Rc. Beeson, ROOT-GROWTH AND WATER STATUS OF CONTAINER-GROWN PHOTINIA X FRAISERI DRESS TRANSPLANTED INTO A LANDSCAPE, HortScience, 29(11), 1994, pp. 1295-1297
Photinia plants produced in 11.4-liter polyethylene containers using a
pine bark-based medium were transplanted into a well-drained sand and
irrigated on alternate days. Polyethylene barriers were placed under
half the root balls at transplanting to limit gravitational water loss
. Plant water potential was measured diurnally between irrigations, an
d root growth was determined at 4-month intervals. Plants with barrier
s averaged higher cumulative daily water stress than control plants ov
er the year, although predawn and minimum water potentials were-simila
r. Growth index and trunk diameter were similar for the plants over ba
rriers and controls, but the former were taller after 1 year. Plants w
ith barriers had twice the horizontal root growth into the landscape s
ite as control plants, resulting in twice the root mass in the landsca
pe after 1 year.