CUCUMIS

Accession

IPR

Pedigree

Accession Citations

Abad, Z. G. & T. C. Wehner. 1992. Development of a Seedling Test for Resistance to Gummy Stem Blight in Cucumber. Cucurbit Genet. Coop. Rep. 15:23-27. Note: Text, Table 2 & Table 3. Number of accession(s) cited: 1
Aierken, Y., Y. Akashi, P. Nhi, Y. Halidan, K. Tanaka, B. Long, H. Nishida, C. Long, M. Wu, & K. Kato. . 2011. Molecular Analysis of the Genetic Diversity of Chinese Hami Melon and Its Relationship to the Melon Germplasm from Central and South Asia. J. Jap. Soc. Hort. Sci. 80(1):52-65. DOI: 10.2503/jjshs1.80.52. Number of accession(s) cited: 47
Akashi, Y., N. Fukuda, T. Wako, M. Masuda, & K. Kato. 2002. Genetic variation and phylogenetic relationships in East and South Asian melons, Cucumis melo L., based on the analysis of five isozymes. Euphytica 125:385-396. DOI: 10.1023/A:1016086206423. Note: Netherlands journal of plant breeding Number of accession(s) cited: 65
Altuntaş, E., I. Naneli, & M. A. Sakin. 2018. Some selected engineering properties of seven genotypes in quinoa seeds. Adv. Agric. Sci. 6(2):36-49. Number of accession(s) cited: 1
Armstrong, G. M. & J. K. Armstrong. 1978. Fusarium Wilt Resistance of Cucumbers. Cucurbit Genet. Coop. Rep. 1:3-4. Note: Table Number of accession(s) cited: 2
Beharav, A. & Y. Cohen. 1994. Attempts to Overcome Barrier of Interspecific Hybridization between Cucumis melo and C. metuliferus. Cucurbit Genet. Coop. Rep. 17:90-93. Note: Text & Table 2. Number of accession(s) cited: 2
Bohn, G. W., A. N. Kishaba, & J. D. McCreight. 1980. WMR 29 muskmelon breeding line. HortScience 15:539-540. Number of accession(s) cited: 1
Boissot, N., A. Schoeny & F. Vanlerberghe-Masutti. 2016. Vat, an Amazing Gene Conferring Resistance to Aphids and Viruses They Carry: From Molecular Stucture to Field Effects. Front. Plant Sci. 7:1420 DOI: 10.3389/fpls.2016.01420. Number of accession(s) cited: 9
Branham, S., C. Kousik, M. Mandal, & W. P. Wechter. 2021. Quantitative Trait Loci Mapping of Resistance to Powdery Mildew Race 1 in a Recombinant Inbred Line Population of Melon. Pl. Dis. 105(12):3809-3815. DOI: 10.1094/PDIS-12-20-2643-RE. Number of accession(s) cited: 1
Brotman, Y., M. Normantovich, Z. Goldenberg, Z. Zvrin, I. Kovalski, N. Stovbun, T. Doniger, A. Bolger, C. Troadec, A. Bendahmane, R. Cohen, N. Katzir, M. Pitrat, C. Dogimont, & R. Perl-Treves. 2013. Dual Resistance of Melon to Fusarium oxysporum Races 0 and 2 and to Papaya ring-spot virus is Controlled by a Pair of Head-to-Head-Oriented NB-LBR Genes of Unusual Architecture. Molec. Pl. 6(1):235-238. DOI: 10.1093/mp/sss121. Number of accession(s) cited: 1
Call, A., A. Criswell, T. Wehner, U. Klosinska & E. Kozik. 2012. Screening Cucumber for Resistance to Downy Mildew Caused by Pseudoperonospora cubensis (Berk. and Curt.) Rostov. Crop Sci. (Madison) 52(2):577-592. DOI: 10.2135/cropsci2011.06.0296. Note: Table 1, Table 3, Table 4. Number of accession(s) cited: 69
Campos, M., M. José Gonzalo, A. Díaz, B. Picó, M. Gómez-Guillamón, A. Monforte, & C. Esteras. 2023. A Novel Introgression Line Library Derived from a Wild Melon Gives Insights into the Genetics of Melon Domestication, Uncovering New Genetic Variability Useful for Breeding. Int. J. Molec. Sci. 24(12). DOI: 10.3390/ijms241210099. Number of accession(s) cited: 5
Chung, S.-M., J. Staub, & J.-F. Chen. 2006. Molecular phylogeny of Cucumis species as revealed by consensus chloroplast SSR marker length and sequence variation. Genome 49:219-229. DOI: 10.1139/g05-101. Number of accession(s) cited: 2
Clayberg, C. D. 1992. Earlibush Crenshaw' Melon. HortScience 27(9):1050-1051 DOI: 10.21273/HORTSCI.27.9.1050. Number of accession(s) cited: 1
Cohen, Y. & H. Eyal. 1988. Reaction of Muskmelon Genotypes to Races 1 and 2 of Sphaerotheca fuliginea in Israel. Cucurbit Genet. Coop. Rep. 11:47-49. Note: Text & Table 1. Reported as C. melo var reticulatus. Correct accession C. melo subsp melo Number of accession(s) cited: 3
Criswell, A., A. Call, & T. Wehner. 2010. Genetic Control of Downy Mildew Resistance in Cucumber - A Review. Cucurbit Genet. Coop. Rep. 33-34:13-16. Number of accession(s) cited: 4
Cui, Lei, L. Siskos, Chen Wang, H. Schouten, R. G.F. Visser, & Yuling Bai. 2022. Breeding melon (Cucumis melo) with resistance to powdery mildew and down mildew. Hort. Pl. J. 8(5):545-561. DOI: 10.1016/j.hpj.2022.07.006. Note: a publication of Chinese Society for Horticultural Science, and Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences Number of accession(s) cited: 4
Dabauza, M., L. A. Roig & V. Moreno. 1991. Selective Methods for the Recovery of Somatic Hybrids of Cucumis melo x metuliferus and C. sativus x C. metuliferus. Cucurbit Genet. Coop. Rep. 14:81-84. Note: Text. Number of accession(s) cited: 2
de Vaulx, R. D. 1979. Pollen Germination in Interspecific Crosses Between Muskmelon and Some Wild Cucumis Species. Cucurbit Genet. Coop. Rep. 2:20-21. Number of accession(s) cited: 4
Della Vecchia, P. T., J. E. Staub, & C. E. Peterson. 1982. Inheritance of Short-day response to Flowering in Crosses Between a Cucumis sativus var. hardwickii (R.) Alef. Line and Cucumis sativus L. Lines. Cucurbit Genet. Coop. Rep. 5:4-5. Number of accession(s) cited: 1
Della Vecchia, P.T., C. E. Peterson, & J. E. Staub. 1982. Effect of the Duration of Short-day Treatment on the Flowering Response of a Cucumis sativus var. hardwickii (R.) Alef. Line. Cucurbit Genet. Coop. Rep. 5:2-3. Number of accession(s) cited: 1
den Nijs, A.P.M. & D.L. Visser. 1984. Improving the Fertility of Tetraploid Cucumbers. Cucurbit Genet. Coop. Rep. 7:12-13. Note: Table 1. Number of accession(s) cited: 1
Dhillon, N. P. S., R. Ranjana, K. Singh, I Eduardo, A. Monforte, M. Pitrat, N. K. Dhillon, & P. P. Singh. 2007. Diversity among landraces of Indian snapmelon (Cucumis melo var. momordica. Genet. Resources Crop Evol. 54:1267-1283. DOI: 10.1007/s10722-006-9108-2. Number of accession(s) cited: 13
