THREE EPICORMIC SHOOT TECHNIQUES IN I. paraguariensis MOTHER TREES AND ITS CUTTING ACCORDING TO THE MATERIAL REJUVENATION DEGREE

Basal reiteration (epicormic shoot production from older branch axes) occurred continuously and repeatedly in branches of 450-year-old Pseudotsuga menziesii (Mirb.) Franco var. menziesii (coastal Douglas-fir) trees reproducing sections of branches comprising less than 100 to as many as 10 000 foliated shoots. Basal reiteration occurred mostly from primary and secondary branch axes but also occurred from higher-order axes if lower-order axes had died back. Basal reiteration occurred in distal sections of upper-crown branches, while it occurred in more proximal sections of middle- and lower-crown branches, indicating that basal reiteration works to distribute foliage more uniformly within branches that have reached maximum size. Basal reiteration occurred repeatedly producing two to six generations of reiterated axes within branches. Less than 22.5% of foliated shoots on branches were produced by sequential branching of the primary axis. Basal reiteration also maintained a constant rate of new shoot production within the branch. Growth-ring analysis showed that basal reiteration occurred over a wide range of axis ages (558 years). In conjunction with previous studies, we showed that adaptive reiteration of various architectural units by epicormic shoot production is an inherent process that maintains foliage in the crown of old P. menziesii trees.Key words: branch growth, branching pattern, crown maintenance, longevity.

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Ergebnisse eines Grünästungsversuchs mit Bergahorn, Buche, Eiche und Esche

Schweizerische Zeitschrift fur Forstwesen ◽

10.3188/szf.2017.0067 ◽

2017 ◽

Vol 168 (2) ◽

pp. 67-74

Author(s):

Joachim Klädtke ◽

Andreas Ehring

Keyword(s):

Wood Decay ◽

Shoot Formation ◽

Radial Increment ◽

Short Term ◽

Occlusion Time ◽

Epicormic Shoot ◽

Green Pruning ◽

Epicormic Branches ◽

Southwest Germany

Results of a green pruning experiment with maple, beech, oak, and ash Object of the investigation is a pruning experiment in maple, beech, oak and ash stands in southwest Germany, which started in 2004. Aim of the experiment was to quantify the effects of green pruning on wood decay, discoloration, epicormic shoot formation, radial increment, and occlusion time. At top heights of 8–14 m, trials for each species were placed in stands where the natural pruning had not yet reached the achieved knot-free bole length. In each trial, ten trees were pruned in spring and summer respectively, by cutting 40% of the crown in average and branches up to 80 mm diameter. Additionally, ten unpruned trees were selected on each trial and, as the pruned trees, released from competitors. In 2011 and 2012 respectively, the trees were felled and measured, and wood samples with branches were taken and analysed. Results show that green pruning did not cause any wood decay. Compared to the control trees, increased discoloration was observed in the stems of the pruned trees. However, this was limited to the knotty center of the trunk and did not diffuse to the knotless part. Pruning intensified the formation of epicormic branches, but, except for oak, these branches diminished to the level of the control trees already during the time of observation. Radial increment shows a short-term decrease due to the green pruning, but with an extent below the effect of the dry year in 2003. With branch diameters of 3–4 cm, the pruned trees needed three to five years until the branching wounds were occluded, whereas about nine years were necessary for trees with natural pruning.

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Spatiotemporal distribution of epicormic shoots and their architecture in branches of Fraxinuspennsylvanica

Canadian Journal of Forest Research ◽

10.1139/x92-043 ◽

1992 ◽

Vol 22 (3) ◽

pp. 336-340 ◽

Cited By ~ 24

Author(s):

W.R. Remphrey ◽

C.G. Davidson

Keyword(s):

