Comparing the Penman―Monteith equation and a modified Jarvis―Stewart model with an artificial neural network to estimate stand-scale transpiration and canopy conductance
暂无分享,去创建一个
Belinda E. Medlyn | Melanie J. B. Zeppel | Rhys Whitley | Catriona M. O. Macinnis-Ng | Derek Eamus | B. Medlyn | M. Zeppel | D. Eamus | R. Whitley | C. Macinnis-Ng | Rhys Whitley
[1] Gabriel Abramowitz,et al. Towards a benchmark for land surface models , 2005 .
[2] Ruth P. Mack,et al. Long-Term Trends , 2011 .
[3] T. Kume,et al. Transpiration from a Cryptomeria japonica plantation, part 1: aerodynamic control of transpiration , 2006 .
[4] R. Huc,et al. Transpiration of natural rain forest and its dependence on climatic factors , 1996 .
[5] T. Kume,et al. Transpiration from a Cryptomeria japonica plantation, part 2: responses of canopy conductance to meteorological factors , 2006 .
[6] L. Simmonds,et al. Estimation of transpiration by single trees: comparison of sap flow measurements with a combination equation , 1997 .
[7] Rong Tsao,et al. Plant growth regulatory effect and insecticidal activity of the extracts of the Tree of Heaven (Ailanthus altissima L.) , 2002, BMC Ecology.
[8] M. Battaglia,et al. Measured and predicted changes in tree and stand water use following high-intensity thinning of an 8-year-old Eucalyptus nitens plantation. , 2002, Tree physiology.
[9] P. Jarvis. The Interpretation of the Variations in Leaf Water Potential and Stomatal Conductance Found in Canopies in the Field , 1976 .
[10] D. Whitehead. Regulation of stomatal conductance and transpiration in forest canopies. , 1998, Tree physiology.
[11] R. R. Walker,et al. Determination of transpiration in irrigated grapevines: comparison of the heat-pulse technique with gravimetric and micrometeorological methods , 2000, Irrigation Science.
[12] David E. Goldberg,et al. Genetic Algorithms in Search Optimization and Machine Learning , 1988 .
[13] Murugesu Sivapalan,et al. Modelling the energy balance of a natural jarrah (Eucalyptus Marginata) forest , 2003 .
[14] Yadvinder Malhi,et al. Effect of soil moisture on canopy conductance of Amazonian rainforest , 2004 .
[15] D. Mackay,et al. Interannual consistency in canopy stomatal conductance control of leaf water potential across seven tree species. , 2007, Tree physiology.
[16] Rob R. Walker,et al. Regulation of canopy conductance and transpiration and their modelling in irrigated grapevines. , 2003, Functional plant biology : FPB.
[17] Fredrik Lagergren,et al. Transpiration response to soil moisture in pine and spruce trees in Sweden , 2002 .
[18] E. Rastetter,et al. Seasonal variation in net carbon exchange and evapotranspiration in a Brazilian rain forest: a modelling analysis , 1998 .
[19] R. Oren,et al. Species differences in stomatal control of water loss at the canopy scale in a mature bottomland deciduous forest , 2003 .
[20] M. Zeppel,et al. Coordination of leaf area, sapwood area and canopy conductance leads to species convergence of tree water use in a remnant evergreen woodland , 2008 .
[21] T. Kolb,et al. The influence of thinning on components of stand water balance in a ponderosa pine forest stand during and after extreme drought , 2005 .
[22] D. Eamus,et al. A rate equation model of stomatal responses to vapour pressure deficit and drought , 2002, BMC Ecology.
[23] P. Cook,et al. Groundwater use by riparian vegetation in the wet–dry tropics of northern Australia , 2006 .
[24] C. R. Lloyd,et al. Micrometeorological measurements in Les Landes forest during HAPEX-MOBILHY , 1989 .
[25] M. J. Ogink-Hendriks. Modelling surface conductance and transpiration of an oak forest in The Netherlands , 1995 .
[26] D. F. Parkhurst,et al. Stomatal responses to humidity in air and helox , 1991 .
