Publications

Plant Breeding Reviews

Goldman, I.L. 2022. Plant Breeding Reviews. Volume 46. Wiley, London.

Goldman, I.L. 2021. Plant Breeding Reviews. Volume 45. Wiley. London.

Goldman, I.L. 2021. Plant Breeding Reviews. Volume 44. Wiley. London.

Goldman, I.L., 2020. Plant Breeding Reviews. Volume 43. Wiley. London.

Goldman, I.L., 2019. Plant Breeding Reviews. Volume 42. Wiley. London.

Goldman, I.L., 2018. Plant Breeding Reviews. Volume 41. Wiley. London.

Refereed Journal Publications

133

Gaulke, E., and Goldman, I.L. 2022. Screening Table Beet and Swiss Chard for Resistance to Pseudomonas syringae pathovar aptata. HortScience. In Press.

132

Wigg, K. et al. 2022. Novel QTL Associated with Rhizoctonia solani Kühn Resistance Identified in Two Table Beet x Sugar Beet F2:3 Populations Using a New Table Beet Reference Genome. Crop Science. In Press.

131

Meyer CM, Goldman IL, Grzebelus E, Krysan PJ. Efficient production of transgene-free, gene-edited carrot plants via protoplast transformation. Plant Cell Rep. 2022 Apr;41(4):947-960. doi: 10.1007/s00299-022-02830-9. Epub 2022 Jan 28. PMID: 35089385.

130

Goldman, I.L. 2022. Plant Breeding Reviews. Editor. Volume 45. Wiley. London.

129

Hanson, S.J., Dawson, J.C., Goldman, I.L. 2022. Participatory plant breeding reveals that geosmin concentration is not the central determinant of hedonic liking in table beet. Euphytica. 281:14. https://doi.org/10.1007/s10681-021-02959123456789().,olV()0123456789().,-volV)

128

Goldman, I.L., and Janick, J. 2021.Evolution of Root Morphology in Table Beet: Historical and Iconographic. Frontiers in Plant Science. 12: doi: 10.3389/fpls.2021.689926

127

Brainard, S.H., Bustamante, J.A., Dawson, J.C., Spalding, E.P., and Goldman, I.L. 2021. A digital image-based phenotyping platform for analyzing root shape attributes in carrot. Frontiers in Plant Science. https://doi.org/10.3389/fpls.2021.690031  Link.

126

Hanson, S.J., Dawson, J.C., Goldman, I.L. 2021. Beta vulgaris ssp. vulgaris chromosome 8 shows significant association with geosmin concentration in table beet. G3. G3 Genes|Genomes|Genetics, jkab344, https://doi.org/10.1093/g3journal/jkab344

125

Luby, C, Cornelius, D, Goldman, I. Learning from the land: Developing a course on Indigenous foodways. Nat Sci Educ. 2021; 50:e20072. https://doi.org/10.1002/nse2.20072

124

Brainard, S.H., Ellison, S.L., Simon, P.W. et al. Genetic characterization of carrot root shape and size using genome-wide association analysis and genomic-estimated breeding values. Theor Appl Genet (2021). https://doi.org/10.1007/s00122-021-03988-8

123

Goldman, I.L. 2022. Agronomy and production of edible Alliums. In: Edible Alliums: Modern Biology, Production and Uses. Botany, Production and Uses series. Rabinowitch, H.D. and Thomas, B. eds. CABI International. In press.

122

Goldman, I.L. 2021. Plant Breeding Reviews. Editor. Volume 44. Wiley. London.

121

Cramer, C.S., Mandal  S., Sharma S., Shahabedddin Nourbakhsh S.  Goldman, I., and Guzman, I. 2021..Recent Advances in Onion Genetic Improvement. Agronomy. Accepted for publication. 

120

Goldman, I.L. 2020. Celebrating the International Year of Plant Health. Crop Science. 13 October. https://doi.org/10.1002/csc2.20342

119

Wigg, K.S., and I.L. Goldman, 2020. Variability in Reaction to Root and Crown Rot Caused by Rhizoctonia Solani Among Table Beet Cultivars, Breeding Lines, and Plant Introductions in Controlled Environment Conditions. HortScience. 55:1482-94.  https://doi.org/10.21273/HORTSCI15011-20

118

Dwivedi, S.L., Goldman, I.L., Ceccarelli, S., Ortiz, R., 2020. Advanced analytics, phenomics, and biotechnology approaches to enhance genetic gains in plant breeding. Advances in Agronomy. https://doi.org/10.1016/bs.agron.2020.02.002

117

Goldman, I.L. 2020. Plant Breeding Reviews. Editor. Volume 43. Wiley. London.

