Effects of stomatal delays on the economics of leaf gas exchange under intermittent light regimes
Version of Record online: 18 AUG 2011
© 2011 The Authors. New Phytologist © 2011 New Phytologist Trust
Volume 192, Issue 3, pages 640–652, November 2011
How to Cite
Vico, G., Manzoni, S., Palmroth, S. and Katul, G. (2011), Effects of stomatal delays on the economics of leaf gas exchange under intermittent light regimes. New Phytologist, 192: 640–652. doi: 10.1111/j.1469-8137.2011.03847.x
- Issue online: 19 OCT 2011
- Version of Record online: 18 AUG 2011
- Received: 13 April 2011, Accepted: 5 July 2011
- 2000. Stomatal behavior and photosynthetic performance under dynamic light regimes in a seasonally dry tropical rain forest. Oecologia 122: 470–478. , .
- 1999. The cellular basis of guard cell sensing of rising CO2. Plant, Cell & Environment 22: 629–637. .
- 1985. Blue-light activates electrogenic ion pumping in guard cell protoplasts of Vicia faba. Nature 318: 285–287. , , .
- 1987. Guard cell bioenergetics. In: Zeiger E, Farquhar GD, Cowan IR, eds. Stomatal function. Stanford, CA, USA: Stanford University Press, 163–194. , .
- 1953. On the quantitative explanation of stomatal transpiration. Acta Botanica Neerlandica 2: 255–297. .
- 1994. Stomatal responses to changing irradiance in Phaseolus vulgaris L. Journal of Experimental Botany 45: 931–936. , , .
- 1993. Optimal regulation of gas exchange – evidence from field data. Annals of Botany 71: 135–140. , .
- 1900. Static diffusion of gases and liquids in relation to the assimilation of carbon and translocation in plants. Philosophical Transactions of the Royal Society of London Series B: Containing Papers of a Biological Character 193: 223–291. , .
- 2003. A hydromechanical and biochemical model of stomatal conductance. Plant, Cell & Environment 26: 1767–1785. , , .
- 1994. Dependence of the extent and direction of average stomatal response in Zea mays L and Phaseolus vulgaris L on the frequency of fluctuations in environmental stimuli. Plant Physiology 105: 1007–1013. , , .
- 1988. Sunflecks and their importance to forest understorey plants. Advances in Ecological Research 18: 1–63. .
- 1967. Some theoretical considerations in stomatal diffusion: a field theory approach. Acta Biotheoretica XVII: 95–124. .
- 1977. Stomatal function in relation to leaf metabolism and environment. In: Jennings DH, ed. Integration of activity in the higher plants. Symposia of the Society of Experimental Biology. Cambridge, UK: Cambridge University Press, 471–505. , .
- 1975. Stomatal responses to changes in light-intensity as influenced by plant water stress. Forest Science 21: 129–133. , .
- 1998. Stream lighting in five regions of North Island, New Zealand: control by channel size and riparian vegetation. New Zealand Journal of Marine and Freshwater Research 32: 591–605. , .
- 2002. The Ball–Berry–Leuning and Tardieu–Davies stomatal models: synthesis and extension within a spatially aggregated picture of guard cell function. Plant, Cell & Environment 25: 1383–1398. .
- 1996. Photosynthetic and stomatal responses to variable light in a cool-season and a warm-season prairie forb. International Journal of Plant Sciences 157: 303–308. , .
- 2000. Dynamics of ionic activities in the apoplast of the sub-stomatal cavity of intact Vicia faba leaves during stomatal closure evoked by ABA and darkness. Plant Journal 24: 297–304. , , , .
- 2007. The mechanical diversity of stomata and its significance in gas-exchange control. Plant Physiology 143: 78–87. , .
- 1989. Variation in stomatal aperture in leaves of Avena fatua L. observed by low-temperature scanning electron-microscope. Plant, Cell & Environment 12: 887–897. , , .
- 1982. Inhibition of stomatal opening in Vicia faba epidermal tissue by vanadate and abscisic acid. Plant Science Letters 28: 63–72. , , .
- 1988. Adaptation to sun and shade – a whole-plant perspective. Australian Journal of Plant Physiology 15: 63–92. .
- 1986. Stomatal responses to light and leaf–air water-vapor pressure difference show similar kinetics in sugarcane and soybean. Plant Physiology 81: 865–868. , .
- 1997. A boreal forest grass with an open meadow photosynthetic strategy. Canadian Journal of Botany-Revue Canadienne de Botanique 75: 562–567. , .
- 2002. CO2-triggered chloride release from guard cells in intact fava bean leaves. Kinetics of the onset of stomatal closure. Plant Physiology 130: 940–950. , .
