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Bequet R, Čermák J, Nadezhdina N, De Cannière C, Ceulemans R (2010) Tree water dynamics non-destructively assessed through sap flow measurements and potential evapotranspiration. Biol Plant 54:366–368.

Butler AJ, Barbier N, Čermák J, et al. (2010) Estimates and relationships between aboveground and belowground resource exchange surface areas in a Sitka spruce managed forest. Tree Physiol 30:705–714. PubMed

Čermák J (1987) Monoterpene hydrocarbon contents of the resin from seeds of silver fir (Abies alba Mill.). Trees 1:94–101.

Čermák J (1989) Solar equivalent leaf area as the efficient biometrical parameter of individual leaves, trees and stands. Tree Physiol 5:269–289. PubMed

Čermák J (1990) Staining Experiment Unpublished manual, Mendel University in Brno, Brno, Czech Republic; pp. 4.

Čermák J, Nadezhdina N (1998) Sapwood as the scaling parameter defined according to xylem water content or radial pattern of sap flow? Ann Sci Forest 55:509–521.

Čermák J, Nadezhdina N (2011) Instrumental approaches for studying tree water relations along gradients of tree size and forest age. In: Meinzer FC, Lachenbruch B, Dawson TE (eds) Size- and age-related changes in tree structure and function. Springer, Heidelberg and New York, pp 385–426.

Čermák J, Novák J (1986) Estimation of volatile substances in the atmosphere of forest ecosystems by gas-chromatography. J Environ Anal Chem 24:1–22.

Čermák J, Deml M, Penka M (1973) A new method of sap flow rate determination in trees. Biol Plant 15:171–178.

Čermák J, Kučera J, Penka M (1976a) Improvement of the method of sap flow rate determination in adult trees based on heat balance with direct electric heating of xylem. Biol Plant 18:105–110.

Čermák J, Palát M, Penka M (1976b) Transpiration flow rate in fully-grown tree Prunus avium L. by heat balance method estimated, in connection with some meteorological factors. Biol Plant 18:111–118.

Čermák J, Huzulák J, Penka M (1980) Water potential and sap flow rate in adult trees with moist and dry soil as used for the assessment of the root system depth. Biol Plant 22:34–41.

Čermák J, Úlehla J, Kučera J, Penka M (1982) Sap flow rate and transpiration dynamics in the full-grown oak (Quercus robur L.) in floodplain forest exposed to seasonal floods as related to potential evapotranspiration and tree dimensions. Biol Plant 24:446–460.

Čermák J, Jeník J, Kučera J, Židek V (1984) Xylem water flow in a crack willow tree (Salix fragilis L.) in relation to diurnal changes of environment. Oecologia (Berlin) 64:145–151. PubMed

Čermák J, Cienciala E, Kučera J, Lindroth A, Hällgren J-E (1992) Radial velocity profiles of water flow in stems of spruce and oak and response of spruce tree to severing. Tree Physiol 10:367–380. PubMed

Čermák J, Matyssek R, Kučera J (1993) Rapid response of large, drought-stressed beech trees to irrigation. Tree Physiol 12:281–290. PubMed

Čermák J, Cienciala E, Kučera J, Lindroth A, Bednářová E (1995) Individual variation of sap-flow rate in large pine and spruce trees and stand transpiration: a pilot study at the central NOPEX site. J Hydrol 168:17–27.

Čermák J, Riguzzi F, Ceulemans R (1998) Scaling up from the individual tree to the stand level in scots pine. I. Needle distribution, overall crown geometry and root geometry. Ann Sci Forest 55:63–88.

Čermák J, Kučera J, Nadezhdina N (2004) Sap flow measurements with two thermodynamic methods, flow integration within trees and scaling up from sample trees to entire forest stands. Trees Struc Funct 18:529–546.

Čermák J, Ulrich R, Stanek Z, Koller J, Aubrecht L (2006) Electrical measurement of tree root absorbing surfaces by the earth impedance method: 2. Verification based on allometric relationships and root severing experiments. Tree Physiol 26:1113–1121. PubMed

Čermák J, Kučera N, Bauerle WL, Phillips J, Hinckley TM (2007) Tree water storage and its diurnal dynamics related to sap flow and changes of trunk volume in old-growth Douglas-fir trees. Tree Physiol 27:181–198. PubMed

Čermák J, Nadezhdina N, Meiresonne L, Ceulemans R (2008) Scots pine root distribution derived from radial sap flow patterns in stems of large leaning trees. Plant Soil 305:61–75.

