Ph.D. 2001 Plant Breeding and Genetics, The Ohio State University, Dept of Horticulture & Crop Science
M.S. 1996 Plant Breeding and Genetics, Michigan State University, Department of Horticulture
B.S. 1994 Horticulture, Michigan State University, Department of Horticulture

Books, Contributor of Chapter(s)

Tricoli, D.M., J.E. Staub, E.A. Kabelka, Y.H. Wang and H.D. Quemada, 2008. Cucurbits. In: A Compendium of Transgenic Crop Plants: Vegetable Crops, C. Kole T.C. Hall (eds). Blackwell Publishing, Oxford, UK.

Publications in Refereed Professional Journals

Freeman, J.H., S.M. Olson and E.A. Kabelka. 2008. Pollen viability of selected diploid watermelon pollenizer cultivars. HortScience, 43(1):274-275.

Kabelka, E.A., S.R. Carlson, and B.W. Diers. 2006. Glycine soja PI 468916 SCN resistance loci’s associated effects on soybean seed yield and other agronomic traits. Crop Sci., 46:622-629.

Kabelka, E.A., S.R. Carlson, and B.W. Diers. 2005. Localization of two loci that confer resistance to soybean cyst nematode from Glycine soja PI 468916. Crop Sci., 45:2473-2481.

Diers, B.W., P.R. Arelli, S.R. Carlson, W.R. Fehr, E.A. Kabelka, R.C. Shoemaker, and D. Wang. 2005. Registration of ‘LDX01-1-65’ soybean. Crop Sci, 45:1671-1672.

Yang, W., X. Bai, E. Kabelka, C. Eaton, S. Kamoun, E. van der Knaap, and D.M. Francis. 2004. Discovery of single nucleotide polymorphisms in Lycopersicon esculentum by computer aided analysis of expressed sequence tags. Molecular Breeding, 14:21-34.

Kabelka, E.A., B.W. Diers, W.R. Fehr, A.R. LeRoy, I. Baianu, T. You, D.J. Neece, and R.L. Nelson. 2004. Putative alleles for increased yield from soybean plant introductions. Crop Science, 44:784-791.

Kabelka, E. W. Yang, and D.M. Francis. 2004. Improved tomato fruit color within an inbred backcross line derived from Lycopersicon esculentum and L. hirsutum involves the interaction of loci. Journal of the American Society of Horticultural Sciences, 129(2):250-257.

Coaker, G.L. T. Meulia, E. Kabelka, A.K. Jones, and D.M. Francis. 2002. A QTL controlling stem morphology and vascular development in Lycopersicon esculentum x Lycopersicon hirsutum (Solanaceae) crosses is located on chromosome 2. American Journal of Botany, 89(12):1859-1866.

Kabelka, E., B. Franchino, and D.M. Francis. 2002. Two loci from Lycopersicon hirsutum confer resistance to strains of Clavibacter michiganensis subsp. michiganensis. Phytopathology, 92(5):504-510.

Francis, D.M., E. Kabelka, J. Bell, and B. Franchino. 2001. Resistance to bacterial canker of tomato in Lycopersicon hirsutum LA407 and inbred backcross progeny derived from crosses to cultivated tomato (L. esculentum). Plant Disease, 85:1171-1176.

Grumet, R., E. Kabelka, S. McQueen, T. Wai, and R. Humphrey. 2000. Characterization of sources of resistance to the watermelon strain of Papaya ringspot virus in cucumber: allelism and co-segregation with other potyvirus resistances. Theoretical and Applied Genetics, 101:463-472.

Kabelka, E., Z. Ullah, R. Grumet. 1997. Multiple alleles for zucchini yellow mosaic virus resistance at the zym locus in cucumber. Theoretical and Applied Genetics, 95:997-1004.

Kabelka, E. and R. Grumet. 1997. Inheritance of resistance to the Moroccan watermelon mosaic virus in the cucumber line TMG-1 and cosegregation with zucchini yellow mosaic virus resistance. Euphytica, 95:237-242.

Wai, T., J. E. Staub, E. Kabelka, and R. Grumet. 1997. Linkage analysis of potyvirus resistance alleles in cucumber. Journal of Heredity, 88:454-458.