Publications (see on Google Scholar)
SPL lab member; Student; *Postdoc
[16] Ott, J.N., , Condit, C.B., , Bernard, R.E., Schulte-Pelkum, V., and Pec, M., (2024) Seismic Anisotropy of Mafic Blueschists: EBSD-based constraints from the exhumed rock record. JGR Solid Earth https://doi.org/10.1029/2023JB027679
[15] Autrey-Mulligan, S., Bonamici, C., Williams, M., Karlstrom, K., Condit, C.B., (2024) Resolving pressure differences across the Grand Canyon: Implications for Proterozoic tectonics Geology https://doi.org/10.1130/G51706.1
[14] Lindquist P. C. , Condit, C. B., Hoover, W. F.*, Hernández-Uribe D., Guevara V.E., (2023) Metasomatism and slow slip: talc production along the flat subduction plate interface beneath Mexico (Guerrero). Geochemistry, Geophysics, Geosystems. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2023GC010981
[13] Hoover, W. F.*, Condit C.B., Lindquist, P. C., Moser, A. C., Guevara, V.E., (2022) Episodic slow slip hosted by talc-bearing metasomatic rocks: High strain rates and stress amplification in a chemically reacting shear zone. Geophysical Research Letters. https://doi.org/10.1029/2022GL101083
[12] Gutierrez-Aguilar, F. Hernandez-Uribe, D., Holder, R., Condit, C.B., (2022) The Mw7.1 September 19th Puebla-Morelos (Mexico) earthquake triggered by brucite and antigorite dewatering. Geophysical Research Letters. https://doi.org/10.1029/2022GL100814
[11] Condit, C.B., French, M. E., (2022) Geologic Evidence of lithostatic pore fluid pressures at the base of the subduction seismogenic zone. Geophysical Research Letters. https://doi.org/10.1029/2022GL098862
[10] Condit, C.B., French, M.E., Yeung, L., Y., Chin, E.J., Lee, C-T. A., Hayels, J., (2022) Rheology of metasedimentary rocks at the base of the subduction seismogenic zone. Geochemistry, Geophysics, Geosystems. https://doi.org/10.1029/2021GC010194
[9] Holt, A. F., Condit, C.B., (2021) Slab temperature evolution over the lifetime of a subduction zone. Geochemistry, Geophysics, Geosystems. https://doi.org/10.1029/2020GC009476
[8] Condit, C., B. V. E. Guevara, J. R. Delph, and M. E. French, (2020) Slab dehydration in warm subduction zones at depths of episodic slip and tremor. Earth and Planetary Science Letters, 552; https://doi.org/10.1016/j.epsl.2020.116601
[7] French, M.E. and Condit, C.B. (2019), Slip partitioning along an idealized subduction plate boundary at deep slow slip conditions. Earth and Planetary Science Letters, 528; https://doi.org/10.1016/j.epsl.2019.115828
[6] Johnson, J.E., Webb, S.M., Condit, C.B., Beukes, N.J., Fischer, W.W. (2019), Effects of metamorphism and metasomatism on manganese mineralogy: Examples from the Transvaal Supergroup. South African Journal of Geology. 122, 489-504; https://doi.org/10.25131/sajg.122.0034
[5] Condit, C.B., Mahan, K.H., Curtis, K.C., Möller, A., (2018) Dating Metasomatism: Monazite and Zircon Growth during Amphibolite
Facies Albitization. Minerals Special Issue "Application of Electron Microprobe Methods in Trace Element Analysis and Geochronology", 8(5), 187; https://doi.org/10.3390/min8050187
[4] Condit, C.B., Mahan, K.H (2018) Fracturing, fluid flow, and shear zone development: relationship between chemical and mechanical processes in Proterozoic mafic dikes from southwestern Montana, USA. Journal of Metamorphic Geology, 36, 195–223. https://doi.org/10.1111/jmg.12289
[3] Brownlee, S., Schulte-Pelkum, V., Raju, A., Mahan, K., Condit, C., Orlandini, O., (2017) Characteristics of deep crustal seismic anisotropy from a compilation of rock elasticity tensors and their expression in receiver functions. Tectonics, 36, doi:10.1002/ 2017TC004625
[2] Condit, C.B., K. H. Mahan, A.K. Ault, and R.M. Flowers (2015), Foreland-directed propagation of high-grade tectonism in the deep roots of a Paleoproterozoic collisional orogen, SW Montana, USA, Lithosphere, 7, (6), 625-645, doi:10.1130/L460.1.
