Biblio
“Bean common mosaic virus Isolate Exhibits a Novel Pathogenicity Profile in Common Bean, Overcoming the bc-3 Resistance Allele Coding for the Mutated eIF4E Translation Initiation Factor.”, Phytopathology, vol. 105, no. 11, pp. 1487-95, 2015.
, “Economic and Academic Significance of Common Bean”, in The Common Bean (Phaseolus vulgaris L.) Genome, 2015.
, “In silico validation of new SNP marker linked to BCMV resistance across multiple RIL populations”, Ann. Rep. Bean Impr. Coop., vol. 58, pp. 51-52, 2015.
, “In silico validation of new SNP marker linked to BCMV resistance across multiple RIL populations”, Ann. Rep. Bean Impr. Coop. , vol. 58, pp. 51-52, 2015.
, “Mapping Fusarium solani and Aphanomyces euteiches root rot resistance and root architecture quantitative trait loci in common bean (Phaseolus vulgaris)”, Crop Science , vol. 55, pp. 1969-1977, 2015.
, “Resistance and resistance breeding for organic farming”, in Plant Diseases and their Management in Organic Agriculture, St. Paul, MN: APS Press, 2015.
, “Total phenolic content in a diverse collection of snap bean (Phaseolus vulgaris L.) cultivars”, Journal of the American Society of Horticultural Science, vol. 141, pp. 3-11, 2015.
, “Analysis of variation for white mold resistance in the bean CAP snap bean panel”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 175-176, 2014.
, “Analysis of variation for white mold resistance in the bean CAP snap bean panel”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 175-176, 2014.
, , “Arrested Development: Intellectual property and regulations hinder research”, Terra, 2014. [Online]. Available: http://terra.oregonstate.edu/2014/10/arrested-development/.
, “Broccoli Cultivar Performance under Organic and Conventional Management Systems and Implications for Crop Improvement”, Crop Science, vol. 54, no. 4, p. 1539, 2014.
, “ Broccoli cultivar performance under organic and conventional management systems and implications for crop improvement”, Crop Science, vol. 54, pp. 1539-1554, 2014.
, “Inheritance and performance of bruchid resistance into farmers’ preferred common bean (P. vulgaris) varieties in Tanzania”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 7-8, 2014.
, “Inheritance and performance of bruchid resistance into farmers’ preferred common bean (P. vulgaris) varieties in Tanzania”, Ann. Rep. Bean Impr. Coop. , vol. 57, pp. 7-8, 2014.
, “ Mapping QTL for root rot resistance, root traits, and morphological traits in a common bean recombinant inbred population”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 73-74, 2014.
, “Mapping QTL for root rot resistance, root traits, and morphological traits in a common bean recombinant inbred population”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 73-74, 2014.
, “Molecular and biological characterization of the Ru1-OR strain of bean common mosaic virus”, Ann. Rep. Bean Impr. Coop. , vol. 57, pp. 77-78, 2014.
, “Molecular and biological characterization of the Ru1-OR strain of bean common mosaic virus”, Ann. Rep. Bean Impr. Coop. , vol. 57, pp. 77-78, 2014.
, “New Cooperative Models in Plant Breeding”, Proceedings of the 2014 Summit on Seeds and Breeds for the 21st Century Agriculture. Washington D.C. , 2014.
, “New Cooperative Models in Plant Breeding”, 2014 Summit on Seeds and Breeds for the 21st Century Agriculture. Washington D.C., 2014.
, “New Loci Including Pse-6 Conferring Resistance to Halo Bacterial Blight on Chromosome Pv04 in Common Bean”, Crop Science, vol. 54, no. 5, pp. 2099-2108, 2014.
, “QTL analysis for fusarium root rot resistance in snap bean under greenhouse conditions”, Ann. Rep. Bean Impr. Coop. , vol. 57, pp. 185-186, 2014.
, “ QTL analysis for fusarium root rot resistance in snap bean under greenhouse conditions”, Ann. Rep. Bean Impr. Coop., vol. 57, pp. 185-186, 2014.
, “Recombinants of bean common mosaic virus (BCMV) and genetic determinants of BCMV involved in overcoming resistance in common bean.”, Phytopathology, vol. 104, no. 7, pp. 786-93, 2014.
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