**Author details**

Gograj Singh Jat\*, Tusar Kanti Behera, Suman Lata and Sachin Kumar Division of Vegetable Science, ICAR-Indian Agricultural Research Institute, Pusa Campus, New Delhi, India

\*Address all correspondence to: singhgograj@gmail.com

© 2021 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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*Classical Genetics and Traditional Breeding in Cucumber (*Cucumis sativus *L.)*

167-176.2011; doi:10.1007/ s10681-011-0410-5

[9] Weng Y, Colle M, Wang YH, Yang LM, Rubinstein M, Sherman A, Ophir R, Grumet R. QTL mapping in multiple populations and development stages reveals dynamic quantitative trait loci for fruit size in cucumbers of different market classes. Theoretical and Applied Genetics 128, 1747-1763; 2015

[10] Staub JE, Chung S-M, Fazio G. Conformity and genetic relatedness estimation in crop species having a narrow genetic base: The case of cucumber (Cucumis sativus L.). Plant Breeding, 124, 44-53; 2005. doi:10.1111/

[11] Weng Y. Public sector cucumber research priority survey, Cucurbit Genetics Cooperative Report Issues

[12] Behera TK, Staub JE, Behera S, Delannay IY, Chen JF. Marker-assisted backcross selection in an interspecific Cucumis population broadens the genetic base of cucumber (*Cucumis sativus* L.). Euphytica. 2011; 178, 261-272. doi:10.1007/s10681-010-0315-8

[13] Farag MI, Behera TK, Munshi AD, Bharadwaj C, Jat GS, Khanna M,

Chinnusamy V. Physiological analysis of

[14] Munshi AD, Tomar BS, Jat GS and Singh J (2017). Quality seed production of open pollinated varieties and F 1 hybrids in cucurbitaceous vegetables. In: Compendium-ICAR Sponsored Ten days short course on "Advances in variety maintenance and quality seed production for entrepreneurship" February 14-23 2017, pp 107-125.

drought tolerance of cucumber (Cucumis sativus L.) genotypes under three soil moisture-deficit regimes in field conditions. Indian Journal of Agricultural Sciences 89 (9): 1445-

pbr.2005.124.issue-1

31-32:1-4; 2010.

1450. 2019

*DOI: http://dx.doi.org/10.5772/intechopen.97593*

[1] Weng Y, Sun ZY. Major cucurbits (Chapter 1). In Y. H. Wang, T. K. Behera, & C. Kole (Ed.), Genetics, genomics and breeding of cucurbits (pp. 1-16).

New York: CRC Press. 2012.

**References**

[2] Weng Y. Molecular Breeding Research in USDA-ARS Cucumber Improvement Program–Past, present

and future. Journal of Tianjin

895-906; 2012.

Nature Healing 2019

Research. 7(11); 2020.

Agricultural Science. 25(6) 6-18; 2019.

[3] Yang L, Koo DH, Li YH, Zhang XJ, Luan FS, Havey MJ, Jiang JM, Weng Y. Chromosome rearrangements during domestication of cucumber as revealed by high-density genetic mapping and draft genome assembly. Plant Journal 71:

[4] Arakelyan H. Cucumber (*Cucumis sativus*)-1 Healthy Vegetables.–Mother

[5] Akhtar P, Ahmad I, Jameela A, Ashfaque M, Begum Z. Energizing Effectiveness of Cucumber (Khayarain) For Health. A Review Article. Journal of Emerging Technologies and Innovative

[6] Dijkhuizen A, Kennard WC, Havey MJ, Staub JE. RFLP variability and genetic relationships in cultivated cucumber. Euphytica 90: 79-89; 1996.

*Agricultural Sciences* 90 (11):

2161-7; 2020.

[7] Kumar R, Munshi AD, Behera TK, Jat GS, Choudhary H, Singh M, Talukdar A. Genetic diversity of cucumber (*Cucumis sativus*) accessions differing in quantitative traits and microsatellite markers *Indian Journal of* 

[8] Miao H, Zhang S, Wang X, Zhang Z, Li M, Mu S., … Gu X. A linkage map of cultivated cucumber (Cucumis sativus L.) with 248 microsatellite marker loci and seven genes for horticulturally important traits. Euphytica, 182,

*Classical Genetics and Traditional Breeding in Cucumber (*Cucumis sativus *L.) DOI: http://dx.doi.org/10.5772/intechopen.97593*
