Summary
Four clones of Fraxinus pennsylvanica var. subintegerrima (Vahl) Fern. were planted in replicated trials at two sites in Manitoba (Morden and Winnipeg) to investigate shoot growth and leaf neoformation in relation to genotype, environment and pruning treatment over a 3 year period. Significant differences were found among clones, years and sites for shoot length and numbers of neoformed leaves. Neoformation was highest shortly after transplanting and then declined. An increase in neoformation was evident following cold related winter injury or loss of terminal buds by late spring frosts. Pruning and terminal bud removal treatments both increased neoformed leaf production relative to control trees. The trees were able to quickly re-establish photosynthetic surface area after injury or treatment and neoformed leaf production was an important component in this recovery strategy. The capacity for neoformation also varied in relation to genotype but appeared to be very plastic, being affected by a wide variety of factors. In addition, the rate or pattern of change in amounts of neoformed leaves over time and locations was variable. Numbers of neoformed leaves increased with shoot length but variation in the relationship suggested that there were differences in internode length as well. Neoformed leaves were highest in the upper part of the crown indicating that there was differential allocation of resources within the crown.
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References
Ash GBH, Shaykewich CF, Raddatz RL (1992) Agricultural climate of the eastern prairies. University of Manitoba, Misc Publ Winnipeg, Canada
Bell AD (1991) Plant form: an illustrated guide to flowering plant morphology. Oxford University Press, New York
Bradshaw AD (1965) Evolutionary significance of phenotypic plasticity in plants. Adv Genet 13: 115–155
Cannell MGR, Morgan J, Murray MB (1988) Diameters and dry weights of tree shoots: effects of Young's modulus, taper, deflection and angle. Tree Physiol 4: 219–231
Critchfield WB (1960) Leaf dimorphism in Populus trichocarpa. Am J Bot 47: 699–711
Davidson CG, Remphrey WR (1990) An analysis of architectural parameters of male and female Fraxinus pennsylvanica in relation to crown shape and crown location. Can J Bot 68: 2035–2043
Gill AM (1971) The formation, growth, and fate of buds of Fraxinus americana in Central Massachusetts. Harv For Pap 20: 1–16
Hackett WP (1985) Juvenility, maturation, and rejuvenation in woody plants. Hort Rev 7: 109–155
Hallé F, Oldeman RAA, Tomlinson PB (1978) Tropical trees and forests. An architectural analysis. Springer, Berlin Heidelberg New York
Kramer PJ, Kozlowski TT (1979) Physiology of woody plants. Academic Press, New York
Leaky RRB, Longman DA (1986) Physiological, environmental and genetic variation in apical dominance as determined by decapitation in Triplochiton scleroxylon. Tree Physiol 1: 193–207
Maggs DH (1959) The pruning response of one-year apple trees. Ann Bot 23: 319–330
Maini JS (1966) Apical growth of Populus sp. II. Relative growth potential of apical and lateral buds. Can J Bot 44: 1581 -1590
Marks PL (1975) On the relation between extension growth and successional status of deciduous plants trees of the northeastern United States. Bull Torrey Bot Club 102: 172–177
Pearce SC (1976) Field experimentation with fruit trees and other perennial plants. Technical Communication No 23, 2nd edn. Commonwealth Agriculture Bureau, East Mailing, Kent
Porter JR, Llewelyn FWM (1984) The architectural dynamics of pruned apple trees. J Hortic Sci 59: 313–321
Remphrey WR (1989) Shoot ontogeny in Fraxinus pennsylvanica (green ash). I. Seasonal cycle of terminal meristem activity. Can J Bot 67: 1624–1632
Remphrey WR, Davidson CG (1991) Crown shape variation in Fraxinus pennsylvanica: its relation to architectural parameters including the effects of shoot-tip abortion. In: Edelin C (ed) L'Arbre, Biologie et developpement. Nat Monspel Ser Bot A7: 169–180
Remphrey WR, Davidson CG (1992a) Spatio-temporal distribution of epicormic shoots and their architecture in branches of Fraxinus pennsylvanica. Can J For Res 22: 336–340
Remphrey WR, Davidson CG (1992b) Branch architecture and its relation to shoot-tip abortion in mature Fraxinus pennsylvanica. Can J Bot 70: 1147–1153
Remphrey WR, Davidson CG (1994) Shoot preformation in clones of Fraxinus pennsylvanica in relation to site and year of bud formation. Trees 8: 126–131
Remphrey WR, Powell GR (1984) Crown architecture of Larix laricina saplings: shoot preformation and neoformation and their relationship to shoot vigour. Can J Bot 62: 2181–2192
Remphrey WR, Steeves TA (1984) Shoot ontogeny in Arctostaphylos uva-ursi (bearberry): the annual cycle of apical activity. Can J Bot 62: 1925–1932
Remphrey WR, Davidson CG, Blouw MJ (1987) A classification and analysis of crown form in green ash (Fraxinus pennsylvanica). Can J Bot 65: 268–279
SAS (1991) SAS User's Guide. Statistics version 6. SAS Institute Inc, Cary, NC
Sattler R (1990) Towards a more dynamic plant morphology. Acta Biotheor 38: 303–315
Scheiner SM, Lyman RF (1991) The genetics of phenotypes plasticity. II. Response to selection. J Ecol Biol 4: 23–50
Slabaugh PE (1957) Effects of live crown removal on the growth of red pine. J For 55: 904–906
Suzuki T, Kitano M (1989) Lateral bud development and shoot growth of low-pruned Morus alba as affected by stem orientation. Physiol Plant 76: 493–499
Wareing PF, Seth AK (1967) Ageing and senescence in the whole plant. Symp Soc Exp Biol 21: 543–558
Wilson BF (1992) Compensatory growth in shoot populations of young white pine trees. Trees 6: 204–209
West-Eberhard MJ (1989) Phenotypic plasticity and the origin of diversity. Annu Rev Ecol Syst 20: 249–278
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Davidson, C.G., Remphrey, W.R. Shoot neoformation in clones of Fraxinus pennsylvanica in relation to genotype, site and pruning treatments. Trees 8, 205–212 (1994). https://doi.org/10.1007/BF00196848
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DOI: https://doi.org/10.1007/BF00196848