Abstract.
Seedlings grown under different N supply were examined for relationships between root system size attributes and its hydraulic properties. These relationships were also studied on seedlings of different stock types (grown in different container types). Measurements with root pressure probes were taken at various times after germination, under applied hydrostatic pressure and non-limiting soil moisture. Different N-treatments and stock types were used solely to produce seedling of different sizes, especially root system sizes. Specific root hydraulic conductivity (Lpr) typically declined with an increasing root system size and correlations between Lpr and the root system size attributes were often negative. The flow of water through the root system correlated well with root system size attributes only in young (3–4 month old) seedlings but the correlations were inconsistent among different N treatments and stock types. Neither the root system surface area nor dry weight reliably reflected its ability to absorb and conduct water. Generally, the amount of water delivered through the root system and available for transpiration per unit or leaf surface area or unit of leaf dry weight correlated poorly or negatively with the root system size. Practical and scientific implications of the findings are discussed.
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References
R.M. Addoms (1946) ArticleTitleEntrance of water into suberized roots of trees Plant Physiol. 21 109–111
P.Y. Bernier M.S. Lamhamedi D.G. Simpson (1995) ArticleTitleShoot:root ratio is of limited use in evaluating the quality of container conifer stock Tree Planters’ Notes 46 102–106
Binder W.D., Scagel R.K. and Krumlik G.J. 1988. Root growth potential: facts, myths, value? In: Landis T.D.(eds.)Proc. of the 1988 Combined Meeting of the Western Forest Nursery Associations. Vernon, BC, Canada. USDA Fir. Serv. Gen. Tech. Rep. RM-167, pp. 111–118.
W.C. Carlson (1986) ArticleTitleRoot system considerations in the quality of loblolly pine seedlings South. J. Appl. For. 10 87–92
M. Carvajal A. Cerdá V. Martinez (2000) ArticleTitleDoes calcium ameliorate the negative effect of NaCl on melon root water transport by regulating aquaporin activity? New Phytol. 145 439–447 Occurrence Handle10.1046/j.1469-8137.2000.00593.x
F. Chaumont F. Barrieu R. Jung M.J. Chrispeels (2000) ArticleTitlePlasma membrane intrinsic proteins from maze cluster in two sequence subgroups with differential aquaporin activity Plant Physiol. 122 1025–1034 Occurrence Handle10.1104/pp.122.4.1025 Occurrence Handle10759498
H.H. Chung P.J. Kramer (1975) ArticleTitleAbsorption of water and P through suberized and unsuberized roots of loblolly pine Can. J. For. Res. 5 229–235
S.J. Colombo M.F. Asselstine (1989) ArticleTitleRoot hydraulic conductivity and root growth capacity of black spruce (Picea mariana) Tree Physiol. 5 73–81 Occurrence Handle14973000
D.E. Enstone C.A. Peterson S.W. Hallgren (2001) ArticleTitleAnatomy of seedling taproots in loblolly pine Trees 15 98–111 Occurrence Handle10.1007/s004680000079
S.C. Grossnickle J.H. Russel (1990) ArticleTitleWater movement in yellow-cedar seedlings and rooted cuttings: comparison of whole plant and root system pressurization methods Tree Physiol. 6 57–68 Occurrence Handle14972960
S.C. Grossnickle J.A. Major J.T. Arnott V.M. Lemay (1991) ArticleTitleStock quality assessment through an integrated approach New For. 5 77–91
S.W. Hallgren M. Rüdinger E. Steudle (1994) ArticleTitleRoot hydraulic properties of spruce measured with the pressure probe Plant Soil 167 91–98 Occurrence Handle10.1007/BF01587603
K.H. Johansen S.P. McConnell J.C. Regelbrugge J.R. Seiler (1988) ArticleTitleHydraulic conductance of roots present at the time of lifting and newly regenerated roots of 2+0 eastern white pine seedlings Tree Planters Notes 39 5–8
N. Kamaluddin J.J. Zwiazek (2001) ArticleTitleMetabolic inhibition of root water flow in red osier dogwood (Cornus stolonifera) seedlings J. Exp. Bot. 52 739–745 Occurrence Handle11413210
T.T. Kozlowski P.J. Kramer S.G. Pallardy (1990) The Physiological Ecology of Woody Plants Academic Press San Diego
P.J. Kramer (1946) ArticleTitleAbsorption of water through suberized roots of trees Plant Physiol. 21 37–41
Krasowski M.J. 1998. The development of roots and root systems in white spruce (Picea glauca (Moench) Voss) seedlings and the influence of cultural treatments on root morphology, anatomy, and the capacity to conduct water. Ph.D. Dissertation. University of Victoria VictoriaBC, Canada.
