Search and Access Archived Conference Presentations

2014 ASHS Annual Conference

19041:
Toward Understanding Genotype x Environment Interactions in Black Raspberry (Rubus occidentalis L.)

Tuesday, July 29, 2014
Ballroom A/B/C (Rosen Plaza Hotel)
Jill M. Bushakra, USDA–ARS, NCGR, Corvallis, OR
Christine M. Bradish, NCSU, Raleigh, NC
Courtney A. Weber, Cornell University, Geneva, NY
Joseph C. Scheerens, Ohio State Univ-ORADC, Wooster, OH
Michael Dossett, B.C. Blueberry Council (in partnership with Agriculture and Agri-Food Canada), Pacific Agri-Food Research Centre, Agassiz, BC, Canada
Mary Peterson, Horticultural Crops Research Laboratory, USDA–ARS, HCRU, Corvallis, OR
Gina Fernandez, North Carolina State University, Raleigh, NC
Jungmin Lee, USDA–ARS, HCRL, Parma, ID
Nahla Bassil, USDA–ARS, NCGR, Corvallis, OR
Chad E. Finn, Dept. Horticultural Science, USDA–ARS, HCRU, Corvallis, OR
Over the last 75 years, the black raspberry industry in the United States has undergone a steady contraction because of a lack of adapted, disease resistant cultivars. Recent research supporting the health benefits of a diet rich in polyphenolics, and black raspberries in particular, has led to a resurgence of interest in this fruit and a renewal of breeding efforts. This study seeks to advance and streamline identification of traits of interest to growers and consumers in black raspberry germplasm through the development of genomic tools, phenotyping, and socioeconomic analyses. Two related full-sib populations, designated ORUS 4304 (192 progeny) and ORUS 4305 (115 progeny), were planted across North American production regions. Primocane (non-fruiting canes) vigor was rated from 1 (dead) to 9 (very vigorous) at each site. Initial analysis of genotype by environment influences on primocane vigor indicated that individual genotypes showed significant variation depending on site conditions. Vigor data will be compared with the genetic linkage map to determine which genomic regions contribute to the control of this complex trait. The information will be integrated into breeding programs with the goal of developing disease resistant cultivars that satisfy the demands of the marketplace, adding to the sustainability and profitability of the industry. The genomic tools we are developing will be applied to the identification of quantitative trait loci and alleles important for breeding objectives regionally and nationally.