Lower Order ◽

Spatiotemporal Distribution ◽

Divergence Angle ◽

Green Ash ◽

Epicormic Shoots ◽

Lateral Shoots ◽

Shoot Production ◽

Epicormic Shoot ◽

The Mean

Epicormic shoots in the branch systems of Fraxinuspennsylvanica var. subintegerrima (Vahl) Fern, (green ash) were more common on lower order shoots and arose periodically over a number of years, resulting in a greater number in older crown regions. Nevertheless, considerable variation existed among trees, ranging from 3 to 34 epicormic shoots per branch sample. Epicormic shoots were generally located near the distal end of parent shoots, suggesting their origin from persistent buds in these regions. The mean divergence angle of epicormic shoots was almost 10° greater than that of nonepicormic shoots. Mean length did not differ between epicormic and nonepicormic shoots, but the length of daughter terminal shoots extending epicormic shoots was considerably less than the length of those extending nonepicormic shoots. The number of lateral shoots produced by the two shoot types did not differ. The significance of epicormic shoot production to crown development and maintenance is discussed.

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Current-year and Subsequent-year Effects of Crop-load Manipulation and Epicormic-shoot Removal on Distribution of Long, Short and Epicormic Shoot Growth in Prunus persica

Annals of Botany ◽

10.1093/aob/mcl262 ◽

2007 ◽

Vol 99 (2) ◽

pp. 323-332 ◽

Cited By ~ 15

Author(s):

D. Gordon ◽

T. M. Dejong

Keyword(s):

Shoot Growth ◽

Prunus Persica ◽

Crop Load ◽

Epicormic Shoot ◽

Shoot Removal

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Epicormic shoot growth in striped maple

Canadian Journal of Forest Research ◽

10.1139/x79-018 ◽

1979 ◽

Vol 9 (1) ◽

pp. 110-113 ◽

Cited By ~ 2

Author(s):

B. F. Wilson

Keyword(s):

Gibberellic Acid ◽

Growth Regulators ◽

Shoot Growth ◽

Subsequent Growth ◽

Benzyl Adenine ◽

Indolebutyric Acid ◽

Lateral Buds ◽

Terminal Bud ◽

Epicormic Shoot ◽

Stem Segments

Epicormic shoots on stem segments from suppressed striped maple (Acerpensylvanicum L.) grow from poorly developed lateral buds in the axils of bud scales. The nondormant buds on stem segments in water are released by removing the terminal bud. For dormant buds (collected in winter) to grow they must, in addition to removing the terminal, either be chilled at 5 °C for 3–4 months or be treated with gibberellic acid (GA). Treatment with basally applied growth regulators did not release lateral buds if the terminal was intact. Nondormant buds on decapitated segments were totally inhibited by indolebutyric acid, applied either basally in solution or apically in lanolin, and partially inhibited by abscissic acid or 2-chloroethylphosphonic acid. Triiodobenzoic acid increased the number of buds released on decapitated segments but inhibited their subsequent growth. GA and benzyl adenine did not effect bud release but did stimulate subsequent epicormic shoot growth.

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Epicormic Shoot Traces in the Secondary Xylem of the Triassic and Permian Fossil Conifer Species Woodworthia Arizonica — Short Communication

IAWA Journal ◽

10.1163/22941932-90000151 ◽

2006 ◽

Vol 27 (3) ◽

pp. 237-241 ◽

Cited By ~ 8

Author(s):

Geoffrey T. Creber ◽

Margaret E. Collinson

Keyword(s):

Short Communication ◽

Secondary Xylem ◽

Late Triassic ◽

Conifer Species ◽

Epicormic Shoots ◽

Substantial Loss ◽

Epicormic Shoot ◽

Close Contacts

Specimens of Woodworthia arizonica Jeffrey trees from the Late Triassic of Arizona, U.S.A. and the Permian of Brazil, typically have horizontal vascular traces that have extremely close contacts with the tracheids of the secondary xylem. In modern gymnospermous and angiospermous trees, such traces terminate on preventitious buds deeply embedded in their bark. Such buds develop into epicormic shoots, after substantial loss of foliage through fire or other damage.

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