M.J. Krasowski T. Letchford A. Caputa W.A. Bergerud (1995) ArticleTitleDesiccation of white spruce seedlings planted in the southern boreal forest of British Columbia WaterAirSoil Pollution 82 113–146
M.J. Krasowski J.N. Owens (1999) ArticleTitleTracheids in white spruce seedling’s long lateral roots in response to nitrogen availability Plant Soil 217 215–228 Occurrence Handle10.1023/A:1004610513572
M.J. Krasowski J.N. Owens (2000) ArticleTitleMorphological and physiological attributes of root systems and seedling growth in three different Picea glauca reforestation stock Can. J. For. Res. 30 1669–1681 Occurrence Handle10.1139/cjfr-30-11-1669
B. Leshem (1970) ArticleTitleResting roots of Pinus halpensis: structurefunction, and reaction to water stress Bot. Gaz. 131 99–104 Occurrence Handle10.1086/336518
Z. Lu P.M. Neumann (1999) ArticleTitleWater stress inhibits hydraulic conductance and leaf growth in rice seedlings but not the transport via the mercury-sensitive water channels in the root Plant Physiol. 120 143–151 Occurrence Handle10.1104/pp.120.1.143 Occurrence Handle10318692
P. Martre R. Morillon F. Barrieu G.B. North P.S. Nobel M.J. Chrispeels (2002) ArticleTitlePlasma membrane aquaporins play a significant role during recovery from water deficit Plant Physiol. 130 2101–2110 Occurrence Handle10.1104/pp.009019 Occurrence Handle12481094
R.L. McCrady N.B. Comerford (1998) ArticleTitleMorphological and anatomical relationships of loblolly pine fine roots Trees 12 431–437 Occurrence Handle10.1007/s004680050171
B.E. McKenzie C.A. Peterson (1995a) ArticleTitleRoot browning in Pinus banksiana Lamb. and Eucalyptus pilularis Sm. 1. Anatomy and permeability of the white and tannin zones Bot. Acta 108 127–137
B.E. McKenzie C.A. Peterson (1995b) ArticleTitleRoot browning in Pinus banksiana Lamb. and Eucalyptus pilularis Sm. Anatomy and permeability of the cork zone Bot. Acta 108 138–143
S. Moreshet M.G. Huck (1991) Dynamics of water permeability Y. Waisel A. Eshesl U. Kafkafi (Eds) Plant Roots. The Hidden Half Marcel Dekker Inc. New York 605–626
J. Parviainen L. Tervo (1989) ArticleTitleA new approach for production of containerised coniferous seedlings using peat sheets coupled with root pruning Forestry 62 87–94
C.A. Peterson D.A. Enstone J.H. Taylor (1999) ArticleTitlePine root structure and its potential significance for root function Plant Soil 217 205–213 Occurrence Handle10.1023/A:1004668522795
D.C. Reicosky R.J. Millignton A. Klute D.B. Peters (1972) ArticleTitlePatterns of water uptake and root distribution of soybeans (Glycine max) in the presence of a water table Agronomy J. 92–97
W.J. Rietveld (1989) ArticleTitleTransplanting stress in bareroot conifer seedlings: its development and progression to establishment North. J. Appl. For. 6 99–107
G.A. Ritchie (1985) Root growth potential: principles, procedures, and predictive ability M.L. Duryea (Eds) Proc. of Workshop Evaluating Seedling Quality: Principles, Procedures, and Predictive Abilities of Major Tests Oregon St. University Corvallis, OR, USA 93–105
R. Rose J. Atkinson T. Sabin (1991) ArticleTitleRoot volume as a grading criterion to improve field performance of Douglas-fir seedlings New For. 5 195–209
J. Sanderson (1983) ArticleTitleWater uptake by different regions of barley root. Pathways of radial flow in relation to development of endodermis J. Exp. Bot. 34 240–253
R.S. Senock C. Leushner (1999) ArticleTitleAxial water flux dynamics in small diameter roots of a fast growing tropical tree Plant Soil 208 57–71 Occurrence Handle10.1023/A:1004494432610
J.A. Siemens J.J. Zwiazek (2003) ArticleTitleEffects of water deficit stress and recovery on the root water relations in trembling aspen (Populus tremuloides) seedlings Plant Sci. 165 113–120 Occurrence Handle10.1016/S0168-9452(03)00149-3
D.G. Simpson G.A. Ritchie (1997) ArticleTitleDoes R.G.P. predict field performance? New For. 13 253–277
Steudle E. 1993. In: Smith J.A.C. and Griffith H. (eds.) Pressure Probe Techniques: Basic Principles and Application to Studies of Water and Solute Relations at the Cell, Tissueand Organ Level. Bios Sci. Publishers, Oxfordpp. 5–36.
Y. Tanaka D. Walstad J.E. Borrecco (1976) ArticleTitleThe effect of wrenching on morphology and field performance of Douglas-fir and loblolly pine seedlings Can. J. For. Res. 6 453–458
J.H. Taylor C.A. Peterson (2000) ArticleTitleMorphometric analysis of Pinus banksiana Lamb. root anatomy during a 3-month field study Trees 14 239–247 Occurrence Handle10.1007/s004680050009
R.O. Teskey C.C. Grier T.M. Hinkley (1985) ArticleTitleRelations between root system size and water flow capacity in Abies amabilis growing in a subalpine forest Can. J. For. Res. 15 669–672
B.E. Thompson (1985) Seedling morphological evaluation – what you can tell by looking M.L. Duryea (Eds) Proc. of Workshop Evaluating Seedling Quality: principles, procedures, and predictive abilities of major tests Oregon St. University Corvallis, Oregon, U.S.A., 59–71
van den Driessche R. 1996. senior research scientist. B. C. Min. For. Res. Br. pers. Commun..
Wakeley P.C. 1949. Physiologic grades of southern pine nursery stock. In: Shirley H.L. Proc. of the 1948 Soc. Amer. For. Annu. Meeting. Boston, MAUSApp.311–321.
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*Paper presented at Forest Seedling Root Development Conference: From the Nursery to the Field, Eugene, Oregon, May 12–13, 2004.
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Krasowski, M. ., Caputa, A. Relationships between the root system size and its hydraulic properties in white spruce seedlings. New Forest 30, 127–146 (2005). https://doi.org/10.1007/s11056-005-7482-9
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DOI: https://doi.org/10.1007/s11056-005-7482-9