Chiesi M, Maselli F, Bindi M, Fibbi L, Bonora L, Raschi A, Tognetti R, Čermák J, Nadezhdina N (2002) Calibration and application of FOREST-BGC in a Mediterranean area by the use of conventional and remote sensing data. Ecol Model 154:251–262.

Cienciala E, Lindroth A, Čermák J, Hällgren J-E, Kučera J (1992) Assessment of transpiration estimates for Picea abies trees during a growing season. Trees Struc Funct 6:121–127.

Cienciala E, Lindroth A, Čermák J, Hällgren J-E, Kučera J (1994) The effects of water availability on transpiration, water potential and growth of Picea abies during a growing season. J Hydrol 155:57–71.

Cienciala E, Kučera J, Lindroth A, Čermák J, Grelle A, Halldin S (1997) Canopy transpiration from a boreal forest in Sweden during a dry year. Agr For Met 86:157–167.

Cienciala E, Running SW, Lindroth A, Grelle A, Ryan MG (1998) Analysis of carbon and water fluxes from the NOPEX boreal forest: comparison of measurements with FOREST-BGC simulations. J Hydrol 212–213:62–78.

David TS, David JS, Pinto CA, Čermák J, Nadezhdin V, Nadezhdina N (2012) Hydraulic connectivity from roots to branches depicted through sap flow: analysis on a Quercus suber tree. Funct Plant Biol 39:103–115. PubMed

David TS, Pinto CA, Nadezhdina N, et al. (2013) Root functioning, tree water use and hydraulic redistribution in Quercus suber trees: a modeling approach based on root sap flow. For Ecol Manage 307:136–146.

Èermák [sic] Čermák J (1998) Leaf distribution in large trees and stands of the floodplain forest in southern Moravia. Tree Physiol 18:727–737. PubMed

Gebauer R, Čermák J, Plichta R, Spinlerova X, Urban J, Volarik D, Ceulemans R (2015) Within-canopy variation in needle morphology and anatomy of vascular tissues in a sparse scots pine forest. Trees 29:447–1457.

Grelle A, Lundberg A, Lindroth A, Morén A-S, Cienciala E (1997) Evaporation components of a boreal forest: variations during the growing season. J Hydrol 197:70–87.

Hinckley TM, Brooks JR, Čermák J, Ceulemans R, Kučera J, Meinzer FC, Roberts DA (1994) Water flux in a hybrid poplar stand. Tree Physiol 14:1005–1018. PubMed

Hinckley TM, Sprugel DG, Brooks JR, Brown KJ, Martin TA, Roberts DA, Schaap W, Wang D (1998) Scaling and integration in trees. In: Peterson DL, Parker VT (eds) Ecological scale: Theory and applications. Columbia University Press, New York, NY, pp 309–337.

Hruška J, Čermák J, Šustek S (1999) Mapping of tree root systems by means of the ground penetrating radar. Tree Physiol 19:125–130. PubMed

Janssens IA, Sampson DA, Čermák J, Meiresonne L, Riguzzi F, Ceulemans R (1999) Above- and below-ground phytomass and carbon storage in a Belgian Scots pine stand. Ann For Sci 56:81–90.

Kučera J, Čermák J, Penka M (1977) Improved thermal method of continual recording the transpiration flow rate dynamics. Biol Plant 19:413–420.

Lindroth A, Čermák J, Kučera J, Cienciala E, Eckersten H (1995) Sap flow by the heat balance method applied to small size Salix trees in a short-rotation forest. Biomass Bioenergy 8:7–15.

Martin TA, Brown K, Čermák J, Ceulemans R, Kučera J, Meinzer R, Rombold J, Sprugel D, Hinckley TM (1997) Crown conductance and tree and stand transpiration in a second-growth Abies amabilis forest. Can J For Res 27:797–808.

Martin TA, Brown KJ, Hinckley TM, Kučera J, Meinzer FC, Sprugel DG (2001) Control of transpiration in a 220-year-old Abies amabilis forest. For Ecol Manage 152:211–224.

Meiresonne L, Nadezhdina N, Čermák J, Van Slycken J, Ceulemans R (1999) Measured sap flow and simulated transpiration from a poplar stand in Flanders (Belgium). Agric For Meterol 96:165–179.

Meiresonne L, Sampson DA, Kowalski AS, Janssens IA, Nadezhdina N, Čermák J, Van Slycken J, Ceulemans R (2003) Water flux estimates from a Belgian scots pine stand: a comparison of different approaches. J Hydrol 270:230–252.

