[1] |
Ball JT, Woodrow IE, Berry JA (1987). A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions. In: Biggins I ed. Progress in Photosynthesis Research. Martinus Nijhoff Publishers,Netherlands,221-224.
|
[2] |
Buckley TN, Mott KA, Farquhar GD (2003). A hydromechanical and biochemical model of stomatal conductance. Plant, Cell and Environment, 26,1767-1785.
|
[3] |
Campbell GS, Jungbauer JD, Shiozawa S, Hungerford RD (1993). A one-parameter equation for water sorption isotherms of soils. Soil Science, 156,302-305.
|
[4] |
Costa Franca MG, Pham Thi AT, Pimentel C, Pereyra Rossiello RO, Zuily-Fodil Y, Laffray D (2000). Differences in growth and water relations among Phaseolus vulgaris cultivars in response to induced drought stress. Environmental and Experimental Botany, 43,227-237.
URL
PMID
|
[5] |
Dewar RC (2002). The Ball-Berry-Leuning and Tardieu-Davies stomatal models: synthesis and extension within a spatially aggregated picture of guard cell function. Plant, Cell and Environment, 25,1383-1398.
|
[6] |
Dong X, Zhang X (2001). Some observations of the adaptations of sandy shrubs to the arid environment in the Mu Us Sandland: leaf water relations and anatomic features. Journal of Arid Environments, 48,41-48.
|
[7] |
Franks PJ, Cowan IR, Farquhar GD (1997). The apparent feedforward response of stomata to air vapour pressure deficit: information revealed by different experimental procedures with two rainforest trees. Plant,Cell and Environment, 20,142-145.
|
[8] |
Gao Q, Reynolds JF (2003). Historical shrub-grass transitions in the northern Chihuahuan Desert: modeling the effects of shifting rainfall seasonality and event size over a landscape gradient. Global Change Biology, 9,1475-1493.
|
[9] |
Gao Q, Zhang XS, Huang YM, Xu HM (2004). A comparative analysis of four models of photosynthesis for 11 plant species in the Loess Plateau. Agricultural and Forest Meteorology, 126,203-222.
|
[10] |
Gao Q, Zhao P, Zeng X, Cai X, Shen W (2002). A model of stomatal conductance to quantify the relationship between leaf transpiration, microclimate and soil water stress. Plant,Cell and Environment, 25,1373-1381.
|
[11] |
Giorio P, Sorrentino G, d'Andria R (1999). Stomatal behaviour, leaf water status and photosynthetic response in field-grown olive trees under water deficit. Environmental and Experimental Botany, 42,95-104.
|
[12] |
Gucci R, Massai R, Xiloyannis C, Flore JA (1996). The effect of drought and vapour pressure deficit on gas exchange of young Kiwifruit ( Actinidia deliciosa var. deliciosa) vines. Annals of Botany, 77,605-613.
|
[13] |
Haefner JW, Buckley TN, Mott KA (1997). A spatially explicit model of patchy stomatal responses to humidity. Plant,Cell and Environment, 20,1087-1097.
|
[14] |
Leuning R (1995). A critical appraisal of a combined stomatal-photosynthesis model for C 3 plants. Plant, Cell and Environment, 18,339-355.
|
[15] |
Li YG, Jiang GM, Niu SL, Liu MZ, Peng Y, Yu SL, Gao LM (2003). Gas exchange and water use efficiency of three native tree species in Hunshandak sandland of China. Photosynthetica, 41,227-232.
|
[16] |
Liang JS, Zhang JH (1999). The relations of stomatal closure and reopening to xylem ABA concentration and leaf water potential during soil drying and rewatering. Plant Growth Regulation, 29,77-86.
|
[17] |
Liu MZ, Jiang GM, Li YG, Gao LM, Niu SL, Cui HX, Ding L (2003). Gas exchange, photochemical efficiency, and leaf water potential in three Salix species. Photosynthetica, 41,393-398.
|
[18] |
Monson RK, Smith SD (1982). Seasonal water potential components of Sonoran Desert (Arizona, USA) plants. Ecology, 63,113-123.
|
[19] |
Monteith JL (1995). A reinterpretation of stomatal responses to humidity. Plant,Cell and Environment, 18,357-364.
|
[20] |
Nilsen ET, Sharifi MR, Rundel PW, Jarrell WM, Virginia RA (1983). Diurnal and seasonal water relations of the desert phreatophyte Prosopis glandulosa (honey mesquite) in the Sonoran Desert California (USA). Ecology, 64,1381-1393.
|
[21] |
Niu SL, Jiang GM, Li YG, Gao LM, Liu MZ, Peng Y, Ding L (2003). Comparison of photosynthetic traits between two typical shrubs: legume and non-legume in Hunshandak sandland. Photosynthetica, 41,111-116.
|
[22] |
Park SY, Furukawa A (1999). Photosynthetic and stomatal responses of two tropical and two temperate trees to atmospheric humidity. Photosynthetica, 36,181-186.
|
[23] |
Sadras VO, Milroy SP (1996). Soil water thresholds for the responses of leaf expansion and gas exchange: a review. Field Crops Research, 47,253-266.
|
[24] |
Tardieu F, Davies WJ (1993). Integration of hydraulic and chemical signalling in the control of stomatal conductance and water status of droughted plants. Plant,Cell and Environment, 16,341-349.
|
[25] |
Thornley JM, Johnson IR (1990). Plant and Crop Modelling. Clarendon Press, Oxford, UK.
|
[26] |
Tuzet A, Perrier A, Leuning R (2003). A coupled model of stomatal conductance, photosynthesis and transpiration. Plant, Cell and Environment, 26,1097-1116.
|
[27] |
Turner NC, Schulze ED, Gollan T (1984). The response of stomata and leaf gas exchange to vapour pressure deficits and soil water content. I. Species comparisons at high soil water contents. Oecologia, 63,338-342.
URL
PMID
|
[28] |
Zavala MA (2004). Integration of drought tolerance mechanisms in Mediterranean sclerophylls: a functional interpretation of leaf gas exchange simulators. Ecological Modelling, 176,211-226.
|