Low-input management practices for container Ericaceous nursery crops

2010 Annual Report for ONE08-092

Project Type: Partnership
Funds awarded in 2008: $9,985.00
Projected End Date: 12/31/2010
Region: Northeast
State: New Jersey
Project Leader:
Gladis Zinati
Rutgers, The State University
Co-Leaders:
Dr. John Dighton
Rutgers Universuty

Low-input management practices for container Ericaceous nursery crops

Summary

We concluded experimental tests at nursery operations and research station. At all locations, “Delware Valley White” cultivar or ‘DVD’ plants were larger than those of “Silver Sword” cultivar or ‘SS’ in either medium and plant biomass was significantly different between treatments especially for ‘DVD’ in peat-based medium. Natural mycorrhiza and half rate of fertilizer proved to be the best treatment for growth and nutrient content. Root and shoot mass of DVW was negatively affected by phytophthora but not those of SS, which were not significantly different from those non-infected with phytophthora.

There was no significant difference in root mycorrhizal colonization index (RMCI) among cultivars, treatments, phytophthora infection, or in their interactions in bark-based medium. Mycorrhizal colonization in ‘DVW’ was significantly higher than for ‘SS’ in peat-based medium. At the research station, plants grown in peat-based medium were significantly higher by 26% than those in bark-based growing medium and significantly improved with natural mycorrhizal inoculum with full fertilizer rate. All data have been collected and analyzed and publications are being drafted.

Objectives/Performance Targets

Accomplishments/Milestones

We successfully planted, harvested, and analyzed plants for nutritional concentration, phytopthora, and root mycorrhizal colonization at all locations we have conducted these experiments. We have accomplished the objectives of this project except the impact of chlorination on root colonization. It was not practical for the grower to set up irrigation system specifically to irrigate the plants especially when his irrigation system in his operation changed totally to chlorination by the time we set up the experiment. All data have been analyzed and we are in process of writing publications.

Impacts and Contributions/Outcomes

The results obtained in this study were very valuable for growers. First, we identified plant cultivars that are susceptible to photophthora and those are tolerant.

Second, we showed that the substrate medium has effect on root growth but does not have influence on phytophthora infection.

Third, we showed that the use of mycorrhiza especially with half rate of fertilizer provided higher plant biomass for ‘DVW’ and was comparable to those inoculated with commercial mycorrhizal source with full fertilizer rate. For ‘SS’ the addition of mycorrhizae from any source with full rate of fertilizer were significantly higher than other treatments.

Fourth, in achieving low-input container production for azalea, selecting phytopthora tolerant plant such as ‘SS’ will aid in reducing the losses of plants due to root rot disease. Mycorrhizal inoculum may not be of additional benefit for ‘SS’ for defence against root rot disease. However, the use of mycorrhizae for ‘DVW’ with lower rate of fertilizer, not only reduces the fertilizer rate as commonly used by nursery growers (using full rate) but also provided better growth of these plants in presence of mycorrhizae especially when exposed to phytophthora. The cost of mycorrhizae constitutes a minimal expense to the grower in comparison to cost of fertilizer and its transportation.

Presentations:

Zinati, G. M., J. Dighton, and A. Gould J. 2009. Substrate media, fertilizer rate, and mycorrhizal inoculum source affect azalea plant root mycorrhizal colonization and severity of Phytophthora cinnamomi infection. Presented at the 2009 ASHS Annual Conference, St. Louis, MO July 28, 2009. (presentation was chosen for podcast recording at ASHS conference)

Abstracts:

Zinati, G. M., J. Dighton, and A. Gould J. 2009. Substrate media, fertilizer rate, and mycorrhizal inoculum source affect azalea plant root mycorrhizal colonization and severity of Phytophthora Cinnamomi infection. HortScience 44(4):1064.

Collaborators:

Edward Overdevest

ejo@overdevestnurseries.com
Mr.
Overdevest Nurseries
578 Bowntown Road
Bridgeton, NJ 08302
Donald Blew

donald@centertonnursery.com
Mr.
Centerton Nursery
345 Woodruff Road, Bridgeton
Bridgeton, NJ 08302
Office Phone: 8005331132
Ann Gould

gould@aesop.rutgers.edu
Associate Professor
Rutgers, The State University
Foran Hall, 59 Dudley Road
Plant Biol. and Path.
New Brunswick, NJ 08901
Office Phone: 7329329375
John Dighton

dighton@camden.rutgers.edu
Professor
Rutgers, The State University
Pinelands Field Station
New Lisbon, NJ
Office Phone: 6098948848
James Johnson

jjohnson@njaes.rutgers.edu
Agricultural Agent
Rutgers, The State University
RCE Cumberland County Office
291 Morton Avenue
Millville, NJ 08332
Office Phone: 8564512800