Abstract
To revive the productivity of unproductive and overcrowded high-density plantation of mango cv ‘Dashehari’ planted at 2.5 × 2.5 m (S1) and 2.5 × 5.0 m (S2), an experiment was carried out at the ICAR-Central Institute for Subtropical Horticulture, Lucknow, UP, India, involving pruning heights—severely pruned (P1) = 1.5 m; moderately pruned (P2) = 2.0 m; lightly pruned (P3) = 2.5 m from ground—and mulching (M1 = organic mulching and M2 = control). Findings showed that canopy volume from 2019 to 2021 was significantly higher in S2 (16.19, 17.45 and 26.84 m3 respectively). The interaction effects were found to be significant, with the maximum canopy volumes (30.56 m3) in S2P3M2, flowering (98%) recorded in the S2P1M2 treatment, while the maximum fruit numbers (68 fruit/tree) were in S2P1M2. Moreover, the fruit yield (18.53 kg/tree) and yield efficiency (1.41 kg fruit/m3 canopy volume) were higher in S2P1M1 over the study years. Maximum ‘A’ grade fruit (84.33%) were recorded in S1P2M2. Findings suggested that in order to revitalise the old high-density planting mango orchard and have higher yields, it is necessary to plant the trees at a spacing of 2.5 × 5.0 m (S2) with regular containment pruning at 2.0 m height. This allows for better light interception in the canopy and also protects the trees from infestation of pest and diseases thus ensuring optimum yield.
Similar content being viewed by others
Availability of data and materials
The data used in this manuscript will be available upon reasonable request.
References
Agriculture Statistic at a Glance, GOI (2022) https://desagri.gov.in/wp-content/uploads/2023/05/Agricultural-Statistics-at-a-Glance-2022.pdf
Balyan K, Kumar S, Chahal VP, Kumar S (2015) Dynamics of Indian fresh mango. Indian J Agric Sci 85:1466–1471
Chaudhari SK, Singh A (2019) NRM interventions for enhanced Mango productivity and quality. Adv Agricul Res Tech J 3:9–29
Crane JH (2008) Mangifera indica. In: Janick J, Paull RE (eds) The encyclopedia of fruit & nuts. CABI, Wallingford, pp 15–20
Das B, Jana BR (2012) Effect of canopy management on growth and yield of mango cv Amrapali planted at close spacing. J Food Agric Environ 10:228–331
Durner EF (2013) Pruning, training, growth and plant size. In: Principles of horticulture physiology. CABI, Nosworthy Way Walling Ford, p 257
Dutta SK, Koijam RSA, Boopathi T, Saha S, Singh SB, Das SK, Yadav A (2019) Mango under high density planting: a case study from North East India. Indian J Hort 76(2):358–363
Evans EA, Mendoza OJ (2009) World mango trade and the economics of mango production. In: Litz RE (ed) The mango, botany. Production and uses. CABI, Cambridge, pp 606–627
Galán SV (2015) Current situation and future prospects of worldwide mango production and market. Acta Hortic 1066:69–84. https://doi.org/10.17660/ActaHortic.2015.1066.7
Gallo E (2015) Recent evolution of the world mango market. Acta Hortic 1075:41–50
Jangam AK, Thali P (2004) WASP-Web Agri Stat Package 2.0. ICAR Research Complex for Goa, Ela, Old Goa, Goa. 403 402. India
Kshirsagar AV, Dalve PD, Jadhav SB, Ranpise SA (2020) Effect of different beheading levels on growth and yield of mango under high density planting Cv. Kesar. Int J Curr Microbiol App Sci 9(12):3637–3643
Lal B, Rajput MS, Rajan S, Rathore DS (2000) Effect of pruning on rejuvenation of old mango trees. Indian J Hort 57(3):240–242
Majumder PK, Sharma DK (1989) A new concept of orchading in mango. Acta Hortic 231:335–338
Majumder PK, Sharma DK, Singh RN (1982) A study on ‘high-density’ orchading in mango (Mangifera indica L.) var. Amrapali. Punjab Hortic J 22:123–127
Menzel CM, Le Lagadec MD (2017) Can the productivity of mango orchards be increased by using help ? Sci Hort 219:222–263
Mitra SK (2016) Mango production in the world—present situation and future prospect. Acta Hortic 1111:287–295
Oosthuyse S (1995) Pruning of mango trees: an update. South Africa Mango Grow Assoc Year 15:1–9
Patil P, Devi SP, Gutam S (2021) Standard operating procedures of ICAR-all India coordinated research project on fruits. Tech. Doc. No. 135. CAR-Indian Institute of Horticultural Research, Bengaluru, pp 5–41
Pratap B, Singh SK, Singh HK, Gaurav SS, Bala S (2009) Effect of pruning on physic-chemical properties of mango cv. Amrapali under high density orcharding. Ann Horti 2(1):62–64
Raj A, Mandal G (2022) Effect of different levels of beheaded heights and foliar spray of micronutrients on flowering and fruiting attributes of mango cv. Amrapali under high density planting. Curr J Applied Sci Techno 41(21):1–16
Raj A, Patel VB, Kumar R, Verma RB, Kumar A, Mahesh SS (2020) Effect of high density planting systems on growth, yield and quality of mango (Mangifera indica L) cv. Amrapali after rejuvenation. J Pharmacog Phytochem 9(1):229–234
Reddy Y, Kurian RM (2011) Studies on rejuvenation of old unproductive ‘Alphonso’ Mango trees in orchards. J Horti Sci 6(2):145–147
Singh SK, Singh SK, Sharma RR, Srivastav M, Patel VB (2010) Influence of pruning intensities on leaf nutrient composition in some mango cultivars under high density. Indian J Hort 67(11):16–20
Sukonthasing S, Wongrakpanitch M, Verheij EWM (1991) Mangifera indica L. In: Verheij EWM, Coronel RE (eds) Plant resources of south-east asia. No. 2. Edible fruits and nuts. Purdoc-DLO, Wageningen, pp 211–216
Yeshitela T, Robbertse PJ, Stassen PJ (2005) Effect of pruning on flowering, yield and fruit quality in mango (Mangifera indica). Cultivars. Aust Exp Agric 45:1325–1330
Acknowledgements
The authors are grateful to the Director, ICAR-Central Institute for Subtropical Horticulture, Lucknow, India, for providing the necessary logistical support during the investigation.
Funding
The entire financial assistance is provided by the host institute.
Author information
Authors and Affiliations
Contributions
Conceptualization of research, KKS and DK; Designing of the experiments, KKS; Contribution of experimental materials, KKS; Execution of field/lab experiments and data collection, KKS and DK; Analysis of data and interpretation (SKS, SKD, KKS); Preparation of the Draft (SKS, SKD, KKS, SRS and SK Shukla), Preparation of the Final MS (SKS, SKD and KKS).
Corresponding authors
Ethics declarations
Conflict of interest
K.K. Srivastava, D. Kumar, S.K. Dwivedi, S.K. Soni, S.R. Singh and S.K. Shukla declare that they have no competing interests.
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Srivastava, K.K., Kumar, D., Dwivedi, S.K. et al. Revitalization of Overcrowded and Unproductive Mango (Mangifera indica L. cv ‘Dashehari’) Orchard Through Better Light Interception via Canopy Management. Applied Fruit Science 66, 1101–1106 (2024). https://doi.org/10.1007/s10341-024-01065-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10341-024-01065-0