[1] Johnson, J. E., West, D.P., Condit, C.B., and Mahan, K.H., (2014), Strain localization in the Spanish Creek mylonite, Northern Madison Range, southwest Montana, U.S.A., Rocky Mt. Geol., 49(2), 91–114, doi:10.2113/gsrocky.49.2.91.
Publications in review/revision:
Epstein, G.,* Condit, C. B., Stoner, R.*, Holt, A. F., Guevara, V.E., (In Revision) Extensive Forearc Mantle Wedge Hydration Catalyzed by Subduction Zone Thermal Evolution. AGU Advances
Bonamici, C., Condit, C.B., Guevara, V.E., Aikin, N., Williams, M.L., Karlstrom, K.E.,, (In Revision). How melts can strengthen the continental crust: pegmatites of the Grand Canyon.
Mueller, M. A., Licht, A., Moeller, A., Condit, C.B., Fosdick, J.C., Faruk Ocakoglu, Campbell, C., (In Revision) An expanded workflow for detrital rutile provenance studies: An application from the Neotethys Orogen in Anatolia. Geochronology
Publications in Prep:
Condit, C. B., Pec, M., Chin, E. J., Mitroi, T., Gruber, B., (in Prep). Calic-Amphibole is weak and deforms by dislocation creep in the deep crust. for Geology
[15] Autrey-Mulligan, S., Bonamici, C., Williams, M., Karlstrom, K., Condit, C.B., (2024) Resolving pressure differences across the Grand Canyon: Implications for Proterozoic tectonics Geology https://doi.org/10.1130/G51706.1
[14] Lindquist P. C. , Condit, C. B., Hoover, W. F.*, Hernández-Uribe D., Guevara V.E., (2023) Metasomatism and slow slip: talc production along the flat subduction plate interface beneath Mexico (Guerrero). Geochemistry, Geophysics, Geosystems. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2023GC010981
[13] Hoover, W. F.*, Condit C.B., Lindquist, P. C., Moser, A. C., Guevara, V.E., (2022) Episodic slow slip hosted by talc-bearing metasomatic rocks: High strain rates and stress amplification in a chemically reacting shear zone. Geophysical Research Letters. https://doi.org/10.1029/2022GL101083
[12] Gutierrez-Aguilar, F. Hernandez-Uribe, D., Holder, R., Condit, C.B., (2022) The Mw7.1 September 19th Puebla-Morelos (Mexico) earthquake triggered by brucite and antigorite dewatering. Geophysical Research Letters. https://doi.org/10.1029/2022GL100814
[11] Condit, C.B., French, M. E., (2022) Geologic Evidence of lithostatic pore fluid pressures at the base of the subduction seismogenic zone. Geophysical Research Letters. https://doi.org/10.1029/2022GL098862
[10] Condit, C.B., French, M.E., Yeung, L., Y., Chin, E.J., Lee, C-T. A., Hayels, J., (2022) Rheology of metasedimentary rocks at the base of the subduction seismogenic zone. Geochemistry, Geophysics, Geosystems. https://doi.org/10.1029/2021GC010194
[9] Holt, A. F., Condit, C.B., (2021) Slab temperature evolution over the lifetime of a subduction zone. Geochemistry, Geophysics, Geosystems. https://doi.org/10.1029/2020GC009476
[8] Condit, C., B. V. E. Guevara, J. R. Delph, and M. E. French, (2020) Slab dehydration in warm subduction zones at depths of episodic slip and tremor. Earth and Planetary Science Letters, 552; https://doi.org/10.1016/j.epsl.2020.116601
[7] French, M.E. and Condit, C.B. (2019), Slip partitioning along an idealized subduction plate boundary at deep slow slip conditions. Earth and Planetary Science Letters, 528; https://doi.org/10.1016/j.epsl.2019.115828
[6] Johnson, J.E., Webb, S.M., Condit, C.B., Beukes, N.J., Fischer, W.W. (2019), Effects of metamorphism and metasomatism on manganese mineralogy: Examples from the Transvaal Supergroup. South African Journal of Geology. 122, 489-504; https://doi.org/10.25131/sajg.122.0034
[5] Condit, C.B., Mahan, K.H., Curtis, K.C., Möller, A., (2018) Dating Metasomatism: Monazite and Zircon Growth during Amphibolite
Facies Albitization. Minerals Special Issue "Application of Electron Microprobe Methods in Trace Element Analysis and Geochronology", 8(5), 187; https://doi.org/10.3390/min8050187
[4] Condit, C.B., Mahan, K.H (2018) Fracturing, fluid flow, and shear zone development: relationship between chemical and mechanical processes in Proterozoic mafic dikes from southwestern Montana, USA. Journal of Metamorphic Geology, 36, 195–223. https://doi.org/10.1111/jmg.12289
[3] Brownlee, S., Schulte-Pelkum, V., Raju, A., Mahan, K., Condit, C., Orlandini, O., (2017) Characteristics of deep crustal seismic anisotropy from a compilation of rock elasticity tensors and their expression in receiver functions. Tectonics, 36, doi:10.1002/ 2017TC004625
[2] Condit, C.B., K. H. Mahan, A.K. Ault, and R.M. Flowers (2015), Foreland-directed propagation of high-grade tectonism in the deep roots of a Paleoproterozoic collisional orogen, SW Montana, USA, Lithosphere, 7, (6), 625-645, doi:10.1130/L460.1.
