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Journal
/
Biology
/
Molecule Delivery in Plants Using a Direct Infusion Device
/
Applying Compounds to Citrus Plants Using a Novel 3D-Printed Direct Plant Infusion (DPI) Device
JoVE Journal
Biology
This content is Free Access.
JoVE Journal
Biology
Applying Compounds to Citrus Plants Using a Novel 3D-Printed Direct Plant Infusion (DPI) Device
Applying Compounds to Citrus Plants Using a Novel 3D-Printed Direct Plant Infusion (DPI) Device
Molecule Delivery in Plants Using a Direct Infusion Device
DOI:
10.3791/200038-v
•
02:36 min
•
June 02, 2023
•
Brian H. Rhodes
,
Richard R. Stange
,
Patrick Zagorski
,
Matthew G. Hentz
,
Randall P. Niedz
,
Robert G. Shatters
,
Marco Pitino
1
United States Department of Agriculture Agricultural Research Service U.S. Horticultural Research Laboratory
,
2
Agrosource Incorporated
Tags
3D-printed Device
Direct Plant Infusion
DPI
Citrus Plants
Compound Application
Silicone Tape
Plastisol Ring
Syringe
Compound Delivery
CFDA Dye
Streptomycin
Candidatus Liberibacter Asiaticus
CLas
Imidacloprid
Nymph Emergence
Honeydew Production
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Author Spotlight: Direct Infusion Device for Molecule Delivery in Plants
3D-Printing of Direct Plant Infusion (DPI) Device and Fabrication of Plastisol Rings
Attachment of the Direct Plant Infusion (DPI) Device to Citrus Plants for Compound Injection
Applying Compounds to Citrus Plants Using a Novel 3D-Printed Direct Plant Infusion (DPI) Device
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