Atmospheric and soil drought reduce nocturnal conductance in live oaks.
暂无分享,去创建一个
[1] R. Pangle,et al. Nocturnal transpiration causing disequilibrium between soil and stem predawn water potential in mixed conifer forests of Idaho. , 2007, Tree physiology.
[2] T. Link,et al. Cold air drainage and modeled nocturnal leaf water potential in complex forested terrain. , 2007, Tree physiology.
[3] J. Fisher,et al. Nighttime transpiration in woody plants from contrasting ecosystems. , 2007, Tree physiology.
[4] M. Lechowicz,et al. The ecological and functional correlates of nocturnal transpiration. , 2007, Tree physiology.
[5] A. Goldstein,et al. What the towers don't see at night: nocturnal sap flow in trees and shrubs at two AmeriFlux sites in California. , 2007, Tree physiology.
[6] G. Goldstein,et al. Removal of nutrient limitations by long-term fertilization decreases nocturnal water loss in savanna trees. , 2007, Tree physiology.
[7] Melvin T. Tyree,et al. Putative Role of Aquaporins in Variable Hydraulic Conductance of Leaves in Response to Light1 , 2006, Plant Physiology.
[8] Lawren Sack,et al. How strong is intracanopy leaf plasticity in temperate deciduous trees? , 2006, American journal of botany.
[9] N. Phillips,et al. Interspecific variation in nighttime transpiration and stomatal conductance in a mixed New England deciduous forest. , 2006, Tree physiology.
[10] M. Canny,et al. Leaf water content and palisade cell size. , 2006, The New phytologist.
[11] D. Whitehead,et al. Nocturnal stomatal conductance and implications for modelling δ18O of leaf-respired CO2 in temperate tree species. , 2005, Functional plant biology : FPB.
[12] G. Goldstein,et al. Diurnal and seasonal variation in root xylem embolism in neotropical savanna woody species: impact on stomatal control of plant water status. , 2006, Plant, cell & environment.
[13] Lawren Sack,et al. Leaf hydraulics. , 2006, Annual review of plant biology.
[14] A. Nardini,et al. Water stress-induced modifications of leaf hydraulic architecture in sunflower: co-ordination with gas exchange. , 2005, Journal of experimental botany.
[15] N. Holbrook,et al. Leaf hydraulic architecture correlates with regeneration irradiance in tropical rainforest trees. , 2005, The New phytologist.
[16] Frederick C. Meinzer,et al. Mechanisms contributing to seasonal homeostasis of minimum leaf water potential and predawn disequilibrium between soil and plant water potential in Neotropical savanna trees , 2005, Trees.
[17] T. Brodribb,et al. Water loss physiology and the evolution within the Tasmanian conifer genus Athrotaxis (Cupressaceae) , 2004 .
[18] G. Goldstein,et al. Processes preventing nocturnal equilibration between leaf and soil water potential in tropical savanna woody species. , 2004, Tree physiology.
[19] M. Šimková,et al. A new technique for measurement of water permeability of stomatous cuticular membranes isolated from Hedera helix leaves. , 2004, Journal of experimental botany.
[20] D. Gansert. Xylem sap flow as a major pathway for oxygen supply to the sapwood of birch (Betula pubescens Ehr.) , 2003 .
[21] N. Holbrook,et al. The ‘hydrology’ of leaves: co‐ordination of structure and function in temperate woody species , 2003 .
[22] N. Holbrook,et al. Changes in leaf hydraulic conductance during leaf shedding in seasonally dry tropical forest , 2003 .
[23] J. Richards,et al. MAGNITUDE AND MECHANISMS OF DISEQUILIBRIUM BETWEEN PREDAWN PLANT AND SOIL WATER POTENTIALS , 2003 .
[24] K. Snyder,et al. Night-time conductance in C3 and C4 species: do plants lose water at night? , 2003, Journal of experimental botany.
[25] Jeannine M Cavender-Bares,et al. Hydraulic properties and freezing‐induced cavitation in sympatric evergreen and deciduous oaks with contrasting habitats , 2001 .
[26] J. Richards,et al. Factors affecting the relationship between carbon isotope discrimination and transpiration efficiency in blue oak (Quercus douglasii) , 2001 .
[27] A. Nardini,et al. Limitation of stomatal conductance by hydraulic traits: sensing or preventing xylem cavitation? , 2000, Trees.
[28] N. Holbrook,et al. Xylem sap flow and stem hydraulics of the vesselless angiosperm Drimys granadensis (Winteraceae) in a Costa Rican elfin forest , 2000 .
[29] F. A. Bazzaz,et al. Changes in drought response strategies with ontogeny in Quercus rubra: implications for scaling from seedlings to mature trees , 2000, Oecologia.
[30] R. Benyon,et al. Nighttime water use in an irrigated Eucalyptus grandis plantation. , 1999, Tree physiology.
[31] L. Donovan,et al. Predawn disequilibrium between plant and soil water potentials in two cold-desert shrubs , 1999, Oecologia.
[32] T. Tschaplinski,et al. Water relations of several hardwood species in response to throughfall manipulation in an upland oak forest during a wet year. , 1998, Tree physiology.
[33] G. Kerstiens. Cuticular water permeability and its physiological significance , 1996 .
[34] P. Nobel,et al. Hydraulic Conductances of the Soil, the Root-Soil Air Gap, and the Root: Changes for Desert Succulents in Drying Soil , 1992 .
[35] J. Hadley,et al. Influence of leaf surface wax and leaf area to water content ratio on cuticular transpiration in western conifers, U.S.A. , 1990 .
[36] R. C. Muchow,et al. Epidermal conductance, stomatal density and stomatal size among genotypes of Sorghum bicolor (L.) Moench , 1989 .
[37] Robert W. Pearcy,et al. Measurement of transpiration and leaf conductance , 1989 .
[38] P. Reich,et al. Influence of pre-dawn water potential and soil-to-leaf hydraulic conductance on maximum daily leaf diffusive conductance in two oak species , 1989 .
[39] I. R. Cowan,et al. A Direct Confirmation of the Standard Method of Estimating Intercellular Partial Pressure of CO(2). , 1982, Plant physiology.
[40] C. H. Muller. The Central American species of Quercus , 1942 .