Dhillon, N., A. Monforte, M. Pitrat, S. Pandey, P. Singh, K. Reitsma, J. Garcia-Mas, A. Sharma & J. McCreight. 2011. Melon Landraces of India: Contributions and Importance. Pl. Breed. Rev. 35:85-150 DOI: 10.1002/9781118100509.ch3. . Number of accession(s) cited: 44
Dhillon, N.P.S. . 1992. Non-linkage of Bitterness and Resistance to Red Spider Mite in Cucumber. Cucurbit Genet. Coop. Rep. 15:31-32. Note: Text & Table 2. Number of accession(s) cited: 4
Diaz, A. et al. 2011. A consensus linkage map for molecular markers and Quantitiative Trait Loci associated with economically important traits in melon (Cucumis melo L.). B. M. C. Pl. Biol. 11:1111. DOI: 10.1186/1471-2229-11-111. Number of accession(s) cited: 2
Diaz, A., A. M. Martin-Hernandez, R. Dolcet-Sanjuan, A. Garces-Claver, J. M. Alvarez, J. Garcia-Mas, B. Tico, & A. J. Monforte. 2017. Quantitiative trait loci analysis of melon (Cucumis melo L.) domestication-related traits. Theor. Appl. Genet. 130:1837-1856. DOI: 10.1007/s00122-017-2928-y. Note: Accession Ames 24297 inaccurately referenced in article as Ames 24294 (Crambe). Number of accession(s) cited: 1
Dijkhuizen, A., W. Kennard, M. Havey, & J. Staub. 1996. RFLP variation and genetic relationships in cultivted cucumber. Euphytica 90:79-87. DOI: 10.1007/BF00025163. Note: Netherlands journal of plant breeding Number of accession(s) cited: 14
Eason, G., G. C. Kennedy, & R. L. Lower. 1980. Screening Cucumbers for Resistance to the Vegetable Leafminer. Cucurbit Genet. Coop. Rep. 3:5-6. Number of accession(s) cited: 3
Edwards, M.D., & R. L. Lower. 1982. Comparative Yields of Compact and Vining Plant Type Isolates in Cucumber at Four Densities. Cucurbit Genet. Coop. Rep. 5:6-7. Number of accession(s) cited: 1
El Jack, A., & H. M. Munger. 1983. Two Sources Conferring Partial Dominant Resistance to Powdery Mildew (Sphaerotheca fuliginea Poll.) in Cucumber. Cucurbit Genet. Coop. Rep. 6:7-8. Number of accession(s) cited: 1
Essafi, A., J. Diaz-Pendon, E. Moriones, A. Monforte, J. Garcia-Mas, & A. Martin-Hernandez. 2009. Dissection of the oligogenic resistance to Cucumber mosaic virus in the melon accession PI 161375. Theor. Appl. Genet. 118(2):275-84. DOI: 10.1007/s00122-008-0897-x. Number of accession(s) cited: 1
Fassuliotis, G. 1970. Resistance of Cucumis spp. to the Root-knot Nematode, Meloidogyne incognita acrita. J. Nematol. 2(2):174-178. Number of accession(s) cited: 2
Gonda, I., et.al. 2013. Catabolism of L-methionine in the formation of sulfur and other volatiles in melon (Cucumis meloL.) fruit. Plant J. 74:458-472. DOI: 10.1111/tpj.12149. Number of accession(s) cited: 1
Grumet, R. & M. Colle. 2017. Cucumber (Cucumis sativus) Breeding Line with Young Fruit Resistance to Infection by Phytophthora capsici . HortScience 52(6):922-924. DOI: 10.21273/HORTSCI11423-16. Number of accession(s) cited: 3
Guiu Aragonés, Cèlia. 2014. Study of Cucumber mosaic virus infection in the resistant melon accession PI 161375. Ph.D. Thesis submitted to the Universitat Autònoma De Barcelona, Faultat de Biosciències, Dept. Biologia Animal, Bilogia Vegetal i Ecologia. Unpublished dissertation 1-230. Number of accession(s) cited: 1
Hammer, R. & C. Yigal . 2025. Non-Sikkim Cucumber Accessions Resistant to Downy Mildew >I>Pseudoperonospora cubensis). Seeds 4(1) 8 DOI: 10.3390/seeds4010008 . Number of accession(s) cited: 27
Hartman, J. D. & G. C. Gaylord. 1944. The Purdue 44 Muskmelon. Circular 295 Note: Purdue University Agricultural Experiment Station, Lafayette, Indiana, Department of Horticulture, April 1944 Circular 295. Number of accession(s) cited: 1
Hassan, A. A., H.H. Al-Masri, U.A. Obaji, M.S. Wafi, N.E. Quronfilah, & M.A. Al-Rays. 1991. Screening of Domestic and Wild Cucumis melo Germplasm for Resistance to the Yellow-Stunting Disorder in the United Arab Emirates. Cucurbit Genet. Coop. Rep. 14:56-58. Note: Text & Table 1. Number of accession(s) cited: 25
He, Xiaoming, Li, Yuhong, S. Oandey, B. Yandell, M. Pathak & Yiqun Weng. 2013. QTL mapping of powdery mildew resistance in WI 2757 cucumber (Cucumis sativus L.). Theor. Appl. Genet. 126:2149-2161. DOI: 10.1007/s00122-013-2125-6. Number of accession(s) cited: 5
Heit, C., R. W. Robinson, & W. Mishanec. 1978. Dormancy of (Cucumis) Species. Cucurbit Genet. Coop. Rep. 1:36-37. Number of accession(s) cited: 1
Herrington, M. E. & S. Prytz. 1990. Further Sources of Resistance to ZYMV in Cucumis melo L. Cucurbit Genet. Coop. Rep. 13:25-26. Note: Text & Table 1. Number of accession(s) cited: 62
Horejsi, T. & J. Staub. 1999. Genetic variation in cucumber (Cucumis sativus L.) as assessed by random amplified polymorphic DNA. Genet. Resources Crop Evol. 46:337-350 DOI: 10.1023/A:1008650509966. Note: Table 1: NCRPIS No.: Ames 20664 assigned permanent PI number: PI 605926. Number of accession(s) cited: 35
Hutton, M. G. & J. B. Loy. 1992. Inheritance of Cold Germinability in Muskmelon. HortScience 27(7):826-829. DOI: 10.21273/HORTSCI.27.7.826. Number of accession(s) cited: 1
Ibrahim, A. M. & K. A. Al-Zeir. 1982. 'Najd I' and 'Najd II', Two Sour-sweet Melon Cultivars. HortScience 27(3):276-277. Number of accession(s) cited: 2
Islam, Md. R., M. R. Hossain, D. M. I. Jesse, Hee-Jeong Jung, Hoy-Taek Kim, Jong-In Park, & Ill-Sup Nou. 2020. Characterization, identification and expression profiling of genome-wide R-genes in melon and their putative roles in bacterial fruit blotch resistance. B. M. C. Genet. 21:80. DOI: 10.1186/s12863-020-00885-9. Number of accession(s) cited: 2
Islam, Md. R., M. R. Hossain, D. M. I. Jesse, Hee-Jeong Jung, Hoy-Taek Kim, Jong-In Park, & Ill-Sup Nou. 2020. Development of Molecular Marker Linked with Bacterial Fruit Blotch Resistance in Melon (Cucumis melo L.). Genes 11(2):220. DOI: 10.3390/genes11020220. Number of accession(s) cited: 22
Jain, J. & T.A. More. 1994. Preliminary Screening of Indigenous Cultivars and a Few Known Marker Lines of Cucumis melo for Fusarium Wilt and CGMMV Resistance. Cucurbit Genet. Coop. Rep. 17:69-71. Note: Table 1. Number of accession(s) cited: 1
Kahraman, A. & H. Ilbi. 2012. Determination of resistant local varieties to Fusarium wilt (Fusarium oxysporum f.sp. melonis) with molecular markers. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 466-475 Note: Poster. Tables 3, 4, & 5. Number of accession(s) cited: 17
