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References

  • Battaglia, M. A., P. Mou, B. Palik, and R. J. Mitchell (2002), The effect of spatially variable overstory on the understory light environment of an open-canopied longleaf pine forest, Can. J. For. Res., 32, 19841991.
  • Breshears, D. D. (2006), The grassland-forest continuum: Trends in ecosystem properties for woody plant mosaics? Frontiers Ecol. Environ., 4, 96104.
  • Breshears, D. D., P. M. Rich, F. J. Barnes, and K. Campbell (1997), Overstory-imposed heterogeneity in solar radiation and soil moisture in a semiarid woodland, Ecol. Appl., 7, 12011215.
  • Breshears, D. D., J. W. Nyhan, C. E. Heil, and B. P. Wilcox (1998), Effects of woody plants on microclimate in a semiarid woodland: Soil temperature and evaporation in canopy and intercanopy patches, Int. J. Plant Sci., 159, 10101017.
  • Chen, J. M., P. M. Rich, S. T. Gower, J. M. Norman, and S. Plummer (1997), Leaf area index of boreal forests: Theory, techniques, and measurements, J. Geophys. Res., 102, 29,42929,443.
  • Clark, D. B., D. A. Clark, P. M. Rich, S. Weiss, and S. F. Oberbauer (1996), Landscape scale evaluation of understory light and canopy structure: Methods and application in a neotropical lowland rain forest, Can. J. For. Res., 26, 747757.
  • Gates, D. M. (1980), Biophysical Ecology, Springer, New York.
  • Geiger, R., R. H. Aron, and P. Todhunter (2003), The Climate Near the Ground, Rowman and Littlefield, Lanham, Md.
  • Gutierrez-Jurado, H. A., E. R. Vivoni, J. B. J. Harrison, and H. Guan (2006), Ecohydrology of root zone water fluxes and soil development in complex semiarid rangelands, Hydrol. Processes, 20, 32893316.
  • Huxman, T. E., B. P. Wilcox, D. D. Breshears, R. L. Scott, K. A. Snyder, E. E. Small, K. Hultine, W. T. Pockman, and R. B. Jackson (2005), Ecohydrological implications of woody plant encroachment, Ecology, 86, 308319.
  • Kittredge, J. (1948), Forest Influences: The Effects of Woody Vegetation on Climate, Water and Soil, Dover, New York.
  • Kutilek, M., and D. R. Nielsen (2007), Interdisciplinarity of hydropedology, Geoderma, 3–4, 252260.
  • Leblanc, S. G., J. M. Chen, R. Fernandes, D. W. Deering, and A. Conley (2005), Methodology comparison for canopy structure parameters extraction from digital hemispherical photography in boreal forests, Agric. For. Meteorol., 129, 187207.
  • Lin, H., J. Bouma, L. P. Wilding, J. L. Richardson, M. Kutilek, and D. R. Nielsen (2005), Advances in hydropedology, Adv. Agron., 85, 189.
  • Loik, M. E., D. D. Breshears, W. K. Lauenroth, and J. Belnap (2004), A multi-scale perspective of water pulses in dryland ecosystems: Climatology and ecohydrology of the western USA, Oecologia, 141, 269281.
  • Martens, S. N., D. D. Breshears, and C. W. Meyer (2000), Spatial distributions of understory light along the grassland, Ecol. Modell., 126, 7993.
  • Matzinger, N., M. Andretta, E. Van Gorsel, R. Vogt, A. Ohmura, and M. W. Rotach (2003), Surface radiation budget in an Alpine valley, Q. J. R. Meteorol. Soc., 129, 877895.
  • Newman, B. D., B. P. Wilcox, S. R. Archer, D. D. Breshears, C. N. Dahm, C. J. Duffy, N. G. McDowell, F. M. Phillips, B. R. Scanlon, and E. R. Vivoni (2006), Ecohydrology of water-limited environments: A scientific vision, Water Resour. Res., 42, W06302, doi:10.1029/2005WR004141.
  • Nyhan, J. W. (2005), A seven-year water balance study of an evapotranspiration landfill cover varying in slope for semiarid regions, Vadose Zone J., 4, 466480.
  • Nyhan, J. W., T. G. Schofield, and R. H. Starmer (2001), A water balance study of four landfill cover designs varying in slope for semiarid regions, J. Environ. Qual., 30, 2214.
  • Rasmussen, C., R. J. Southard, and W. R. Horwath (2005), Modeling energy inputs to predict pedogenic environments using regional environmental databases, Soil Sci. Soc. Am. J., 69, 12661274.
  • Rich, P. M. (1989), A manual for analysis of hemispherical canopy photography, Rep. LA-11733-M, Los Alamos Natl. Lab., Los Alamos, N. M.
  • Rich, P. M. (1990), Characterizing plant canopies with hemispherical photography, in Instrumentation for Studying Vegetation Canopies for Remote Sensing in Optical and Thermal Infrared Regions, Remote Sens. Rev. Ser., edited by N. S. Goel, and J. M. Norman, pp. 1329, Routledge, Boca Raton, Fla.
  • Rich, P. M., J. Wood, D. A. Vieglais, K. Burek, and N. Webb (1999), Guide to HemiView: Software for analysis of hemispherical photography, manual, Delta-T Devices, Cambridge, U. K.
  • Rodriguez-Iturbe, I. (2000), Ecohydrology: A hydrologic perspective of climate-soil-vegetation dynamics, Water Resour. Res., 36, 39.
  • Scholes, R. J., and S. R. Archer (1997), Tree-grass interactions in savannas, Annu. Rev. Ecol. Syst., 28, 517544.
  • Weisberg, P. J., E. Lingua, and R. B. Pillai (2007), Spatial patterns of pinyon-juniper woodland expansion in central Nevada, Rangeland Ecol. Manage., 60, 115124.
  • Weiss, S. B., D. D. Murphy, and R. R. White (1988), Sun, slope, and butterflies: Topographic determinants of habitat quality for Euphydrya editha, Ecology, 69, 14861496.
  • Whiteman, C. D., K. J. Allwine, L. J. Fritschen, M. M. Orgill, and J. R. Simpson (1989a), Deep valley radiation and surface-energy budget microclimates: 1. Radiation, J. Appl. Meteorol., 28, 414426.
  • Whiteman, C. D., K. J. Allwine, L. J. Fritschen, M. M. Orgill, and J. R. Simpson (1989b), Deep valley radiation and surface-energy budget microclimates: 2. Energy budget, J. Appl. Meteorol., 28, 427437.
  • Whittaker, R. H., and W. A. Niering (1975), Vegetation of Santa Catalina Mountains, Arizona: 5. Biomass, production, and diversity along elevation gradient, Ecology, 56, 771790.
  • Yirdaw, E., and O. Luukkanen (2004), Photosynthetically active radiation transmittance of forest plantation canopies in the Ethiopian highlands, For. Ecol. Manage., 188, 1724.