116

Goldman, I.L. 2020. Root vegetables. In Physiology of Vegetable Crops, 2nd Edition, C. Wien, editor. CABI International.

115

Hanson, S.J., and Goldman, I.L. 2019. Genotype Is Primarily Responsible for Variance in Table Beet Geosmin Concentration, but Complex Genotype × Environment Interactions Influence Variance in Total Dissolved Solids. J. Amer. Soc. Hort. Sci. 144:429-438. https://doi.org/10.21273/JASHS04758-19

114

Goldman, I.L. 2019, Plant Breeding Reviews. Editor. Volume 42. Wiley. London.

113

D’Angelo, C.J., and Goldman, I.L. 2019. Breaking Onion Bulb Endodormancy with Hydrogen Peroxide. HortScience 54:1694–1702 . https://doi.org/10.21273/HORTSCI14118-19 https://journals.ashs.org/hortsci/view/journals/hortsci/54/10/article-p1694.xml

112

D’Angelo, C.J., and Goldman, I.L. 2019. Annualization of the Long Day Onion Breeding Cycle through Threshold Vernalization and Dormancy Disruption. Crop Breed Genet Genom. 2019;1:e190009. https://doi.org/10.20900/cbgg20190009

111

Dwivedi, S., Goldman, I.L., Ortiz, R. 2019. Pursuing the Potential of Heirloom Cultivars to Improve Adaptation, Nutritional, and Culinary Features of Food Crops. Agronomy 9(8), 441; https://doi.org/10.3390/agronomy9080441

110

Goldman, I.L. 2018, Plant Breeding Reviews. Editor. Volume 41. Wiley. London

109

Goldman, I.L. 2018. The University of Wisconsin carrot breeding and genetics program: 69 cycles of breeding for improved quality, productivity, and accessibility in processing carrot. Acta Horticulturae 10.17660/ActaHortic.2019.1264.5.

108

Goldman, I,.L., and R. Ortiz. 2018. A Life in Horticulture and Plant Breeding: The Extraordinary Contributions of Jules Janick. Plant Breeding Reviews. 41:291-360.

107

D’Angelo, C.J. and I.L. Goldman. 2018. Temporal Aspects of Vernalization and Flowering in Long-Day Storage Onion. J. Amer. Soc. Hort Sci. 143(6):446-453.

106

Shelby L. Ellison, Claire H. Luby, Keo E. Corak, Kevin M. Coe, Douglas Senalik, Massimo Iorizzo, Irwin L. Goldman, Philipp W. Simon, Julie C. Dawson. 2018. Carotenoid Presence Is Associated with the Or Gene in Domesticated Carrot. Genetics 210: 1497-1508; https://doi.org/10.1534/genetics.118.301299

105

Maher, L., and I.L. Goldman. 2018. Endogenous Production of Geosmin in Table Beet. HortScience. doi: 10.21273/HORTSCI12488-17 53: 67-72

104

Maher, L., and I.L. Goldman. 2017. Bi-Directional Recurrent Half Sib Family Selection for Geosmin Concentration in Table Beet (Beta vulgaris). Crop Science. 57:2564–2574. doi: 10.2135/cropsci2017.02.0111

103

Goldman, I.L. 2017. William Friedman, Geneticist turned cryptographer. Genetics. 206: 1-8; https://doi.org/10.1534/genetics.117.201624

102

Brad Barham, Irwin Goldman, Jordan van Rijn, Jeremy Foltz, and Maria Isabella Agnes. 2017. Land-Grant University Faculty Attitudes in and Engagement with Open Source Scholarship and Commercialization . Agricultural and Environmental Letters. doi:2134/ael2017.03.0008

101

Minmin Wang, Samuel Lopez-Nieves, Irwin L. Goldman, and Hiroshi A. Maeda, 2017. Limited Tyrosine Utilization Explains Lower Betalain Contents in Yellow than in Red Table Beet Genotypes. J. Agric. Food Chem. 65: 4305–4313 DOI: 10.1021/acs.jafc.7b00810

100

Tanumihardjo S.A., Suri D., Simon P. and Goldman I.L., 2016. Vegetables of Temperate Climates: Carrot, Parsnip, and Beetroot. In: Caballero, B., Finglas, P., and Toldrá, F. (eds.) The Encyclopedia of Food and Health vol. 5, pp. 387-392. Oxford: Academic Press.

