Quercus bicolor: Kenny, L. & Wenzell , K.

Tree root defects from current nursery production practices influence short- and long-term tree performance and survivability. The Missouri Gravel Bed (MGB) system, a production method using gravel as a substrate, has been used to prevent many of these defects from occurring. MGB production involves planting bare root stock into a bed of gravel with frequent drip irrigation in order to produce a root system with relatively few defects. MGB production methods have also been purported to allow for summer transplanting of many species, as opposed to traditional dormant transplanting.Because gravel has low water- and nutrient-holding capacity, biochar (5% by volume) was incorporated into one plot as a possible means of improving both water- and nutrient-holding capacity over gravel alone. Wood chip mulch was also investigated as a growing substrate in place of the gravel in a growing system. In 2015, three species, Quercus bicolor (swamp white oak), Taxodium distichum (baldcypress), and Tilia cordata (littleleaf linden), were studied in pea gravel (PG), biochar-amended pea gravel (BC), and wood chip mulch bed (MB) growing environments. Very few differences occurred over the growing season with above- or belowground parameters indicating that the minimal-to-no-cost, more readily available substrate of wood chip mulch should be considered in these growing systems.

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Leaf gas exchange and foliar macronutrients vary in Quercus bicolor but not Quercus phellos between a designed soil pavement system and open lawn

Urban Forestry & Urban Greening ◽

10.1016/j.ufug.2020.126891 ◽

2020 ◽

Vol 56 ◽

pp. 126891

Author(s):

Allyson B. Salisbury ◽

Jason C. Grabosky

Keyword(s):

Gas Exchange ◽

Leaf Gas Exchange ◽

Quercus Bicolor ◽

Quercus Phellos

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Adventitious Root Formation in Stem Cuttings of Quercus bicolor and Quercus macrocarpa and Its Relationship to Stem Anatomy

Journal of the American Society for Horticultural Science ◽

10.21273/jashs.133.4.479 ◽

2008 ◽

Vol 133 (4) ◽

pp. 479-486 ◽

Cited By ~ 19

Author(s):

J. Naalamle Amissah ◽

Dominick J. Paolillo ◽

Nina Bassuk

Keyword(s):

Secondary Growth ◽

Adventitious Root Formation ◽

Fiber Bundles ◽

Vascular Bundles ◽

Stem Cuttings ◽

Root Primordia ◽

Stem Anatomy ◽

Indole Butyric Acid ◽

Quercus Macrocarpa ◽

Quercus Bicolor

This study investigated the relationship of stem anatomy to differences in rooting ability between Quercus bicolor Wild. and Quercus macrocarpa Michx. cuttings. Quercus bicolor cuttings were found to have a significantly greater proportion of parenchymatous gaps in the sclerenchyma sheath over a 9-week period compared with Q. macrocarpa cuttings. In Q. macrocarpa, the percentage gap was generally low, coinciding with the low percentage rooting observed in this species. Percentage rooting correlated well (r2 = 0.75) with the percentage parenchymatous gap in the perivascular region of Q. bicolor cuttings. The problems with accepting this relationship as causal are stated in the discussion. Untreated cuttings showed normal stem organization: a dermal tissue system that included the initial stages of phellem formation, a cortex, and a ring of closely arranged vascular bundles in early stages of secondary growth. The locations of the five distinct lobes of the pith were coordinated with the locations of root primordia. Callus growth was first detected in the cortex (i.e., external to the fiber bundles), followed by proliferation within the phloem, opposite the lobes of the pith, 8 to 12 days after cuttings were treated with indole butyric acid (6000 mg·L−1 dissolved in 50% v/v ethanol in water). By 14 to 16 days, root primordia had developed within the proliferative tissue in the secondary phloem. In both species, root primordia penetrated parenchymatous gaps in the fiber sheath directly, the fiber bundles being displaced laterally as the roots increased in size.

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Early responses of sapwood of Quercus bicolor to mechanical injury

Canadian Journal of Botany ◽

10.1139/b70-095 ◽

1970 ◽

Vol 48 (4) ◽

pp. 683-686 ◽

Cited By ~ 7

Author(s):

J. F. Wardell ◽

J. H. Hart

Keyword(s):

Mechanical Injury ◽

Annual Rings ◽

Triphenyl Tetrazolium Chloride ◽

White Oak ◽

Tetrazolium Chloride ◽

Starch Grains ◽

Quercus Bicolor ◽

Swamp White Oak ◽

Ray Parenchyma Cells ◽

Extraneous Material

The response of sapwood of swamp white oak (Quercus bicolor Willd.) to mechanical injury was studied over a 28-day period. In cells within 0.5 cm of a wound stimulus, starch grains disappeared and cells were unable to reduce the vital stain, triphenyl tetrazolium chloride (TTC), 8 to 10 days after mechanical injury. Extraneous material and tannins began to accumulate 10 to 12 days after mechanical injury. Nuclei began to disintegrate 12 to 14 days after mechanical injury, but some persisted throughout the period of investigation.With increasing distance from the cambium, starch grains disappeared from ray parenchyma. Cells in the annual rings of sapwood adjacent to the heartwood were unable to reduce TTC. Nuclei were present in all annual rings of sapwood but were lacking in heartwood. Tannins appeared at the heartwood boundary and accumulated in the heartwood.With respect to the criteria used, this investigation indicates that formation of discoloration in sapwood and conversion of sapwood to heartwood appear similar.

