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References

  • Amlin N.M. & Rood S.B. (2003) Drought stress and recovery of riparian cottonwoods due to water table alteration along Willow Creek, Alberta. Trees 17, 351358.
  • Axelson J.N., Sauchyn D.J. & Barichivich J. (2009) New reconstructions of streamflow variability in the South Saskatchewan River Basin from a network of tree ring chronologies, Alberta, Canada. Water Resources Research 45, WO9422.
  • Berg K.J., Samuelson G.M., Willms C.R., Pearce D.W. & Rood S.B. (2007) Consistent growth of black cottonwoods despite temperature variation across Rocky Mountains ecoregions. Trees 21, 161169.
  • Braatne J.H., Jamieson R., Gill K.M. & Rood S.B. (2007) Instream flows and the decline of riparian cottonwoods along the Yakima River, Washington, USA. River Research and Applications 23, 247267.
  • Briffa K.R. (2000) Annual climate variability in the Holocene: interpreting the message of ancient trees. Quaternary Science Reviews 19, 87105.
  • Butler J.J., Kluitenberg G.J., Whittemore D.O., Loheide S.P., Jin W., Billinger M.A. & Zhan X.Y. (2007) A field investigation of phreatophyte-induced fluctuations in the water table. Water Resources Research 43, W02404.
  • Chen L., Zhang S., Zhao H., Korpelainen H. & Li C. (2010) Sex-related adaptive responses to interaction of drought and salinity in Populus yunnanensis. Plant, Cell & Environment 33, 17671778.
  • Dawson T.E. & Ehleringer J.R. (1993) Gender-specific physiology, carbon isotope discrimination, and habitat distribution in box elder, Acer negundo. Journal of Ecology 74, 798815.
  • Dawson T.E., Mambelli S., Plamboeck A.H., Templer P.H. & Tu K.P. (2002) Stable isotopes in plant ecology. Annual Review of Ecology and Systematics 33, 507559.
  • Disalvo A.C. & Hart S.C. (2002) Climatic and stream-flow controls on tree growth in a Western montane riparian forest. Environmental Management 30, 678691.
  • Dudek D.M., McClenahen J.R. & Mitsch W.J. (1998) Tree growth responses of Populus deltoides and Juglans nigra to streamflow and climate in a bottomland hardwood forest in central Ohio. American Midland Naturalist 140, 233244.
  • Farquhar G.D., O'Leary M.H. & Berry J.A. (1982) On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Australian Journal of Plant Physiology 9, 121137.
  • Francey R.J., Allison C.E., Etheridge D.M., Trudinger C.M., Enting I.G., Leuenberger M., Langenfelds R.L., Michel E. & Steele L.P. (1999) A 1000-year high precision record of δ13C in atmospheric CO2. Tellus 51B, 170193.
  • Gom L.A. & Rood S.B. (1999) Patterns of clonal occurrence in a mature cottonwood grove along the Oldman River, Alberta. Canadian Journal of Botany 77, 10951105.
  • Holmgren M., Scheffer M. & Huston M.A. (1997) The interplay of facilitation and competition in plant communities. Ecology 78, 19661975.
  • Horton J.L., Kolb T.E. & Hart S.C. (2001) Responses of riparian trees to interannual variation in ground water depth in a semi-arid river basin. Plant, Cell & Environment 24, 293304.
  • Hughes F.M.R., Johansson M., Xiong S., Carlborg E., Hawkins D., Svedmark M., Hayes A., Goodall A., Richards K.S. & Nilsson C. (2010) The influence of hydrological regimes on sex ratios and spatial segregation of the sexes in two dioecious riparian shrub species in northern Sweden. Plant Ecology 208, 7792.
  • Hultine K.R., Bush S.E., West A.G. & Ehleringer J.R. (2007) Population structure, physiology and ecohydrological impacts of dioecious riparian tree species of western North America. Oecologia 154, 8593.
  • Hultine K.R., Bush S.E. & Ehleringer J.R. (2010) Ecophysiology of riparian cottonwood and willow before, during and after two years of soil water removal. Ecological Applications 20, 347361.
  • Kozlowski T.T. & Winget C.H. (1963) Patterns of water movement in forest trees. Botanical Gazette 124, 301311.
  • Lautz L.K. (2008) Estimating groundwater evapotranspiration rates using diurnal water-table fluctuations in a semi-arid riparian zone. Hydrogeology Journal 16, 483497.
  • Leffler A.J. & Evans A.S. (1999) Variation in carbon isotope composition among years in the riparian tree Populus fremontii. Oecologia 119, 311319.
  • Leffler A.J. & Evans A.S. (2001) Physiological variation among Populus fremontii populations: short- and long-term relationships between δ13C and water availability. Tree Physiology 21, 11491155.
  • Letts M.G., Phelan C.A., Johnson D.R.E. & Rood S.B. (2008) Seasonal photosynthetic gas exchange and leaf reflectance characteristics of male and female cottonwoods in a riparian woodland. Tree Physiology 28, 10371048.
  • Loader N.J., Robertson I. & McCarroll D. (2003) Comparison of stable carbon isotope ratios in the whole wood, cellulose and lignin of oak tree-rings. Palaeogeography, Palaeoclimatology, Palaeoecology 196, 395407.
  • McCarroll D. & Loader N.J. (2004) Stable isotopes in tree rings. Quaternary Science Reviews 23, 771801.
  • Mantua N.J. & Hare S.R. (2002) The Pacific Decadal Oscillation. Journal of Oceanography 58, 3544.
