Abstract
Growth and drought resistance of Douglas fir (Pseudotsuga menziesii (Mirb.) Franco), lodgepole pine (Pinus contorta (Loud.)), and white spruce (Picea glauca (Moench) Voss) container seedlings, treated with paclobutrazol at different times and with concentrations up to 2.8 mM, were examined over their second growing season. In two experiments all three species were planted in sand beds in the open and subjected to different levels of moisture stress. Paclobutrazol drenches of 0.3 and 0.6 mM made twice in October, prior to planting the following March, reduced dry weight growth the least, or increased growth in lodgepole pine under dry conditions. Paclobutrazol generally decreased survival under drought stress, particularly if treatment was applied immediately before planting, rather than the previous October. In a third experiment paclobutrazol treated white spruce were grown, in 3.1 L capacity containers filled with peat and vermiculite, at different moisture supply levels and temperatures in growth chambers. Water use efficiency (WUE) was calculated from water use and increases in dry weight of these seedlings over 83 days. Paclobutrazol treatment increased WUE most strongly over the first 31 day measurement period, under all temperature and moisture conditions, but the effect was negligible during the last 24 days of the experiment, and height growth was reduced by treatment. Mineral nutrient concentrations were affected by paclobutrazol, and it was concluded that these and other responsed depended partly on seedling condition at the time of treatment.
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References
Barnes, A.D. and Kelly, W.D. 1992. Effects of a triazole, uniconazol, on shoot elongation and root growth in loblolly pine. Can. J. For. Res. 22: 1–4.
Davis, T.D., Steffens, G.L. and Sankhla, N. 1988. Triazole plant growth regulators, pp. 63–105. In: Janick, J. (Ed) Horticultural Reviews 10. Timber Press, Portland, Oregon.
Fletcher, R.A. and Hofstra, G. 1988. Triazoles as potential plant protectants. In: Berg, D. and Plempel, M. (Eds) Sterol Biosynthesis Inhibitors, Chap. 12. Ellis Horwood Limited, VCH Weinheim.
Fuchs, E. and Livingston, N.J. 1994. Department of Biology, University of Victoria, B.C., Canada. Personal cummunication.
Hook, W.R., Livingston, N.J., Sun, Z.J. and Hook, P.B. 1992. Remote diode shorting improves measurement of soil water by time domain reflectometry. Soil Sci. Soc. Am. J. 56: 1384–1391.
Kalra, Y.P. and Maynard, D.G. 1991. Methods manual for forest soil and plant analysis. Info. Rept. NOR-X-319, Forestry Canada, 116 pp.
Marshall, J.G. and Dumbroff, E.B. 1989. Paclobutrazol increases resistance to drought in northern conifers. Forestry Research Marketplace. Abstracts: Research Posters, Workshops and Commercial Exhibits. Proc. research exhibition sponsored by Ontario Min. Nat. Res. and Forestry Canada, Ont. For. Res. Comm. Symp. Proc. O-P-18: 9.
Marshall, J.G., Cyr, D.R. and Dumbroff, E.B. 1991a. Drought tolerance and the physiological mechanisms of resistance in northern coniferous seedlings. Forestry Canada, P.O. Box 490, Sault Ste., Marie, Ontario P6A 5M7, COFRDA Rep. 3314: 17.
Marshall, J.G., Scarrat, J.B. and Dumbroff, E.B. 1991b. Induction of drought resistance by abscisic acid and paclobutrazol in jack pine. Tree Physiology 8: 415–421.
Milliken, G.A. and Johnson, D.E. 1992. Analysis of messy data Vol. 1. Designed experiments. van Nostrand and Reinhold, New York. 473 pp.
Pullen, J.E., Zandstra, J.W., Hofstra, G. and Fletcher, R.A. 1989. Increasing drought tolerance in conifer seedlings with triazoles. Forestry Research Marketplace. Abstracts: Research Posters, Workshops and Commercial Exhibits. Proc. research exhibition sponsored by Ontario Min. Nat. Res. and Forestry Canada, Ont. For. Res. Comm. Symp. Proc. O-P-18: 12.
Reitveld, W. 1989. Effect of paclobutrazol on conifer seedling morphology and field performance. In: Proceedings, combined meeting of the western forest nursery associations, 1988 August 8–11, pp. 19–23. Vernon, B.C., Ed. Landis, T.D., Gen. Tech. Rep. RM-167. Fort Collns, CO: USDA, Forest Service, Rocky Mountain Forest and Range Experiment Station.
Rieger, M. and Scalabrelli, G. 1990. Paclobutrazol, root growth, hydraulic conductivity, and nutrient uptake of ‘Nemaguard’ peach. HortScience 25: 95–98.
Running, 1976. Environmental control of leaf conductance in conifers. Can. J. For. Res. 6: 104–112.
Rutter, A.J. 1957. Studies in the growth of young plants of Pinus sylvestris L. Ann. Botany, 23: 269–284.
SAS Institute Inc. 1989. User's Guide, Version 6, 4th ed., Vols 1 and 2. SAS Institute Inc., Cary, NC.
Smit, J. and van denDriessche, R. 1992. Root growth and water use efficiency of Douglas fir (Pseudotsuga meziesii (Mirb.) Franco and lodgepole pine (Pinus contorta Dougl.) seedlings. Tree Physiology 11: 401–410.
Spiers, J.M. 1988. Response of ‘Tifblue’ Rabbiteye blueberry to soil-applied paclobutrazol. HortScience 23: 837–839.
Trotter, D. 1993. Nursery Biologist, Silviculture Branch, Ministry of Forests, Green Timbers, B.C., Canada. Personal communication.
Van denDriessche, R. 1968. Growth analysis of four nursery-grown conifer species. Can. J. Botany, 46: 1389–1395.
Van denDriessche, R. 1990. Paclobutrazol and triadimefon effects on conifer seedling growth and water relations. Can. J. For. Res. 20: 722–729.
Wheeler, N.C. 1987. Effect of paclobutrazol on Douglas fir and Loblolly pine. J. Hort. Sci. 62: 101–106.
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van den Driessche, R. Drought resistance and water use efficiency of conifer seedlings treated with paclobutrazol. New Forest 11, 65–83 (1996). https://doi.org/10.1007/BF00034893
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DOI: https://doi.org/10.1007/BF00034893