Control of Insects and Diseases with Intelligent Variable-rate Sprayers in Ornamental Nurseries1

Intelligent spray technology can reduce pesticide use and safeguard the environment; however, its ability to effectively control insects and disease must be validated before its adoption by growers. Comparative tests for two different laser-guided variable-rate intelligent sprayers and the same sprayers with conventional constant-rate mode were conducted to control pests at two ornamental nurseries in two growing seasons in Ohio. Crabapple [Malus ‘Sutyzam’ (Sugar Tyme®), M. sargentii], apple (Malus pumila), maple [Acer ×freemanii ‘Jeffersred' (Autumn Blaze®), A. rubrum ‘Franksred' (Red Sunset®) and A. rubrum], birch (Betula nigra and Betula populifolia ‘Whitespire'), London planetree (Platanus ×acerifolia ‘Bloodgood') and dogwood (Cornus florida) were used as the test plants. Intelligent spray technology reduced pesticide use by 56.1% and 51.8% on average at the two nurseries, respectively. Compared to conventional air-assisted sprayers, severity of scab on apple trees and powdery mildew in dogwood was reduced on intelligent spray-treated plants at one nursery, and there were equal or fewer leafhoppers in maple trees and aphids in birch trees when sprayed using intelligent spray technology at both nurseries. These results suggest that intelligent, variable-rate sprayers achieve equivalent or greater insect and disease control in ornamental tree nurseries compared to conventional, constant-rate sprayers. Index words: aphid, apple scab, environmental protection, leafhopper, precision spray, powdery mildew, sustainable. Species used in this study: apple (Malus pumila Mill), birches (Betula nigra L, Betula populifolia Marsh. ‘Whitespire'), crabapples [Malus ‘Sutyzam' (Sugar Tyme®), M. sargentii Rehder], dogwood (Cornus florida L.), maples [Acer ×freemanii E. Murray ‘Jeffersred' (Autumn Blaze®), A. rubrum L. ‘Franksred'(Red Sunset®) and A. rubrum L.], London planetree [Platanus ×acerifolia (Ait.) Willd. ‘Bloodgood'].

[1]  R. C. Derksen,et al.  Influence of Spray Volume on Spray Deposition and Coverage within Nursery Trees , 2008 .

[2]  H. Zhu,et al.  Spray deposition inside multiple-row nursery trees with a laser-guided sprayer1 , 2017 .

[3]  Heping Zhu,et al.  Development of Digital Flow Control System for Multi-Channel Variable-Rate Sprayers , 2014 .

[4]  W. E. Machardy,et al.  Apple Scab: Biology, Epidemiology, and Management , 1996 .

[5]  Heping Zhu,et al.  FOLIAR DEPOSITION AND OFF-TARGET LOSS WITH DIFFERENT SPRAY TECHNIQUES IN NURSERY APPLICATIONS , 2006 .

[6]  D. Potter,et al.  Seasonal phenology, management, and host preferences of potato leafhopper on nursery-grown maples. , 1993 .

[7]  Michael P. Parrella,et al.  Time-Efficient Use of Yellow Sticky Traps in Monitoring Insect Populations , 1992 .

[8]  S. Frank,et al.  Assessing the integrated pest management practices of southeastern US ornamental nursery operations. , 2012, Pest management science.

[9]  R. Derksen,et al.  Optimal Spray Application Rates for Ornamental Nursery Liner Production , 2011 .

[10]  H. E. Ozkan,et al.  Development of a Variable-Rate Sprayer with Laser Scanning Sensor to Synchronize Spray Outputs to Tree Structures , 2012 .

[11]  R. Pienkowski,et al.  Laboratory Studies on Insect Predators of Potato Leafhopper Eggs, Nymphs, and Adults , 1982 .

[12]  M. Windham,et al.  Powdery Mildew of Dogwoods: Current Status and Future Prospects. , 2009, Plant disease.

[13]  Hui Liu,et al.  Development of a Laser-Guided, Embedded-Computer-Controlled, Air-Assisted Precision Sprayer , 2017 .

[15]  Heping Zhu,et al.  A SPECIALLY DESIGNED AIR-ASSISTED SPRAYER TO IMPROVE SPRAY PENETRATION AND AIR JET VELOCITY DISTRIBUTION INSIDE DENSE NURSERY CROPS , 2006 .

[16]  J. Schuh,et al.  Insect pests of nursery and ornamental trees and shrubs in Oregon , 1948 .

[17]  M. Mmbaga Winter Survival and Source of Primary Inoculum of Powdery Mildew of Dogwood in Tennessee. , 2000, Plant disease.

[18]  Clifford S. Sadof,et al.  Reducing Insecticide Volume and Nontarget Effects of Ambrosia Beetle Management in Nurseries , 2011, Journal of economic entomology.

[19]  Heping Zhu,et al.  Spray deposition inside tree canopies from a newly developed variable-rate air-assisted sprayer , 2013 .

[20]  S. Frank,et al.  Biology, Injury, and Management of Maple Tree Pests in Nurseries and Urban Landscapes , 2013 .