Publications

Publications

  1. Chartrand, S.M., and Whiting, P.J., 2000. Alluvial architecture in headwater streams with special emphasis on step-pool topography. Earth Surface Processes and Landforms, 25: 583-600, doi.org/10.1002/1096-9837(200006)25:6<583::AID-ESP92>3.0.CO;2-3.

  2. Chartrand, S.M., Jellinek, M., Whiting, P.J., and J.S. Stamm, 2011. Geometric Scaling of Step-pool Mountain Streams: Observations and Implications. Geomorphology, 129, doi.org/10.1016/j.geomorph.2011.01.020.

  3. Chartrand, S.M., Hassan, M.A., Radić, V., 2015. Pool-riffle sedimentation and surface texture trends in a gravel bed stream, Water Resources Research, 51, doi.org/10.1002/2015WR017840.

  4. Ferrer-Boix, C., Chartrand, S.M., Hassan, M.A., Martín-Vide, J.P., Parker, G., 2016. On how spatial variations of channel width influence river profile curvature. Geophysical Research Letters, 43: 6313-6323, doi.org/10.1002/2016GL069824.

  5. Hassan, M.A., Ferrer-Boix, C., Cienciala, P., Chartrand, S.M., 2017. Sediment transport and channel morphology: implications for fish habitat. In Open Channel Hydraulics, River Hydraulic Structures and Fluvial Geomorphology, edited by A. Radecki-Pawlik, S. Pagliara, J. Hradecky, and E. Hendrickson, pp. 322–348, CRC Press.

  6. Zhang, C., , Xu, M., Hassan, M.A., Chartrand, S.M., Wang, Z, 2018. Experimental Study on the Stability and Failure of Individual Step-pool. Geomorphology, 311: 51-62, doi.org/10.1016/j.geomorph.2018.03.023.

  7. Chartrand, S.M., Jellinek, M., Hassan, M.A., Ferrer-Boix, C., 2018. Morphodynamics of a width-variable gravel-bed stream: new insights on pool-riffle formation from physical experiments. Journal of Geophysical Research: Earth Surface, 123, doi.org/10.1029/2017JF004533.

  8. Hassan, M.A., Bird, S., Reid, D., Ferrer-Boix, C., Hogan, D., Brardinoni, F., Chartrand, S.M., 2019. Hillslope-channel coupling and downstream channel characteristics of forested mountain streams in glaciated landscapes. Earth Surface Processes and Landforms, vol. 44, p. 736-751, doi.org/10.1016/esp.4527.

  9. Chartrand, S.M., Jellinek, M., Hassan, M.A., Ferrer-Boix, C., 2019. What controls the disequilibrium state of gravel-bed rivers? Earth Surface Processes and Landforms, 44: 3020– 3041, doi.org/10.1002/esp.4695.

  10. Zhang, C.**, Xu, M., Hassan, M.A., Chartrand, S.M., Wang, Z, Ma, Z., 2019. Experiment on morphological and hydraulic adjustments of step-pool unit to flow increase. Earth Surface Processes and Landforms, doi.org/10.1002/esp.4722.

  11. Hassan, M.A., Radić, V., Buckrell, E.**, Chartrand, S.M., and McDowell, C** (2021). Pool-riffle adjustment due to changes in flow and sediment supply. Water Resources Research, 57(2), doi:10.1029/2020WR028048.

Datasets

  1. Chartrand, S.M., Jellinek, M., Hassan, M.A., Ferrer-Boix, C., 2017. Experimental data set for morphodyanmics of a width-variable gravel-bed stream: new insights on pool-riffle formation. Mendeley Data, dx.doi.org/10.17632/zmjvt32gj3.3.

  2. Chartrand, S.M., 2017. Gravel mixture sediment transport videos from a straight-walled flume. Mendeley Data, dx.doi.org/10.17632/4z7fspfcpv.1.

  3. Chartrand, S.M., Furbish, D. J., & Hassan, M. A. (2020). Experimental sediment transport data using a light table device and analysis scripts. figshare. https://doi.org/10.6084/m9.figshare.12268727.v3

  4. McDowell, C.**, Buckrell, E.**, Reid, David, Chartrand, S., Radic, V., Hassan, M.A. (2020). Dataset of pool-riffle adjustment due to changes in flow and sediment supply.. figshare. Dataset. https://doi.org/10.6084/m9.figshare.12385721.v1

Preprints

  1. Chartrand, S.M., & Hassan, M.A., 2018. River Restoration Design Framework. EarthArXiv, doi.org/10.31223/osf.io/eus6c.

Accepted and In Production

  1. Chartrand, S.M. Environmental planning of river corridors considering climate change: A brief perspective. In Lecture Notes in Civil Engineering: Recent Trends in River Corridor Management, edited by V. Chembolu and S. Dutta, pp. 1–13, SpringNature.

In Review or Revision

  1. Chartrand, S.M., Furbish, D.J. Examining the transport of sediment mixtures with coupled transfer functions inspired by a birth-death model. Original Submission - Earth Surface Dynamics, https://doi.org/10.5194/esurf-2021-16.

  2. Smith, T.E.M.**, Rosenfeld, J.S., Hunt, B.P.V., St. Pierre, K.A., Chartrand, S.M., Naman, S.M. and Mussett, K.J. Turbulence mediates microhabitat selection by juvenile drift-foraging steelhead.

  3. Wright, M.**, Vendetti, J., Li, T.**, Hurson, M.**, Chartrand S.M., Rennie, C., and Church, M. Covariation in width and depth in bedrock rivers.

In Preparation (this is some but not all)

  1. Chartrand, S.M., Jellinek, M., Hassan, M.A. Characteristic timescales of gravel-bed streams: a new framework to predict channel bed shape.

  2. Chartrand, S.M. Using climate change projections to evaluate water and salmon habitat availability within small coastal streams of Mediterranean-climate.

  3. Chartrand, S.M. and Furbish, D. The climate and weather of fluvial geomorphology: learning about the probabilistic nature of sediment transport with a simple particle based model.

  4. Chartrand, S.M., Jellinek, A.M., Grau-Galofre, A., Osinski, G.R. Kukko, A. Interactions between channel formation and permafrost within a warming climate.