[27] K. G. McNaughton,et al. Stomatal Control of Transpiration: Scaling Up from Leaf to Region , 1986 .
[28] K. Vielhauer,et al. Transpiration and canopy conductance of secondary vegetation in the eastern Amazon , 2002 .
[29] Y. Kosugi,et al. Evapotranspiration over a Japanese cypress forest. I. Eddy covariance fluxes and surface conductance characteristics for 3 years , 2007 .
[30] A. Granier,et al. Water balance, transpiration and canopy conductance in two beech stands , 2000 .
[31] A. P. O'Grady,et al. Transpiration increases during the dry season: patterns of tree water use in eucalypt open-forests of northern Australia. , 1999, Tree physiology.
[32] Ram Oren,et al. Analyses of assumptions and errors in the calculation of stomatal conductance from sap flux measurements. , 2000, Tree physiology.
[33] Peter G. Cook,et al. Ecohydrology: Vegetation Function, Water and Resource Management , 2006 .
[34] D. Eamus,et al. Influence of season, drought and xylem ABA on stomatal responses to leaf-to-air vapour pressure difference of trees of the Australian wet-dry tropics , 2000 .
[35] H. Rocha,et al. Surface conductance of Amazonian pasture: model application and calibration for canopy climate , 1995 .
[36] D. Eamus,et al. The influence of predawn leaf water potential on stomatal responses to atmospheric water content at constant Ci and on stem hydraulic conductance and foliar ABA concentrations , 1999 .
[37] Nader Katerji,et al. Measurement and modelling of evapotranspiration of irrigated citrus orchard under Mediterranean conditions , 2005 .
[38] D. Anhuf,et al. Characteristics of the water and energy balance in an Amazonian lowland rainforest in Venezuela and the impact of the ENSO-cycle , 2007 .
[39] L. Kirkup,et al. Comparison of equations describing band broadening in high-performance liquid chromatography. , 2004, Journal of chromatography. A.
[40] S. Wullschleger,et al. Sensitivity of canopy transpiration to altered precipitation in an upland oak forest: evidence from a long‐term field manipulation study , 2006 .
[41] M. Zeppel,et al. Seasonal responses of xylem sap velocity to VPD and solar radiation during drought in a stand of native trees in temperate Australia. , 2004, Functional plant biology : FPB.
[42] M. Zeppel,et al. A modified Jarvis-Stewart model for predicting stand-scale transpiration of an Australian native forest , 2008, Plant and Soil.
[43] Denis Loustau,et al. Measuring and modelling the transpiration of a maritime pine canopy from sap-flow data , 1994 .
[44] D. Eamus,et al. Comparing model predictions and experimental data for the response of stomatal conductance and guard cell turgor to manipulations of cuticular conductance, leaf-to-air vapour pressure difference and temperature: feedback mechanisms are able to account for all observations. , 2008, Plant, cell & environment.
[45] Kuolin Hsu,et al. Self‐organizing linear output map (SOLO): An artificial neural network suitable for hydrologic modeling and analysis , 2002 .
[46] W. J. Shuttleworth,et al. Stomatal and surface conductance of tropical rainforest , 1991 .
[47] J. Monteith. Evaporation and environment. , 1965, Symposia of the Society for Experimental Biology.
[48] M. Zeppel,et al. Long term trends of stand transpiration in a remnant forest during wet and dry years , 2008 .
[49] S. Wullschleger,et al. Transpiration from a multi-species deciduous forest as estimated by xylem sap flow techniques , 2001 .
[50] J. S. Pereira,et al. Transpiration from a mature Eucalyptus globulus plantation in Portugal during a spring-summer period of progressively higher water deficit , 1997, Oecologia.
[51] J. Stewart. Modelling surface conductance of pine forest , 1988 .
[52] J. Fisher,et al. Nighttime transpiration in woody plants from contrasting ecosystems. , 2007, Tree physiology.
[53] John L. Monteith,et al. A reinterpretation of stomatal responses to humidity , 1995 .
[54] R. Leuning,et al. Evaporation and canopy characteristics of coniferous forests and grasslands , 1993, Oecologia.