science themes for fall meeting
Key ongoing projects with potential tie-ins to GeoPRISMS/EarthScope science

Define desired outcomes for fall workshop

Eastern North America Margin (ENAM) Opportunities – Mini-Workshop report

On May 20 & 21, a joint EarthScope-GeoPRISMS mini-workshop was held in Austin, TX to begin to address areas of common scientific ground in the study of Earth science in eastern North America (ENAM). Thirty scientists attended this 1.5 day meeting that included members from the EarthScope and GeoPRISMS communities, NSF and other federal agencies, and one graduate student. The transportable array of EarthScope arrives in the eastern United States in 2012-13, and GeoPRISMS has identified ENAM as a primary site for the investigation of rift initiation and evolution (RIE initiative). Collectively, EarthScope and GeoPRISMS research spans the shoreline and in doing so, provides an integrated framework for understanding the orogenic inheritance, rift-initiation, evolution, and structure of a mature continental margin. The associated broader impacts of natural hazards and assessment of the nation’s natural resources, including traditional and alternative sources of energy in the most-densely-populated part of the country are fundamental to both programs. Therefore, the timing is perfect to organize both communities to identify the crucial science targets and to develop or modify the necessary strategies for science implementation.