Khan, I.A., L.F. Lippert, M.O. Hall & G.E. Jones. 1988. A simple procedure and the genetic potential for footing of stem cuttings in muskmelon. Cucurbit Genet. Coop. Rep. 11:43-46. Note: Text & Table 2. Number of accession(s) cited: 1
Kishaba, A. N., G. W. Bohn, & H. H. Toba. 1976. Genetic Aspects of Antibiosis to Apis gossypii in Cucumis melo from India . J. Amer. Soc. Hort. Sci. 101(5):557-561. DOI: 10.21273/JASHS.101.5.557. Number of accession(s) cited: 2
Kishaba, A. N., S. Castle, D. Coudriet, & J. D. McCreight. 1983. Field Evaluation of Melon Aphid Resistant Cantaloupe Breeding Lines for Susceptibility to the Cucumber Beetle Complex. Cucurbit Genet. Coop. Rep. 6:41-42. Number of accession(s) cited: 2
Kishaba, A., G. Bohn, & H. Toba. 1971. Resistance to Aphis gossypii in Muskmelon. J. Econ. Entomol. 64(4):935-937. DOI: 10.1093/jee/64.4.935. Number of accession(s) cited: 5
Knerr, L. D. & J. E. Staub. 1991. A Multivariate Re-evaluation of Biochemical Genetic Diversity in Cucumis sativus L. Cucurbit Genet. Coop. Rep. 14:25-28. Note: Table 1. Number of accession(s) cited: 20
Knerr, L. D., J. E. Staub, D. J. Holder, & B. P. May. 1989. Genetic diversity in Cucumis sativus L. assessed by variation at 18 allozyme coding loci. Theor. Appl. Genet. 78:119-128. Number of accession(s) cited: 70
Knerr, L., & J. Staub. 1992. Inheritance and linkage relationships of isozyme loci in cucumber (Cucumis sativus L.). Theor. Appl. Genet. 84:217-224. DOI: 10.1007/BF00224003. Number of accession(s) cited: 44
Kozik E., U. Klosińska, A.Call, & T. Wehner. 2013. Heritability and Genetic Variance Estimates for Resistance to Downy Mildew in Cucumber Accession Ames 2354. Crop Sci. (Madison) 53(1):177-182. DOI: 10.2135/cropsci2012.05.0297. Number of accession(s) cited: 9
Kozik, E. U., U. Klosinska, & T.C. Wehner. 2012. Inheritance of low temperature seed germination ability in cucumber. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 575-578. Note: Poster. Number of accession(s) cited: 1
Kozik, E., U. Klosińska, & T. Wehner. 2012. Genetic studies on resistance to downy mildew in cucumber. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 165-171. Note: Oral Presentations Number of accession(s) cited: 8
Kozik, E.U. & T. C. Wehner. 2008. A Single Dominant Gene Ch for Chilling Resistance. J. Amer. Soc. Hort. Sci. 133(2):225-227. Note: NC-76 selected from PI 246930. Number of accession(s) cited: 1
Lebeda, A., B. Sedlakova, E. Kristkova, J. McCreight, M. den Hertog, & K. Reitsma. 2021. Development and Availability of a Melon Differential Set for Determination of Virulence Variation of Cucurbit Powdery Mildews (Podosphaera xanthii and Golovinomyces orontii). Cucurbit Genet. Coop. Rep. 44:15-19. Number of accession(s) cited: 22
Lebeda, A., B. Sedláková, E. Křístková, M. Vajdová, & J. McCreight. 2012. Application of a new approach for characterization and denomination of races of cucurbit powdery mildews–a case study of Czech pathogen populations. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 172-180. Note: Oral Presentations Number of accession(s) cited: 15
Lebeda, A., B. Sedlakova, E. Kristkova, M. Widrlechner, & E. Kosman. 2021. Understanding pathogen population structure and virulence variation for efficient resistance breeding to control cucurbit powdery mildews. Pl. Pathol. 70:1364-1377. DOI: 10.1111/ppa.13379. Number of accession(s) cited: 22
Lebeda, A., B. Sedlakova, E. Kristkova, M.P. Widrlechner, & E. Kosman. 2021. Understanding pathogen population structure and virulence variation for efficient resistance breeding to control cucurbit powdery mildews. Pl. Pathol. 70:1364-1377. DOI: 10.1111/ppa.13379. Number of accession(s) cited: 5
Lebeda, A., E. Kristkova, B. Sedlakova, & J. McCreight. 2018. Initiative for Uniform Cucurbit Powdery Mildew Race Determination and Denomination: Status of Race Differentials. Cucurbit Genet. Coop. Rep. 41:17-19. Number of accession(s) cited: 22
Lebeda, A., E. Kristkova, B. Sedlakova, J. McCreight, & E. Kosman. 2018. Virulence variation of cucurbit powdery mildews in the Czech Republic - population approach. Eur. J. Pl. Pathol. 152:309-326. DOI: 10.1007/s10658-018-1476-x. Number of accession(s) cited: 22
Lebeda, A., E. Kristkova, B. Sedlakova, J. McCreight, & M. Coffey. 2016. Cucurbit powdery mildews: methodology for objective determination and denomination of races. Eur. J. Pl. Pathol. 144:399-410. DOI: 10.1007/s10658-015-0776-7. Number of accession(s) cited: 30
Lecoq, H., & M. Pitrat. 1980. Resistance to Cucumber Mosaic Virus Transmission by Aphis Gossypii in Melon. Cucurbit Genet. Coop. Rep. 3:30. Number of accession(s) cited: 3
Liu, Shulin, Yanxia Shi, Han Miao, Min Wang, Baoju Li, Xingfang Gu, & Shengping Zhang. 2017. Genetic Analysis and QTL Mapping of Resistance to Gummy Stem Blight in Cucumis sativus Seedling Stage. Pl. Dis. 101(7):1145-1152. DOI: 10.1094/PDIS-08-16-1116-RE. Number of accession(s) cited: 1
MacCarter, L. & D. Habeck. 1974. Melon Aphid Resistance in Cucumis Spp. Florida Entomol. 57(2):185-204. DOI: 10.2307/3493486. Number of accession(s) cited: 55
Mahendra, Dia., T. Wehner, G. Elmstrom, A. Gabert, J. Motes, J. Staub, G. Tolla & I. Widders. 2018. Genotype X Environment Interaction for Yield of Pickling Cucumber in 24 U.S. Environments. Open Agric. 3:1-16 DOI: 10.1515/opag-2018-0001. Number of accession(s) cited: 2
Malik, A., V. Vashisht, K. Singh, A. Sharma, D. K. Singh, H. Singh, A. Monforte, K. McCreight, & P. S. Dhillon. 20014. Diversity among melon (Cucumis melo L.) landraces from the Indo-Gangetic plains of India and their genetic relationship with USA melon cultivars. Genet. Resources Crop Evol. 61:1189-1208. DOI: 10.1007/s10722-014-0101-x. Number of accession(s) cited: 6
Matsumoto, Y., T. Ogawara, M. Miyagi, N. Watanabe, & T. Kuboyama. 2011. Response of Wild Cucumis Species to Inoculation with Fusarium oxysporum f. sp. melonis Race 1,2y. J. Jap. Soc. Hort. Sci. 80(4):414-419. DOI: 10.2503/jjshs1.80.414. Number of accession(s) cited: 68