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In vitro regeneration of the important North American oak species Quercus alba, Quercus bicolor and Quercus rubra

Plant Cell Tissue and Organ Culture (PCTOC) ◽

10.1007/s11240-009-9546-6 ◽

2009 ◽

Vol 98 (2) ◽

pp. 135-145 ◽

Cited By ~ 24

Author(s):

A. M. Vieitez ◽

E. Corredoira ◽

A. Ballester ◽

F. Muñoz ◽

J. Durán ◽

...

Keyword(s):

North American ◽

Quercus Rubra ◽

In Vitro Regeneration ◽

Quercus Alba ◽

Quercus Bicolor

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ASEXUAL EMBRYOGENESIS AND PLANT REGENERATION FROM MALE CATKINS OF QUERCUS

HortScience ◽

10.21273/hortsci.25.9.1101a ◽

1990 ◽

Vol 25 (9) ◽

pp. 1101a-1101

Author(s):

V.M. Gingas

Keyword(s):

Plant Regeneration ◽

Growth Regulators ◽

Embryogenic Callus ◽

Quercus Rubra ◽

Ms Medium ◽

Callus Proliferation ◽

Quercus Bicolor ◽

Asexual Embryogenesis ◽

Repetitive Embryogenesis

Partially expanded male catkins at the pre-pollen shedding stage of Quercus rubra L. and Quercus bicolor Willd. were cultured on MS medium supplemented with BA or 2,4D Explants on 2,4D produced a yellow embryogenic callus, seeming to originate from the pedicels. Subsequent transfers to BA and then, MS without growth regulators, resulted in callus proliferation. After ten weeks in culture, white embryoids developed from the callus of Q. bicolor. Separated and individually cultured embryoids underwent direct, repetitive embryogenesis. Upon transfer to ½-strength MS, embryoid germination and plant regeneration occurred, Callus of Q. rubra degenerated after five months in culture, failing to produce embryogenic structures.

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QUERCUS BICOLOR, SWAMP WHITE OAK

The Trees of Great Britain and Ireland ◽

10.1017/cbo9781107252820.109 ◽

2014 ◽

pp. 1307-1308

Author(s):

Henry John Elwes ◽

Augustine Henry

Keyword(s):

White Oak ◽

Quercus Bicolor ◽

Swamp White Oak

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The Effects of Pruning on Drag and Bending Moment of Shade Trees

Arboriculture & Urban Forestry ◽

10.48044/jauf.2008.028 ◽

2008 ◽

Vol 34 (4) ◽

pp. 207-215

Author(s):

Michael Pavlis ◽

Brian Kane ◽

J. Roger Harris ◽

John Seiler

Keyword(s):

Center Of Pressure ◽

Bending Moment ◽

National Standards ◽

Shade Trees ◽

White Oak ◽

Practical Applications ◽

Before And After ◽

Quercus Bicolor ◽

Swamp White Oak ◽

Simulated Wind

Arborists assume that pruning can help reduce the risk of tree failure by reducing the pressure exerted on trunks by wind (drag-induced bending moment), but there are few studies that quantify this effect. We simulated wind by driving trees in the back of a pickup truck from 0 to 24.5 m/s (0 to 55 mph) and measured drag-induced bending moment as well as tree morphometric data for Freeman maple (Acer × freemanii), swamp white oak (Quercus bicolor Willd.), and shingle oak (Quercus imbricaria Michx.). Measurements were taken before and after application of one of three American National Standards Institute A300 pruning types (raising, reduction pruning, thinning). Reduction of drag-induced bending moment differed by pruning type, largely in accordance with the mass of foliage and twigs removed. The effectiveness of pruning types was also species-dependent because crown architecture affected how much mass each pruning type removed. In general, per unit of mass removed, reduction pruning more effectively reduced the drag-induced bending moment than thinning or raising. Reduction pruning reduced the center of pressure height and, presumably, increased crown porosity after pruning. Prediction of the reduction of drag-induced bending moment was not reliable based on reduction in crown area after pruning. We discuss the practical applications of our findings.

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