Abstract
Containerized red pine (Pinus resinosa Ait.) seedlings were grown over a 16-week rotation at different irrigation treatments to assess moisture stress on plant growth and nutrition, and to evaluate container capacity as a guide for irrigation. Wet, moist and dry moisture regimes were induced by watering trees to the container capacity weight of the growing medium after declining to respective 92, 73 and 57% of this reference weight. The seedlings received the same amount of fertilizer over the growth period. Maximum shoot and root growth was attained under the wet moisture regime, but biomass was reduced 21 and 43% for the moist and dry regimes. Plant nutrient concentrations were not significantly affected by watering treatment, and vector diagnosis of dry matter production and element composition indicated that macronutrients were non-limiting. Seedling nutrient uptake however, was significantly diminished by moisture stress which was attributed to decreased root growth and lower mass flow and diffusion of nutrients when moisture availability was reduced in the peat rooting media. Container capacity was found to be a sensitive reference for judging the watering requirements of greenhouse-grown containerized seedlings. The method can be relatively easily applied on an operational basis.
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References
Armson, K. A. and Sadreika, V. 1979. Forest tree nursery soil management and related practices. Ontario Ministry of Natural Resources. pp. 179.
Arnold, B. R. 1973. Some thoughts on physical properties of substrates with special reference to aeration. Acta Hort. 31: 149–160.
Barnett, J. P. and Brissette, J. C. 1986. Producing southern pine seedlings in containers. USDA For. Serv. Gen Tech. Rep. SO-59.
Becker, C. A., Mroz, G. D. and Fuller, L. G. 1987. The effects of plant moisture stress on red pine (Pinus resinosa) seedling growth and establishment. Can. J. For. Res. 17: 813–820.
Begg, J. E. and Turner, N.C. 1976. Crop water deficits. Adv. Agron. 28: 161–217.
Bugbee, G. J. and Frink, C. R. 1986. Aeration of potting media and plant growth. Soil Sci. 141: 438–441.
Clements, J. R. 1970. Shoot responses of young red pine to watering applied over two seasons. Can. J. Bot. 48: 75–80.
Day, R. J. 1980. Effective nursery irrigation depends on regulation of soil moisture and aeration. pp. 52–69. In: Arahamson, L. P. and Bickelhaupt, D. H. (Eds) Proc. North American Forest Tree Nursery Soils Workshop. State Univ. New York, Coll. Environ. Sci. and Forestry, Syracuse.
Glerum, C. and Pierpoint, G. 1968. The influence of soil moisture deficits on seedling growth of three coniferous species. For. Chron. 44: 26–29.
Guttormsen, G. 1974. Effects of root medium and watering on transpiration, growth and development of glasshouse crops. Plant and Soil. 40: 65–81.
Hallett, R. D. 1981. Monitoring crop development during rearing of containerized seedlings. In: Canadian Containerized Tree Seedling Symposium. Toronto, Ontario. COJFRC Symposium Proc. O-P-10. pp. 245–253.
Hanan, J. J. and Langhans, R. W. 1964. Control of moisture content in greenhouse soils. Agron. J. 56: 191–194.
Hoedemaker, E. 1974. The Japanese paperpot system. In: Tinus R. W. et al. (Ed) Proc. N. Amer. Containerized Tree Seedling Symp. 26–29 Aug. 1974. Great Plains Agric. Council Publ. No. 68, Denver, CO. pp. 214–216.
Hsiao, T. C. and Acevedo, E. 1974. Plant responses to water deficits, water use efficiency, and drought resistance. Agric. Meteorol, 14: 59–84.
Ingestad, T. 1979. Mineral nutrient requirements of Pinus silvestris and Picea abies seedlings. Physiol. Plant. 45: 373–380.
Langerud, B. R. and Sandvik, M. 1987. Development of containerized Picea abies (L.) Karst. seedlings grown with heavy watering on various peat, perlite and mineral wool mixtures. New Forests 1: 89–99.
