Red Oak Transplanted to Different Bulk Density Soils have Similar Water use Characteristics | Arboriculture & Urban Forestry

Literature Cited

1.↵
1. Arnold, M.A. and
2. D.F. Welsh
. 1995. Effects of planting hole configuration and soil type on transplant establishment of container-grown live oak. J. Arboric. 21:213–218.
OpenUrl
2.↵
1. Blessing, S. C. and
2. M. N. Dana
. 1987. Post-transplant root system expansion in Juniperus chinensis L. as influenced by production systems, mechanical root disruption and soil type. J. Environ. Hort. 5:155–158.
OpenUrl
3.↵
1. Corley, W.L
. 1984. Soil amendments at planting. J. Environ. Hort. 2:27–30.
OpenUrl
4.↵
1. Costello, L. and
2. J. L. Paul
. 1975. Moisture relations in transplanted container plants. HortScience. 10:371–372.
OpenUrl
5.↵
1. Gilman, E. F.
1990. Tree root growth and development. II. Response to culture, management and planting. J. Environ. Hort. 8:220–227.
OpenUrl
6.↵
1. Gilman, E. F. and
2. R. C. Beeson, Jr
. 1996. Production method affects tree establishment in the landscape. J. Environ. Hort. 14:81–87.
OpenUrl
7.↵
1. Gilman, E. F.,
2. T. H. Yeager and
3. D. Weigle
. 1996. Fertilizer, irrigation and root ball slicing affects Burford Holly growth after planting. J. Environ. Hort. 14:105–110.
OpenUrl
8.
1. Grabosky, J. and
2. N. Bassuk
. 1995. A new urban tree soil to safely increase rooting volumes under sidewalks. J. Arboric. 21:187–201.
OpenUrl
9.↵
1. Grabosky, J. and
2. N. Bassuk
. 1996. Testing of structural urban tree soil materials for use under pavement to increase street tree rooting volumes. J. Arboric. 22:255–263.
OpenUrl
10.↵
1. Harris, J.R. and
2. E.F.Gilman
. 1991. Production method affects growth and root regeneration of Leyland cypress, laurel oak and slash pine. J. Arboric. 17:64–69.
OpenUrl
11.↵
1. Hummel, R. L. and
2. C. R. Johnson
. 1985. Amended backfills: Their cost and effect on transplant growth and survival. J. Environ. Hort. 3:76–79.
OpenUrl
12.↵
1. Nelms, L. R. and
2. L.A. Spomer
. 1983. Water retention of container soils transplanted into ground beds. HortScience. 18:863–866.
OpenUrl
13.↵
1. Nicolosi, R. T. and
2. T. A. Fretz
. 1980. Evaluation of root growth in varying medium densities and through dissimilar soil surfaces. HortScience. 15:642–644.
OpenUrl
14.↵
1. Rutter, J. M.
1993. Growth and landscape performance of three landscape plants produced in conventional and Pot-in-Pot production systems. J. Environ. Hort. 11:127–127.
OpenUrl
15.↵
1. Smalley, T. J. and
2. C.B. Wood
. 1995. Effect of backfill amendment on growth of red maple. J. Arboric. 21:247–249.
OpenUrl
16.
1. Struve, D. K.
1996. Bare root shade tree whip production in containers. J. Environ. Hort. 14:13–17.
OpenUrl
17.↵
1. Struve, D. K. and
2. E. McCoy
. 1997. Physical and chemical properties of media suitable for containerized bare root whip production. J. Environ. Hort. 14:137–141.
OpenUrl
18.↵
1. Watson, G. W. and
2. E. B. Himelick
. 1982. Root regeneration of transplanted trees. J. Arboric. 8:305–370.
OpenUrl
19.
1. Watson, G. W.
1986. Cultural practices can influence root development for better transplanting success. J. Environ. Hort. 4:32–34.
OpenUrl
20.↵
1. Watson, G. W.,
2. G. Kupkowski and
3. K. G. von der Heide-Spravka
. 1992. The effect of backfill soil texture and planting hole shape on root regeneration of transplanted green ash. J. Aboric. 18:130–135.
OpenUrl
21.↵
1. Watson, G. W.,
2. G. Kupkowski and
3. K. G. von der Heide-Spravka
. 1993. Influence of backfill soil amendments on establishment of container-grown shrubs. HortTech. 3:188–189.
OpenUrl Abstract/FREE Full Text
22.↵
1. Wood, C. B.,
2. T. J. Smalley,
3. M. Rieger, and
4. D. E. Radcliffe
. 1994. Growth and drought tolerance of Viburnum plicatum var. tomentosum ‘Mariesii’ in pine bark-amended soil. J. Amer. Soc. Hort. Sci. 119:687–692.
OpenUrl

In this issue

Print

Bookmark this article

Related Articles

Cited By...

No citing articles found.

Google Scholar

More in this TOC Section

Show more Articles

Similar Articles