recent

  • Stevens, C; Sutton, P; Law, C 2012. Biophysical Implications of the Internal Tide
    Downstream of the Norfolk Ridge, Western Pacific,  Limnol Oceanogr. 57(4), 2012, 897-911, DOI: 10.4319/lo.2012.57.4.0897.  [here...]
  • Stevens CL, Petersen JK 2011. Turbulent, stratified flow through a suspended shellfish canopy: implications for mussel farm design. Aquacult Environ Interact 2:87-104.  doi:10.3354/aei00033  [here]
  • Stevens, CL, M.J. Smith, B. Grant, C.L. Stewart,T. Divett, 2012, Tidal Stream
    Energy Extraction in a Large Deep Strait: the Karori Rip, Cook Strait, Continental
    Shelf Research, 33: 100-109. , DOI: 10.1016/j.csr.2011.11.012. (* listed of most
    downloaded papers for April 2012).
  • Plew D, Stevens, C 2012. Numerical modelling of the effect of turbines on currents in a tidal channel – Tory Channel, New Zealand. Renewable Energy. 57:269-282. [here]
  • Divett, T; Vennell R; Stevens C 2012. Optimisation of multiple turbine arrays in a channel with tidally reversing flow by numerical modelling with adaptive mesh. To appear in Royal Society Philosophical Transactions A.371:20120251. [here] 
  • O’Callaghan J and Stevens C (2011) Wind Stresses on Estuaries. In: Wolanski E and McLusky DS (eds.) Treatise on Estuarine and Coastal Science, Vol 2, pp. 151–169. Waltham: Academic Press.

physical oceanography                                    <top>

marine biophysics                                            <top>

  • Delaux S; Stevens CL; Popinet S 2010 High-resolution computational fluid dynamics modelling of suspended shellfish structures. Environmental Fluid Mechanics  dx.doi.org/10.1007/s10652-010-9183-y
  • Taylor, David, Sebastien Delaux, Craig Stevens, Roger Nokes, and David Schiel 2008  Settlement rates of macroalgal algal propagules: Cross-species comparisons of settlement in a turbulent environment Limnol. Oceanogr. 55: 66-76.
  • Kregting, Louise, T., Hurd, Catriona, L., Pilditch, Conrad, A., Stevens, Craig, L., 2008. The relative importance of water motion on nitrogen uptake by the subtidal macroalga adamsiella chauvinii (rhodophyta) in winter and summer. Journal of Phycology 44, 320-330 (2008). URL http://dx.doi.org/10.1111/j.1529-8817.2008.00484.x
  • Stevens, C.; Plew, D.; Hartstein, N.; Fredriksson, D. 2008 The physics of open-water shellfish aquaculture, Aquacultural Engineering, 38:145-160. http://dx.doi.org/10.1016/j.aquaeng.2008.01.006 
  • Stevens, C.L. Taylor, D.I., Delaux, S., Smith, M., Schiel D.R.  2008, Characterisation of wave-influenced macroalgal propagule settlement, J. Marine Systems, 74: 96-107. http://dx.doi.org/10.1016/j.jmarsys.2007.11.006
  • Plew DR, G Rickard, M Hadfield, RH Spigel, CL. Stevens. 2006, The effect of a long-line mussel farm on currents in Golden Bay (New Zealand), in revision.
  • Stevens, C.L.,  D.R. Plew, M.J. Smith & D.W. Fredriksson  2007.  Hydrodynamic Forcing of Long-line Mussel Farms: Observation, ASCE Jour. Waterway, Port, Coastal, and Ocean Engineering, 133(3): 192-199.http://dx.doi.org/10.1061/(ASCE)0733-950X(2007)133:3(192)
  • Harder, D.L.; Stevens, C.L.; Speck, T.; Hurd, C.L. 2005. The role of blade buoyancy and reconfiguration in the mechanical adaptation of wave-exposed seaweeds, SEB Book on Biomechanics and Ecology, pg 61-84.
  • Hartstein, N.D., Stevens, C.L. 2005. Deposition beneath long-line mussel farms,  Aquaculture Engineering, 33/3, 192-213.
  • Plew, D., C. Stevens, R. Spigel, N. Hartstein, 2005,  Hydrodynamic implications of large offshore mussel farms, IEEE Journal of Oceanic Engineering Special Issue on Open Ocean Aquaculture Engineering, 30, 95-108.
  • Harder, D.L., Biehle, G., Hurd, C.L., Stevens, C.L., Speck, T., 200X, Biomechanical properties of intertidal, wave-exposed seaweeds from SE New Zealand and NW Europe in relation to zonation, in revision
  • Ackerman, J.D. , C. L. Stevens and C. L. Hurd (2004) Special issue: biophysical factors affecting the growth and survival of aquatic organisms, Jour. Marine Systems, 49, 1-2.
  • Stevens, C.L., C.L. Hurd, M.J. Smith, 2004. An idealised model of interaction between fronds of the large seaweed Durvillaea antarctica, Jour. Marine Systems, 49, 145-156.  http://dx.doi.org/10.1016/j.jmarsys.2003.05.009
  • Stevens, C.L., C.L. Hurd and P.E. Isachsen 2003  Modeling Diffusion Boundary-Layers in Subtidal Macroalgal Canopies: The Response to Waves and Currents, Aquatic Sciences, 65, 81-91. 
  • Stevens, C.L., C.L. Hurd & M.J. Smith  2002  Field Measurement of the Dynamics of the Bull Kelp Durvillaea antarctica (Chamisso) Heriot, J. Exp. Mar. Biol. Ecol.,  269(2), 147-171.  http://dx.doi.org/10.1016/S0022-0981(02)00007-2
  • Boyd, P.W. and C.L. Stevens 2002 Modelling particle transformations and the downward organic carbon flux in the NE Atlantic Ocean. Progr. in Oceanography, 52, 1-29.
  • Stevens, C.L., C.L. Hurd and M.J. Smith, 2001 Water Motion Relative to Subtidal Kelp Fronds,Limnology and Oceanography 46(3), 668-678.
  • Stevens, C. and C.L. Hurd  1997  Boundary-layers around aquatic macrophytes      Hydrobiologia, 346, 119-128.
  • Hurd, C.L. and C.L. Stevens 1997  Flow visualization around single and multiple-bladed seaweeds with varying morphologies  J. Phycol.  Vol. 33, No. 3, 360-367. (nominated for 1997  J. Phycol. Provasoli Award).
  • Hurd, C.L. and C.L. Stevens 1997  Creeping-flow around the kelp Nereocystis luetkeana  J. Phycol. Vol. 33, No. 3, cover illustration.
  • Hurd, C.L., C. Stevens, B. Laval, P.J. Harrison and G.A. Lawrence 1997 Visualization of seawater flow around morphologically distinct forms of  Macrocystis integrifolia  from wave-sheltered and exposed sites,  Limnol. and Oceanogr.  42(1) 156-163.
  • Hurd, C.L., M. Quick, C. Stevens, B.E. Laval, P.J. Harrison and L.D. Dreuhl  1994 A low-volume flow tank for measuring nutrient uptake by large macrophytes  J. Phycol., Vol. 30, 892-896.

