Bio


My research group studies disasters to reduce the risk they pose. We approach this challenge by developing customized mathematical models that can be tested against observational data and are informed by community needs through a scientific co-production process. We intentionally work on extremes across different natural systems rather than focusing on one specific natural system to identify both commonalities in the physical processes driving extremes and in the best practices for mitigating risk at the community level. Our current research priorities include volcanic eruptions, ice-sheet instability, permafrost disintegration, induced seismicity and flood-risk mitigation. I was recently awarded the Presidential Early Career Awards for Scientists and Engineers, the highest honor bestowed by the United States Government on science and engineering professionals in the early stages of their independent research careers and the CAREER award from the National Science Foundation.

Administrative Appointments


  • Research Fellow, Seismic Hazards, GeoForschungsZentrum (GFZ), Potsdam, Germany (2003 - 2004)
  • Research Fellow, Seismic Hazards, Institute de Recherche pour le Developpement (IRD), Nice, France (2003 - 2003)
  • Scientific Consultant, Communities at Risk Program, South Paci c Applied Geoscience Commission, Suva, Fiji Islands (2003 - 2003)
  • Research Assistant, GeoForschungsZentrum (GFZ), Potsdam, Germany, (2002 - 2002)
  • Freelancer, German National Commission for UNESCO, Berlin, Germany (2001 - 2002)
  • Consultant, South African National Commission for UNESCO, Pretoria, South Africa (2000 - 2000)

Honors & Awards


  • Miller Research Fellowship (declined), University of California, Berkeley (2010)
  • Ziff Environmental Fellow, Harvard Center for the Environment (2010)
  • Graduate Student Research Grant, Geological Society of America (2009)
  • Outstanding Student Paper Award, American Geophysical Union, Fall Meeting (2008)
  • Graduate Student Research Grant, Massachusetts Institute of Technology (2007 and 2009)
  • Presidential Fellow, Massachusetts Institute of Technology (2006-2007)
  • McCloy Scholar (comparable to the Rhodes Scholarship. Granted nationwide to six students per year.), German National Merit Foundation (2004-2005)
  • Scholarship, Robert Bosch and German National Merit Foundation (2002-2003)
  • Scholarship, German National Merit Foundation (1997-2002)

Professional Education


  • Ph.D, Massachusetts Institute of Technology, Geophysics (2011)
  • MPA, Harvard University, Kennedy School of Government, Master of Public Administration (2006)
  • M.Sc., Free University Berlin, Germany, Physics (with Distinction) (2002)

Projects


  • Contributing towards reducing tsunami risk in Indonesia, Stanford University, SIGMA group

    The goal of this project is to develop an integrated modeling approach for quantifying the protective services that coastal vegetation may provide for tsunami-prone areas. An important component of this research effort is to understand how the effectiveness of the protective services provided by vegetation depends on the intensity of the coastal hazard, the biophysical characteristics of the ecosystem, and on the socio-economic structure and the adaptive capacity of the coastal community.

    Location

    Banda Aceh, Indonesia

    Collaborators

    • Abdul Muhari, Program Manager, Directorate of Coastal and Ocean, Ministry of Marine Affairs and Fisheries
    • Alvis Alvisyahrin, Senior scientist, Tsunami and Disaster Mitigation Research Center

2024-25 Courses


Stanford Advisees


All Publications


  • Improving adaptation to wildfire smoke and extreme heat in frontline communities: evidence from a community-engaged pilot study in the San Francisco Bay Area ENVIRONMENTAL RESEARCH LETTERS Herbert, N., Beckman, C., Cannedy, C., Cao, J., Cho, S., Fischer, S., Huang, S., Kramer, S. J., Lopez, O., Lopez, S., Ouyang, D., Suckale, J., Wulf-Saena, V., Zhang, Z., Wong-Parodi, G. 2023; 18 (7)
  • Leveraging Google's Tensor Processing Units for tsunami-risk mitigation planning in the Pacific Northwest and beyond GEOSCIENTIFIC MODEL DEVELOPMENT Madden, I., Marras, S., Suckale, J. 2023; 16 (12): 3479-3500
  • The Yih Instability in Layered Lava Flow May Initiate the Pahoehoe to 'a'a Lava Transition GEOPHYSICAL RESEARCH LETTERS Culha, C., Spinner, S., Suckale, J. 2023; 50 (10)
  • Physics-Based Forecasting of Induced Seismicity at Groningen Gas Field, The Netherlands: Post Hoc Evaluation and Forecast Update SEISMOLOGICAL RESEARCH LETTERS Dempsey, D. E., Suckale, J. 2023; 94 (3): 1429-1446

