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ARS Home » Northeast Area » Beltsville, Maryland (BARC) » Beltsville Agricultural Research Center » Systematic Entomology Laboratory » Research » Research Project #444272

Research Project: Developing Sustainable Rose Landscapes via RRD Assessments and Breeding RRD Resistant Roses with Stable Blackspot Resistance

Location: Systematic Entomology Laboratory

Project Number: 8042-22000-313-002-R
Project Type: Reimbursable Cooperative Agreement

Start Date: Sep 15, 2022
End Date: Sep 14, 2026

Objective:
The overall objective of the research is to develop sustainable rose systems based on cultivars resistant to Rose Rosette Disease (RRD) and black spot disease. The research will include work to: 1) Characterize the host plant interaction with the virus, vector mite and rootstock; 2) Develop adapted and commercially acceptable RRD and black spot-resistant roses; 3) Develop comprehensive research demonstration and education programs about RRD management; and 4) Assess the socioeconomic impact of RRD management approaches in four rose production systems. ARS Scientists will concentrate on the first objective, through the examination of sequence diversity between isolates of rose rosette virus (RRV), the causal agent of RRD; examination of the interactions between RRV and cultivars and breeding lines of roses having differential levels of resistance to RRD; determining the mechanisms of resistance to RRV infection or disease through effects on mite development, growth and fecundity; and use of various microscopy techniques to examine features of the host plant such as thickness of the epidermal layer, numbers and localization of feeding sites, and production of trichomes in response to RRV infection.

Approach:
ARS scientists will examine aspects of the biology of the eriophyid mite vector, as influenced by resistance status of the rose host genotype, including reproductive efficiency and longevity, movement, and environmental effects, to include differentiation of mite biotypes and differences in RRV transmission efficiency, as well as differences in transmissibility of RRV isolates with sequence variations in individual genome segments.