McCarthy, W.H., T.C. Wehner & M.E. Daub. 1989. Isolation and Culture of Cucumis metuliferus Protoplasts. Cucurbit Genet. Coop. Rep. 12:26-29. Note: Text. Number of accession(s) cited: 1
McCreight, J. D. & M. Pitrat. 1993. Club Mildew: Working Group on Resistance of Melon to Powdery Mildew. Cucurbit Genet. Coop. Rep. 16:39 Note: Text. Number of accession(s) cited: 2
McCreight, J. D. & G. W. Elmstrom. 1983. A Third Male Sterile Gene in Muskmelon. Cucurbit Genet. Coop. Rep. 6:46. Number of accession(s) cited: 1
McCreight, J. D. & M. D. Coffey. 2011. Inheritance of Resistance in Melon PI 313970 to Cucurbit Powdery Mildew Incited by Podosphaera xanthii Race S. HortScience 46(4):838-840. DOI: 10.21273/HORTSCI.46.6.838. Number of accession(s) cited: 1
McCreight, J. D. & W. M. Wintermantel. 2008. Potential new sources of genetic resistance in melon to cucurbit yellow stunting disorder virus. In: Pitrat, M., ed., Proceedings of the IXth EUCARPIA meeting on genetics and breeding of Cucurbitaceae, INRA, Avignon, France, 21-24 May, 2008 173-179. Note: INRA, Paris. Number of accession(s) cited: 5
McCreight, J. D. & W. M. Wintermantel. 2011. Genetic resistance in melon PI 313970 to cucurbit yellow stunting disorder virus. HortScience 46(12):1582-1587. DOI: 10.21273/HORTSCI.46.12.1582. Number of accession(s) cited: 1
McCreight, J. D., A. N. Kishaba, & G. W. Bohn. 1984. AR Hale's Best Jumbo, AR 5, and AR Topmark: Melon aphid-resistant muskmelon breeding lines. HortScience 19:309-310. Number of accession(s) cited: 2
McCreight, J. D., G. W. Bohn, & A. N. Kishaba. 1992. Pedigree of PI 414723 melon. Cucurbit Genet. Coop. Rep. 15:51-52. Number of accession(s) cited: 2
McCreight, J. D., H. Liu, & T. A. Turini. 2008. Genetic Resistance to Cucurbit Leaf Crumple Virus in Melon. HortScience 43(1):122-126. DOI: 10.21273/HORTSCI.43.1.122. Number of accession(s) cited: 7
McCreight, J. D. 2000. Molecular and phenotypic variation in melon PI 313970. Acta Hort. 510:235-240. DOI: 10.17660/ActaHortic.2000.510.38. Note: Cucurbitaceae 2008. Proceedings of the 9th EUCARPIA meeting on genetics and breeding of Cucurbitaceae (Pitrat, M., ed), INRA, Avignon (France), May 21-24th, 2008. ISBN 978-2-7380-1251-7. Number of accession(s) cited: 1
McCreight, J. D. 2001. Resistant Blister Reaction to Powdery Mildew in Melon PI 313970 and PI 124111. Cucurbit Genet. Coop. Rep. 24:22. Number of accession(s) cited: 732
McCreight, J. D. 2003. Genes for Resistance to Powdery Mildew Races 1 and 2 U.S. in Melon PI 313970. HortScience 38(4):591-594. DOI: 10.21273/HORTSCI.38.4.591. Number of accession(s) cited: 1
McCreight, J., J. Staub, A. Lopez-Sese, & Sang-Min Chung. 2004. Isozyme Variation in Indian and Chinese Melon (Cucumis melo L.) Germplasm Collections. J. Amer. Soc. Hort. Sci. 129(6):811-818. DOI: 10.21273/JASHS.129.6.0811. Number of accession(s) cited: 143
McCreight, J., M. Coffey, B. Sedlakova, & A. Lebeda. 2012. Cucurbit powdery mildew of melon incited by Podosphaera xanthii: Global and western U.S. perspectives . In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 181-189. Note: Oral Presentations Number of accession(s) cited: 8
McCreight, J., M. Pitrat, C. Thomas, A. Kishaba, & G. W. Bohn. 1987. Powdery Mildew Resistance Genes in Muskmelon. J. Amer. Soc. Hort. Sci. 112(1):156-160. DOI: 10.21273/JASHS.112.1.156. Number of accession(s) cited: 5
McCreight, J. 2006. Melon-Powdery Mildew Interactions Reveal Variation in Melon Cultigens and Podosphaera xanthii Races 1 and 2. . J. Amer. Soc. Hort. Sci. 31(1):59-65. DOI: 10.21273/JASHS.131.1.59. Number of accession(s) cited: 7
Meglic, V. & J. E. Staub. 1996. Inheritance and linkage relationships of isozyme and morphological loci in cucumber (Cucumis sativus L.). Theor. Appl. Genet. 92:865-872. DOI: 10.1007/BF00221899. Number of accession(s) cited: 21
Meglic, V., & J. Staub. 1996. Inheritance and linkage relationships of isozyme and morphological loci in cucumber (Cucumis sativus L.). Theor. Appl. Genet. 92:865-872. DOI: 10.1007/BF00221899. Number of accession(s) cited: 20
Meglic, V., F. Serquen, & J. Staub. 1996. Genetic diversity in cucumber (Cucumis sativus L.): I. A reevaluation of the U.S. germplasm collection. Genet. Resources Crop Evol. 43:533-546. DOI: 10.1007/BF00138830. Number of accession(s) cited: 18
Monforte, A., A. Diaz, A. Cano-Delgado, & E. van der Knaap. 2014. The genetic basis of fruit morphology in horticultural crops: lessons from tomato and melon. J. Exp. Bot. 65(16):4625-4637. DOI: 10.1093/jxb/eru017. Number of accession(s) cited: 1
Munger, H. M. & R. W. Robinson. 1991. Nomenclature of Cucumis melo L. Cucurbit Genet. Coop. Rep. 14:43-44. Note: Text. Number of accession(s) cited: 2
Munger, H. M., A. Morales, & S. Omara. 1979. Dominant Genes for Resistance to Powdery Mildew in Cucumber. Cucurbit Genet. Coop. Rep. 2:10. Number of accession(s) cited: 1
Munger, H. M. 1991. Progress in Breeding Melons for Watermelon Mosaic Resistance. Cucurbit Genet. Coop. Rep. 14:53-54. Note: Text. Number of accession(s) cited: 4
Netzer, D., S. Niego & E. Galun. 1977. A Dominant Gene Conferring Resistance to Fusarium Wilt in Cucumber. Phytopathology 67:636-527. DOI: 10.1094/Phyto-67-525.. Number of accession(s) cited: 1
Nie, Jingtao, Qi Yuan, Wanlu Shang, & Junsong Pan. 2023. Genetics, resistance mechanism, and breeding of powdery mildew resistance in cucumbers (Cucumis sativus L.). Hort. Pl. J. 9(4):603-615. DOI: 10.1016/j.hpj.2023.05.013. Note: Typographical error in Table 1, page 606, “PI19708” believed to reference PI 197088. Number of accession(s) cited: 3
Ning, Xuefei, Liman Xiong, Xianlei Wang, Xingwang Gao, Ziqiang Zhang, Li Zhong, & Guan Li,. 2014. Genetic diversity among Chinese Hami melon and its relationship with melon germplasm of diverse origins revealed by microsatellite markers. Biochem. Syst. & Ecol. 57:432-438. DOI: 10.1016/j.bse.2014.09.020.. Number of accession(s) cited: 6
Norton, J.D. 1980. Embryo Culture of Cucumis Species. Cucurbit Genet. Coop. Rep. 3:34. Number of accession(s) cited: 2