    View details for DOI 10.1785/0220220317

    View details for Web of Science ID 000990564400004

  • Forest density is more effective than tree rigidity at reducing the onshore energy flux of tsunamis COASTAL ENGINEERING Mukherjee, A., Cajas, J., Houzeaux, G., Lehmkuhl, O., Suckale, J., Marras, S. 2023; 182
  • Migration of the Shear Margins at Thwaites Glacier: Dependence on Basal Conditions and Testability Against Field Data JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE Summers, P. T., Elsworth, C. W., Dow, C. F., Suckale, J. 2023; 128 (3)
  • Quantifying the fragility of coral reefs to hurricane impacts: a case study of the Florida Keys and Puerto Rico ENVIRONMENTAL RESEARCH LETTERS Madden, I. A., Mariwala, A., Lindhart, M., Narayan, S., Arkema, K. K., Beck, M. W., Baker, J. W., Suckale, J. 2023; 18 (2)
  • Genetic model of the El Laco magnetite-apatite deposits by extrusion of iron-rich melt. Nature communications Keller, T., Tornos, F., Hanchar, J. M., Pietruszka, D. K., Soldati, A., Dingwell, D. B., Suckale, J. 2022; 13 (1): 6114

    Abstract

    Magnetite-apatite deposits are important sources of iron and other metals. A prominent example are the magnetite lavas at the El Laco volcano, Northern Chile. Their formation processes remain debated. Here, we test the genetic hypothesis that an Fe-rich melt separated from silicate magma and ascended along collapse-related fractures. We complement recent analyses with thermodynamic modelling to corroborate Fe-Si liquid immiscibility evident in melt inclusions at El Laco and present viscometry of Fe- and Si-rich melts to assess the time and length scales of immiscible liquid separation. Using a rock deformation model, we demonstrate that volcano collapse can form failure zones extending towards the edifice flanks along which the ore liquid ascends towards extrusion driven by vapour exsolution despite its high density. Our results support the proposed magmatic genesis for the El Laco deposits. Geochemical and textural similarities indicate magnetite-apatite deposits elsewhere form by similar processes.

    View details for DOI 10.1038/s41467-022-33302-z

    View details for PubMedID 36253366

  • Safe Shelter: A Case for Prioritizing Housing Quality in Climate Adaptation Policy by Remotely Sensing Roof Tarps in the San Francisco Bay Area EARTHS FUTURE Velterop, E., Uzkent, B., Suckale, J. 2022; 10 (8)
  • Disrupt the upper or the lower conduit? The dual role of gas exsolution in the conduits of persistently active volcanoes JOURNAL OF FLUID MECHANICS Peng, S., Picchi, D., Suckale, J. 2022; 942
  • Biased Witnesses: Crystal Thermal Records May Give Conflicting Accounts of Magma Cooling JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Culha, C., Keller, T., Suckale, J. 2022; 127 (5)
  • Magma Mixing During Conduit Flow is Reflected in Melt-Inclusion Data From Persistently Degassing Volcanoes JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Wei, Z., Qin, Z., Suckale, J. 2022; 127 (2)
  • Science Translation During the COVID-19 Pandemic: An Academic-Public Health Partnership to Assess Capacity Limits in California. American journal of public health Maldonado, P., Peng, A., Ouyang, D., Suckale, J., Ho, D. E. 1800; 112 (2): 308-315

    Abstract

    On the basis of an extensive academic-public health partnership around COVID-19 response, we illustrate the challenge of science-policy translation by examining one of the most common nonpharmaceutical interventions: capacity limits. We study the implementation of a 20% capacity limit in retail facilities in the California Bay Area. Through a difference-in-differences analysis, we show that the intervention caused no material reduction in visits, using the same large-scale mobile device data on human movements (mobility data) originally used in the academic literature to support such limits. We show that the lack of effectiveness stems from a mismatch between the academic metric of capacity relative to peak visits and the policy metric of capacity relative to building code. The disconnect in metrics is amplified by mobility data losing predictive power after the early months of the pandemic, weakening the policy relevance of mobility-based interventions. Nonetheless, the data suggest that a better-grounded rationale for capacity limits is to reduce risk specifically during peak hours. To enhance the connection between science, policy, and public health in future times of crisis, we spell out 3 strategies: living models, coproduction, and shared metrics. (Am J Public Health. 2022;112(2):308-315. https://doi.org/10.2105/AJPH.2021.306576).

