Evaluation of different methods of defoliation in lasora (Cordia myxa L.) under semi-arid conditions of western India

Comparative Response of Defoliation Methods in Lasora Under Semi-Arid Conditions

Downloads

Published

2026-03-31

DOI:

https://doi.org/10.58993/ijh/2026.83.1.9

Keywords:

Indian cherry, dormancy breaking, defoliation agents, semi-arid, fresh quality
Dimensions Badge

Issue

Vol. 83 No. 01 (2026): Indian Journal of Horticulture

Section

Research Articles

License

Copyright (c) 2026 Dheeraj Singh, Chandan Kumar, Rahul Dev

Creative Commons License

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

Authors

  • Dheeraj Singh ICAR-CAZRI, Jodhpur (Rajasthan) 342003, India
  • Chandan Kumar ICAR-CAZRI, KVK, Pali-Marwar (Rajasthan) - 306 401 India
  • Rahul Dev ICAR-NBPGR, Regional Station, Bhowali (Uttarakhand) – 263 132 India

Abstract

Lasora commonly known as Indian cherry, is a potential yet underutilized fruit tree of arid and semi-arid climates and shows strong potential for commercial use in the vegetable and pickle industry. The present study aimed at obtaining a high yield and good quality fruits of lasora by using defoliation agents. Defoliation in the months of December to January is required for early fruiting, fetching good market price as well as maximum production of lasora. The defoliation practices and dormancybreaking chemicals influence phenology, yield and fruit quality in lasora. Manual defoliation served as an effective method to trigger defoliation. Chemical combinations, particularly thiourea (TU), ethephon and diammonium phosphate (DAP), also induced substantial leaf abscission through enhanced ethylene action, while 2,4-D was less effective. These same treatments accelerated sprouting and flower initiation compared with untreated control plants; TU’s dormancybreaking effect likely stems from increased cellular starch and altered protein composition, thereby raising the C:N ratio. In contrast, 2,4-D delayed bud break and flowering. Early sprouting led to earlier flowering and fruit maturation, conferring commercial advantages by allowing earlier market availability. Maturity occurred around 55–57 days after defoliation with Thiourea 10 g + ethephon 4 ml + DAP 10 g litr-1 treatment and ethephon (4 ml litr-1) alone, whereas 2,4-D and control treatments required about 64 days. Fruit set improved markedly, reaching nearly 21 % with the chemical combination. Fruit weight rose to approximately 8 g compared with 6.39 g in controls. Yield per plant and per hectare doubled under treatment (T5) Thiourea 10 g + ethephon 4 ml + DAP 10 g litr-1; manual defoliation also significantly increased yield. Fruit quality was enhanced: total soluble solids exceeded 13 %, and the stone:flesh ratio declined to 0.14 or less, indicating a higher pulp content. Although DAP’s specific role is unclear, it may contribute nitrogen that supports growth and yield. Overall, strategic defoliation particularly the combination of manual leaf removal with thiourea and ethephon proved effective for modulating phenology, boosting yield and improving fruit quality in lasora.

How to Cite

Dheeraj Singh, Chandan Kumar, & Rahul Dev. (2026). Evaluation of different methods of defoliation in lasora (Cordia myxa L.) under semi-arid conditions of western India: Comparative Response of Defoliation Methods in Lasora Under Semi-Arid Conditions. Indian Journal of Horticulture, 83(01), 62–70. https://doi.org/10.58993/ijh/2026.83.1.9

Downloads

Download data is not yet available.

References

1. Ahamad, S., Asrey, R., Menaka, M., Vinod, B. R., Kumar, D. and Balubhai, T. P. 2025. 24-Epibrassinolide treatment boosts bioactive compound preservation, delays softening and extends shelf life of cherry tomatoes during storage. Food Chem., 145051.

2. Ahamad, S., Asrey, R., Vinod, B. R., Meena, N. K., Menaka, M., Prajapati, U. and Saurabh, V. 2024. Maintaining postharvest quality and enhancing shelf-life of bell pepper (Capsicum annuum L.) using brassinosteroids: A novel approach. S. Afr. J. Bot., 169: 402-412.

3. Brahmachari, V.S., Mandal, A.K., Kumar, R. and Ray, R. 1995. Effect of growth substances on fruit-set and physiochemical characteristics of Sarder guava (Psidium guajava L.). Recent Horti. 2: 127-131.

4. Brar, J.S. and Bal, J.S. 2010. Role of paclobutrazol and ethephon in reproductive growth of ‘Allahabad Safeda’ guava (Psidium guajava L.) plants at different spacing. J. Horti. Sci. 5: 128-133.

