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References

  • Alben S, Shelley M. 2004. How flexibility induces streamlining in a two-dimensional flow. Physics of Fluids 16: 16941713.
  • Argentina M, Mahadevan L. 2005. Fluid-flow induced flutter of a flag. Proceedings of the National Academy of Sciences, USA 102: 18291834.
  • Balding FR, Cunningham GL. 1976. A comparison of heat transfer characteristics of simple and pinnate leaf models. Botanical Gazette 137: 6574.
  • Ball MC, Canny MJ, Huang CX, Heady RD. 2004. Structural changes in acclimated and unacclimated leaves during freezing and thawing. Functional Plant Biology 31: 2940.
  • Ball MC, Cowan IR, Farquhar GD. 1988. Maintenance of leaf temperature and the optimisation of carbon gain in relation to water temperature in a tropical mangrove forest. Australian Journal of Plant Physiology 15: 263266.
  • Brenner AJ, Jarvis PG. 1995. A heated leaf replica technique for determining boundary layer conductance in the field. Agricultural and Forest Meteorology 72: 261275.
  • Cescatti A, Marcolla B. 2004. Drag coefficient and turbulence intensity in conifer canopies. Agricultural and Forest Meteorology 121: 197206.
  • CouttsMP, GraceJ , eds. 1995. Wind and trees. Cambridge, UK: Cambridge University Press.
  • Cowan IR. 1972. Mass and heat transfer in laminar boundary layers with particular reference to assimilation and transpiration in leaves. Agricultural Meteorology 10: 311329.
  • Cullen S. 2005. Trees and wind: a practical consideration of the drag equation velocity exponent for urban tree risk management. Journal of Arboriculture 31: 101113.
  • Daniel TL. 1984. Unsteady aspects of aquatic locomotion. American Zoologist 24: 121134.
  • Ehleringer JR, Moody HA. 1978. Leaf hairs: effects on physiological activity and adaptive value to a desert shrub. Oecologia 37: 183200.
  • Endler JA. 1986. Natural selection in the wild. Princeton, NJ, USA: Princeton University Press.
  • Enright JT. 1982. Sleep movements in leaves: in defense of Darwin's interpretation. Oecologia 54: 253259.
  • Fischenich C, Dudley S. 1999. Determining drag coefficients and area for vegetation. EMRRP Technical Notes Collection SR-08. Vicksburg, MS, USA: US Army Engineer Research and Development Center, 114.
  • Frazer AI. 1962. Wind tunnel studies of the forces acting on the crowns of small trees. Reports of Forest Research (UK) 1962: 178183.
  • Gaines SD, Denny MW. 1993. The largest, smallest, highest, lowest, longest, and shortest: extremes in ecology. Ecology 74: 16771692.
  • Gates DM, Tibbals EC, Krieth F. 1965. Radiation and convection for ponderosa pine. American Journal of Botany 52: 6671.
  • Gates DM. 1962. Energy exchange in the biosphere. New York, NY, USA: Harper and Row.
  • Gates DM. 1965. Energy, plants and ecology. Ecology 46: 113.
  • Givnish TJ. 1978. On the adaptive significance of compound leaves, with particular reference to tropical trees. In: TomlinsonPB, ZimmermannMH, eds. Tropical trees as living systems. Cambridge, UK: Cambridge University Press, 351380.
  • Gottschlich DE, Smith AP. 1982. Convective heat transfer characteristics of toothed leaves. Oecologia 53: 418420.
  • Grace J. 1977. Plant response to wind. London, UK: Academic Press.
  • Grace J. 1978. The turbulent boundary layer over a flapping Populus leaf. Plant, Cell & Environment 1: 3538.
  • Grantz DA, Vaughn DL. 1999. Vertical profiles of boundary layer conductance and wind speed in a cotton canopy measured with heated brass surrogate leaves. Agricultural and Forest Meteorology 97: 187197.