[1] Johnson, J. E., West, D.P., Condit, C.B., and Mahan, K.H., (2014), Strain localization in the Spanish Creek mylonite, Northern Madison Range, southwest Montana, U.S.A., Rocky Mt. Geol., 49(2), 91–114, doi:10.2113/gsrocky.49.2.91.
Publications in review/revision:
Epstein, G.,* Condit, C. B., Stoner, R.*, Holt, A. F., Guevara, V.E., (In Revision) Extensive Forearc Mantle Wedge Hydration Catalyzed by Subduction Zone Thermal Evolution. AGU Advances
Bonamici, C., Condit, C.B., Guevara, V.E., Aikin, N., Williams, M.L., Karlstrom, K.E.,, (In Revision). How melts can strengthen the continental crust: pegmatites of the Grand Canyon.
Mueller, M. A., Licht, A., Moeller, A., Condit, C.B., Fosdick, J.C., Faruk Ocakoglu, Campbell, C., (In Revision) An expanded workflow for detrital rutile provenance studies: An application from the Neotethys Orogen in Anatolia. Geochronology
Publications in Prep:
Condit, C. B., Pec, M., Chin, E. J., Mitroi, T., Gruber, B., (in Prep). Calic-Amphibole is weak and deforms by dislocation creep in the deep crust. for Geology
Invited Talks
Canadian Geological Survey, Scheduled May 2024
Penn State University, October, 2023
Goldschmidt, July 2023 - 4b: Subduction Zone Metamorphism
University of Oregon, April 2023
Stanford University Dept. of Geophysics, Scheduled Feb. 2023
University of Nevada Reno, Dec. 2022
Colby College, Nov. 2022
University of Southern California, Oct. 2022
Fast-to-Slow Earthquake Workshop, Nara Japan, September 2022
Structural Geology and Tectonics Forum, June 2022
EBSD 2022, June 2022
MIT Distinguished Lecture Series, March 2022
University of Arizona, Feb. 2022
AGU session: Connecting the Ins and Outs of Subduction Zones: Experiments, Models, and Observations as Constraints for Inputs, Processes, and Outputs, Dec. 2021
Utah State University, November 2021
University of California Santa Barbara, May 2021
Caltech Geoclub Seminar, April 2021
EGU Session: Subduction zone slip styles - interplay of fluids and deformation April, 2021
Texas A&M Tectonics and Geophysics Seminar, April 2021
ETH Structure and Tectonics Group Seminar, April, 2021
University of Kentucky G & G Seminar, March, 2021
University of Washington, MGG seminar, March, 2021
Montana State University, Feb. 2021
University of Maryland, Feb. 2021
AGU, Session: Multidisciplinary Insights into Tectonic and Metamorphic Processes at Convergent Margins, Dec. 2020
AGU, Session: Reconciling Estimates of Brittle and Ductile Lithosphere Rheology Across Temporal and Spatial Scales, Dec. 2020
University of Wisconsin Weeks Lecture, November 2019
Lamont-Doherty Earth Observatory Geodynamics Seminar, November 2019
GSA, Session: Structural Geology in the 21st Century: Rheology of Naturally Deformed Rocks, Sept. 2019
Scripps Institute of Oceanography, June 2019
MIT COG3 Seminar, April 2019
Skidmore College Strock Lecture, February 2019
AGU, Session: Flow and Fracture: Mixed Brittle-Viscous Behavior Throughout the Lithosphere, Dec. 2018
Woods Hole Oceanographic Institute, November 2018
University of Massachusetts, November 2018
Appalachian State University, October 2018
University of Washington, April 2018
Pomona College, March 2018
Texas Tech University, November 2017
Sonoma State University, February 2017
Rice University, January 2017
University of Northern Colorado, October 2016
Middlebury College, September 2014
Penn State University, October, 2023
Goldschmidt, July 2023 - 4b: Subduction Zone Metamorphism
