scholarly journals Effect of Cyclic Irrigation on Growth of Magnolias Produced Using Five In-ground Systems

2003 ◽  
Vol 21 (3) ◽  
pp. 148-152
Author(s):  
R. C. Beeson ◽  
K. Keller
Keyword(s):  
Growth Rates ◽  
Shoot Growth ◽  
Similar Rate ◽  
Height Growth ◽  
Irrigation Event ◽  
The Other ◽  
Diameter Growth ◽  
Trunk Diameter ◽  
Magnolia Grandiflora ◽  
Ground Systems

Abstract Five in-ground systems were evaluated based on shoot growth and marketability for the production of 2.17 m (7 ft) tall and 5.08 cm (2 in) trunk diameter Magnolia grandiflora cv. ‘Symmes Select’. Systems evaluated were Root Control Bags, Geo-Cell bags, and #25 containers in pot-in-pot in Experiment 1, and Agro-liners in socket pots and directly in-ground in Experiment 2. Each system was either cyclically irrigated or given a single irrigation event daily. In Experiment 1, cyclic irrigation increased the rate of height growth and trunk diameter compared to a single irrigation. Trees in Root Control Bags and pot-in-pot grew at a similar rate and faster than those in Geo-Cell bags. Faster growth rates with cyclic irrigation resulted in earlier marketability compared to single irrigation daily, except for pot-in-pot. In Experiment 2, cyclic irrigation increased the rate of trunk diameter growth, and Agro-liners in pots had greater height and trunk diameter growth rates than those directly in ground. Trees grown in the in-ground pot systems, whether in Agro-liners or black polyethylene containers, grew similarly to trees in Root Control Bags. Trees grown in Geo-cells or Agro-liners in-ground had significantly slower growth than the other treatments.

Apical mitotic activity and growth in clones of Norway spruce in relation to cold hardiness

1999 ◽  
Vol 29 (1) ◽  
pp. 40-46 ◽  
Author(s):  
Johan Westin ◽  
Lars-Göran Sundblad ◽  
Martin Strand ◽  
Jan-Erik Hällgren
Keyword(s):  
Mitotic Activity ◽  
Norway Spruce ◽  
Cold Hardiness ◽  
Shoot Growth ◽  
Height Growth ◽  
The Other ◽  
Seasonal Development ◽  
Diameter Growth ◽  
Consistent Difference ◽  
Median Interval

Seasonal development of apical mitotic activity and growth in three clones of Norway spruce (Picea abies (L.) Karst.) of the same age and origin but with differences in accumulated height growth and cold hardiness were investigated. The clones showed no consistent difference in mitotic index (MI), either in period or in general levels. The response of MI to temperature differed in spring and fall. Differences in cold hardiness between the clones was not directly coupled to differences in MI. Diameter growth ended earlier in one clone than in the other two clones, and this clone also produced lower numbers of stem units in both lateral and leader shoots. Cessation of diameter growth showed no relation to the duration and level of apical MI. The tallest clone had, as a combined effect of both size and number of stem units, significantly longer leader shoots than the other two clones. The greater leader shoot growth of the tallest clone relative to the other two clones during 1987-1996 was also most prominent after years with sudden drops in fall minimum temperatures to below ca. -12°C (median; interval: -11 to -13°C), following several weeks with mean temperatures above 3°C.

scholarly journals Species and Their Relationships with Air and Soil Temperatures

1999 ◽  
Vol 9 (1) ◽  
pp. 131
Author(s):  
Timothy K. Broschat
Keyword(s):  
Root Growth ◽  
Growth Rates ◽  
Shoot Growth ◽  
Cocos Nucifera ◽  
Primary Root ◽  
The Other ◽  
Date Palms ◽  
Primary Roots ◽  
Root And Shoot Growth ◽  
Soil Temperatures