Nuez, F., J. Esteva, C. Soria & M.L. Gomez-Guillamon. 1991. Search for Sources of Resistance to a Whitefly Transmitted Yellowing Disease in Melon. Cucurbit Genet. Coop. Rep. 14:59-60. Note: Text. Number of accession(s) cited: 1
Nugent, P. & P. Dukes. 1997. Root-knot Nematode Resistance in Cucumis Species. HortScience 32(5):880-881. DOI: 10.21273/HORTSCI.32.5.880. Number of accession(s) cited: 2
Nuttall, V. W. 1965. Amour Cucumber. Canad. J. Pl. Sci. 45(5):514. DOI: 10.4141/cjps65-099. Number of accession(s) cited: 1
Obando, J., J.P. Fernandez-Trujillo, J. A. Martinez, A. L. Alarcon, I. Eduardo, P. Arus, & A. J. Monforte. 2008. Identification of Melon Fruit Quality Quantitative Trait Loci Using Near-isogenic Lines. HortScience 133(1):139-151. DOI: 10.21273/JASHS.133.1.139. Number of accession(s) cited: 1
Park, D. K. S.H. Son, Y.C. Huh, W.M. Lee, H.J. Lee & H.C. Ko. 2012. Germplasm selection on melon with resistance to Fusarium wilt and Monosporascus root rot for melon rootstocks. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 434-440 Note: Poster. Number of accession(s) cited: 1
Perpiñá, G., Cebolla-Cornejo, J., Esteras, C., Monforte, A. J., & Picó, B. . 2017. ‘MAK-10’: A Long Shelf-life Charentais Breeding Line Developed by Introgression of a Genomic Region from Makuwa Melon. HortScience 52(11):1633-1638. DOI: 10.21273/HORTSCI12068-17. Number of accession(s) cited: 1
Peterson, C. E., J. E. Staub, L. Crubaugh, & M. Palmer. 1986. Wisconsin 5207G Cucumber Breeding Population. HortScience 21(2):335-336. DOI: 10.21273/HORTSCI.21.2.335b. Number of accession(s) cited: 4
Peterson, C. E., J. E. Staub, P. H. Williams, & M. J. Palmer. 1986. Wisconsin 1983 Cucumber. HortScience 21(4):1082-1083. DOI: 10.21273/HORTSCI.21.4.1082. Number of accession(s) cited: 3
Peterson, C. E., P. Williams, M. Palmer, & P. Louward. 1982. Wisconsin 2757 Cucumber. HortScience 17(2):268. DOI: 10.21273/HORTSCI.17.2.268. Number of accession(s) cited: 1
Pierce, L. & T. Wehner. 1989. Gene List for Cucumber. Cucurbit Genet. Coop. Rep. 12:91-103 Number of accession(s) cited: 13
Pitrat, M, & D. Besombes. 2008. Inheritance of Podosphaera xanthii resistance in melon line '90625'. In: Pitrat, M., ed., Proceedings of the IXth EUCARPIA meeting on genetics and breeding of Cucurbitaceae, INRA, Avignon, France, 21-24 May, 2008 135-142. Note: INRA, Paris. Number of accession(s) cited: 3
Pitrat, M. . 1978. Tolerance of Melon to Watermelon Mosaic Virus II. Cucurbit Genet. Coop. Rep. 1:20. Note: Table 1 Number of accession(s) cited: 1
Pitrat, M., & H. Lecoq. 1983. Two Alleles for Watermelon Mosaic Virus 1 Resistance in Melon. Cucurbit Genet. Coop. Rep. 6:52-53. Number of accession(s) cited: 2
Pitrat, M., & R. D. de Vaulx. 1979. Disease Resistances in Some Wild Cucumis Species. Cucurbit Genet. Coop. Rep. 2:44-45. Note: Table 1. Number of accession(s) cited: 9
Pitrat, M., C. Wipf-Scheibel, D. Besombes, C. Desbiez, & H. Lecoq. 2012. Resistance of melon to Cucumber Vein Yellowing Virus (CVYV). In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 157-164. Note: Oral Presentations Number of accession(s) cited: 1
Pitrat, M., H. Lecoq, & G. Risser. 1982. Vat and Fn, Two Linked Genes in Muskmelon. Cucurbit Genet. Coop. Rep. 5:29-30. Number of accession(s) cited: 2
Pitrat, M., P. Hanelt & K. Hammer. 2000. Some Comments on Infraspecific Classification of Cultivars of Melon. Acta Hort. 510:29-36 DOI: 10.17660/ActaHortic.2000.510.4. Number of accession(s) cited: 1
Pitrat, M. 2008. Melon. In: Prohens, J. & F. Nuez, eds., Handbook of Plant Breeding. Vegetables I 1:283-315. Number of accession(s) cited: 15
Pitrat, M. 2012. Domestication and diversification of melon. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 31-40. Note: Oral Presentations Number of accession(s) cited: 4
Provvidenti, R. & D. Gonsalves. 1982. Resistance to papaya ringspont virus in Cucumis metuliferus and its relationship to resistance to watermelon mosaic virus 1. J. Heredity 73:239-240. DOI: 10.1093/oxfordjournals.jhered.a109628. Number of accession(s) cited: 1
Provvidenti, R. & W. Robinson. 1974. Resistance to Squash Mosaic Virus and Watermelon Mosaic Virus 1 in Cucumis metuliferus. Pl. Dis. Reporter 58(8):735-738. Number of accession(s) cited: 2
Pulliam, T. L., R. L. Lower & E. V. Wann. 1979. Investigations of the Effects of Plant Type and Morphology of the Cucumber on Infestation by the Pickleworm, (Diaphania nitidalis Stoll). Cucurbit Genet. Coop. Rep. 2:16-17. Number of accession(s) cited: 2
Qi, J., X. Liu, D. Shen, et al. 2013. A genomic variation map provides insights into the genetic basis of cucumber domestication and diversity. Nat. Genet. 45:1510-1515. DOI: 10.1038/ng.2801. Number of accession(s) cited: 1
Ramamurthy, R. K. & B. M. Waters. 2015. Identification of fruit quality and morphology QTLs in melon (Cucumis melo) using a population derived from flexuosus and cantalupensis botanical groups. Euphytica 204:163. DOI: 10.1007/s10681-015-1361-z. Note: Netherlands journal of plant breeding Number of accession(s) cited: 1
Ramamurthy, R. K. & B. Waters. 2015. Identification of fruit quality and morphology QTLs in melon (Cucumis melo) using a population derived from flexuosus and cantalupensis botanical groups. Euphytica 204:163-177. DOI: 10.1007/s10681-015-1361-z. Note: Netherlands journal of plant breeding Number of accession(s) cited: 1
Robinson, R. W. 2010. Origin and Characterization of the 'Lemon' Cucumber. Cucurbit Genet. Coop. Rep. 33-34:3-4. Note: Accession not specifically cited in article. Number of accession(s) cited: 8
Robinson, R.W., A. Jaworski, P.M. Gorski, & S. Shannon. 1988. Interaction of Cucurbitacin Genes. Cucurbit Genet. Coop. Rep. 11:23-24. Note: Text & Table 1. Number of accession(s) cited: 1
Ruiz, L., C. Lopez, B. Pico, & D. Janssen. 2021. Resistance to Cucumber Green Mottle Mosaic Virus in Cucumis melo. In: USDA, NRCS, United States Department of Agriculture, Natural Resources Conservation Service's PLANTS database (on-line resource). 10(6):1077. DOI: 10.3390/plants10061077. Number of accession(s) cited: 21