- 1986. Optimal control of gas exchange. Tree Physiology 2: 169–175. , , , .
- 2003. The role of stomata in sensing and driving environmental change. Nature 424: 901–908. , .
- 1976. Stomatal ion transport. In: Luttge U, Pitman MG, eds. Transport in plants II. Part B. Tissues and organs. New York, NY, USA: Springer-Verlag, 195–221. .
- 1987. Calcium inhibits ion-stimulated stomatal opening in epidermal strips of Commelina comunis L. Journal of Experimental Botany 38: 142–149. , .
- 1976. The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philosophical Transactions of the Royal Society of London – Series B 273: 593–610. .
- 2009. The relation between stomatal aperture and gas exchange under consideration of pore geometry and diffusional resistance in the mesophyll. Plant, Cell & Environment 32: 1091–1098. .
- 1997. In situ observations of stomatal movements in different light–dark regimes: the influence of endogenous rhythmicity and long-term adjustments. Journal of Experimental Botany 48: 1583–1589. , .
- 2000. In situ observation of stomatal movements and gas exchange of Aegopodium podagraria L. in the understorey. Journal of Experimental Botany 51: 1741–1749. , .
- 2001. Stomatal oscillations at small apertures: indications for a fundamental insufficiency of stomatal feedback-control inherent in the stomatal turgor mechanism. Journal of Experimental Botany 52: 1303–1313. , .
- 2010. A stomatal optimization theory to describe the effects of atmospheric CO2 on leaf photosynthesis and transpiration. Annals of Botany 105: 431–442. , , , .
- 2009. Leaf stomatal responses to vapour pressure deficit under current and CO2-enriched atmosphere explained by the economics of gas exchange. Plant, Cell & Environment 32: 968–979. , , .
- 1988. Observed and modeled stomatal responses to dynamic light environments in the shade plant Alocasia macrorrhiza. Plant, Cell & Environment 11: 111–121. , , .
- 1988. Gas-exchange analysis of the relative importance of stomatal and biochemical factors in photosynthetic induction in Alocasia macrorrhiza. Plant Physiology 86: 782–785. , .
- 1992. Leaf gas-exchange in Quercus macrocarpa (Fagaceae) – rapid stomatal responses to variability in sunlight in a tree growth form. American Journal of Botany 79: 599–604. .
- 1993. Gas-exchange dynamics in C3 and C4 grasses – consequences of differences in stomatal conductance. Ecology 74: 113–123. .
- 1994. Elevated atmospheric CO2 alters stomatal responses to variable sunlight in a C4 grass. Plant, Cell & Environment 17: 189–195. , , .
- 1987. Stomatal and photosynthetic responses during sun–shade transitions in sub-alpine plants – influence on water-use efficiency. Oecologia 74: 62–67. , .
- 1988. Effect of water-stress on stomatal and photosynthetic responses in subalpine plants to cloud patterns. American Journal of Botany 75: 851–858. , .
- 1989. Influence of growth form on ecophysiological responses to variable sunlight in subalpine plants. Ecology 70: 1069–1082. , .
- 1990. Contrasting stomatal responses to variable sunlight in two subalpine herbs. American Journal of Botany 77: 226–231. , .
- 2003. Physiological plant ecology. Berlin, Germany: Springer. .
- 1964. Diffusion resistance in leaves as related to their stomatal anatomy and micro-structure. American Journal of Botany 51: 963–975. , .
- 1995. A critical-appraisal of a combined stomatal–photosynthesis model for C3 plants. Plant, Cell & Environment 18: 339–355. .
- 1994. C13 discrimination during CO2 assimilation by the terrestrial biosphere. Oecologia 99: 201–215. , .
- 1994. A semi-phenomenological model for stomatal gas transport. Journal of Theoretical Biology 171: 291–301. , , , .
- 1996. Optimal control of gas exchange during drought: theoretical analysis. Annals of Botany 77: 461–467. , , .
- 2011. Optimizing stomatal conductance for maximum carbon gain under water stress: a meta-analysis across plant functional types and climates. Functional Ecology 25: 456–467. , , , , , , .
- 2008. Adaptive radiation of photosynthetic physiology in the Hawaiian lobeliads: dynamic photosynthetic responses. Oecologia 155: 455–467. , .
- 2000. Photosynthesis sunfleck utilization potential of understory saplings growing under elevated CO2 in FACE. Oecologia 122: 163–174. , .
- 2001. Modeling dynamic understory photosynthesis of contrasting species in ambient and elevated carbon dioxide. Oecologia 126: 487–499. , , .