Royal palms [Roystonea regia (HBK.) O.F. Cook], coconut palms (Cocos nucifera L. `Malayan Dwarf'), queen palms [Syagrus romanzoffiana (Chamisso) Glassman], and pygmy date palms (Phoenix roebelenii O'Brien) were grown in a rhizotron to determine the patterns of root and shoot growth over a 2-year period. Roots and shoots of all four species of palms grew throughout the year, but both root and shoot growth rates were positively correlated with air and soil temperature for all but the pygmy date palms. Growth of primary roots in all four species was finite for these juvenile palms and lasted for only 5 weeks in royal palms, but ≈7 weeks in the other three species. Elongation of secondary roots lasted for only 9 weeks for coconut palms and less than half of that time for the other three species. Primary root growth rate varied from 16 mm·week-1 for coconut and pygmy date palms to 31 mm·week-1 for royal palms, while secondary root growth rates were close to 10 mm·week-1 for all species. About 25% of the total number of primary roots in these palms grew in contact with the rhizotron window, allowing the prediction of the total root number and length from the sample of roots visible in the rhizotron. Results indicated that there is no obvious season when palms should not be transplanted in southern Florida because of root inactivity.

scholarly journals Effects of Root Pruning on Container-Grown Maple and Oak

2014 ◽  
Vol 32 (4) ◽  
pp. 208-214
Author(s):  
Donna Fare
Keyword(s):  
Acer Rubrum ◽  
Soil Surface ◽  
Height Growth ◽  
Diameter Growth ◽  
Root Pruning ◽  
Red Maple ◽  
Field Plot ◽  
Trunk Diameter ◽  
Reduced Height ◽  
Similar Growth

Two experiments were conducted on container-grown plants that were actively growing in spring to evaluate the effects of root pruning prior to repotting or planting in a field plot. In experiment 1, severe root pruning significantly reduced height and trunk diameter growth for both ‘Summer Red’ maple (Acer rubrum L) and overcup oak (Quercus lyrata Walt.) after repotting into a larger container. Shoot and root dry weights were less with plants severely root pruned compared to plants that were not root pruned or had been lightly root pruned. Overcup oaks that received no root pruning or were lightly root pruned did not differ in height or trunk growth 24 weeks after study initiation. However, overcup oaks severely root pruned had brown foliage within 10 days of repotting and within 2 months had extensive dieback, which resulted in negative height growth by the end of the study. In experiment 2, ‘Autumn Flame’ red maple that received no root pruning had similar growth to plants that had light root pruning, but was greater than plants that received moderate or severe root pruning during the first growing season in the field. Autumn Flame red maples severely root pruned prior to field planting had 65% less height growth than plants receiving no root pruning during year 1. After four years, shoot and trunk diameter growth was similar among treatments. The number of circling roots at the soil surface decreased as the amount of root pruning increased.

scholarly journals Eastern White Pine (Pinus strobus) Growth Response to Partial Hardwood Overstory Release

2000 ◽  
Vol 17 (3) ◽  
pp. 89-94 ◽  
Author(s):  
Klaus.J. Puettmann ◽  
Mike R. Saunders
Keyword(s):  
Growth Response ◽  
Pinus Strobus ◽  
Height Growth ◽  
The Other ◽  
Diameter Growth ◽  
Growth Responses ◽  
White Pine ◽  
Initial Size ◽  
Initial Height ◽  
Partial Release

Abstract We measured the response of white pine (Pinus strobus L.) saplings after partial release of a hardwood overstory on three sites in central Minnesota. Both height and diameter growth increased quickly after release compared to prerelease growth. Diameter growth response was related to prerelease diameter growth, but not to initial size of the sapling (diameter at time of release). On the other hand, height growth response was strongly influenced by the initial height of all trees, but not related to prerelease height growth in the largest saplings (initial heights > 8.76 m). Increased release intensity (i.e., difference between prerelease and postrelease overstory densities) resulted in higher diameter and height growth responses. The height/diameter ratios decreased after release, indicating that stability as well as growth increased after the release. North. J. Appl. For. 17(3):89–94.

scholarly journals Container Size and Initial Trunk Diameter Effects Growth of Acer rubrum L. During Production

2006 ◽  
Vol 24 (1) ◽  
pp. 18-22
Author(s):  
Donna C. Fare
Keyword(s):  
Acer Rubrum ◽  
Dry Weight ◽  
Growing Season ◽  
Height Growth ◽  
Diameter Growth ◽  
Red Maple ◽  
Trunk Diameter ◽  
Growing Seasons ◽  
Shoot Dry Weight ◽  
Bare Root

