|
顾大形, 黄科朝, 何文, 等. 基于热消散技术的毛竹林蒸腾耗水估算. 林业科学, 2019. 55 (1): 31- 37.
|
|
Gu D X , Huang K C , He W , et al. Estimation of transpiration water consumption of Moso bamboo forest based on TDP method. Scientia Silvae Sinicae, 2019. 55 (1): 31- 37.
|
|
何春霞, 张劲松, 孟平, 等. 太行山南麓3种常见灌木的水分利用特性. 林业科学, 2018. 54 (9): 137- 146.
|
|
He C X , Zhang J S , Meng P , et al. Water use strategies of three native shrubs in the southern foothills of Taihang Mountains. Scientia Silvae Sinicae, 2018. 54 (9): 137- 146.
|
|
李焕波, 张林森, 李丙智, 等. 应用热脉冲方法对红富士苹果树干茎流速率的研究. 西北农业学报, 2008. 17 (5): 244- 247.
|
|
Li H B , Zhang L S , Li B Z , et al. Research on sap flow velocity of Red fuji apple trees by heat pulse probe method. Acta Agriculturae Boreali-Occidentalis Sinica, 2008. 17 (5): 244- 247.
|
|
刘奉觉, 郑世锴, 巨关升, 等. 树木蒸腾耗水测算技术的比较研究. 林业科学, 1997. 33 (2): 117- 126.
|
|
Liu F J , Zheng S K , Ju G S , et al. A study on comparison of measuring water-consumption for transpiration in poplar. Scientia Silvae Sinicae, 1997. 33 (2): 117- 126.
|
|
刘庆新, 孟平, 张劲松, 等. 基于侧柏液流的测定对Granier原始公式系数进行校正. 生态学报, 2013. 33 (6): 1944- 1951.
|
|
Liu Q X , Meng P , Zhang J S , et al. Calibration coefficients of Granier original formula based on sap flow of Platycladus orientalis. Acta Ecologica Sinica, 2013. 33 (6): 1944- 1951.
|
|
孙迪, 关德新, 袁凤辉, 等. 辽西农林复合系统中杨树液流速率与气象因子的时滞效应. 应用生态学报, 2010. 21 (11): 2742- 2748.
|
|
Sun D , Guan D X , Yuan F H , et al. Time lag effect between poplar's sap velocity and microclimate factors in agroforestry system in west Liaoning Province. Chinese Journal of Applied Ecology, 2010. 21 (11): 2742- 2748.
|
|
魏天兴, 朱金兆, 张学培. 林分蒸散耗水量测定方法述评. 北京林业大学学报, 1999. 21 (3): 85- 91.
|
|
Wei T X , Zhu J Z , Zhang X P . Methods of measuring stand evapotranspiration. Journal of Beijing Forestry University, 1999. 21 (3): 85- 91.
|
|
徐利岗, 苗正伟, 杜历, 等. 干旱区枸杞树干液流变化特征及其影响因素. 生态学报, 2016. 36 (17): 5519- 5527.
|
|
Xu L G , Miao Z W , Du L , et al. Analysis of variation in and factors influencing sap flow in stems of Lycium barbarum in an arid area. Acta Ecologica Sinica, 2016. 36 (17): 5519- 5527.
|
|
张劲松, 孟平, 尹昌君. 植物蒸散耗水量计算方法综述. 世界林业研究, 2001. 14 (2): 23- 28.
|
|
Zhang J S , Meng P , Yin C J . Review on methods of estimating evapotranspiration of plants. World Forestry Research, 2001. 14 (2): 23- 28.
|
|
赵平, 梅婷婷, 倪广艳, 等. 热消散液流测定系统研究竹子蒸腾的问题和解决思路. 生态学杂志, 2012. 31 (1): 187- 193.
|
|
Zhao P , Mei T T , Ni G Y , et al. Application of thermal dissipation sap flow measuring system in investigating bamboo transpiration:problems and solutions. Chinese Journal of Ecology, 2012. 31 (1): 187- 193.
|
|
Bush S E , Hultine K R , Sperry J S , et al. Calibration of thermal dissipation sap flow probes for ring- and diffuse-porous trees. Tree Physiol, 2010. 30 (12): 1545- 1554.
|
|
Darby A , Draguljic D , Glunk A , et al. Habitat moisture is an important driver of patterns of sap flow and water balance in tropical montane cloud forest epiphytes. Oecologia, 2016. 182 (2): 357- 371.
|
|
Dye P J , Olbrich B W , Calder I R . A comparison of the heat pulse method and deuterium tracing method for measuring transpiration from Eucalyptus grandis trees. Journal of Experimental Botany, 1992. 43 (3): 337- 343.