physical limnology                                              <top>

  • Boehrer, B., and C. Stevens, 2005, Ray waves in a pit lake, Geophys. Res. Lett., 32, L24608, http://www.agu.org/pubs/crossref/2005/2005GL024678.shtml
  • Stevens, C.L., T.S.R. Fisher and G.A. Lawrence, 2005 Turbulent layering beneath the pycnocline in a strongly stratified pit-lake, Limnol. Oceanogr. 50: 197-206. http://aslo.org/lo/toc/vol_50/issue_1/0197.html
  • Stevens, C.L.,  G.A. Lawrence and P.F. Hamblin  2004  Horizontal Dispersion in the Surface Layer of a Long Narrow Lake,  J. Environ. Eng. Sci. 3: 413-417.  dx.doi.org/10.1139/s04-035
  • Farrow, D. E. & Stevens, C. L. (2003) Numerical modelling of a surface-stress driven density-stratified fluid.  J. Engineering Mathematics, 47(1), 1-16.  http://www.springerlink.com/content/r137178551678k8v/
  • Stevens, C.L.  1999  Internal waves in a small reservoir,  Jour. Geophys. Res.- Oceans, Vol 104, No. C7, 15777-15788.
  • Hamblin, P.F., C.L. Stevens and G.A. Lawrence 1999  Simulation of vertical transport in a mining pit lake, ASCE J.Hyd. Eng. Vol. 125 (10), 1029-1038.
  • Stevens, C. and G.A. Lawrence  1998  Stability and meromixis in a water-filled mine pit, Limnology and Oceanography, 43(5), 946-954.   
  • Stevens, C. and G.A. Lawrence  1997  The effect of sub-aqueous disposal of mine tailings in standing waters,  IAHR  J. Hydraulic Research, 32(2) 1-13.   
  • Stevens, C. and G.A. Lawrence  1997  Estimation of wind-forced internal seiche amplitudes in lakes and reservoirs, with data from British Columbia, Canada, Aquatic Sciences, 59, 115-134.  
  • Stevens, C. and J. Imberger  1996 The initial response of a stratified lake to a surface shear stress, J. Fluid Mech.,  312, 39-66.
  • Stevens, C.L., G.A. Lawrence, P.F. Hamblin and E.C. Carmack 1996 Wind forcing of internal waves in a long narrow stratified lake, Dyn. Atmos. Oceans, 24, 41-50.  
  • Stevens, C., P.F. Hamblin, G.A. Lawrence and F.M. Boyce 1995  River induced transport in Kootenay Lake, ASCE J. Env. Eng., Vol. 121(11), 830-837.