Abstract Two studies were conducted to determine container size and liner (young bare root trees) trunk diameter effects on growth of Acer rubrum L. ‘Franksred’, Red Sunset™ red maple. In experiment 1, maples liners with initial mean trunk diameters of 12.2 mm (0.5 in), 15.9 mm (0.6 in), and 22.3 mm (0.9 in) were potted in 26.5 liter (#7), 37.8 liter (#10), and 56.8 liter (#15) containers and grown for 18 months (2 growing seasons). Height and trunk diameter growth at the end of each growing season were affected by both the initial liner trunk diameter and container size. During year 1, liners with an initial trunk diameter of 12.2 mm (0.5 in) increased 28 and 70% more in height growth compared to liners initially 15.9 mm (0.6 in) and 22.3 mm (0.9) in trunk diameter, respectively. Twenty three percent more height growth occurred with maples in 37.8 liter (#10) and 56.8 liter (#15) containers compared to those in 26.5 liter (#7) containers. Trunk diameter growth increased 50% more with 12.2 mm (0.5 in) liners compared to 22.3 mm (0.9 in) liners. A 25% increase in trunk diameter growth occurred with liners potted in 56.8 liter (#15) compared to 26.5 liter (#7) containers. At the end of the second growing season, final tree size was similar with liners that were initially 12.2 mm (0.5 in) and 15.9 mm (0.6 in) liners in trunk diameter to those initially 22.3 mm (0.9 in) when potted into 37.8 liter (#10) and 56.8 liter (#15) containers. In experiment 2, maple liners with trunk diameters 17.5 mm (0.7 in), 20.5 mm (0.8 in), and 29.0 mm (1.1 in) were potted in container sizes 26.5 liter (#7), 37.8 liter (#10), and 56.8 liter (#15) and grown for 18 months (2 growing seasons). Liners grown in 56.8 liter (#15) containers had 92% more height growth and 48% more trunk diameter growth than with liners in 26.5 liter (#7) containers. At termination, the shoot dry weight was 41% larger with maples in 56.8 liter (#15) containers compared to those grown in 26.5 liter (#7) containers.

The effect of Frankia isolates from Comptoniaperegrina and Alnuscrispa on the growth of Alnusglutinosa, A. cordata, and A. incana clones

1981 ◽  
Vol 11 (4) ◽  
pp. 758-762 ◽  
Author(s):  
Jeffrey O. Dawson ◽  
Soon-Hwa Sun
Keyword(s):  
Host Plant ◽  
Growth Rates ◽  
Host Plants ◽  
Root Nodules ◽  
Growth Increment ◽  
Stem Diameter ◽  
The Other ◽  
Diameter Growth ◽  
Stem Diameter Growth ◽  
Selection Of

Three Alnus clones, one each of A. glutinosa (L.) Gaertn., A. cordata (Lois.) Desg., and A. incana (L.) Ait., were inoculated with Frankia isolates from root nodules of Comptoniaperegrina (L.) Coult. and A. crispa var. mollis Fern. Both Frankia isolate and Alnus clone contributed significantly to postinoculation height and diameter growth of plants in nitrogen-free culture, while interaction between isolate and clone was not statistically significant (α = 0.05). All combinations of host plants and isolates yielded nodules that were effective in fixing nitrogen as evidenced by the ability of nodules to reduce acetylene to ethylene. Alnus plants inoculated with the Comptonia isolate grew in height at a rate 1.9 times that of Alnus plants inoculated with the A. crispa isolate, while more than doubling the stem diameter growth increment of plants inoculated with the A. crispa isolate. The A. glutinosa clone grew at least four times as rapidly in height and at least twice as rapidly in diameter as the other two Alnus clones after inoculation with Frankia isolates. Results indicate that potential exists for the improvement of growth rates of Alnus and other Frankia-nodulated plants by selection of both Frankia isolates and host plant genotypes for specific environments.