99

Baranski, R., Goldman, I., Nothnagel, T., Scott, J.W., 2016. Improving Color Sources by Plant Breeding and Cultivation. In: Carle, R., Schweiggert, R.M. (Eds.), Handbook on Natural Pigments in Food and Beverages: Industrial Applications for Improving Food Color. Woodhead Publishing, pp. 429–472.

98

Luby, C.H., and I.L. Goldman. 2016. Release of eight open source carrot (Daucus carota var. sativa) composite populations developed under organic conditions. HortScience, 51:448-450.

97

Luby, C.H., and I.L. Goldman. 2016. Freeing Crop Genetics through the Open Source Seed Initiative.PLOS Biology, 14(4): e1002441. doi:10.1371/journal.pbio.1002441.

96

Luby, C.H.,and I.L. Goldman. 2016. Improving freedom to operate in carrot breeding through the development of eight open source composite populations of carrot (Daucus carota  var. sativus). Sustainability  8(5), 479; doi:10.3390/su8050479

95

Luby, C.H., J.R. Kloppenburg, and I.L. Goldman. 2016. Open source plant breeding and the Open Source Seed Initiative. Plant Breeding Reviews, 40:271-298.

94

Luby, C.H., J.C. Dawson, and. Goldman. 2016. Assessment and accessibility of phenotypic and genotypic diversity of carrot (Daucus carota L. var. sativus) cultivars commercially available in the United StatesPLOS One, 11(12): e0167865. doi:10.1371/journal.pone.0167865

93

Luby, C.H., R. Vernon, H.A. Maeda, and I.L. Goldman. 2015. Lack of Correspondence Between Experimentally-Determined Values of Vitamin E in Carrot (Daucus carota L.) and Those Reported in the USDA National Nutrient Database. HortScience, 50:1595–1597.

92

Goldman, I.L. 2015. Introduction to a special issue on intellectual property issues in plant breeding. Crop Science.doi:10.2135/cropsci2015.09.0001in

91

Luby, C., Michaels, T., Kloppenburg, J., and Goldman, I. 2015. Enhancing freedom to operate for plant breeders and farmers through open source plant breeding. Crop Science 55:1-8.

90

Freidig, A., and I.L. Goldman. 2014. Geosmin (2β,6α-Dimethylbicyclo[4.4.0]decan-1β-ol) Production Associated with Beta vulgaris ssp. vulgaris Is Cultivar Specific. J. Agric. Food Chem. 62: 2031–2036

89

Luby, C.H., Maeda, H.A., and I.L. Goldman. 2014. Genetic and phonological variation of tocochromanol (Vitamin E) content in wild (Daucus carota L. var. carota) and domesticated carort (D. carota L. var. sativa). Horticulture Research. doi:10.1038/hortres.2014.15

88

Goldman, I.. 2014. The Future of Breeding Fruit and Vegetables with Human Health Functionality: Realities, Challenges, and Opportunities. HortScience49:133-137

87

Schaber, M.A. and I.L. Goldman. 2013. Visual versus marker-based selection of hybrid progeny in fertile x fertile beet and carrot crosses. Crop Science. 53:1419-1426

86

Goldman, I.L. 2013. Genetic diversity and plant breeding. In Levin, S.A. (ed). Encyclopedia of Bioiversity, 2nd Ed. Elsevier, Inc. 1:459-469

85

Hatlestad, G.J., M. Rasika, N. Sunnadeniya, A. Akhavan, A. Gonzalez, I.L. Goldman, J. M. McGrath, and A. Lloyd. 2012. The beet R locus encodes a new cytochrome P450 required for red betalain production. Nature Genetics 44:816-820.