Saladié, M., J. Cañizares, M. A. Philips, M. Rodriguez-Concepcion, C. Larrigaudière, Y. Gibon, M. Stitt, J. E. Lunn, & J. Garcia-Mas. 2015. Comparative transcriptional profiling analysis of developing melon (Cucumis melo L.) fruit from climacteric and non-climacteric varieties. B. M. C. Genomics 16:art. 440. DOI: 10.1186/s12864-015-1649-3. Note: Saladie et al. MBC Genomics (2015) 16:440. Number of accession(s) cited: 1
Sandlin, C., K. Webb, P. Himmel & K. Clark. 2024. Collaboration for Plant Pathogen Strain Identification: Guidelines for the Identification of Fusarium oxisporum f. sp. melonis using Differntial Melon Lines. White paper. Number of accession(s) cited: 4
Santos, L., W. Candido, H. Rabelo, M. Marin, L. Gaion, F. Gomes, M. Camargo, & L. Braz. 2017. Reaction of melon genotypes to Didymella bryoniae (Fuckel) Rehm. Chilean J. Agric. Res. 77(1):71-77. DOI: 10.4067/S0718-58392017000100009. Number of accession(s) cited: 19
Sarria, E.¸ T. Will, M. Gómez-Guillamón, & A.J.E. van Bel. 2012. Pilot study of the interaction of watery saliva proteins of Aphis gossypii Glover with the soluble protein fraction of Cucumis melo L. leaves. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 212-221 Note: Oral Presentations Number of accession(s) cited: 1
Schuman, D. A., J. E. Staub, & B. E. Struckmeyer. 1985. Morphological and Anatomical Comparisons between Two Cucumis sativus, Botanical Varieties: hardwickii and sativus. . Cucurbit Genet. Coop. Rep. 8:15-18. Note: Report & Table Number of accession(s) cited: 3
Sedla, M., A. Lebeda, P. Miksikova, M. Duchoslav, B. Sedlakova & J. McCreight. 2009. Histological aspects of Cucumis melo PI 313970 resistance to Podosphaera xanthii and Golovinomyces cichoracearum. J. Pl. Dis. Prot. 116:169-176. DOI: 10.1007/BF03356306. Number of accession(s) cited: 1
Shanmugasundaram, S., P. H. Williams, & C. E. Peterson. 1971. Inheritance of Resistance to Powdery Mildew in Cucumber. Phytopathology 61:1218-1221. DOI: 10.1094/Phyto-61-1218. Number of accession(s) cited: 4
Shifriss, O. & W. L. George. 1965. Delayed Germination and Flowering in Cucumbers. Nature 206:424-425. Note: PI 212896 referenced as "Baroda" in publication. Baroda, Bombay State is the location of the market where germplasm was collected in 1953 as Col No. 13389. Number of accession(s) cited: 1
Siguenza, C., M. Schochow, T. Turini, & A. Ploeg. 2005. Use of Cucumis metuliferus as a Rootstock for Melon to Manage Meloidogyne incognita. J. Nematol. 37(3):276-280. Number of accession(s) cited: 1
Sloane, J. T., T. C. Wehner, & S. F. Jenkins, Jr. 1983. Screening Cucumber for Resistance to Belly Rot Caused by Rhizoctonia solani. Cucurbit Genet. Coop. Rep. 6:29-31. Note: Table 1. Number of accession(s) cited: 14
Sloane, J.T., T.C. Wehner & S.F. Jenkins, Jr. 1984. Evaluation of Screening Methods and Sources of Resistance for Rhizoctonia Fruit Rot in Cucumber. Cucurbit Genet. Coop. Rep. 7:23-24. Note: Report & Table 1. Number of accession(s) cited: 9
Soria, C. & M.L. Gomez-Guillamon. 1994. Resistance of Cucumis melo var. agrestis against Melon-Yellowing Disease. Cucurbit Genet. Coop. Rep. 17:74-75. Note: Text & Table 1. Number of accession(s) cited: 1
Soria, C., A.I.L. Sese, & M.L. Gomez-Guillamon. 1994. Resistance of Cucumis melo var. agrestis to Trialeurodes vaporariorum. Cucurbit Genet. Coop. Rep. 17:86-87. Note: Text, Table 1 & Table 2. Number of accession(s) cited: 1
Staub, J. & I. Delannay. 2011. USDA, ARS Beit Alpha Cucumber Inbred Backcross Line Population. 46(11):1556-1559 DOI: 10.21273/HORTSCI.46.11.1556. Number of accession(s) cited: 2
Staub, J. & I. Delannay. 2011. USDA, ARS European Long Greenhouse Cucumber Inbred Backcross Line Population. HortScience 46(9):1317-1320. DOI: 10.21273/HORTSCI.46.9.1317. Number of accession(s) cited: 1
Staub, J. & L. Frederick. 1985. Electrophoretic Variation Among Wild Species in the Genus Cucumis. Cucurbit Genet. Coop. Rep. 8:22-25. Note: Table 1 Number of accession(s) cited: 29
Staub, J. E. & A. Krasowska. 1990. Screening of the U.S. Cucumber Germplasm Collection for Heat Stress Tolerance. Cucurbit Genet. Coop. Rep. 13:4-7. Note: Table 1. Number of accession(s) cited: 53
Staub, J. E. & B.E. Struckmeyer. 1993. Leaf Structure and Photosynthetic Relationships in Cucumis sativus var. sativus and Cucumis sativus var. hardwickii. Cucurbit Genet. Coop. Rep. 16:10-13. Note: Text & Table 1. Number of accession(s) cited: 5
Staub, J. E. & R. S. Kupper. 1985. Use of Cucumis sativus var. hardwickii Germplasm in Backcrosses with Cucimis sativus var. sativus. HortScience 20(3):436-438. Note: PI 183967 incorrectly referenced in text and tables as PI183767 (Zea mays). Number of accession(s) cited: 2
Staub, J. E., J. D. McCreight, & J. E. Zalapa. 2011. USDA 846-1 fractal melon and derived recombinant inbred lines. HortScience 46:1423-1425. DOI: 10.21273/HORTSCI.46.10.1423. Number of accession(s) cited: 1
Staub, J. E., R. Kane, & R. S. Kupper. 1986. Discrimination Among Seven Cucumis hardwickii (R) Alef. Accessions Based on Principal Component Analysis. Cucurbit Genet. Coop. Rep. 9:27-32. Note: Text & Table 1. Number of accession(s) cited: 6
Staub, J. E., V. S. Gordon, P. Simon, & T. C. Wehner. 2015. Chilling-tolerant U.S.-processing Cucumber (Cucumis sativus L.): Three Advanced Backcross and Ten Inbred Backcross Lines. HortScience 50(8):1252-1254. Note: Cucumis sativus line NCSU M 29 was developed from the cross of PI 222783 ('Khiar Sabz') X PI 222985 ('Khiar'). Number of accession(s) cited: 3
Staub, J. E. 1986. Malate Dehydrogenase Variation in African Cucumis species: A Testable Genetic Hypothesis. Cucurbit Genet. Coop. Rep. 9:18-23. Note: Table. Reported as C. africanus. Correct accession C. ficifolius Number of accession(s) cited: 35
Staub, J., F. Dane, K. Reitsma, G. Fazio, & A. Lopez-Sese. 2002. The Formation of Test Arrays and a Core Collection in Cucumber Using Phenotypic and Moleular Marker Data. J. Amer. Soc. Hort. Sci. 127(4):558-567 DOI: 10.21273/JASHS.127.4.558. Note: Table 3: Target leaf spot Number of accession(s) cited: 85
