Effects of Sulfometuron on the Emergence and Growth of Seeded Northern Red Oak, White Ash, and White Pine

1991 ◽  
Vol 8 (1) ◽  
pp. 9-11 ◽  
Author(s):  
Larry H. McCormick ◽  
David H. Allen ◽  
John W. Groninger ◽  
Todd W. Bowersox
Keyword(s):  
Adverse Effect ◽  
Untreated Control ◽  
Height Growth ◽  
High Rate ◽  
First Year ◽  
Red Oak ◽  
Northern Red Oak ◽  
White Pine ◽  
White Ash ◽  
Direct Seeded

Abstract Sulfometuron (Oust®) and glyphosate (Roundup®) were applied separately and as tank mixes to plots direct seeded with northern red oak, white ash, and white pine. Treatments included applications of glyphosate, sulfometuron (low and high rate), sulfometuron (low and high rate) + glyphosate, and an untreated control. Results after 2 years showed no effect of sulfometuron at either rate on the emergence of northern red oak and white ash. Emergence of white pine was reduced by both rates of sulfometuron alone or in combination with glyphosate. Sulfometuron at the higher rate alone or in combination with glyphosate reduced the height growth of northern red oak and white ash, and increased first-year mortality of northern red oak. Height growth and first-year survival of white pine was not affected by either rate of sulfometuron. Glyphosate alone or in combination with sulfometuron at the lower rate had no adverse effect on the emergence or seedling growth of northern red oak, white ash, or white pine. North. J. Appl. For. 8(1):9-11

Influences of light intensity on weed-induced stresses of tree seedlings

1990 ◽  
Vol 20 (5) ◽  
pp. 503-507 ◽  
Author(s):  
T. E. Kolb ◽  
T. W. Bowersox ◽  
L. H. McCormick
Keyword(s):  
Soil Moisture ◽  
Light Intensity ◽  
Tree Species ◽  
Red Oak ◽  
Tree Seedlings ◽  
Northern Red Oak ◽  
White Pine ◽  
White Ash ◽  
Reduced Height ◽  
Four Levels

Growth of northern red oak (Quercusrubra L.), white ash (Fraxinusamericana L.), and white pine (Pinusstrobus L.) seedlings was evaluated for 2 years after germination in 12 environments that consisted of four levels of herbaceous interference (fern, fern free, grass, grass free) crossed with three levels of light intensity (100, 45, and 20% full sun), at two clear-cuts in central Pennsylvania. Grass and fern interference reduced soil moisture content and reduced height or diameter growth of all species. Shading ameliorated soil moisture, reduced herbaceous growth, generally reduced growth of all tree species in interference-free environments, and had no effect on growth of any tree species in fern and grass environments. Reduction in growth due to herbaceous interference was lower for northern red oak and white pine than for white ash, while shading had similar effects on growth of all species. Results suggest that stresses induced by shading alone have little short-term effect on the establishment of these species under conditions of heavy herbaceous interference.

scholarly journals Radial Growth Losses in Preferred and Avoided Tree Species During Gypsy Moth Outbreaks

1999 ◽  
Vol 16 (1) ◽  
pp. 11-18 ◽  
Author(s):  
Robin Naidoo ◽  
Martin J. Lechowicz
Keyword(s):  
Gypsy Moth ◽  
Radial Growth ◽  
Larval Density ◽  
First Year ◽  
Red Oak ◽  
Northern Red Oak ◽  
White Ash ◽  
Annual Growth Rings ◽  
Individual Trees ◽  
A Site

Abstract We investigated the effect of gypsy moth larval density on radial growth of preferred and avoided trees: northern red oak and white ash, respectively. Individual trees were censused for gypsy moth larvae from 1979 to 1992 at a site where several outbreaks occurred. Annual growth rings were measured from 1950 to 1992 on increment cores taken from these same trees, as well as from trees at a nearby site that had not experienced any outbreaks. Regression models of growth at the outbreak site on growth at the nonoutbreak site were developed to isolate the influence of gypsy moth defoliation from other factors such as climate. These were then used to generate expected values for radial growth in the absence of gypsy moth at the outbreak site. During the first year of the first gypsy moth outbreak, there was a mean reduction in radial growth of 46% in red oak, a loss similar to what has been reported in other studies. Growth of white ash was much higher than predicted in 2 yr during and subsequent to the first outbreak. Yearly larval counts from 1979 to 1992 on red oak at the outbreak site were negatively correlated with oak radial growth after correcting for climate, suggesting that nonoutbreak levels of gypsy moth may reduce radial growth more than has previously been thought. Larval counts on ash were uncorrelated with ash growth after correcting for climate. North. J. Appl. For. 16(1):11-18.

Species mixture effects in northern red oak–eastern white pine stands in Maine, USA

2013 ◽  
Vol 298 ◽  
pp. 71-81 ◽  
Author(s):  
Justin Waskiewicz ◽  
Laura Kenefic ◽  
Aaron Weiskittel ◽  
Robert Seymour
Keyword(s):  
Red Oak ◽  
Northern Red Oak ◽  
White Pine ◽  
Eastern White Pine ◽  
Mixture Effects ◽  
Species Mixture ◽  
Pine Stands

Performance of Northern Red Oak Planting Stock

1993 ◽  
Vol 10 (3) ◽  
pp. 105-111 ◽  
Author(s):  
James J. Zaczek ◽  
Kim C. Steiner ◽  
Todd W. Bowersox
Keyword(s):  
Genetic Material ◽  
Field Performance ◽  
Hormone Treatment ◽  
Direct Seeding ◽  
Red Oak ◽  
Northern Red Oak ◽  
Planting Stock ◽  
Planting Time ◽  
Direct Seeded