84

Arscott, S., and I.L. Goldman. 2012. Selenium enrichment in sprouts of Brassica and Allium species. HortScience. 47:497-502

83

Hansen, E., Folts, J., and I.L. Goldman. 2012. Effect of cooking on onion-induced antiplatelet activity in human subjects. Nutrition Journal. 11:76.

82

Goldman, I.L. 2011. Molecular breeding of healthy vegetables. EMBO Reports. 12:96-102.

81

Freidig, A.K., and I.L. Goldman. 2011.Variation in oxalic acid content among commercial table beet cultivars and related crops. J. Amer. Soc. Hort. Sci. 136:54-60.

80

Goldman, I. L. 2008. “Table Beet” in Vegetables I. Ed. Jaime Prohens and F. Nuez. New York:  Springer. 219-238. Print.

79

Goldman, I. L. 2008. Energy Transformations in a Land Grant College: The Great Lakes Bioenergy Research Center. NABC Report 20: Reshaping American Agriculture to Meet its Biofuel and Biopolymer Roles. 211-221.

78

Goldman, I.L. and P.W. Simon. 2007. “Carrot” in Genetic Resources, Chromosome Engineering, and Crop Improvement. Ed. Ram J. Singh. 497-516.

77

Kalt, W., A. B. Howell, S. L. MacKinnon, and I. L. Goldman. 2007. Selected bioactivited of Vaccinium berries and other fruit crops in relation to their phenolic contents. Journal of the Science of Food and Agriculture. 87: 2279-2285.

76

Tel-Zur, N. and I. L. Goldman. 2007. Analysis of sub-populations of rapid-cycling Brassica rapa following recurrent bi-directional selection for cotyledon size. Plant Breeding. 166: 62-66.

75

Briggs, W.H., and I.L. Goldman. 2006.Genetic Variation and Selection Response in Model Breeding Populations of Brassica rapa following a Diversity Bottleneck. The Genetics Society of America.172:457-46.

74

Goldman, I.L. 2005. “Breeding: Evolutionary Aspects” in Encyclopedia of Plant and Crop Science. Ed. R.M. Goodman. Print.

73

Gaertner, V. L., and I L. Goldman. 2005. Pigment distribution and total dissolved solids of selected cycles of table beet from a recurrent selection program for increased pigment. Journal of the   American Society for Horticultural Science.  130(3): 424-43.

72

Koch, T., and I. L. Goldman 2005. Relationship of Carotenoids and Tocopherols in a sample of Carrot root-color accessions and carrot germplasm carrying Rp and rp Alleles. J. Agr. Food Chem. 53:  325-331

71

Goldman, I.L. 2004. “Breeding Biennial Crops” in Encyclopedia of Plant and Crop Science. Ed. R.M. Goodman. 171-173.

70

Goldman, I.L. 2004. “Biennial Crops” in Encyclopedia of Plant and Crop Science. Ed. R.M. Goodman. 122-124.

69

Koch, T., and I.L. Goldman. 2004. A one-pass semi-quantitative method for extraction and analysis of carotenoids and tocopherols in carrot. HortScience. 39(6): 1260-1261. PDF

68

Hovius, M.H.Y. K.L. Parkin, and I.L. Goldman. 2004. Flavor precursor (S-alk(en)yl-l-cysteine sulfoxide) concentration and composition in onion plant organs and predictability of field white rot reaction of onions. Journal of the American Society for Horticultural Science. 130(2): 196-202.

67

Hovius, M.H.Y.  B. Yandell, and I.L. Goldman. 2004. Evaluation of long-day onions for resistance to white rot infection using greenhouse and laboratory techniques. Journal of the American Society for Horticultural Science. 129(2): 258-265 .

66

Tracy, W.F., I.L. Goldman, A.E. Tiefenthaler, and M. Schaber. 2004. Trends in productivity of US crops and long term selection. Plant Breeding Reviews. 24(2):89-108.

65

Goldman, I.L. 2004. Intellectual legacy of the Illinois Long Term Selection Experiment. Plant Breeding Reviews. 24(1):61-78.

64

Hovius, M.H.Y. and I.L. Goldman. 2003. Relationship of white rot resistance to pyruvate and S-alk(en)yl-L-cysteine sulfoxides in onion roots. Acta Horticulturae. 637: 195-201.

63

Goldman, I.L. 2003. Back to the future of food: phytonutrients and quality in vegetable crops for the 21st century. Acta Horticulturae. 637: 353-360.