    View details for DOI 10.2105/AJPH.2021.306576

    View details for PubMedID 35080959

  • Shear Variation at the Ice-Till Interface Changes the Spatial Distribution of Till Porosity and Meltwater Drainage JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE Kasmalkar, I., Damsgaard, A., Goren, L., Suckale, J. 2021; 126 (12)
  • Interactions Between Gas Slug Ascent and Exchange Flow in the Conduit of Persistently Active Volcanoes JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Qin, Z., Beckett, F. M., Rust, A. C., Suckale, J. 2021; 126 (9)
  • Traffic accidents and delays present contrasting pictures of traffic resilience to coastal flooding in the San Francisco Bay Area, USA URBAN CLIMATE Kasmalkar, I., Suckale, J. 2021; 37
  • Rising Seas, Rising Inequity? Communities at Risk in the San Francisco Bay Area and Implications for Adaptation Policy Earth's Future Bick, I., Santiago Tate, A. F., Serafin, K. A., Miltenberger, A., Ayansi, I., Evans, M., Ortolano, L., Ouyang, D., Suckale, J. 2021; 9 (7)

    View details for DOI 10.1029/2020EF001963

  • Integrating urban traffic models with coastal flood maps to quantify the resilience of traffic systems to episodic coastal flooding. MethodsX Kasmalkar, I. G., Serafin, K. A., Suckale, J. 2021; 8: 101483

    Abstract

    Sea level rise and coastal floods are disrupting coastal communities across the world. The impacts of coastal floods are magnified by the disruption of critical urban systems such as transportation. The flood-related closure of low-lying coastal roads and highways can increase travel time delays and accident risk. However, quantifying the flood-related disruption of the urban traffic system presents challenges. Traffic systems are complex and highly dynamic, where congestion resulting from road closures may propagate rapidly from one area to another. Prior studies identify flood-related road closures by spatially overlaying coastal flood maps onto road network models, but simplifications within the representation of the road network with respect to the coastline or creeks may lead to an incorrect identification of flooded roads. We identify three corrections to reduce potential biases in the identification of flooded roads: 1. We correct for the geometry of highways; 2. We correct for the elevation of bridges and highway overpasses; and 3. We identify and account for road-creek crossings. Accounting for these three corrections, we develop a methodology for accurately identifying flooded roads, improving our ability to quantify flood impacts on urban traffic systems and accident rates.

    View details for DOI 10.1016/j.mex.2021.101483

    View details for PubMedID 34434881

  • Water pressure fluctuations control variability in sediment flux and slip dynamics beneath glaciers and ice streams COMMUNICATIONS EARTH & ENVIRONMENT Damsgaard, A., Goren, L., Suckale, J. 2020; 1 (1)
  • Crystal aggregates record the pre-eruptive flow field in the volcanic conduit at Kilauea, Hawaii. Science advances DiBenedetto, M., Qin, Z., Suckale, J. 2020; 6 (49)

    Abstract

    Developing reliable, quantitative conduit models that capture the physical processes governing eruptions is hindered by our inability to observe conduit flow directly. The closest we get to direct evidence is testimony imprinted on individual crystals or bubbles in the conduit and preserved by quenching during the eruption. For example, small crystal aggregates in products of the 1959 eruption of Kilauea Iki, Hawaii contain overgrown olivines separated by large, hydrodynamically unfavorable angles. The common occurrence of these aggregates calls for a flow mechanism that creates this crystal misorientation. Here, we show that the observed aggregates are the result of exposure to a steady wave field in the conduit through a customized, process-based model at the scale of individual crystals. We use this model to infer quantitative attributes of the flow at the time of aggregate formation; notably, the formation of misoriented aggregates is only reproduced in bidirectional, not unidirectional, conduit flow.