  • Gurevitch J. 1988. Variation in leaf dissection and leaf energy budget among populations of Achillea from an altitudinal gradient. American Journal of Botany 75: 12981306.
  • Gurevitch J. 1992. Sources of variation in leaf shape among two populations of Achillea lanulosa. Genetics 130: 385394.
  • Hanson HC. 1917. Leaf structure as related to environment. American Journal of Botany 4: 533560.
  • Hendrickson L, Ball MC, Wood JT, Chow WS, Furbank RT. 2004. Low temperature effects on photosynthesis and growth of grapevine. Plant, Cell & Environment 27: 795809.
  • Hoerner SF. 1965. Fluid-dynamic drag. Brick Town, NJ, USA: Hoerner Fluid Dynamics.
  • Jackson, LWR. 1967. Effects of shade on leaf structure of deciduous tree species. Ecology 48: 498499.
  • Johnson RC Jr, Ramey GE, O’Hagan DS. 1982. Wind induced forces on trees. Journal of Fluids Engineering 104: 2530.
  • Jones CS. 1995. Does shade prolong juvenile development? A morphological analysis of leaf shape in Cucurbita argyrosperma subspecies sororia (Cucurbitaceae). American Journal of Botany 82: 346359.
  • Kincaid DT, Anderson PJ, Mori SA. 1998. Leaf variation in a tree of Pourouma tormentosa in French Guiana. Brittonia 50: 324338.
  • Kincaid DT. 1976. Theoretical and experimental investigations of Ilex pollen and leaves in relation to microhabitat in the southeastern United States. PhD thesis, Wake Forest University, Winston-Salem, NC, USA.
  • De Langre E. 2008. Effects of wind on plants. Annual Review of Fluid Mechanics 40: 141168.
  • Leigh A, Close JD, Ball MC, Siebke K, Nicotra AB. 2006. Leaf cooling curves: measuring leaf temperature in sunlight. Functional Plant Biology 33: 515519.
  • Leuning R, Cremer KW. 1988. Leaf temperatures during radiation frost. I. Observations. Agricultural and Forest Meteorology 42: 121133.
  • Lewis MC. 1969. Genecological differentiation of leaf morphology in Geranium sanguineum L. New Phytologist 68: 481503.
  • Loomis WE. 1965. Absorption of radiant energy by leaves. Ecology 46: 1417.
  • Martin EV, Clements FE. 1939. Adaptation and origin in the plant world. 1. Factors and functions in coastal dunes. Carnegie Institute of Washington Publication 521: 1107.
  • Martin EV. 1943. Studies of evaporation and transpiration under controlled conditions. Carnegie Institute of Washington Publication 550: 148.
  • Mayhead GJ. 1973. Some drag coefficients for British forest trees derived from wind tunnel studies. Agricultural Meteorology 12: 123130.
  • McCain DC, Croxdale J, Markley JL. 1988. Water is allocated differently to chloroplasts in sun and shade leaves. Plant Physiology 86: 1618.
  • Monteith JL, Unsworth MH. 2008. Principles of environmental physics, 3rd edn. Burlington, MA, USA: Academic Press.
  • Monteith JL. 1981. Coupling of plants to the atmosphere. In: GraceJ, Ford, ED, JarvisPG, eds. Plants and their atmospheric environment. Oxford, UK: Blackwell Scientific Publications, 129.
  • Niinemets O, Kull O. 1999. Biomass investment in leaf lamina versus lamina support in relation to growth, irradiance and leaf size in temperate deciduous trees. Tree Physiology 19: 349358.
  • Niklas KJ. 1996. Differences between Acer saccharum leaves from open and wind-protected sites. Annals of Botany 78: 6166.
  • Niklas KJ. 1997. The evolutionary biology of plants. Chicago, IL, USA: University of Chicago Press.
  • Niklas KJ. 1999. A mechanical perspective on foliage leaf form and function. New Phytologist 143: 1931.