  • Naiman R.J., Décamps H. & McClain M.E. (2005) Riparia: Ecology, Conservation, and Management of Streamside Communities. Elsevier, Amsterdam, the Netherlands.
  • Nielsen J.L., Rood S.B., Pearce D.W., Letts M.G. & Jiskoot H. (2010) Streamside trees: responses of male, female and hybrid cottonwoods to flooding. Tree Physiology 30, 14791488.
  • Potts D.L. & Williams D.G. (2004) Response of tree ring holocellulose δ13C to moisture availability in Populus fremontii at perennial and intermittent stream reaches. Western North American Naturalist 64, 2737.
  • Rasheed F., Richard B., Le Thiec D., Montpied P., Paillassa E., Brignolas F. & Dreyer E. (2011) Time course of δ13C in poplar wood: genotypic ranking remains stable over the life cycle in plantations despite some differences between cellulose and bulk wood. Tree Physiology 31, 1831193.
  • Reily P.W. & Johnson W.C. (1982) The effects of altered hydrologic regime on tree growth along the Missouri River in North Dakota. Canadian Journal of Botany 60, 24102423.
  • Rood S.B. & Vandersteen J.W. (2010) Relaxing the principle of prior appropriation: stored water and sharing the shortage in Alberta, Canada. Water Resources Management 24, 16051620.
  • Rood S.B., Kalischuk A.R. & Mahoney J.M. (1998) Initial cottonwood seedling recruitment following the flood of the century of the Oldman River, Alberta, Canada. Wetlands 15, 557570.
  • Rood S.B., Braatne J.H. & Hughes F.M.R. (2003) Ecophysiology of riparian cottonwoods: streamflow dependency, water relations and restoration. Tree Physiology 23, 11131124.
  • Rood S.B., Samuelson G.M., Weber J.K. & Wyrot K.A. (2005) Twentieth-century decline in streamflows from the hydrographic apex of North America. Journal of Hydrology 306, 215233.
  • Rood S.B., Pan J., Gill K.M., Franks C.G., Samuelson G.M. & Shepherd A. (2008) Declining summer flows of Rocky Mountain rivers: historic hydrology and probable impacts on floodplain forests. Journal of Hydrology 349, 397410.
  • Rood S.B., Nielsen J.L., Shenton L., Gill K.M. & Letts M.G. (2010) Effects of flooding on leaf development, transpiration, and photosynthesis in narrowleaf cottonwood, a willow-like poplar. Photosynthesis Research 104, 3139.
  • Rood S.B., Bigelow S.G. & Hall A.A. (2011) Root architecture of riparian trees: river cut-banks provide natural hydraulic excavation, revealing that cottonwoods are facultative phreatophytes. Trees 25, 907917.
  • Samuelson G.M. & Rood S.B. (2011) Elevated sensitivity: riparian vegetation in upper mountain zones is especially vulnerable to livestock grazing. Applied Vegetation Science 14, 596606.
  • Scott M.L., Shafroth P.B. & Auble G.T. (1999) Responses of riparian cottonwoods to alluvial water table declines. Environmental Management 23, 347358.
  • Shepherd A., Gill K.M. & Rood S.B. (2010) Climate change and future flows of Rocky Mountain rivers: converging forecasts from empirical trend projection and downscaled global circulation modeling. Hydrological Processes 24, 38643877.
  • Sparks J.P. & Black R.A. (1999) Regulation of water loss in populations of Populus trichocarpa: the role of stomatal control in preventing xylem cavitation. Tree Physiology 19, 453459.
  • St. Jacques J.M., Sauchyn D.J. & Zhao Y. (2010) Northern Rocky Mountain streamflow records: global warming trends, human impacts or natural variability? Geophysical Research Letters 37, L06407.
  • Stromberg J.C. & Patten D. (1990) Riparian vegetation instream flow requirements: a case study from a diverted stream in the eastern Sierra Nevada, California, USA. Environmental Management 14, 185194.
  • Stromberg J.C., Tiller R. & Richter B. (1996) Effects of groundwater decline on riparian vegetation of semiarid regions: the San Pedro, Arizona. Ecological Applications 6, 113131.
  • Tyree M., Kolb K., Rood S.B. & Patino S. (1994) Vulnerability to drought-induced cavitation of riparian cottonwoods in Alberta: a possible role in decline of the ecosystem. Tree Physiology 14, 455466.
  • Ueno N., Suyama Y. & Seiwa K. (2007) What makes the sex ratio female-biased in the dioecious tree Salix sachalinensis? Journal of Ecology 95, 951959.
  • Ward J.K., Dawson T.E. & Ehleringer J.R. (2002) Response of Acer negundo genders to interannual differences in water availability determined from carbon isotope ratios of tree ring cellulose. Tree Physiology 22, 339346.
  • Willms C.R., Pearce D.W. & Rood S.B. (2006) Growth of riparian cottonwoods: a developmental pattern and the influence of geomorphic context. Trees 20, 210218.
  • Willms J., Rood S.B., Willms W. & Tyree M. (1998) Branch growth of riparian cottonwoods: a hydrologically sensitive dendrochronological tool. Trees 12, 215223.
  • Xu X., Peng G., Wu C., Korpelainen H. & Li C. (2008a) Drought inhibits photosynthetic capacity more in females than in males of Populus cathayana. Tree Physiology 11, 17511759.
  • Xu X., Yang F., Xiao X., Zhang S., Korpelainen H. & Li C. (2008b) Sex-specific responses of Populus cathayana to drought and elevated temperatures. Plant, Cell & Environment 31, 850860.