CSS Publications

Ruetten, A., 2021, Evaluating the impact of hierarchical deep-water slope channel architecture on fluid flow behavior, Cretaceous Tres Pasos Formation, Chile. [MS Thesis, Colorado State University]

Nesbit, P.R., Hubbard, S.M., Daniels, B.G., Bell, D., Englert, R.G. and Hugenholtz, C.H., 2021. Digital re‐evaluation of down‐dip channel‐fill architecture in deep‐water slope deposits: Multi‐scale perspectives from UAV‐SfM. The Depositional Record.

Bauer, D.B., Hubbard, S.M., Covault, J.A. and Romans, B.W., 2020. Inherited depositional topography control on shelf-margin oversteepening, readjustment, and coarse-grained sediment delivery to deep water, Magallanes Basin, Chile. Frontiers in Earth Science, 7, p.358.

Meirovitz, C., Stright, L., Hubbard, S.M., Romans, B.W., 2020, The influence of inter- and intra-channel architecture on deep-water turbidite reservoir performance: Petroleum Geoscience.

Vento, N.F.R., 2020. Hypothesis-Based Machine Learning for Deep-Water Channel Systems. [MS Thesis, Colorado State University]

Auchter, N.C., Romans, B.W., Hubbard, S.M., Daniels, B.G., Scher, H., Buckley, W., 2020, Intrabasinal sediment recycling from strontium isotope stratigraphy: Geology.

Englert, R.G., Hubbard, S.M., Cartigny, M.J.B., Clare, M.A., Coutts, D., Hage, S., Hughes Clarke, J., Jobe, Z.R., Lintern, G., Stacey, C., Vendettuoli, D., 2020, Quantifying the 3D stratigraphic expression of upslope-migrating bedforms by integrating seafloor and outcrop observations: Sedimentology.

Nesbit, P.R., Boulding, A.D., Hugenholtz, C.H., Durkin, P.R. and Hubbard, S.M., 2020. Visualization and sharing of 3D digital outcrop models to promote open science. GSA Today, 30(6).

Hubbard, S.M., Jobe, Z.R., Romans, B.W., Covault, J.A., Sylvester, Z., Fildani, A., 2020, The stratigraphic evolution of a submarine channel: Linking seafloor dynamics to depositional products: Journal of Sedimentary Research.

Jackson, A., Stright, L., Hubbard, S.M. and Romans, B.W., 2019. Static connectivity of stacked deep-water channel elements constrained by high-resolution digital outcrop models. AAPG Bulletin, 103(12), pp.2943-2973.

Daniels, B.G., Hubbard, S.M., Romans, B.W., Malkowski, M.A., Matthews, W.A., Bernhardt, A., Kaempfe, S.A., Jobe, Z.R., Fosdick, J.C., Schwartz, T.M. and Fildani, A., 2019. Revised chronostratigraphic framework for the Cretaceous Magallanes-Austral Basin, Última Esperanza Province, Chile. Journal of South American Earth Sciences, 94, p.102209.

Nesbit, P.R. and Hugenholtz, C.H., 2019. Enhancing UAV–SFM 3D model accuracy in high-relief landscapes by incorporating oblique images. Remote Sensing, 11(3), p.239.

Englert, R.G., Hubbard, S.M., Matthews, W.A., Coutts, D.S. and Covault, J.A., 2020. The evolution of submarine slope-channel systems: Timing of incision, bypass, and aggradation in Late Cretaceous Nanaimo Group channel-system strata, British Columbia, Canada. Geosphere, 16(1), pp.281-296.

Daniels, B.G., Auchter, N.C., Hubbard, S.M., Romans, B.W., Matthews, W.A. and Stright, L., 2018. Timing of deep-water slope evolution constrained by large-n detrital and volcanic ash zircon geochronology, Cretaceous Magallanes Basin, Chile. GSA Bulletin, 130(3-4), pp.438-454.

Pemberton, E.A., Stright, L., Fletcher, S. and Hubbard, S.M., 2018. The influence of stratigraphic architecture on seismic response: Reflectivity modeling of outcropping deepwater channel units. Interpretation, 6(3), pp.T783-T808.

Nielson, A., 2018. Using RMS amplitudes from forward seismic-reflectivity modeling of channelized deep-water slope deposits to inform stratigraphic interpretation and sub-seismic scale architecture, Tres Pasos Formation, Magallanes Basin, Patagonia, Chile [MS Thesis, Colorado State University]

Auchter, N.C., Romans, B.W. and Hubbard, S.M., 2016. Influence of deposit architecture on intrastratal deformation, slope deposits of the Tres Pasos Formation, Chile. Sedimentary Geology, 341, pp.13-26.