  • Nobel P. 2005. Physicochemical and enviromental plant physiology, 3rd edn. Burlington, MA, USA: Academic Press.
  • Oliver HR, Mayhead GJ. 1973. Wind measurements in a pine forest during a destructive gale. Forestry 47: 185194.
  • Parkhurst DF, Duncan PR, Gates DM, Kreith F. 1968. Convection heat transfer from broad leaves of plants. Journal of Heat Transfer 90: 7176.
  • Parkhurst DF, Pearman GI. 1974. Convective heat transfer from a semi-infinite plate to periodic flow at various angles of incidence. Agricultural Meteorology 13: 383393.
  • Parlange J-Y, Waggoner PE, Heickel GH. 1971. Boundary layer resistance and temperature distribution on still and flapping leaves. Plant Physiology 48: 43742.
  • Pearman GI, Weaver HL, Tanner CB. 1972. Boundary layer heat transfer coefficients under field conditions. Agricultural Meteorology 10: 8392.
  • Perrier ER, Aston A, Arkin GF. 1973. Wind flow characteristics on a soybean leaf compared with a leaf model. Physiologia Plantarum 28: 106112.
  • Philpott J. 1956. Blade tissue organization of foliage leaves of some Carolina shrub-bog species as compared with their Appalachian mountain affinities. Botanical Gazette 118: 88105.
  • Platt RB, Wolfe JN. 1950. General uses and methods of thermistors in temperature investigations, with special reference to a technique for high sensitivity contact temperature measurement. Plant Physiology 25: 507512.
  • Read J, Stokes A. 2006. Plant biomechanics in an ecological context. American Journal of Botany 93: 15461565.
  • Roden JS, Pearcy RW. 1993. The effect of flutter on the temperature of poplar leaves and its implication for carbon gain. Plant, Cell & Environment 16: 571577.
  • Roth-Nebelsink A. 2001. Computer-based analysis of steady-state and transient heat transfer of small-sized leaves by free and mixed convection. Plant, Cell & Environment 24: 631640.
  • Royer DL, McElwain JC, Adams JM, Wilf P. 2008. Sensitivity of leaf size and shape to climate within Acer rubrum and Quercus kelloggii. New Phytologist 178: 808817.
  • Royer DL, Wilf P, Janesko DA, Kowalski EA, Dilcher DL. 2005. Correlations of climate and plant ecology to leaf size and shape: potential proxies for the fossil record. American Journal of Botany 92: 11411151.
  • Sack L, Melcher PJ, Liu WH, Middleton E, Pardee T. 2006. How strong is intracanopy leaf plasticity in temperate deciduous trees? American Journal of Botany 93: 829839.
  • Schlichting CD. 1986. The evolution of phenotypic plasticity in plants. Annual Review of Ecology and Systematics 17: 667693.
  • Schrader SM, Kleinbeck KR, Sharkey TD. 2007. Rapid heating of intact leaves reveals initial effects of stromal oxidation on photosynthesis. Plant, Cell & Environment 30: 671678.
  • Schuepp PH. 1993. Leaf boundary layers. New Phytologist 125: 477507.
  • Sharkey TD, Wiberley AE, Donohue AR. 2008. Isoprene emission from plants: why and how. Annals of Botany 101: 518.
  • Shields LM. 1950. Leaf xeromorphy as related to physiological and structural influences. Botanical Review 16: 399447.
  • Sinclair R, Thomas DA. 1970. Optical properties of leaves of some species in arid South Australia. Australian Journal of Botany 18: 261273.
  • Sinclair R. 1970. Convective heat transfer from narrow leaves. Australian Journal of Biological Sciences 23: 309321.
  • Slaton MR, Hunt ER Jr, Smith WK. 2001. Estimating near-infrared leaf reflectance from leaf structural characteristics. American Journal of Botany 88: 278284.
  • Smith M, Ullberg D. 1989. Effect of leaf angle and orientation on photosynthesis and water relations in Silphium terebinthinaceum. American Journal of Botany 76: 17141719.