    View details for DOI 10.1126/sciadv.abd4850

    View details for PubMedID 33277257

  • When floods hit the road: Resilience to flood-related traffic disruption in the San Francisco Bay Area and beyond. Science advances Kasmalkar, I. G., Serafin, K. A., Miao, Y., Bick, I. A., Ortolano, L., Ouyang, D., Suckale, J. 2020; 6 (32): eaba2423

    Abstract

    As sea level rises, urban traffic networks in low-lying coastal areas face increasing risks of flood disruptions. Closure of flooded roads causes employee absences and delays, creating cascading impacts to communities. We integrate a traffic model with flood maps that represent potential combinations of storm surges, tides, seasonal cycles, interannual anomalies driven by large-scale climate variability such as the El Nino Southern Oscillation, and sea level rise. When identifying inundated roads, we propose corrections for potential biases arising from model integration. Our results for the San Francisco Bay Area show that employee absences are limited to the homes and workplaces within the areas of inundation, while delays propagate far inland. Communities with limited availability of alternate roads experience long delays irrespective of their proximity to the areas of inundation. We show that metric reach, a measure of road network density, is a better proxy for delays than flood exposure.

    View details for DOI 10.1126/sciadv.aba2423

    View details for PubMedID 32821823

  • The protective benefits of tsunami mitigation parks and ramifications for their strategic design. Proceedings of the National Academy of Sciences of the United States of America Lunghino, B., Santiago Tate, A. F., Mazereeuw, M., Muhari, A., Giraldo, F. X., Marras, S., Suckale, J. 2020

    Abstract

    Nature-based solutions are becoming an increasingly important component of sustainable coastal risk management. For particularly destructive hazards like tsunamis, natural elements like vegetation are often combined with designed elements like seawalls or dams to augment the protective benefits of each component. One example of this kind of hybrid approach is the so-called tsunami mitigation park, which combines a designed hillscape with vegetation. Despite the increasing popularity of tsunami mitigation parks, the protective benefits they provide are poorly understood and incompletely quantified. As a consequence of this lack of understanding, current designs might not maximize the protective benefits of tsunami mitigation parks. Here, we numerically model the interactions between a single row of hills with an incoming tsunami to identify the mechanisms through which the park protects the coast. We initialize the tsunami as an N wave that propagates to shore and impacts the coast directly. We find that partial reflection of the incoming wave is the most important mechanism by which hills reduce the kinetic energy that propagates onshore. The protective benefit of tsunami mitigation parks is thus comparable to that of a small wall, at least for tsunamis with amplitudes that are comparable to the hill height. We also show that hills could elevate potential damage in the immediate vicinity of the hills where flow speeds increase compared to a planar beach, suggesting the need to include a buffer zone behind the hills into a strategic park design.

    View details for DOI 10.1073/pnas.1911857117

    View details for PubMedID 32366652

  • Modelling thermomechanical ice deformation using an implicit pseudo-transient method (FastICE v1.0) based on graphical processing units (GPUs) GEOSCIENTIFIC MODEL DEVELOPMENT Rass, L., Licul, A., Herman, F., Podladchikov, Y. Y., Suckale, J. 2020; 13 (3): 955–76
  • Crystal Fractionation by Crystal-Driven Convection GEOPHYSICAL RESEARCH LETTERS Culha, C., Suckale, J., Keller, T., Qin, Z. 2020; 47 (4)
  • Flow-to-Sliding Transition in Crystal-Bearing Magma JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Qin, Z., Suckale, J. 2020; 125 (2)
  • Direct numerical simulations of viscous suspensions with variably shaped crystals JOURNAL OF COMPUTATIONAL PHYSICS Qin, Z., Allison, K., Suckale, J. 2020; 401
  • Periodic outgassing as a result of unsteady convection in Ray lava lake, Mount Erebus, Antarctica EARTH AND PLANETARY SCIENCE LETTERS Birnbaum, J., Keller, T., Suckale, J., Lev, E. 2020; 530
  • A continuum model of multi-phase reactive transport in igneous systems GEOPHYSICAL JOURNAL INTERNATIONAL Keller, T., Suckale, J. 2019; 219 (1): 185–222