62

Goldman, I.L. 2003. Recognition of fruits and vegetables as healthful: vitamins and phytonutrients. HortTechnology. 13:1-6.

61

Osmont, K., Arnt, C., and I.L. Goldman. 2003. Temporal aspects of onion-induced antiplatelet activity. Plant Foods for Human Nutrition. 58:27-40.

60

Tiefenthaler, A.E., I.L. Goldman, and W.F. Tracy. 2003 Vegetable and Corn Yields in the United States, 1900-present. HortScience. 38:1080-1082.

59

Janick, J., and I.L. Goldman. 2003. Horticulture, horticultural science, and 100 years of ASHS. HortScience 38:883-900.

58

Goldman, I.L. 2003. “Onions and Other Allium Plants” in Encyclopedia of Food and Culture. Ed. S.H. Katz.  8-14.

57

Goldman, I.L. 2002. From Soil to Snake Oil: Possibilities and Limitations in Food Functionality. Proceedings of the Symposium on Fertilizing Crops for Functional Food. 3.1-3.4.

56

Goldman, I.L. 2002, “Why Medicine Needs Agriculture” in NABC Report 14 on Foods for Health. 113-121. Print.

55

Goldman, I.L. 2002. Raymond Pearl, Smoking, and Longevity. Genetics. 162:997-1001. 

54

Poon, W.Y.L. and I.L. Goldman. 2002. Comparative carotenoid accumulation and retention in Near-isogenic rprp and RPRP Inbred Carrot Lines. Journal of the American Society for Horticultural Science. 127:284-289.

53

Briggs, W.H., and I.L. Goldman. 2002. Variation in economically and ecologically important traits in onion plant organs during reproductive development. Plant Cell and Environment. 25:1031-1037.

52

Goldman, I.L., and J.P. Navazio. 2002. History and breeding of table beet in the United States. Plant Breeding Reviews. 22:357-388.

51

Goldman, I.L. 2002. “Forgotten and Future Vegetable Phytoceuticals.” In: Trends in New Crops and New Uses.Ed. J. Janick. Print.

50

Briggs, W.H., J.D. Folts, H.E. Osman, and I.L. Goldman. 2001. Administration of raw onion inhibits platelet-mediated thrombosis in dogs. J. Nutrition. 131:2619-2622.

49

Orvis, K., Barak, P., Goldman, I.L. 2001. Excess sulfate supply and onion-induced human antiplatelet activity. J. Pl. Nut. Soil Sci. 164:457-462.

48

Shen, C., Xiao, H., Rajan, S., Briggs, W.H., Goldman, I.L. Verma, A., Ingham, S., Parkin, K. Bioactivities of thiosulfinates from Alliums. 2001. Am. Chem Soc. Special Publication.

47

Austin, D., and I.L. Goldman. 2001. Transmission ratio distortion due to the bl gene in table beet. Journal of the American Society for Horticultural Science. 126:340-343.

46

Galmarini, C., I.L. Goldman, and M.J. Havey. 2001. Genetic analyses of correlated solids, flavor, and health-enhancing traits in onion (Allium cepa L.). Molecular and General Genetics. 265:543-551

45

Goldman, I. L., and M. J. Havey. History and Pedigree of Public Onion Releases in the United States. Onion World Feb. 2000: 10-14.

44

Briggs. W.H., Xiao, H., Shen, C., Parkin, K.L., and I.L. Goldman. 2000. Differential inhibition of Human Platelet Aggregation by selected Allium thiosulfinates. Journal of Agriculture and Food Chemistry. 11:5731-5735.

43

Von Elbe, J., and I.L. Goldman. 2000. The Betalains. In: Natural Colors in Food. G.J. Lauro and F.J. Francis, eds. Marcel Dekker, New York.  P. 11-30.

42

Goldman, I.L., and D. Austin. 2000. Linkage among the R, Y, and bl loci in table beet. Theoretical and Applied Genetics. 100:337-343.

41

Goldman, I.L., M.J. Havey, and G. Schroeck. 2000. History of public onion breeding programs in the United States. Plant Breeding Reviews. 20:67-103.

40

Goldman, I.L. 2000. Prediction in plant breeding. Plant Breeding Reviews. 19:15-40.