- 2006. Plant allometry, leaf nitrogen and phosphorus stoichiometry, and interspecific trends in annual growth rates. Annals of Botany 97: 155–163. .
- 1982. Simulation of microclimates. In: Hatfield JL, Thompson I, eds. Biometeorology and integrated pest management. New York, NY, USA: Academic Press, 65–99. .
- 2003. Effect of asymmetric stomatal response on gas-exchange dynamics. Ecological Modelling 164: 65–82. , .
- 1970. Stomatal dimensions and resistance to diffusion. Plant Physiology 46: 337–342. , .
- 1959. A contribution to the study of diffusion of neutral particles through pores. Bulletin of Mathematical Biology 21: 129–140. .
- 1990. Sunflecks and photosynthesis in plant canopies. Annual Review of Plant Physiology and Plant Molecular Biology 41: 421–453. .
- 1997. An improved dynamic model of photosynthesis for estimation of carbon gain in sunfleck light regimes. Plant, Cell & Environment 20: 411–424. , , .
- 2004. Gas exchange responses of a desert herbaceous perennial to variable sunlight in contrasting microhabitats. Journal of Arid Environments 58: 439–449. , , .
- 1997. Rates of stomatal opening in conifer seedlings in relation to air temperature and daily carbon gain. Plant, Cell & Environment 20: 1462–1472. , .
- 1977. Influence of light intensity, temperature, and leaf area on stomatal aperture and water potential of woody plants. Canadian Journal of Forest Research-Revue Canadienne de Recherche Forestiere 7: 145–153. , .
- 1989. Daily carbon gain by Adenocaulon bicolor (Asteraceae), a redwood forest understory herb, in relation to its light environment. Oecologia 80: 465–470. , .
- 1975. Stomatal action. Annual Review of Plant Physiology and Plant Molecular Biology 26: 309–340. .
- 1973. No uptake of anions required by opening stomata of Vicia faba: guard cells release hydrogen ions. Planta 115: 47–57. , .
- 2000. Photosynthetic induction in saplings of three shade-tolerant tree species: comparing understorey and gap habitats in a French Guiana rain forest. Oecologia 125: 331–340. , , , .
- 2005. In the light of stomatal opening: new insights into ‘the Watergate’. New Phytologist 167: 665–691. , .
- 1993. Consequences of nonequilibrium resource availability across multiple time scales – the transient maxima hypothesis. American Naturalist 141: 621–633. , .
- 2007. Light regulation of stomatal movement. Annual Review of Plant Biology 58: 219–247. , , , .
- 2006. Plant physiology. Sunderland, MA, USA: Sinauer Associates, Inc. , .
- 1965. Further studies concerning stomatal diffusion. Plant Physiology 40: 220–228. , .
- 1993. Stomatal dynamics and its importance to carbon gain in two rain forest Piper species. 1. VPD effects on the transient stomatal response to lightflecks. Oecologia 94: 388–394. , .
- 1980. Diffusion from a circular stoma through a boundary layer: a field-theoretical analysis. Plant Physiology 66: 250–253. .
- 1997. Photosynthetic responses to dynamic light under field conditions in six tropical rainforest shrubs occurring along a light gradient. Oecologia 111: 505–514. , , .
- 2008. Shade tolerance, a key plant feature of complex nature and consequences. Annual Review of Ecology, Evolution and Systematics 39: 237–257. , .
- 2005. Guard cell metabolism and CO2 sensing. New Phytologist 165: 665–682. , .
- 1995. Experimental and numerical analysis of stomatal absorption of sulfur dioxide and transpiration by pine needles. Atmospheric Environment 29: 825–836. , , , , , , , , .
- 2000. Effect of variations of PAR on CO2 exchange estimation for Scots pine. Agricultural and Forest Meteorology 100: 337–347. , , , , , .
- 1965. Transpiration and the stomata of leaves. Science 150: 1413–1420. , .
- 1985. Analysis of gas exchange in seedlings of Acer saccharum– integration of field and laboratory studies. Oecologia 65: 338–347. , , , .
- 1995. Dynamic-response of stomata to changing irradiance in loblolly pine (Pinus taeda L). Tree Physiology 15: 245–251. , .
- 1971. Stomatal response to changing light by four tree species of varying shade tolerance. New Phytologist 70: 77–84. , .
- 1983. The biology of stomatal guard cell. Annual Review of Plant Physiology 34: 441–475. .
- 1997. Photosynthetic induction and stomatal oscillations in relation to the light environment of two dipterocarp rain forest tree species. Journal of Ecology 85: 491–503. , .