    View details for DOI 10.1093/gji/ggz287

    View details for Web of Science ID 000484124800011

  • Spatial heterogeneity in subglacial drainage driven by till erosion PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES Kasmalkar, I., Mantelli, E., Suckale, J. 2019; 475 (2228)
  • Spatial heterogeneity in subglacial drainage driven by till erosion. Proceedings. Mathematical, physical, and engineering sciences Kasmalkar, I., Mantelli, E., Suckale, J. 2019; 475 (2228): 20190259

    Abstract

    The distribution and drainage of meltwater at the base of glaciers sensitively affects fast ice flow. Previous studies suggest that thin meltwater films between the overlying ice and a hard-rock bed channelize into efficient drainage elements by melting the overlying ice. However, these studies do not account for the presence of soft deformable sediment observed underneath many West Antarctic ice streams, and the inextricable coupling that sediment exhibits with meltwater drainage. Our work presents an alternate mechanism for initiating drainage elements such as canals where meltwater films grow by eroding the sediment beneath. We conduct a linearized stability analysis on a meltwater film flowing over an erodible bed. We solve the Orr-Sommerfeld equation for the film flow, and we compute bed evolution with the Exner equation. We identify a regime where the coupled dynamics of hydrology and sediment transport drives a morphological instability that generates spatial heterogeneity at the bed. We show that this film instability operates at much faster time scales than the classical thermal instability proposed by Walder. We discuss the physics of the instability using the framework of ripple formation on erodible beds.

    View details for DOI 10.1098/rspa.2019.0259

    View details for PubMedID 31534428

    View details for PubMedCentralID PMC6735472

  • Slug Stability in Flaring Geometries and Ramifications for Lava Lake Degassing JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Qin, Z., Soldati, A., Santana, L., Rust, A. C., Suckale, J., Cashman, K. V. 2018; 123 (12): 10431–48
  • Bistability of buoyancy-driven exchange flows in vertical tubes JOURNAL OF FLUID MECHANICS Suckale, J., Qin, Z., Picchi, D., Keller, T., Battiato, I. 2018; 850: 525–50
  • Adding a community partner to service learning may elevate learning but not necessarily service INTERNATIONAL JOURNAL OF DISASTER RISK REDUCTION Suckale, J., Saiyed, Z., Hilley, G., Alvisyahrin, T., Muhari, A., Zoback, M., Truebe, S. 2018; 28: 80–87
  • A residual-based shock capturing scheme for the continuous/discontinuous spectral element solution of the 2D shallow water equations ADVANCES IN WATER RESOURCES Marras, S., Kopera, M., Constantinescu, E., Suckale, J., Giraldo, F. X. 2018; 114: 45–63
  • Sediment behavior controls equilibrium width of subglacial channels JOURNAL OF GLACIOLOGY Damsgaard, A., Suckale, J., Piotrowski, J. A., Houssais, M., Siegfried, M. R., Fricker, H. A. 2017; 63 (242): 1034–48
  • Direct numerical simulations of gas-solid-liquid interactions in dilute fluids INTERNATIONAL JOURNAL OF MULTIPHASE FLOW Qin, Z., Suckale, J. 2017; 96: 34–47
  • Physics-based forecasting of induced seismicity at Groningen gas field, the Netherlands GEOPHYSICAL RESEARCH LETTERS Dempsey, D., Suckale, J. 2017; 44 (15): 7773–82
  • Linking social, ecological, and physical science to advance natural and nature-based protection for coastal communities. Annals of the New York Academy of Sciences Arkema, K. K., Griffin, R., Maldonado, S., Silver, J., Suckale, J., Guerry, A. D. 2017

    Abstract

    Interest in the role that ecosystems play in reducing the impacts of coastal hazards has grown dramatically. Yet the magnitude and nature of their effects are highly context dependent, making it difficult to know under what conditions coastal habitats, such as saltmarshes, reefs, and forests, are likely to be effective for saving lives and protecting property. We operationalize the concept of natural and nature-based solutions for coastal protection by adopting an ecosystem services framework that propagates the outcome of a management action through ecosystems to societal benefits. We review the literature on the basis of the steps in this framework, considering not only the supply of coastal protection provided by ecosystems but also the demand for protective services from beneficiaries. We recommend further attention to (1) biophysical processes beyond wave attenuation, (2) the combined effects of multiple habitat types (e.g., reefs, vegetation), (3) marginal values and expected damage functions, and, in particular, (4) community dependence on ecosystems for coastal protection and co-benefits. We apply our approach to two case studies to illustrate how estimates of multiple benefits and losses can inform restoration and development decisions. Finally, we discuss frontiers for linking social, ecological, and physical science to advance natural and nature-based solutions to coastal protection.