Staub, J., F. Serquen, T. Horejsi, & Jin-feng Chen. 1999. Genetic diversity in cucumber (Cucumis sativus L.): IV. An evaluation of Chinese germplasm. Genet. Resources Crop Evol. 46:297-310. DOI: 10.1023/A:1008663225896. Note: Table 1: NCRPIS No.: Ames 22289 assigned permanent PI number: PI 618888 Number of accession(s) cited: 62
Staub, J., J. Box, B. Meglic, T. Horejsi & J. McCreight. 1997. Comparison of isozyme and random amplified polymorphic DNA data for determining intraspecific variation in Cucumis. Genet. Resources Crop Evol. 44:257-269. DOI: 10.1023/A:1008639616331. Note: PI 183967, Heliopsis helianthoides var. scabra in Figure 1 should be PI 183967, Cucumis sativus var. hardwickii as correctly indicated in text and tables of article. Number of accession(s) cited: 8
Staub, J., L. Crubaugh, H. Baumgartner & H. Hopen. 1991. Screening of the Cucumber Germplasm Collection for Tolerance to Clomazone Herbicide. Cucurbit Genet. Coop. Rep. 14:22-24. Note: Text Number of accession(s) cited: 10
Staub, J., M. D. Robbins, & T. C. Wehner. 2008. Cucumber. In: Prohens, J. & F. Nuez, eds., Handbook of Plant Breeding. Vegetables I 1:241-282. Number of accession(s) cited: 13
Staub, J., P. Simon, & H. Cuevas. 2011. USDA, ARS EOM 402-10 High B-Carotene Cucumber. HortScience 46(10):1426-1427. DOI: 10.21273/HORTSCI.46.10.1426. Number of accession(s) cited: 1
Staub, J., S.-M. Chung, & G. Fazio. 2005. Conforminty and genetic relatedness estimation in crop species having a narrow genetic base: the case of cucumber (Cucumis sativus L.). Pl. Breed. (New York) 124:44-53. DOI: 10.1111/j.1439-0523.2004.01061.x. Number of accession(s) cited: 17
Staub, J., V. Meglic & J. McCreight. 1998. Inheritance and Linkage Relationships of Melon (Cucumis melo L.) Isozymes. J. Amer. Soc. Hort. Sci. 123(2):264-272. DOI: 10.21273/JASHS.123.2.264. Note: Table 1 Number of accession(s) cited: 401
Staub, J., V. Meglic, L. Knerr & L. Crubaugh. 1996. Cucumber Germplasm: Isozyme Genetic Stocks W6743, W6744, W67454. 31(7):1243-1245. DOI: 10.21273/HORTSCI.31.7.1243. Note: Table 1. Number of accession(s) cited: 35
Staub, J. 1985. Preliminary Yield Evaluation of Inbred Lines Derived from Cucumis sativusvar. hardwickii (Royle) Kitamura . Cucurbit Genet. Coop. Rep. 8:18-21. Number of accession(s) cited: 2
Staub, J.E. & M.J. Palmer. 1987. Resistance to Downy Mildew [Pseudoperonospora cubensis (Berk. & Curt.) Rostow.] and Scab (Spot Rot) [Cladosporium cucumerinum Ellis & Arthur] in Cucumis spp. Cucurbit Genet. Coop. Rep. 10:21-23. Note: Table 1. Number of accession(s) cited: 49
Staub, J.E. & R.S. Kupper. 1984. Electrophoretic Comparison of Six Species of Cucumis. Cucurbit Genet. Coop. Rep. 7:27-30. Note: Table 1. Number of accession(s) cited: 10
Staub, J.E., & L.R. Frederick. 1988. Evaluation of Fruit Quality in Cucumis sativus var. hardwickii (R.) Alef.-Derived Lines. Cucurbit Genet. Coop. Rep. 11:25-28. Note: Text. Number of accession(s) cited: 2
Staub, J.E., R. Kane & A.M. Braunschweig. 1986. Differences in Net Apparent Photosynthetic Rates and Chlorophyll Content Among and Between Cucumis anguria var. anguria and var. longipes Meeuse. Cucurbit Genet. Coop. Rep. 9:24-26. Note: Text & Table 1. Reported as C. anguria var anguria. Correct accession C. anguria Number of accession(s) cited: 13
Staub, J.E. 1988. Lack of chilling resistance in Cucumis sativus var. hardwickii (R.) Alef. Cucurbit Genet. Coop. Rep. 11:29-32. Note: Text & Table 1 & 2. Number of accession(s) cited: 75
Stepansky, A., I. Kovalski, & R. Perl-Treves. 1999. Intraspecific classification of melons (Cucumis melo L.) in view of their phenotypic and molecular variation. Pl. Syst. Evol. 217:313-332. DOI: 10.1007/BF00984373. Number of accession(s) cited: 26
Swamy, K. R. M & P. Nath. 2020. Culinary Melon of South India. Int. J. Veg. Sci. 47:157-175. DOI: 10.61180/vegsci.2020.v47.i2.01 . Note: Table 2. Number of accession(s) cited: 11
Szczechura, W., M. Staniaszek, U. Klosinska, & E. Kozik. 2015. Molecular Analysis of New Sources of Resistance to Pseudoperonospora cubensis (Berk. et Curt.) Rostovzev in Cucumber. Russian J. Genet. 51(10):974-979 DOI: 10.7868/S0016675815090118. Note: translated from Genetika Number of accession(s) cited: 7
Tamang, P, K. Ando, W. M. Wintermantel & J. D. McCreight. 2021. QTL Mapping of Cucurbit yellow stunting disorder virus Resistance in Melon Accession PI 313970. HortScience 56(4):424-430. DOI: 10.21273/HORTSCI15495-20. Number of accession(s) cited: 1
Tanaka, K., A. Nishitani, Y. Akashi, Y. Sakata, H. Yoshino, & K. Kato. 2007. Molecular characterization of South and East Asian melon, Cucumis melo L., and the origin of Group Conomon var. makuwa and var. conomon revealed by RAPD analysis . Euphytica 153:233-247. DOI: 10.1007/s10681-006-9259-4. Note: Netherlands journal of plant breeding Number of accession(s) cited: 44
Tang, F. A. & Z. K. Punja. 1989. Isolation and Culture of Protoplasts of Cucumis sativus and Cucumis metuliferus and Methods for Their Fusion. Cucurbit Genet. Coop. Rep. 12:29-34. Note: Text. Number of accession(s) cited: 1
Thies, J., J. Ariss, R.Hassell, & A. Levi. 2012. Resistant rootstocks for managing root-knot nematodes (Meloidogyne incognita) in grafted watermelon and melon. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 200-211. Note: Oral Presentations; Table 3. Numbers of Meloidogyne incognita eggs per gram fresh root for grafted ‘Athena’ cantaloupe scion / cucurbit rootstock combinations, grown in a field infested with southern root-knot nematode (M. incognita), Charleston, SC. Number of accession(s) cited: 7
Thomas, C. & E. Jourdain. 1992. Evaluation of Melon Germplasm for Resistance to Downy Mildew. HortScience 27(5):434-436. DOI: 10.21273/HORTSCI.27.5.434. Number of accession(s) cited: 82
Thomas, C.E. 1986. Downy and Powdery Mildew Resistant Muskmelon Breeding Line MR-1. HortScience 21(2):329. Number of accession(s) cited: 1
Uchneat, M. S. & T. C. Wehner. 1993. Observations on Fruit Netting in Cucumber. Cucurbit Genet. Coop. Rep. 16:8-9. Note: Text & Figure 1. Number of accession(s) cited: 2