|
|
Edwards W R N . Precision weighing lysimeter for trees, using a simplified tared-balance design. Tree Physiology, 1986. 1 (2): 127- 144.
|
|
Edwards W R N , Booker R E . Radial variation in the axial conductivity of Populus and its significance in heat pulse velocity measurement. Journal of Experimental Botany, 1984. 35 (4): 551- 561.
|
|
Francno C M , Magalhaes A C . Techniques for the measurement of transpiration of individual plants. Arid Zone Research, 1965. 25, 211- 224.
|
|
Fuchs S , Leuschner C , Link R , et al. Calibration and comparison of thermal dissipation, heat ratio and heat field deformation sap flow probes for diffuse-porous trees. Agricultural and Forest Meteorology, 2017. 244-245, 151- 161.
|
|
Granier A . Une nouvelle méthode pour la mesure du flux de sève brute dans le tronc des arbres. Annals of Forest Science, 1985. 42 (2): 193- 200.
|
|
Heemyong P . Water use of young 'fuji' apple trees at three soil moisture regimes in drainage lysimeters. Agricultural Water Management, 2001. 50 (3): 185- 196.
|
|
Herbst M , Robert J M , Rosier P T W , et al. Edge effects and forest water use:a field study in a mixed deciduous woodland. Forest Ecology and Management, 2007. 250 (3): 176- 186.
|
|
Hoelscher M , Kern M A , Wessolek G . A new consistent sap flow baseline-correction approach for the stem heat balance method using nocturnal water vapour pressure deficits and its application in the measurements of urban climbing plant transpiration. Agricultural and Forest Meteorology, 2018. 248, 169- 176.
|
|
Hultine K R , Nagler P L , Morino K , et al. Sap flux-scaled transpiration by tamarisk (Tamarix spp.) before, during and after episodic defoliation by the saltcedar leaf beetle (Diorhabda carinulata). Agricultural and Forest Meteorology, 2010. 150 (11): 1467- 1475.
|
|
Kanalas P , Fenycesi A , Kis J , et al. Seasonal and diurnal variability in sap flow intensity of mature sessile oakc(Quercus petraea(Matt.) Liebl.) trees in relation to microclimatic conditions. Acta Biologica Hungarica, 2010. 61 (suppl.1): 95- 108.
|
|
Knight W F , Fahey T J , Running S W , et al. Transpiration from 100-year-old lodgepole pine forests estimated with whole-tree Potometers. Ecology, 1981. 62 (3): 717- 726.
|
|
McCulloh K A , Winter K , Meinzer F C , et al. A comparison of daily water use estimates derived from constant-heat sap-flow probe values and gravimetric measurements in pot-grown saplings. Tree physiology, 2007. 27 (9): 1355- 1360.
|
|
Miner G L , Ham J M , Kluitenberg G J . A heat-pulse method for measuring sap flow in corn and sunflower using 3D-printed sensor bodies and low-cost electronics. Agricultural and Forest Meteorology, 2017. 246, 86- 97.
|
|
Nadezhdina N . Revisiting the Heat Field Deformation (HFD) method for measuring sap flow. iForest-Biogeosciences and Forestry, 2018. 11 (1): 118- 130.
|
|
Smith D M , Allen1 S J . Measurement of sap flow in plant stems. Journal of Experimental Botany, 1996. 47 (12): 1833- 1844.
|
|
Steppe K , De Pauw D J W , Doody T M , et al. A comparison of sap fiux density using thermal dissipation, heat pulse velocity and heat field deformation methods. Agricultural and Forest Meteorology, 2010. 150, 1046- 1056.
|
|
Sun H Z , Aubrey D P , Teskey R O . A simple calibration improved the accuracy of the thermal dissipation technique for sap flow measurements in juvenile trees of six species. Trees, 2012. 26 (2): 631- 640.
|
|
Taneda H , Sperry J S . A case-study of water transport in co-occurring ring-versus diffuse-porous trees:Contrasts in water-status, conducting capacity, cavitation and vessel refilling. Tree Physiology, 2008. 28 (11): 1641- 1651.
|
|
Waring R H , Roberts J M . Estimating water flux through stems of Scot pine with tritiated water and phosphous-32. Journal of Experimental Botany, 1979. 30 (3): 459- 471.
|
|
Wullschleger S D , Childs K W , King A W , et al. A model of heat transfer in sapwood and implications for sap flux density measurements using thermal dissipation probes. Tree Physiol, 2011. 31 (6): 669- 679.
|
|
Zhang Z Z , Zhou J , Zhao P , et al. Validation and in situ application of a modified thermal dissipation probe for evaluating standing water use of a clumped bamboo:Bambusa chungii. Agricultural and Forest Meteorology, 2017. 239, 15- 23.
|