39

Goldman, I.L. 1999. Teaching recurrent selection in the Classroom with Wisconsin Fast Plants. HortTechnology. 9:579-584.

38

Wang, M., and I.L. Goldman. 1999. Genetic Distance and Diversity in Table Beet and Sugar Beet Accessions Measured by Randomly Amplified Polymorphic DNA. Journal of the American Society for Horticultural Science. 124:630-635.

37

Goldman, I.L., 1999.  Inbreeding and outbreeding in the development of a modern heterosis concept. In: The Genetics and Exploitation of Heterosis in Crops; An International Symposium. J.G. Coors, ed. CIMMYT,  Mexico City, Mexico.

36

Goldman, I.L., A.A. Kader, and C. Heintz. 1999. Influence of Production, Handling, and Storage on Phytonutrient Content of Foods. Nutr. Reviews. (II)S46-S52.

35

Debaene, J.E.P., I.L. Goldman, and B. S. Yandell. 1999. Postharvest flux and genotype x environment effects for onion-induced antiplatelet activity, pungency, and soluble solids in long day onion during postharvest cold storage. Journal of the American Society for Horticultural Science. 124:366-372.

34

Goldman, I.L., 1998.  From out of old fields comes all this new corn: An historical perspective on heterosis in Plant Improvement. P. 1-12. In: Concepts and Breeding of Heterosis in Crop Plants. K.R. Lamkey and J. Staub, eds. Crop Science Society of America Special Publication No. 25. Crop Science Society of America, Madison, WI.

33

Goldman, I.L. 1998. Inheritance of ffs, a gene conditioning fasciated flower stem in red beet. Journal of the American Society for Horticultural Science. 123:632-634.

32

Wang, M., and I.L. Goldman. 1997. Transgressive segregation and reciprocal effect for free folic acid content in a red beet population.  Euphytica. 96:317-321.

31

Barak, P., and I.L. Goldman. 1997.  Antagonistic relationship between selenate and sulfate uptake in onion (Allium cepa):  Implications for the production of organosulfur and organoselenium compounds in Plants.  J. Agriculture and Food Chemistry.  45:1290-1294.

30

Paran, I., I.L. Goldman, and D. Zamir. 1997.  QTL analysis of morphological traits in a tomato recombinant inbred line population.  Genome.  40:242-248.

29

Watson, J.F., and I.L. Goldman. 1997.  Inheritance of a gene conditioning blotchy root color in Beta vulgaris.  J. Heredity.  88:540-543.

28

Goldman, I.L., and J.F. Watson. 1997.  Inheritance and phenocopy of a Red Beet giberrellic acid-deficient dwarf mutant. Journal of the American Society for Horticultural Science.  122:315-318.

27

Wang, M., and I.L. Goldman. 1997.  Accumulation and distribution of free folic acid content in red beet (Beta vulgaris L.). Plant Foods for Human Nutrition.  50:1-8.

26

Wang, M., and I.L. Goldman. 1996. Phenotypic variation in free folic acid content among F1 hybrids and open-pollinated cultivars of red beet. Journal of the American Society for Horticultural Science. 121:1040-1042.

25

Goldman, I.L., 1996. Elevated antiplatelet activity Induced by Extracts from Onion umbels. HortScience. 31:874.

24

Goldman, I.L., M. Kopelberg, J.E.P. Debaene. 1996. Antiplatelet activity in Onion (Allium cepa) is Sulfur Dependent. Thrombosis and Haemostasis. 76:450-2.

23

Goldman, I.L. 1996. A list of germplasm releases from the University of Wisconsin Carrot Breeding Program,1964-1993. HortScience. 31:882-883.

22

Goldman, I.L. 1996. A list of germplasm releases from the University of Wisconsin Onion Breeding Program, 1957-1993. HortScience. 31:878-879.

21

Goldman, I.L. 1996. A list of germplasm releases from the University of Wisconsin table Beet Breeding Program, 1964-1992. HortScience. 31:880-881.

20

Goldman, I.L. and D.N. Breitbach. 1996. Inheritance of a recessive character controlling reduced carotenoid pigmentation in carrot (Daucus carota L.). Journal of Heredity. 87:380-382. PDF

19

Wang, M., and I.L. Goldman. 1996. Resistance to root-knot nematode (Meloidogyne hapla Chitwood) infection in carrot (Daucus carota L.) is controlled by two recessive genes. Journal of Heredity. 87:119-23.