Van Wann, E. 1992. Evaluation of the U.S. Cucumber Germplasm Collection for Tolerance to Soil Moisture Deficit. Cucurbit Genet. Coop. Rep. 15:1-3. Note: Table 1. Number of accession(s) cited: 20
Walker, J. C. 1965. Disease Resistance in the Vegetable Crops III. Bot. Rev. (Lancaster) 31(3):331-380. Number of accession(s) cited: 5
Walters, S. A., T. C. Wehner & K. R. Barker. 1990. Resistance of Cucumber to the Root-knot Nematode, Meloidogyne hapla. Cucurbit Genet. Coop. Rep. 13:10-11. Note: Table 1. Number of accession(s) cited: 5
Wang, Yuhui, K. VandenLangernberg, Changlong Wen, T. Wehner & Yiqun Weng. 2018. QTL mapping of downy mildew resistance in PI 197088 cucumber with genotyping-by-sequesnce in RIL population. Theor. Appl. Genet. 131:597-611. DOI: 10.1007/s00122-017-3022-1. Number of accession(s) cited: 6
Wang, Yuhui, K. VandenLangernberg, T. Wehner, P.Kraan, J. Suelmann, Xiangyang Zheng, K. Owens & Yiqun Weng. 2016. QTL mapping for downy mildew resistance in cucumber inbred line WI7120 (PI 330628). Theor. Appl. Genet. 129:1493-1505. DOI: 10.1007/s00122-016-2719-x. Number of accession(s) cited: 7
Wechter, W. P., A., Levi, K. Ling, C. Kousik, C. Block. 2011. Identification of Resistance to Acidovorax avenae subsp. citrulli among Melon (Cucumisspp.) Plant Introductions. HortScience 46(2):207-212. DOI: 10.21273/HORTSCI.46.2.207. Number of accession(s) cited: 328
Wehner, T. C,. G. G. Kennedy, & K. D. Elsey. 1983. Resistance of Cucumber to the Pickleworm. Cucurbit Genet. Coop. Rep. 6:35-37. Note: Table 1. Number of accession(s) cited: 2
Wehner, T. C. & R. W. Robinson. 1991. A Brief History of the Development of Cucumber Cultivars in the U.S. Cucurbit Genet. Coop. Rep. 14:1-4. Note: Text Number of accession(s) cited: 1
Wehner, T. C. &J. E. Staub. 1997. 1997 Gene List for Cucumber. Cucurbit Genet. Coop. Rep. 20:66-88 Number of accession(s) cited: 56
Wehner, T. C., M. S. Uchneat & R. R. Horton, Jr. 1992. Screening Cucumber for Resistance to Belly Rot Caused by Rhizoctonia solani. Cucurbit Genet. Coop. Rep. 15:19-21. Note: Text & Table 2. Number of accession(s) cited: 15
Wehner, T. C., N. V. Shetty, & L. G. Wilson. 2000. Screening the Cucumber Germplasm Collection for Fruit Storage Ability. HortScience 35(4):699-707. DOI: 10.21273/HORTSCI.35.6.1141. Number of accession(s) cited: 683
Wehner, T. C., S. A. Walters & K. R. Barker. 1990. Root Knot Nematode Egg Concentrate for Inoculating Cucumis spp. Tests. Cucurbit Genet. Coop. Rep. 13:8-9. Note: Text & Table 1. Number of accession(s) cited: 5
Wehner, T. C. 1990. Cucumber Cultivars and Breeding Lines for the U.S.D.A. Plant Introduction Collection. Cucurbit Genet. Coop. Rep. 13:1-3. Note: Table 1. Number of accession(s) cited: 96
Wehner, T. C. 1998. Two Special Cucumber Populations: NCH1 and NCBA1. HortScience 33(4):766-768. DOI: 10.21273/HORTSCI.33.4.766. Number of accession(s) cited: 1
Weng, Y. & T. C. Wehner. 2017. Cucumber Gene Catalog 2017. Cucurbit Genet. Coop. Rep. 40:17-53 Number of accession(s) cited: 16
Weng, Yiqun. 2021. Cucumis sativus Chromosome Evolution, Domestication, and Genetic Diversity: Implications for Cucumber Breeding. Pl. Breed. Rev. Vol. 44 DOI: 10.1002/9781119717003.ch4. Number of accession(s) cited: 3
Widrlechner, M., J. Kirkbride, Jr, A. Ghebretinsae, & K. Reitsma. 2008. Cucumis zambianus (Cucurbitaceae), a New Species from Northwestern Zambia. Syst. Bot. 33(4):732-738. www.aspt.net/systematic-botany Number of accession(s) cited: 9
Widrlechner, M., K. Reitsma, L. Clark, & J. Kirkbride, Jr. 2009. Length and Rapid Elongation of Pedicels of the Female Flowers of Cucumis anguria L. Cucurbit Genet. Coop. Rep. 31-32:36-40. Number of accession(s) cited: 6
Wintermantel, W. M., R. L. Gilbertson, E. T. Natwick, & J. D. McCreight. 2017. Emergence and epidemiology of cucurbit yellow stunting disorder virus in the American desert southwest, and development of host plant resistance in melon. Virus Res. 241:213-219. DOI: 10.1016/j.virusres.2017.06.004. Note: Virus Res. 2017 Sep 15;241:213-219. Epub 2017 Jun 19. Number of accession(s) cited: 3
Xie, Juahua & T. C. Wehner. 2001. Gene List 2001 for Cucumber. Cucurbit Genet. Coop. Rep. 24:110-136 Number of accession(s) cited: 57
Yagi, K., M. Pawelkowica, P. Osipowski, E. Siedlecka, Z. Przybecki, N. Tagashira, Y. Hoshi, S. Malepszy, & W. Plader. 2015. Molecular cytogenetic analysis of Cucumis wild species distributed in Southern Africa: physical mapping of 5S and 45S rDNA with DAPI. Cytogenet. Genome Res. 146:80-87. DOI: 10.1159/000433572. Number of accession(s) cited: 10
Yalcin Mendi, Y., T. Izgu, Y. Aka Kacar, I. Solmaz, O. Simsek, & N. Sari. 2012. Genetic transformation in melon. In: Sari, N. et al., eds., Proceedings of the Xth Eucarpia meeting on genetics and breeding of Cucubitaceae, Antalya, Turkey, 15-18 October 2012 528-534. Note: Poster. Table 1. Transformation researches in melon. Number of accession(s) cited: 1
Zhang, Hong, Zeujun Zhang, Neihua Li, Yong Yang, Zhiqiang Li, Yuhui Xu, Haojie Wang, Dengming Wang, Yongbing Zhang, Huaisong Wang, Qiushi Fu, Hing Zheng, & Hongping Yi. 2022. Molecular mapping for fruit-related traits, and joint identification of candidate genes and selective sweeps for seed size in melon. Genomics 114(2):110306. DOI: 10.1016/j.ygeno.2022.110306. Note: Genomics Vol 114, Issue 2, March 2022, 110306 Number of accession(s) cited: 1
Zuniga, T., J. Jantz, T. Zitter, & M. Jahn. 1999. Monogenic Dominant Resistance to Gummy Stem Blight in Two Melon (Cucumis melo) Accessions. Pl. Dis. 83(12):1105-1107. DOI: 10.1094/PDIS.1999.83.12.1105. Number of accession(s) cited: 3
1958. Phytopathology 45:458. Note: Phytopathology 45:458 (1958) Number of accession(s) cited: 1

IPR Citations

No citation information found.

Pedigree Citations

Ibrahim, A. M. & K. A. Al-Zeir. 1992. 'Najd I' and 'Najd II', Two Sour-sweet Melon Cultivars. HortScience 27(3):276-277. Number of accession(s) cited: 2
1958. Phytopathology 45:458. Note: Phytopathology 45:458 (1958) Number of accession(s) cited: 1

Accession

IPR

Pedigree