| [1] | Tognetti R, Andria R, Morelli G,et al. Irrigation effects on daily and seasonal variations of trunk sap flow and leaf water relations in olive trees[J]. Plant Soil, 2004(263): 249-264 |
| [2] | Kumagai T, Aoki S, Otsuki K, Utsumi Y. Impact of stem water storage on diurnal estimates of whole-tree transpiration and canopy conductance from sap flow measurements in Japanese cedar and Japanese cypress trees[J]. Hydrol Process, 2009(23): 2335-2344 |
| [3] | 段玉玺, 秦 景, 贺康宁,等. 白榆、新疆杨液流动态比较研究[J]. 中国沙漠, 2008, 28(6): 1136-1144 |
| [4] | Phillips N G, Scholz F G, Bucci S J, et al. Using branch and basal trunk sap flow measurements to estimate whole-plant water capacitance: comment on Burgess and Dawson (2008) [J]. Plant Soil, 2009, 315(1-2): 315-324 |
| [5] | Phillips N G, Oren R, Licata J, et al. Time series diagnosis of tree hydraulic characteristics[J]. Tree Physiol, 2004, 24(8): 879-890 |
| [6] | Cienciala E, Kucera J, Malmer A. Tree sap flow and stand transpiration of two Acacia mangium plantations in Sabah, Borneo[J]. J Hydrol, 2000, 236(1-2):109-120 |
| [7] | Egea G, Baille A, Martín B, et al. Do short term sap flow measurements scale with leaf transpiration? A case study on Cucumis Sativus plants [C]. ISHS Acta Horticulturae 846: VII International Workshop on Sap Flow, 2009: 127-134 |
| [8] | Granier A. A new method of sap flow measurement in tree stems[J]. Annales Des Sciences Forestieres, 1985, 42(2): 193-200 |
| [9] | Granier A. Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements[J]. Tree Physiol, 1987, 3(4): 309-320 |
| [10] | Gartner K, Nadezhdina N, Englisch M, et al. Sap flow of birch and Norway spruce during the European heat and drought in summer 2003[J]. Forest Ecol Manag, 2009, 258(5): 590-599 |
| [11] | Lei H, Zhi-shan Z, Xin-rong L. Sap flow of Artemisia ordosica and the influence of environmental factors in a revegetated desert area:Tengger Desert, China[J]. Hydrol Process, 2010, 24(10): 1248-1253 |
| [12] | Bequet R, Cermak J, Nadezhdina N, et al. Tree water dynamics non-destructively assessed through sap flow measurements and potential evapotranspiration[J]. Biol Plantarum, 2010, 54(2): 366-368 |
| [13] | Lu P, Urban L, Zhao P. Granier's thermal dissipation probe (TDP) method for measuring sap flow in trees: theory and practice[J]. Acta Botanica Sinica, 2004, 46(6): 631-646 |
| [14] | 党宏忠, 张劲松, 张友焱, 等. 应用热扩散技术对柠条锦鸡儿主根液流速率的研究[J]. 林业科学, 2010, 46(3): 31-38 |
| [15] | Allen R G, Pereira L S, Raes D, et al. Crop evapotranspiration. Guidelines for computing crop water requirements[J]. FAO Irrigation and Drainage Paper, 1998(56):1-465 |
| [16] | Allen R G, Pruitt W O, Wright J L, et al. A recommendation on standardized surface resistance for hourly calculation of reference ET0 by the FAO56 Penman Penman-Monteith method[J]. Agr Water Manage,2006,81(1-2):1-22 |
| [17] | O'Grady A P, Worledge D, Battaglia M. Constraints on transpiration of Eucalyptus globulus in southern Tasmania, Australia[J]. Agr Forest Meteorol, 2008, 148(3): 453-465 |
| [18] | Phillips N, Oren R, Zimmermann R. Radial patterns of xylem sap flow in non-, diffuse- and ring-porous tree species[J]. Plant Cell Environ, 1996, 19(8):983-990 |
| [19] | Cermak J, Kucera J, Bauerle W L, et al. Tree water storage and its diurnal dynamics related to sap flow and changes in stem volume in old-growth Douglas-fir trees [J]. Tree Physiol, 2007, 27(2):181-198 |
| [20] | Sevanto S, Holtta T, Nikinmaa E. The effects of heat storage during low flow rates on the output of Granier-type sap-flow sensors [C]. ISHS Acta Horticulturae 846:VII International Workshop on Sap Flow, 2009:45-52 |