McDonald, S. E. 1984. Irrigation in forest-tree nurseries: monitoring and effects on seedling growth. In: Duryea, M. L. and Landis, T. D. (Eds) Forest Nursery Manual: Production of Bareroot Seedlings. Martinus Nijhoff/Dr. W. Junk Publishers. The Hague/Boston/Lancaster. pp. 107–121.
Nye, P. H. and P. B.Tinker. 1977. Solute movement in the soil-root system. Univ. of California Press, Berkley.
Orlander, G. and Due, K. 1986. Location of hydraulic resistance in the soil-plant pathway in seedlings of Pinus sylvestris L. grown in peat. Can. J. For. Res. 16: 115–123.
Owston, P. W. 1974. Two-crop production of western conifers. In: R. W. Tinus et al. (Ed) Proc. N. Amer. Containerized Tree Seedling Symp. 26–29 Aug. 1974. Great Plains Agric. Council Publ. No. 68, Denver, CO. pp. 104–111.
Puustjarvi, V. and Robertson, R. A. 1975. Physical and chemical properties. In: Robinson, D. W. and Lamb, J. G. D. (Eds) Peat in horticulture. Academic Press, London. pp. 23–38.
SAS Institute. 1982. SAS User's Guide: Statistics. SAS Inst., Inc., Raleigh, NC.
Schomaker, C. E. 1969. Growth and foliar nutrition of white pine seedlings as influenced by simultaneous changes in moisture and nutrient supply. Soil Sci. Soc. Amer. Proc. 33: 614–618.
Spomer, L. A. 1975. Small soil containers as experimental tools: soil water relations. Commun. Soil Sci. Plant Anal. 6: 21–26.
Spomer, L. A. and Langhans, R. W. 1975. The growth of greenhouse bench Chrysanthemum morifolium Ramat. at high soil water contents: effects of soil water and aeration. Commun. Soil Sci. Plant Anal. 6: 545–553.
Stone, D. M. 1980. Survival and growth of red pine planted on a hardwood site — a second look. For. Chron. 56: 112–114.
Swan, H. S. D. 1972. Foliar nutrient concentrations in red pine as indicators of tree nutrient status and fertilizer requirement. Pulp Pap. Res. Inst. Can., Woodlands Pap. WR/41. Pointe Claire, Quebec.
Terman, G. L. 1974. Amounts of nutrients supplied for crops grown in pot experiments. Commun. Soil Sci. Plant Anal. 5: 115–121.
Timmer, V. R. 1985. Response of a hybrid poplar clone to soil acidification and liming. Can. J. Soil Sci. 65: 727–735.
Timmer, V. R. and Armstrong, G. 1987. Diagnosing nutritional status of containerized tree seedlings: comparative plant analyses. Soil Sci. Soc. Am. J. 51: 1082–1086.
Timmer, V. R. and L. D. Morrow. 1984. Predicting fertilizer growth response and nutrient status of jack pine by foliar diagnosis. In: Stone, E. L. (Ed) Forest Soils and Treatment Impacts. Proc. 6th North Am. For. Soil Conf. Knoxville. pp. 335–351.
Timmer, V. R. and P. N.Ray. 1988. Evaluating soil nutrient regime for black spruce in the Ontario Claybelt by fertilization. For. Chron. 64: 40–46.
van Erden, E. 1974. Growing season production of western conifers. In: Tinus R. W. et al (Ed) Proc. N. Amer. Containerized Tree Seedling Symp. 26–29 Aug. 1974. Great Plains Agric. Council Publ. No. 68, Denver, CO. pp. 93–103.
Viets, F. G. 1967. Nutrient availability in relation to soil water. In: Hagan, R. M., Haise, H. R. and Edminister, T. W. (Eds) Irrigation of agricultural lands. Agronomy No. 11, Agricultural Society of America, Wisconsin. pp. 458–471.
White, J. W. and Mastalerz, J. W. 1966. Soil moisture as related to “container capacity”. Am. Soc. Hort. Sci. 89: 758–765.
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Timmer, V.R., Armstrong, G. Growth and nutrition of containerized Pinus Resinosa seedlings at varying moisture regimes. New Forest 3, 171–180 (1989). https://doi.org/10.1007/BF00021580
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DOI: https://doi.org/10.1007/BF00021580