18

Goldman, I.L., K.A. Eagen, D.N. Breitbach, and W.H. Gabelman. 1996. Simultaneous selection is effective in increasing betalain pigment concentration but not total dissolved solids in red beet (Beta vulgaris L.). Journal of the American Society for Horticultural Science. 121:23-6.

17

Eagen, K.A. and I.L. Goldman. 1996. Assessment of RAPD marker frequencies over cycles of recurrent selection for pigment concentration and percent solids in red beet (Beta vulgaris L.). Molecular Breeding. 2:107-115.

16

Wang and I.L. Goldman. 1996. Red beet (Beta vulgaris) inbred lines and plant introductions differ in root folic acid content. Acta Horticulturae. 426:273-6.

15

Goldman and M. Kopelberg. 1996. Comparative antiplatelet activity of four cultivated onion (Allium cepa) genotypes. Acta Horticulturae. 426:255-8.

14

Goldman, I.L., I. Paran, and D. Zamir. 1995. Quantitative trait locus analysis of a recombinant inbred line population derived from a Lycopersicon esculentum X Lycopersicon cheesmanii cross. Theoretical and Applied Genetics. 90:925-932.

13

Paran, I., I.L. Goldman, S.D. Tanksley, and D. Zamir. 1995. Recombinant inbred lines for genetic mapping in tomato. Theoretical and Applied Genetics. 90:542-548.

12

Goldman, I.L. 1995. Differential effect of population density on shape and size of cylindrical red beet (Beta vulgaris L.) genotypes. Journal of the American Society for Horticultural Science. 1206:906-908.

11

Goldman, I.L., B.S. Schwartz, and M. Kopelberg. 1995. Variability in blood platelet inhibitory activity of Allium  species accessions. American Journal of Botany. 82: 827-832.

10

Goldman, I.L. and W.F. Tracy. 1994. Kernel protein concentration in sugary-1 and shrunken-2 sweet corn. HortScience. 29:209-210.

9

Gabelman, W.H., I.L. Goldman, and D.N. Breitbach. 1994. Field evaluation and selection for resistance to aster yellows in carrot (Daucus carota L.). Journal of the American Society for Horticultural Science. 119:1293-1297.

8

Goldman, I.L., T.R. Rocheford, and J.W. Dudley. 1994. Molecular Markers Associated with Maize Kernel Oil Concentration in an Illinois High Protein x Illinois Low Protein Cross. Crop Science. 34:908-915.

7

Goldman, I.L., T.R. Rocheford, and J.W. Dudley. 1993. Quantitative Trait Loci Influencing Protein and Starch Concentration in the Illinois Long Term Selection maize strains. Theoretical and Applied Genetics. 87:217-224.

6

Goldman, I.L., and E.T. Gritton. 1992. Seasonal Variation in Leaf Component Allocation in Normal, Afila, and Afila-tendrilled Acacia Pea Foliage Near-isolines. Journal of the American Society for Horticultural Science. 117:1017-1020.

5

Goldman, I.L., E.T. Gritton, and P.J. Flannery. 1992. Evaluation of the Afila-Tendriled Acacia Pea Foliage Type under High Competition. Crop Science. 32:855-861.

4

Goldman, I.L., and E.T. Gritton. 1992.  Evaluation of the Afila-Tendriled Acacia Pea Foliage Type under Minimal Competition. Crop Science.  32:851-855.

3

Goldman, I.L., and E.T. Gritton. 1991. Expression of the Tendrilled Acacia Trait in the Afila-Tendrilled Acacia Pea Leaf during Plant Development. Journal of Heredity. 82:479-483. PDF

2

Goldman, I.L., T.E. Carter, Jr., and R.P. Patterson. 1987. A Detrimental Interaction of Subsoil Aluminum and Drought Stress on the Leaf Water Status of Soybean. Agronomy Journal. 81:461-463.

1

Goldman, I.L., T.E. Carter, Jr., and R.P. Patterson. 1987. Differential Genotypic Response to Drought Stress and Subsoil Aluminum in Soybean. Crop Science. 29:330-334.