Growth Rings, Age and Taxonomy of Dacrydium (Podocarpaceae) in Fiji

1986 ◽  
Vol 34 (2) ◽  
pp. 197 ◽  
Author(s):  
J Ash
Keyword(s):  
Growth Rate ◽  
Radiocarbon Dating ◽  
Shoot Growth ◽  
Diameter Growth ◽  
Wet Season ◽  
Growth Rings ◽  
North West ◽  
Trunk Diameter ◽  
Naked Eye ◽  
Annual Frequency

The anatomy of growth rings in Dacrydium (Podocarpaceae) from Fiji is described. Fungal staining may mask the heartwood growth rings and generally prevents observation of rings on either roughly cut logs or sanded sections with the naked eye. Earlywood is formed during the wet season and coincides with a peak of leaf and shoot growth. Radiocarbon dating of three trees indicates that growth rings have an approximately annual frequency. The average trunk diameter growth rate is estimated as 2.6 mm year-1. Life expectancy of established trees is estimated as 49 year. It is suggested that the endemic species D. nausoriense de Laub. may be an ecotype of D. nidulum de Laub. adapted to the drier climate of north-west Viti Levu.

scholarly journals Root and Shoot Growth Patterns in Four Palm Species and Their Relationships with Air and Soil Temperatures

HortScience ◽  
1998 ◽  
Vol 33 (6) ◽  
pp. 995-998 ◽  
Author(s):  
Timothy K. Broschat
Keyword(s):  
Root Growth ◽  
Growth Rates ◽  
Shoot Growth ◽  
Cocos Nucifera ◽  
Growth Patterns ◽  
The Other ◽  
Date Palms ◽  
Primary Roots ◽  
Palm Species ◽  
Root And Shoot Growth

Royal palms [Roystonea regia (HBK.) O.F. Cook], coconut palms (Cocos nucifera L. `Malayan Dwarf'), queen palms [Syagrus romanzoffiana (Chamisso) Glassman], and pygmy date palms (Phoenix roebelenii O'Brien) were grown in a rhizotron to determine the patterns of root and shoot growth over a 2-year period. Roots and shoots of all four species of palms grew throughout the year, but both root and shoot growth rates were positively correlated with air and soil temperature for all but the pygmy date palms. Growth of primary roots in all four species was finite for these juvenile palms and lasted for only 5 weeks in royal palms, but ≈7 weeks in the other three species. Elongation of secondary roots lasted for only 9 weeks for coconut palms and less than half of that time for the other three species. Primary root growth rate varied from 16 mm·week-1 for coconut and pygmy date palms to 31 mm·week-1 for royal palms, while secondary root growth rates were close to 10 mm·week-1 for all species. About 25% of the total number of primary roots in these palms grew in contact with the rhizotron window, allowing the prediction of the total root number and length from the sample of roots visible in the rhizotron. Results indicated that there is no obvious season when palms should not be transplanted in southern Florida because of root inactivity.

Impact of tephra deposition on growth in conifers: the year of the eruption

1984 ◽  
Vol 14 (5) ◽  
pp. 731-739 ◽  
Author(s):  
Thomas M. Hinckley ◽  
Hiromi Imoto ◽  
Katharine Lee ◽  
Susan Lacker ◽  
Yasushi Morikawa ◽  
...  
Keyword(s):  
Fine Root ◽  
Height Growth ◽  
Diameter Growth ◽  
Growth Reduction ◽  
Root Mortality ◽  
Foliar Damage ◽  
Associated Species ◽  
The Impact ◽  
Total Tree ◽  
Mount St Helens

Seven sites ranging from 15 to 135 km from Mount St. Helens were selected to study the impact of air-fall tephra on the growth of Abiesamabilis (Dougl.) Forbes, A. procera Rehd., Pseudotsugamenziesii (Mirb.) Franco, Tsugaheterophylla (Raf.) Sarg., and T. mertensiana (Bong.) Carr. As tephra depth increased, there was a corresponding increase in visible foliar damage and associated decreases in diameter and height growth. Reduction in diameter growth was greater than reduction in height growth. The reduction in diameter growth approached 50% in both trees and saplings of A. amabilis. Growth reduction in true firs was greater than in associated species. This difference was related to their greater capacity for interception and retention of air-fall tephra. Damage to trees, and resulting growth reductions, were due to tephra coverage of both the foliage and the soil. Coverage of the foliage resulted in foliar damage, foliage abscission and reduction of total tree foliar area, and increased fine root mortality. Tephra coverage of the soil had the potential to restrict oxygen diffusion into the soil. However, soil oxygen concentrations less than 10% were measured only once over a 2-year period.

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