    View details for DOI 10.1111/nyas.13322

    View details for PubMedID 28370069

  • Flow-to-fracture transition in a volcanic mush plug may govern normal eruptions at Stromboli GEOPHYSICAL RESEARCH LETTERS Suckale, J., Keller, T., Cashman, K. V., Persson, P. 2016; 43 (23): 12071-12081
  • Rapid ice flow rearrangement induced by subglacial drainage inWest Antarctica GEOPHYSICAL RESEARCH LETTERS Elsworth, C. W., Suckale, J. 2016; 43 (22): 11697-11707
  • Determining conditions that allow a shear margin to coincide with a Rothlisberger channel JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE Platt, J. D., Perol, T., Suckale, J., Rice, J. R. 2016; 121 (7): 1273-1294
  • Collective properties of injection-induced earthquake sequences: 2. Spatiotemporal evolution and magnitude frequency distributions JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Dempsey, D., Suckale, J., Huang, Y. 2016; 121 (5): 3638-3665
  • Collective properties of injection-induced earthquake sequences: 1. Model description and directivity bias JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Dempsey, D., Suckale, J. 2016; 121 (5): 3609-3637
  • Subglacial hydrology and ice stream margin locations JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE Perol, T., Rice, J. R., Platt, J. D., Suckale, J. 2015; 120 (7): 1352-1368
  • Deformation-induced melting in the margins of the West Antarctic ice streams JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE Suckale, J., Platt, J. D., Perol, T., Rice, J. R. 2014; 119 (5): 1004-1025
  • Deformation-induced melting in the margin of Whillans ice stream (B2), Siple Coast, Antarctica, and implications for ice-stream dynamics Journal of Geophysical Research Suckale, J., Platt, J., Rice, J. R. 2014; 119
  • Crystals stirred up: 2. Numerical insights into the formation of the earliest crust on the Moon JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS Suckale, J., Elkins-Tanton, L. T., Sethian, J. A. 2012; 117
  • Crystals stirred up: 1. Direct numerical simulations of crystal settling in nondilute magmatic suspensions JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS Suckale, J., Sethian, J. A., Yu, J., Elkins-Tanton, L. T. 2012; 117
  • Reply to the comment by Mike R. James et al. on "It takes three to tango: 2. Bubble dynamics in basaltic volcanoes and ramifications for modeling normal Strombolian activity" JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Suckale, J., Hager, B. H., Elkins-Tanton, L. T., Nave, J. 2011; 116
  • It takes three to tango: 2. Bubble dynamics in basaltic volcanoes and ramifications for modeling normal Strombolian activity JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Suckale, J., Hager, B. H., Elkins-Tanton, L. T., Nave, J. 2010; 115
  • It takes three to tango: 1. Simulating buoyancy-driven flow in the presence of large viscosity contrasts JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH Suckale, J., Nave, J., Hager, B. H. 2010; 115
  • Large to Moderate Seismicity Induced by Hydrocarbon Production The Leading Edge Suckale, J. 2010; 29: 310-319
  • Probabilistic Seismic Hazard Model for Vanuatu BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Suckale, J., Gruenthal, G. 2009; 99 (4): 2108-2126

    View details for DOI 10.1785/0120080188

    View details for Web of Science ID 000268459800002

  • High-resolution seismic imaging of the western Hellenic subduction zone using teleseismic scattered waves GEOPHYSICAL JOURNAL INTERNATIONAL Suckale, J., Rondenay, S., Sachpazi, M., Charalampakis, M., Hosa, A., Royden, L. H. 2009; 178 (2): 775-791
  • INDUCED SEISMICITY IN HYDROCARBON FIELDS ADVANCES IN GEOPHYSICS, VOL 51 Suckale, J. 2009; 51: 55-106