Abstract Northern red oak planting trials were established in three clearcuts in Pennsylvania to evaluate field performance in relation to type of planting stock (1-0, 2-0, 1-1, 2-1, containerized direct-seeded) and other treatments (undercutting in the nursery, top-clipping at planting time, hormone treatment of roots). All treatments were planted simultaneously, and most employed the same genetic material. After 3 yr in the field, seedlings that had been grown for 2 yr in 7.9-1 pots were tallest and had the best survival, but this stock was expensive to produce and difficult to plant. The 2-0 bareroot stock performed best among remaining treatments, especially if the seedlings had been undercut in the nursery. Undercutting was not beneficial to the performance of 1-0 seedlings. Top-clipping and a hormone treatment had little effect on performance. Seedlings from direct-seeding were as tall as those from 1-0 stock. The advantage of 2-0 stock over 1-0 stock was partly, but not entirely, attributable to its larger size. North. J. Appl. For. 10(3):105-111.

scholarly journals Seasonal Effects of Transplanting on Northern Red Oak and Willow Oak

2004 ◽  
Vol 22 (2) ◽  
pp. 75-79
Author(s):  
Lisa E. Richardson-Calfee ◽  
J. Roger Harris ◽  
Jody K. Fanelli
Keyword(s):  
Root Growth ◽  
Early Spring ◽  
Height Growth ◽  
Seasonal Effects ◽  
Late Winter ◽  
Red Oak ◽  
Bud Break ◽  
Northern Red Oak ◽  
Trunk Diameter ◽  
Red Oaks

Abstract Seasonal effects on transplant establishment of balled-and-burlapped (B&B) shade trees are not well documented. Early post-transplant root growth and aboveground growth over a 3-year period were therefore determined for November-and March-transplanted northern red oak (Quercus rubra L.) and willow oak (Q. phellos L.). Survival of red oak was 100% for both treatments. Survival of November-and March-transplanted willow oak was 67% and 83%, respectively. No new root growth was observed outside or within the root balls of either species upon excavation in January. New root growth was evident when trees of both species were excavated in April, indicating that root system regeneration of November-transplanted trees occurs in late winter and/or early spring, not late fall and/or early winter. November-transplanted red oak, but not willow oak, grew more roots by spring bud break than March-transplanted trees. However, little difference in height growth and trunk expansion was evident between the November-and March-transplanted red oaks throughout the 3 years following transplant. While height growth of willow oak was nearly identical between treatments after 3 years, November transplants exhibited greater trunk diameter increase for all 3 years. Overall, season of transplant had little effect on height and trunk diameter increase of red oak, even though November-transplanted trees grew more roots prior to the first bud break following transplant. Among the willow oaks that survived, season of transplant had little effect on new root growth and height growth, but November transplanting resulted in greater trunk expansion. However, when the mortality rate of November-transplanted willow oak is taken into consideration, March may be a better time to transplant willow oak in climates similar to southwest Virginia.

scholarly journals Regeneration of Northern Red Oak in Relation to Ectomycorrhizae in Oak and Pine Stands after Overstory and Understory Manipulations

1998 ◽  
Vol 15 (4) ◽  
pp. 182-190 ◽  
Author(s):  
Minyi Zhou ◽  
Terry L. Sharik ◽  
Martin F. Jurgensen ◽  
Dana L. Richter ◽  
Margaret R. Gale ◽  
...  
Keyword(s):  
Seedling Growth ◽  
Canopy Cover ◽  
Growing Season ◽  
First Year ◽  
Red Oak ◽  
Northern Red Oak ◽  
Growing Seasons ◽  
Shoot Ratio ◽  
Root Shoot Ratio ◽  
Pine Stands

Abstract Growth of northern red oak (Quercus rubra L.) seedlings in relation to colonization by indigenous ectomycorrhizal (ECM) fungi was studied in oak and pine stands in northern Lower Michigan that were subjected to overstory and understory manipulations. Two stand types (oak and pine), three blocks of each stand type, four canopy cover treatments (clearcut, 25% cover (50% cover in the first year), 75% cover and uncut), and two understory treatments (shrub removal and untreated control) were involved in the experiment. Northern red oak acorns from a common seed source were sown in May 1991 to simulate natural regeneration. Seedling growth and its relation to percent ECM were evaluated for the first two growing seasons. A significantly larger root-collar diameter of northern red oak seedlings was found in pine stands than in oak stands for the first growing season (P < 0.001). However, this difference could not be explained by overall ECM colonization. Seedling growth and ECM colonization were not affected by the shrub removal treatment during the first two growing seasons. In contrast, northern red oak seedling size and weight were strongly influenced by the overstory treatment, with lower levels of canopy cover resulting in larger seedlings. Seedlings had the greatest percent ECM in the partial cover treatment (25-50%) and the lowest percent ECM in the clearcut. After accounting for the effects of canopy cover, the relationship between total biomass of northern red oak seedlings and percent ECM was positively correlated (P = 0.001) during the first growing season and negatively correlated (P = 0.038) during the second growing season. A positive relationship between root/shoot ratio and percent ECM also existed in the first year (P = 0.003) in both oak and pine stands, but only in the oak stands in the second year (P = 0.039). These results indicate that ECM promoted more root development than shoot development, particularly underpartial canopy cover (25%-50%) treatments, where the greatest percent ECM and largest root/shoot ratio were found. Moreover, our results suggest that these partial canopy cover treatments provide a favorable balance between ECM abundance and northern red oak seedling development in both oak and pine stands on intermediate quality sites, and may lead to northern red oak regeneration success on such sites. North. J. Appl. For. 15(4):182-190.

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