Heterosis in watermelon for earliness, growth, fruit yield and quality parameters

Downloads

Published

2025-09-30

DOI:

https://doi.org/10.58993/ijh/2025.82.3.5

Keywords:

Lycopene, hybrid vigour, internode length, seed number, total soluble solids
Dimensions Badge

Issue

Vol. 82 No. 03 (2025): Indian Journal of Horticulture

Section

Research Articles

License

Copyright (c) 2025 NAVEEN GARG, kamalpreet singh, monika mahajan

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Authors

  • Naveen Garg Regional Research Station, Punjab Agricultural University, Bathinda 151001, Punjab, India
  • Kamalpreet Singh Regional Research Station, Punjab Agricultural University, Bathinda 151001, Punjab, India
  • Monika Mahajan Regional Research Station, Punjab Agricultural University, Bathinda 151001, Punjab, India

Abstract

Hybrids in watermelon are popular due to earliness, high yield, improved quality, disease resistance and transport ability. Small and marginal farmers demand seed of promising public sector hybrids to reduce the expenditure on seed. Therefore, forty F1 hybrids developed by crossing eight lines and four testers were evaluated in Punjab state for 16 traits. Significant mid-parent heterosis (MPH) in desirable direction was recorded for all traits except titratable acidity. Significant standard heterosis (SH) over ‘Jannat’ in desirable direction was recorded for all traits except node number of first female flower, seed number per fruit, titratable acidity and lycopene. The highest SH was observed for ascorbic acid (47.5%) followed by fruit number (34.3%) and 100-seed weight (-33.3%). The maximum MPH was noted for dry matter (49.1%), succeeded by seed number (-37.5%), 100-seed weight (-35.8%), vine length (-35.3%), fruit number (33.6%), and marketable yield (31.3%). The number of hybrids exhibiting significant and desirable SH was highest for ascorbic acid (20), followed by vine length (16), 100-seed weight (15), internode length (10) and fruit number (8). The number of hybrids manifesting significant and desirable MPH was maximum for vine length (24) followed by node number of first female flower (12), internode length (10), seed number per fruit (8), total soluble solids (8) and dry matter (8). Three promising hybrids (PWM-1 × PWM-3, PWM-14 × PWM-3, and PWM-30 × PWM-63-32) exhibiting heterosis for multiple traits are recommended for multi-location testing across the state to identify superior hybrid for a particular zone or stable across diverse zones.

How to Cite

Garg, N., Singh, K., & Mahajan, M. (2025). Heterosis in watermelon for earliness, growth, fruit yield and quality parameters. Indian Journal of Horticulture, 82(03), 283–290. https://doi.org/10.58993/ijh/2025.82.3.5

Downloads

Download data is not yet available.

References

REFRENCES

1. Ahmed, M.E.M., YTE, L. and NES, E. 2012. Heterosis and combining ability for yield and some fruit traits in watermelon [Citrullus lanatus (Thunb.) Mansf.]. In: Minia International Conference for Agriculture and Irrigation, 26th - 29th March at Minia, Egypt.

2. Anonymous 2024. Statistic and Market Info: Area Production Statistics. National Horticulture Board, Ministry of Agriculture and Farmers’ Welfare, Government of India. www.nhb.gov.in. Accessed 4th December, 2024.

3. Anonymous 2025. Food and Agriculture data – Food and Agriculture Organization of the United Nations. https://www.fao.org/faostat. Accessed 3rd January, 2025.

4. Choudhary, H., Padmanabha, K., Jat, G.S. and Behera, T.K. 2023. Challenges of traditional breeding in watermelon. In: The Watermelon Genome, Cham: Springer International Publishing, pp. 85-130. https://doi.org/10.1007/978-3-031-34716-0_7

5. Nascimento, T.L.D., Souza, F.D.F., Dias, R.D.C.S. and Silva, E.F.D. 2018. Agronomic characterization and heterosis in watermelon genotypes. Pesq. Agropec. Trop. Goiânia. 48: 170-77.

6. Ndukauba, J., Nwofia, G.E. and Ene-Obong, E.E. 2019. Combining ability and heterosis in egusi-melon [Citrullus lanatus (Thunb.) Matsum. and Nakai.]. Ceylon J. Sci. 48: 367-74.

7. Nyurura, T. and Maphosa, M. 2022. Genetic analysis of yield related traits in landrace × commercial watermelon hybrids. J. Sci. Agric. 6:20-24.

8. Patel, M.K., Prajapati, N.N. and Patel, B.C.A. 2020. Heterosis analysis for seed yield and quality traits in karingada [Citrullus lanatus (Thunb.) Mansf.]. J. Pharm. Innov. 9: 186-94.

9. Rajendran, P.C. and Thamburaj, S. 1993. Heterosis in watermelon [Citrullus lanatus (Thunb.) Mansf.]. Madras Agric. J. 80: 40-46.

10. Setlhoka, M.D., Kumari., A., Kumar, R. and Gehlot, R., 2024. Development and evaluation of probiotic jam from watermelon rind with microencapsulated Lactobacillus rhamnosus and Lactobacillus casei. Indian J. Hortic. 81:315-22.

11. Singh, A., Singh, D., Jindal, S.K. and Singh, R. 2022. Heterotic potential in elite lines of watermelon [Citrullus lanatus (Thunb.) Matsum. & Nakai]. Agric. Res. J. 59: 683-89.

12. Singh, G., Singh, R. and Singh, D. 2020. Heterosis in watermelon for yield and quality traits [Citrullus lanatus (Thunb.) Matsum. & Nakai]. Veg. Sci. 47: 7-15.

13. Souza, F.D.F., de Queiroz, M.A. and Dias, R.D. 2005. Heterotic effects in triploid watermelon hybrids. Crop Breed. Appl. Biotechnol. 5: 55-67.

14. Srinivasulu, B., Padma, S.S.V., Naidu, L.N., Rao, M.P., Kumar, C.K. and Sekhar, V. 2024. Exploitation of heterosis in bitter gourd for horticultural traits. Indian J. Hortic. 81: 54-60.

15. Wehner, T.C. 2019. Advances in breeding of cucumber and watermelon. In: G. Hochmuth (ed.) Achieving Sustainable Cultivation of Vegetables,

Burleigh Dodds Science Publishing, Cambridge, United Kingdom. http://dx.doi.org/10.19103/AS.2019.0045.30

16. Yanagisawa, N. and Hosono, M. 1951. The development of the Shinasahi watermelon. Jpn. J. Breed. 1: 66-70.

Similar Articles

<< < 101 102 103 104 105 106 107 108 109 110 > >> 

You may also start an advanced similarity search for this article.