University of Oregon, April 2023
Stanford University Dept. of Geophysics, Scheduled Feb. 2023
University of Nevada Reno, Dec. 2022
Colby College, Nov. 2022
University of Southern California, Oct. 2022
Fast-to-Slow Earthquake Workshop, Nara Japan, September 2022
Structural Geology and Tectonics Forum, June 2022
EBSD 2022, June 2022
MIT Distinguished Lecture Series, March 2022
University of Arizona, Feb. 2022
AGU session: Connecting the Ins and Outs of Subduction Zones: Experiments, Models, and Observations as Constraints for Inputs, Processes, and Outputs, Dec. 2021
Utah State University, November 2021
University of California Santa Barbara, May 2021
Caltech Geoclub Seminar, April 2021
EGU Session: Subduction zone slip styles - interplay of fluids and deformation April, 2021
Texas A&M Tectonics and Geophysics Seminar, April 2021
ETH Structure and Tectonics Group Seminar, April, 2021
University of Kentucky G & G Seminar, March, 2021
University of Washington, MGG seminar, March, 2021
Montana State University, Feb. 2021
University of Maryland, Feb. 2021
AGU, Session: Multidisciplinary Insights into Tectonic and Metamorphic Processes at Convergent Margins, Dec. 2020
AGU, Session: Reconciling Estimates of Brittle and Ductile Lithosphere Rheology Across Temporal and Spatial Scales, Dec. 2020
University of Wisconsin Weeks Lecture, November 2019
Lamont-Doherty Earth Observatory Geodynamics Seminar, November 2019
GSA, Session: Structural Geology in the 21st Century: Rheology of Naturally Deformed Rocks, Sept. 2019
Scripps Institute of Oceanography, June 2019
MIT COG3 Seminar, April 2019
Skidmore College Strock Lecture, February 2019
AGU, Session: Flow and Fracture: Mixed Brittle-Viscous Behavior Throughout the Lithosphere, Dec. 2018
Woods Hole Oceanographic Institute, November 2018
University of Massachusetts, November 2018
Appalachian State University, October 2018
University of Washington, April 2018
Pomona College, March 2018
Texas Tech University, November 2017
Sonoma State University, February 2017
Rice University, January 2017
University of Northern Colorado, October 2016
Middlebury College, September 2014
Theses and Field Trip Guides
Condit, C. B, (2017) Fluid Enhanced Deformation and Metamorphism in Exhumed Lower Crust from the Northern Madison Range, Southwestern Montana, USA. University of Colorado Boulder PhD dissertation. p. 324
West, D.P., Jr., and Condit, C. B., (2016), Stratigraphy, structure, and plutonism in the Wiscasset-Dresden region of mid-coastal Maine: in Berry, Henry N., IV, and West, David P., Jr., editors, Guidebook for field trips along the Maine coast from Maquoit Bay to Muscongus Bay: New England Intercollegiate Geological Conference, p. 165-182.
Condit, C.B. (2011). Igneous petrogenesis and superimposed deformation of the Blinn Hill plutonic complex, East-Central Maine. Middlebury College Undergraduate Thesis. p. 76.
West, D.P., Jr., and Condit, C. B., (2016), Stratigraphy, structure, and plutonism in the Wiscasset-Dresden region of mid-coastal Maine: in Berry, Henry N., IV, and West, David P., Jr., editors, Guidebook for field trips along the Maine coast from Maquoit Bay to Muscongus Bay: New England Intercollegiate Geological Conference, p. 165-182.
Condit, C.B. (2011). Igneous petrogenesis and superimposed deformation of the Blinn Hill plutonic complex, East-Central Maine. Middlebury College Undergraduate Thesis. p. 76.