email: ianjwalker@ucsb.edu
E-mail: j_dugan@lifesci.ucsb.edu
geol.ucsb.edu/people/ian-wal
scholar.google.com/citations?user
co supervisor website: Jenny Dugan | UCSB Marine Science Institute
**coastalresearchcenter.ucsb.edu/cmi/Dugan.html Their team is based at the University of California Santa Barbara (UCSB) and the Center for Climate Change Impacts & Adaptation at Scripps Institution of Oceanography, UC San Diego (UCSD), and involves partnerships with the California Sea Grant, the United States Geological Survey (USGS) Pacific Coastal & Marine Science Center, the US Fish & Wildlife Service - Humboldt Bay National Wildlife Refuge, Point Blue Conservation Science, Morro Bay National Estuary Program, and the Coastal Ecosystems Institute of Northern California. Coordinated by the California Coastal Dune Science Network, the project leverages ongoing monitoring and research from 17 pilot sites statewide in collaboration with over 15 federal, state, and local end-users. They are looking for two (2) Postdoctoral researchers and two (2) PhD students to conduct research on various aspects of coastal dune vulnerability, resilience, restoration, and performance as a NbS to climate change impacts. Applicants from disadvantaged or under-represented groups are particularly encouraged to apply. Positions will be based at UCSB and work collaboratively with an interdisciplinary team led by Drs. Ian Walker and Jenny Dugan along with other co-PIs at partner agencies/institutions listed above. Potential research topics include:
Incorporate observational data on beach-dune morphodynamics to refine and expand a predictive model of storm impacts and future sea-level rise impacts (CoSMoS-COAST) Coastal dune ecosystem vulnerability assessment based on a state-wide network of pilot sites Develop an updated, comprehensive
Ian Walker | Department of Geography | UC Santa Barbara (ucsb.edu)
Ian Walker | UCSB Marine Science Institute
Ian Walker
Professor
4834 Ellison Hall
Related Links
Biography
Ian
Walker is a physical geographer and geomorphologist with expertise in sediment
transport and erosion, aeolian and coastal geomorphology, environmental fluid
dynamics, sand dunes, beach-dune interaction, and climatic variability and
change impacts in the coastal zone. He holds a B.Sc. from the University of
Toronto in Geography and Environmental Science and a Ph.D. in Geography from
the University of Guelph, Canada. Dr. Walker joined UCSB in 2020 and previously
held faculty positions at Arizona State University (2016-2020) and the
University of Victoria, Canada (2000-2016). To date, he has authored over 85
scientific journal articles and book chapters and has given over 100 conference
presentations, public talks, and media interviews. He has secured over $4M to
support his research and student training programs, which often involve
collaborative partnerships with local, state, and/or federal agencies. Dr.
Walker is also a member of the editorial boards for *Earth Surface Processes
& Landforms, Annals of the American Association of Geographers*, and the
*Journal of Coastal Research*. Professor Walker teaches courses on introductory
physical geography, geomorphology, close range remote sensing, and research
development and he has directly supervised over 40 undergraduates, graduate
students, and post-doc scholars to date.
Research
Professor
Walker’s research examines sedimentary processes in coastal and inland
landscapes using a variety of field- and lab-based methods to study sediment
transport and flow dynamics over complex terrain, coastal erosion and
beach-dune recovery, restoration of coastal dunes, sea-level changes (past and
present) and coastal landscape evolution, sedimentological signatures of human
activities, climate change impacts and adaptation, and planetary geology.
Methods used include spatial-temporal change detection in sedimentary
landscapes using terrestrial laser scanning (TLS) and unpiloted aerial systems
(UAS), field experiments of sediment transport and beach-dune morphodynamics,
high-resolution microscopy, and sedimentological investigations of relict landscapes
and archaeological sites. He also conducts research on the interactions between
fluid turbulence, sediment transport, and bedform morphodynamics using wind
tunnel simulations, computational fluid dynamics (CFD), and particle imaging
velocimetry (PIV). Dr. Walker's research has explored sedimentary landscapes
around the world and current projects include a study at the Oceano Dunes
involving development of a new foredune ecosystem as a dust emissions
mitigation strategy in collaboration with the California Department of Parks
& Recreation and a project with the US Fish & Wildlife Service in
Humboldt Bay that examines the effectiveness of invasive plant removal for
restoring coastal dune resilience to coastal erosion and sea-level rise.
Selected Publications
Walker, IJ, Turner, C, Hilgendorf, Z. 2021. Comparing UAS and
terrestrial laser scanning (TLS) methods for geomorphic change detection.