  • Smith WK, Nobel PS. 1977. Temperature and water relations for sun and shade leaves of a desert broadleaf, Hyptis emoryi. Journal of Experimental Botany 28: 169183.
  • De Soyza AG, Kincaid DT. 1991. Patterns of leaf morphology and photosynthesis in shoots of Sassafras albidum (Lauraceae). American Journal of Botany 78: 8998.
  • Speck O. 2003. Field measurements of wind speed and reconfiguration in Arundo donax (Poaceae) with estimates of drag forces. American Journal of Botany 90: 12531256.
  • Stokes VJ, Morecroft MD, Morison JIL. 2006. Boundary layer conductance for contrasting leaf shapes in a deciduous broadleaved forest canopy. Agricultural and Forest Meteorology 139: 4054.
  • Stowe LG, Brown JL. 1981. A geographic perspective on the ecology of compound leaves. Evolution 35: 818821.
  • Talbert CM, Holch AE. 1957. A study of the lobing of sun and shade leaves. Ecology 38: 655658.
  • Tibbals EC, Carr EK Gates DM, Krieth F. 1964. Radiation and convection in conifers. American Journal of Botany 51: 529538.
  • Vogel S. 1968. Sun leaves and shade leaves: differences in convective heat dissipation. Ecology 49: 12031204.
  • Vogel S. 1969. Low-speed wind tunnels for biological investigations. In: KerkutGA, ed. Experiments in physiology and biochemistry, Vol. 2. London, UK: Academic Press, 295325.
  • Vogel S. 1970. Convective cooling at low airspeeds and the shapes of broad leaves. Journal of Experimental Botany 21: 91101.
  • Vogel S. 1981. Life in moving fluids: the physical biology of flow. Boston, MA, USA: Willard Grant Press.
  • Vogel S. 1984a. The thermal conductivity of leaves. Canadian Journal of Botany 62: 741744.
  • Vogel S. 1984b. Drag and flexibility in sessile organisms. American Zoologist 24: 3744.
  • Vogel S. 1989. Drag and reconfiguration of broad leaves in high winds. Journal of Experimental Botany 40: 941948.
  • Vogel S. 1993. When leaves save the tree. Natural History 102(9): 5863.
  • Vogel S. 1994. Life in moving fluids, 2nd edn. Princeton, NJ, USA: Princeton University Press.
  • Vogel S. 1998. Convergence as an analytical tool in evaluating design. In: TaylorCR, WeibelER, eds. Principles of animal design. Cambridge, UK: Cambridge University Press, 1320.
  • Vogel S. 2005a. Living in a physical world. IV. Moving heat around. Journal of Biosciences 30: 449460.
  • Vogel S. 2005b. Living in a physical world. V. Maintaining temperature. Journal of Biosciences 30: 581590.
  • Vogel S. 2006. Living in a physical world. IX. Making and maintaining liquid water. Journal of Biosciences 31: 525536.
  • Vollsinger S, Mitchell SJ, Byrne KE, Novak MD, Rudnicki M. 2005. Wind tunnel measurements of crown streamlining and drag relationships for several hardwood species. Canadian Journal of Forest Research 35: 12381249.
  • Wigley G, Clark JA. 1974. Heat transport coefficients for constant energy flux models of broad leaves. Boundary Layer Meteorology 7: 139150.
  • Wilson J. 1980. Macroscopic features of wind damage to leaves of Acer pseudoplatanus L. and its relationship with season, leaf age, and windspeed. Annals of Botany 46: 303311.
  • Wilson TP, Canny MJ, McCully ME. 1991. Leaf teeth, transpiration and the retrieval of apoplastic solutes in balsam poplar. Physiologia Plantarum 83: 225232.
  • Winn AA. 1999. The functional significance and fitness consequences of heterophylly. International Journal of Plant Science 160: S113S121.