Chair of Ecophysiology of Plants Life Science Center Weihenstephan Technische Universitä München Hans Carl von Carlowitz Platz 2 85354 Freising Germany

Department of Ecosystem Biology Faculty of Science University of South Bohemia in České Budějovice Branišovská 1645 31a 370 05 České Budějovice Czech Republic

Environmental Measuring Systems s r o Kocianka 85 39 612 00 Brno Czech Republic

Global Change Research Institute of the Czech Academy of Sciences Bělidla 986 4a Brno 60 300 Czech Republic

IFER Institute of Forest Ecosystem Research Čs armády 655 254 01 Jílové u Prahy Czech Republic

Mendel University in Brno Zemedelska 3 Brno 613 00 Czech Republic

Research group of Plant and Vegetation Ecology Department of Biology University of Antwerp Universiteitsplein 1 Wilrijk BE 2610 Belgium

School of Environmental and Forest Sciences University of Washington Anderson Hall Box 352100 Seattle WA 98115 USA

School of Forest Fisheries and Geomatics Sciences 134 Newins Ziegler Hall University of Florida Gainesville Florida 32611 0410 USA

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Bauerle WL, Hinckley TM, Čermák J, Kučera J, Bible K (1999) The canopy water relations of old-growth Douglas-fir trees. Trees Struc Funct 13:211–217.

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 (

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Čermák J (1990) Staining Experiment Unpublished manual, Mendel University in Brno, Brno, Czech Republic; pp. 4.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

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 (

Čermák J, Jeník J, Kučera J, Židek V (1984) Xylem water flow in a crack willow tree ( 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

Cienciala E, Lindroth A, Čermák J, Hällgren J-E, Kučera J (1994) The effects of water availability on transpiration, water potential and growth of

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 PubMed

David TS, Pinto CA, Nadezhdina N, et al. (2013) Root functioning, tree water use and hydraulic redistribution in

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

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

Martin TA, Brown KJ, Hinckley TM, Kučera J, Meinzer FC, Sprugel DG (2001) Control of transpiration in a 220-year-old

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 (1996

Morales D, Jiménez MS, González-Rodriguez AM, Čermák J (1996

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 ( 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

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 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

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.