Chapter 15 in: Frazier, AE and Singh, KK (eds), Fundamentals of Capturing
and Processing Drone Imagery and Data. CRC Press, Taylor & Francis.
385 p.
ISBN: 9781000401950. http://dx.doi.org/10.1201/9780429283239.
Huff, AE, Nomikou, P, Thompson, LA, Hooft, EE, Walker, IJ. 2021.
Applying Planetary Mapping Methods to Submarine Environments:
Onshore-Offshore Geomorphology of Christiana-Santorini-Kolumbo Volcanic
Group, Greece. Journal of Maps, SI Geomorphological mapping tools for
natural hazards. (https://doi.org/10.1080/17445647.2021.1880980).
Hilgendorf, Z, Marvin, MC, Turner, CM, Walker, IJ. 2021.
Assessing geomorphic change in restored coastal dune ecosystems using
a multi-platform aerial approach. Remote Sensing, 13, 354. (https://doi.org/10.3390/rs13030354).
Cheung, SY, Walker, IJ, Myint, S, Dorn, R. 2021. Assessing land
degradation induced by recreational activities in Algodones Dunes,
California. Journal of Arid Environments 185: 104334 (https://doi.org/10.1016/j.jaridenv.2020.104334).
Walker, IJ. 2020. Aeolian (windblown) sand transport over beaches.
Chapter 10. In Jackson, DWJ, and Short, A (eds). Sandy Beach
Morphodynamics. 55 p. Elsevier. ISBN: 9780081029275 (http://dx.doi.org/10.1016/B978-0-08-102927-5.00010-2).
Nelson, L, Cade-Menun, BJ, Walker, IJ, Sanborn, P. 2020. Soil
phosphorus dynamics across a Holocene chronosequence of aeolian sand dunes
in a hypermaritime environment on Calvert Island, BC, Canada. Frontiers
in Forests and Global Change. July 2020, Vol. 3, Article 83. (https://doi.org/10.3389/ffgc.2020.00083).
Grilliot, MJ, Walker, IJ, Bauer, BO. 2019. The role of large woody
debris in beach-dune interaction. Journal of Geophysical Research: Earth
Surface. (https://doi.org/10.1029/2019JF005120).
Smyth, TA, Hesp, PA, Walker, IJ, Wasklewicz, T, Gares, P, Smith, AB.
2019. Topographic change and numerically modelled near surface wind flow
in a bowl blowout. Earth Surface Processes & Landforms. (http://dx.doi.org/10.1002/esp.4625).
Lausanne, A, Fedje, D, Mackie, Q, Walker, IJ. 2019. Identifying
potential geoarchaeological sites with high prospecting potential using
aerial LIDAR imaging and GIS on Quadra Island, Canada. Journal of Island
& Coastal Archaeology. (https://doi.org/10.1080/15564894.2019.1659884).
Rader, AM, Pickart, A, Walker, IJ, Hesp, PA, Bauer, BO. 2018.
Foredune morphodynamics and sediment budgets at seasonal to decadal
scales: Humboldt Bay National Wildlife Refuge, California, USA.
Geomorphology 318: 69-87 (https://doi.org/10.1016/j.geomorph.2018.06.003).
Walker, IJ, Davidson-Arnott, RGD, Bauer, BO, Hesp, PA, Ollerhead,
J, Delgado-Fernandez, I, Smyth, TAG. 2017. Scale-dependent perspectives on
the geomorphology of beach-dune systems. Earth Science Reviews, 171:
220-253. (http://dx.doi.org/10.1016/j.earscirev.2017.04.011).
Eamer, JBR, Shugar, DH, Walker, IJ, Lian, O, Neudorf, CM.
2017. Distinguishing depositional setting for sandy deposits in
coastal landscapes using grain shape. Journal of Sedimentary Research 87:
1-11. (http://dx.doi.org/10.2110/jsr.2016.92)
Darke, IB, Walker, IJ, Hesp, PA. 2016. Beach-dune sediment budgets and
dune morphodynamics following coastal dune restoration, Wickaninnish
Dunes, Canada. Earth Surface Processes & Landforms, 41(10): 1370-1385 (http://dx.doi.org/10.1002/esp.3910)
Barnard P, Short A, Harley M, Splinter K, Vitousek S, Turner I, Allan
J, Banno M, Bryan K, Doria A, Hansen J, Kato S, Kuriyama Y,
Randall-Goodwin E, Ruggiero P, Walker IJ, Heathfield D. Coastal
vulnerability across the Pacific dominated by El Niño/Southern
Oscillation. 2015. Nature Geoscience 8: 801–807. (http://dx.doi.org/10.1038/NGEO2539).
Graduate
Students
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