Meiresonne L, Sampson DA, Kowalski AS, Janssens IA, Nadezhdina N, Čermák J, Van Slycken J, Ceulemans R (2004) Replies to the comments by F. Hupet, M. Vanclooster on ‘water flux estimates from a Belgian scots pine stand: a comparison of different approaches’. J Hydrol 291:154–157.

Morales D, Jiménez MS, González-Rodriguez AM, Čermák J (1996a) Laurel forests in Tenerife, Canary Islands. I. the site, stand structure and stand leaf area distribution. Trees Struc Funct 11:34–40.

Morales D, Jiménez MS, González-Rodriguez AM, Čermák J (1996b) Laurel forests in Tenerife, Canary Islands. II. Leaf distribution patterns in individual trees. Trees Struc Funct 11:41–46.

Nadezhdina N (1989) [Physiological algorithm for controlling irrigation of woody plants under air drought conditions. Studies on the water regime of fruit crops (apple tree)] (in Russian). Fiziologiya Rastenij 36:972–979.

Nadezhdina N (1999) Sap flow as an indicator of plant water status. Tree Physiol 19:885–891. PubMed

Nadezhdina N (2018) Revisiting the heat field deformation (HFD) method for measuring sap flow. IForest Biogeosci Forestry 11:118–130.

Nadezhdina N, Cermak J, Nadezhdin V (1998) Heat field deformation method for sap flow measurements. In: Cermak J, Nadezhdina N (eds) Zidlochovice, Czech Republic, 3-5 Oct. 1998. Proceedings of the Fourth International Workshop on measuring sap flow in intact plants. Publishing House of Mendel University, Brno, Czech Republic, pp 72–92.

Nadezhdina N, Čermák J, Ceulemans R (2002) Radial patterns of sap flow in woody stems of dominant and understory species: scaling errors associated with positioning of sensors. Tree Physiol 22:907–918. PubMed

Nadezhdina N, Cermak J, Gasparek J, Nadezhdin V, Prax A (2006) Vertical and horizontal water redistribution within Norway spruce (Picea abies) roots in the Moravian upland. Tree Physiol 26:1277–1288. PubMed

Nadezhdina N, Čermák J, Meiresonne L, Ceulemans R (2007) Transpiration of scots pine in Flanders growing on soil with irregular substratum. For Ecol Manage 243:1–9.

Nadezhdina N, David TS, David JSet al. (2010) Trees never rest: the multiple facets of hydraulic redistribution. Ecohydrology 3:431–444.

Nadezhdina N, Prax A, Čermák J, Nadezhdin V, Ulrich R, Neruda J, Schlaghamersky A (2012) Spruce roots under heavy machinery loading in two different soil types. For Ecol Manage 282:46–52.

Nadezhdina N, Tatarinov F, Ceulemans R (2004) Leaf area and biomass of rhododendron understory in a stand of scots pine. For Ecol Manage 187:235–246.

Pallardy SG, Čermák J, Ewers FW, Kaufmann MR, Parker WC, Sperry JS (1995) Water transport dynamics in trees and stands. In: Smith PG, Hinckley TM (eds) Resource physiology of conifers—acquisition, allocation and utilization. Academic Press, San Diego, CA, pp 301–389.

Phillips NG, Ryan MG, Bond BJ, McDowell NG, Hinckley TM, Čermák J (2003) Reliance on stored water with tree size in three species in the Pacific Northwest. Tree Physiol 23:237–245. PubMed

Schulze E-D, Čermák J, Matyssek R, Penka M, Zimermann R, Vašícek F, Gries W, Kučera J (1985) Canopy transpiration and flow rate fluxes in the xylem of the trunk of Larix and Picea trees - a comparison of xylem flow, porometer and cuvette measurements. Oecologia 66:475–483. PubMed

Shaw D, Greene S (2003) Wind River canopy crane research facility and Wind River experimental Forest. Bull Ecol Soc Am 84:115–121.

Tatarinov FA, Kučera J, Cienciala E (2005) The analysis of physical background of tree sap flow measurement based on thermal methods. Measurement Science and Technology 16:1157–1169.

Urban J, Tatarinov F, Nadezhdina N, Čermák J, Ceulemans R (2009) Crown structure and leaf area of the understory species Prunus serotina. Trees, Struc Funct 23:391–399.

Urban J, Čermák J, Ceulemans R (2015) Above- and below-ground biomass, surface and volume, and stored water in a mature Scots pine stand. Eur J For Res 134:61–74.

Verbeeck H, Steppe K, Nadezhdina N, et al. (2007) Model analysis of the effects of atmospheric drivers on storage water use in Scots pine. Biogeoscience 4:657–671.

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