5. Dev, R., Suresh K.M., Kumar, S., Venkatesan, K., Singh, T., Tetarwal, A.S., Patidar, A., Devi, D. and Meghwal, P. 2020. Collection, characterization, conservation and utilization of Cordia sinensis Lam.: An underexploited multipurpose fruit species of hot arid regions. Indian J. Plant Genetic Res. 8: 427–436.

6. Jana, B.R. and Das, B. 2014. Effect of dormancy breaking chemicals and irrigation on Asian pear (Pyrus pyrifolia L.). African J. Agri. Res. 9: 56-60.

7. Kumar, A. and Nath, V. 2017. Effect of foliar spray of chemicals on flowering and fruiting in litchi. Int. J. Cur. Micro. & Applied Sci. 6: 1337-1343.

8. Kumar, C. and Singh, D. 2025. Musk melon cultivation on reservoir basin: A climate smart and profitable farmer practice in arid zone of Rajasthan. Indian J. Ecology 52: 975-979.

9. Meghwal, P.R., Singh, A., Kumar, P. and Morwal, B.R. 2014. Diversity, distribution and horticultural potential of Cordia myxa L.: a promising underutilized fruit species of arid and semi-arid regions of India. Genetic Res. and Crop Evo. 61: 1633–1643.

10. Mishra, S., Choudhary, M.R., Yadav, B.L. and Singh, S.P. 2011. Studies on the response of integrated nutrient management on growth and yield of Ber. Indian J. Horti. 68: 318-321.

11. Oudhia, P. 2007. Cordia myxa L. [Internet] Record from PROTA4U. Schmelzer, G.H. & Gurib-Fakim, A. (Editors). PROTA (Plant Resources of Tropical Africa/Resources Végétales de l’Afrique tropicale), Wageningen, Netherlands www.prota.org.

12. Rathod, M.J., Ramdevputra, M.V., Nurbhanej, K.H. and Patel, M.S. 2017. Effect of ethrel and banana pseudostem sap on fruit yield and yield attributes of pomegranate (Punica granatum L.) Bhagwa. Int. J. Chemistry Stu. 5: 392-396.

13. Rehman, F., Seung, K.L. and Joung, H. 2002. Effects of various chemicals on carbohydrate content in potato micro tubers after dormancy breaking. J. Plant Sci. 1: 224-225.

14. Sharma, S.K., Singh, R.S. and Bhargava, R. 2013. Arid horticulture: An overview. Annals of Arid Zone 52: 251-264.

15. Sheikh, M.K. 2014. Effect of chemicals and insecticides on defoliation in pomegranate (Punica granatum L.). Asian J. Horti. 9: 265-266.

16. Singh, D., Kumar, C., Choudhary, M. K. and Mahla, H. R. 2018. Indian arid zone miracle plants for food and livelihood security. Int. J. Minor Fruits, Medicinal and Aromatic Plants 4: 01-12.

17. Singh, G. and Reddy, Y.T.N. 1997. Regulation of Cropping in guava. Indian J. Horti. 54: 44-49.

18. Singh, R. and Dwivedi, U.N. 2008. Effect of ethrel and 1-methyl cyclopropane (1-MCP) on antioxidants in mango during ripening. Food Chem. 111: 951-956.

19. Supe, V.S., Joshi, V.R, Patil, S.D. and Attar, A.V. 2015. Effect of different chemicals on leaf shedding of pomegranate ‘Bhagwa’. Acta Horti. 437-442.

20. Van, D. and Wouter, G. 2001. Effect of ethylene on flower abscission: a Survey. Annals of Bot. 89: 689-693.

21. Vidhya, D., Sivakumar, V. and Balakumbahan, R. 2021. LASORA -Fruit for arid and semiarid landforms. Vigyan Varta 2: 63-67.

22. Vinay, G.M. and Chithiraichelvan, R. 2015. Induction of off-season flowering in custard apple (Annona squamosa L.) cv. Balanagar. J. Horti. Sci. 10: 13-17.

23. Waqas, M.A., Kaya, C., Riaz, A., Farooq, M., Nawaz, I., Wilkes, A. and Li, Y. 2019. Potential mechanisms of abiotic stress tolerance in crop plants induced by thiourea. Frontiers in Plant Sci. 29: 1336.

24. Wu, L., Dong, J., Zheng, H., Wang, Y., Qiu, D., Atak, A., Zhang, Q. and Zhong, C. 2025. Effects of plant growth regulator (2,4-D) treatments on fruit development and chemical content in the kiwifruit plant (Actinidia chinensis). BMC Plant Biol. 25: 1073.

Similar Articles

<< < 49 50 51 52 53 54 55 56 57 58 > >> 

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