Reimchen, A., 2016. Characterization of channels on ancient and modern slopes: Cretaceous Tres Pasos Formation, Chile and Lucia Chica Channel System, offshore California [MS Thesis, University of Calgary]

Covault, J.A., Sylvester, Z., Hubbard, S.M., Jobe, Z.R. and Sech, R.P., 2016. The stratigraphic record of submarine-channel evolution. The Sedimentary Record, 14(3), pp.4-11.

Pemberton, E.A., Hubbard, S.M., Fildani, A., Romans, B. and Stright, L., 2016. The stratigraphic expression of decreasing confinement along a deep-water sediment routing system: Outcrop example from southern Chile. Geosphere, 12(1), pp.114-134.

Jancuska, S.N., 2016. Sedimentology and Architecture of a Partially Contained Deposit, Cerro Solitario, Magallanes Basin, Chilean Patagonia [MS Thesis, Virginia Tech]

Pemberton, E., 2016. Multi-Scale Analysis of Deep-Water Deposits from High-Relief Slope Systems, Cretaceous Strata of the Magallanes Basin, Southern Chile and Colville Basin, Northern Alaska. [Doctoral Dissertation, University of Calgary]

Auchter, N.C., 2016. Basin Evolution and Slope System Dynamics of the Cretaceous Magallanes Basin, Chilean Patagonia [Doctoral Dissertation, Virginia Tech]

Reimchen, A.P., Hubbard, S.M., Stright, L. and Romans, B.W., 2016. Using sea-floor morphometrics to constrain stratigraphic models of sinuous submarine channel systems. Marine and Petroleum Geology, 77, pp.92-115.

Stevenson, C.J., Jackson, C.A.L., Hodgson, D.M., Hubbard, S.M. and Eggenhuisen, J.T., 2015. Deep-water sediment bypass. Journal of Sedimentary Research, 85(9), pp.1058-1081.

Daniels, B., 2015. Downslope Characterization of Channel Fill and Stratigraphic Architecture along an Ancient Basin Margin, Tres Pasos Formation, southern Chile [MS thesis, University of Calgary]

Jackson, A., 2014. Characterizing Static Reservoir Connectivity of Deep-water Slope Deposits Using Detailed Outcrop-based Facies Models, Tres Pasos Formation, Magallanes Basin, Chilean Patagonia [MS Thesis, University of Utah]

Hubbard, S.M., Covault, J.A., Fildani, A. and Romans, B.W., 2014. Sediment transfer and deposition in slope channels: Deciphering the record of enigmatic deep-sea processes from outcrop. GSA Bulletin, 126(5-6), pp.857-871.

Macauley, R.V. and Hubbard, S.M., 2013. Slope channel sedimentary processes and stratigraphic stacking, Cretaceous Tres Pasos Formation slope system, Chilean Patagonia. Marine and Petroleum Geology, 41, pp.146-162.

Fildani, A., Hubbard, S.M., Covault, J.A., Maier, K.L., Romans, B.W., Traer, M. and Rowland, J.C., 2013. Erosion at inception of deep-sea channels. Marine and Petroleum Geology, 41, pp.48-61.

Fletcher, S., 2013. Stratigraphic characterization of a Cretaceous slope channel complex in the Tres Pasos Formation, Arroyo Picana-Laguna Figueroa outcrop belt, Chilean Patagonia [MS Thesis, University of Calgary]

Fosdick, J.C., Romans, B.W., Fildani, A., Bernhardt, A., Calderon, M., Graham, S.A., 2011. Kinematic evolution of the Patagonian retroarc fold-and-thrust belt and Magallanes foreland basin, Chile and Argentina, 51°30S. Geological Society of America Bulletin 123, 1679°1698.

Hubbard, S.M., MacEachern, J.A. and Bann, K.L., 2012. Slopes. In Developments in Sedimentology (Vol. 64, pp. 607-642). Elsevier.

Bauer, B.B., 2012. Stratigraphic evolution of a high-relief slope clinoform system, Magallanes Basin, Chilean Patagonia [MS Thesis, University of Calgary]

Romans, B.W., Fildani, A., Hubbard, S.M., Covault, J.A., Fosdick, J.C. and Graham, S.A., 2011. Evolution of deep-water stratigraphic architecture, Magallanes Basin, Chile. Marine and Petroleum Geology, 28(3), pp.612-628.

Macauley, R.V., 2011. Stratigraphic architecture of an outcropping deep-water slope channel deposit: Sedimentological analysis of the Cretaceous Tres Pasos Formation, Chile [MS Thesis, , University of Calgary]

Hubbard, S.M., Fildani, A., Romans, B.W., Covault, J.A. and McHargue, T.R., 2010. High-relief slope clinoform development: insights from outcrop, Magallanes Basin, Chile. Journal of Sedimentary Research, 80(5), pp.357-375.