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Irrigation Frequency during Container Production Alters Rhododendron Growth, Nutrient Uptake, and Flowering after Transplanting into a Landscape

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Title Irrigation Frequency during Container Production Alters Rhododendron Growth, Nutrient Uptake, and Flowering after Transplanting into a Landscape
Names Scagel, Carolyn F. (creator)
Bi, Guihong (creator)
Bryla, David R. (creator)
Fuchigami, Leslie H. (creator)
Regan, Richard P. (creator)
Date Issued 2014-07 (iso8601)
Note To the best of our knowledge, one or more authors of this paper were federal employees when contributing to this work. This is the publisher’s final pdf. The published article is copyrighted by the American Society for Horticultural Science and can be found at: http://hortsci.ashspublications.org/.
Abstract One deciduous cultivar of Rhododendron L., Gibraltar (AZ), and two evergreen
cultivars, P.J.M. Compact (PJM) and English Roseum (ER), were grown in containers
for 1 year to determine the effects of irrigation frequency during container production on
plant performance the next spring when the plants were transplanted into the landscape.
While in the containers, each cultivar was irrigated once or twice daily, using the same
amount of water per day, and fertilized with complete nutrient solutions containing 0, 35,
70, or 140 mg·L⁻¹ nitrogen (N). Three months after transplanting into the landscape,
nutrient uptake, growth, and flowering were evaluated. In general, the effects of
irrigation frequency in containers on performance in the landscape differed between
the deciduous cultivar and the evergreen cultivars. In AZ, less frequent irrigation in
containers had a pre-conditioning effect that resulted in greater vegetative growth in the
landscape but less reproductive growth. In contrast, less frequent irrigation reduced
vegetative growth of evergreen cultivars in the landscape and improved flowering.
Different growth responses to irrigation frequency between deciduous and evergreen
cultivars appeared to be related to differences in timing of nutrient uptake and
mobilization. In the deciduous cultivar, less frequent irrigation increased nutrient
reserves and improved the ability of the plants to absorb and use nutrients after
transplanting, but in the evergreen cultivars, it generally decreased nutrient uptake after
transplanting. Less frequent irrigation also altered plant attributes that are important to
consumers, including developing a sparser canopy in ER and a fuller canopy in PJM, and
producing more but smaller inflorescences in both cultivars. Landscape performance
was related to plant nutrition in containers; however, irrigation frequency in containers
disrupted relationships between nutrition and performance in all three cultivars. Our
results indicate that irrigation frequency during container production of Rhododendron
results in a tradeoff between vegetative and reproductive growth the next spring when
the plants are in the landscape.
Genre Article
Topic landscape performance
Identifier Scagel, C. F., Bi, G., Bryla, D. R., Fuchigami, L. H., & Regan, R. P. (2014). Irrigation frequency during container production alters rhododendron growth, nutrient uptake, and flowering after transplanting into a landscape. HortScience, 49(7), 955-960.

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