Carbon sequestration, soil health improvement and livelihood security through mango-based agroforestry system
Downloads
Published
DOI:
https://doi.org/10.5958/0974-0112.2020.00052.3Keywords:
Mangifera indica, agroforestry, biomass, carbon sequestration, economicsIssue
Section
License
Copyright (c) 2019 Indian Journal of Horticulture
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Abstract
This present experiment on mango-based agroforestry system was carried out at on-farm experimental site of Daspalla block in Nayagarh district, Odisha during 2013-14 to 2016-17 under All India Co-ordinated Research Project on Agroforestry, Odisha University of Agriculture and Technology. The experiment was conducted in a randomized block design consisting of nine treatments, i.e. intercrops cluster bean, cowpea, brinjal, okra, blackgram, groundnut, arhar, sesamum and sole mango with three replications. Maximum mango tree height (2.46 m), basal girth (18.40 cm) and total tree biomass (0.326 t ha-1) was recorded with mango + cowpea as intercrop at 48 month after planting. The highest net return of Rs. 55,340 ha-1 and BCR 2.38 was recorded with mango + brinjal system. This system also generates maximum employment of 240 days followed by cowpea (200 mandays ha-1) and okra (180 mandays ha-1) compared to sole mango (50 mandays ha-1). Among different agroforestry system mango + cowpea resulted in maximum improvement in soil organic carbon content (3.77 g kg-1), available N (142.5 kg ha-1), available P (16.87 kg ha-1), available K (257.9 kg ha-1), total carbon sequestration (8.36 t ha-1) and equivalent CO2 (0.82 t ha-1) compared to initial value of organic carbon content (2.88 g kg-1), available N (113.4 kg ha-1), available P (9.44 kg ha-1), available K (194.6 kg ha-1), total carbon sequestration (7.03 t ha-1) and equivalent CO2 (0.30 t ha-1).
How to Cite
Downloads
Similar Articles
- Ratnesh Kumari, Seema Bedi, A. S. Dhatt, Effect of nitrogen forms on physiological and biochemical constituents of lettuce grown in soilless conditions during different seasons , Indian Journal of Horticulture: Vol. 77 No. 04 (2020): Indian Journal of Horticulture
- Jagdev Sharma, A.K. Upadhyay, A novel technique to apply irrigation water at sub-surface from existing surface drip irrigation system in grapevine: Effect on yield, nutrient contact and water use efficiency , Indian Journal of Horticulture: Vol. 68 No. 03 (2011): Indian Journal of Horticulture
- Aili Yang, Yiwei Ma, Jia Chen, Haiyan Yang, Zhenji Wang, Qingqing Shen, Huajie Yin, Yuyan Wang, Comparative study of cultivation methods for optimizing lettuce production on household balconies , Indian Journal of Horticulture: Vol. 82 No. 03 (2025): Indian Journal of Horticulture
- S Rani, H.P Maheswarappa, C Sudhalakshmi, Impact of temperature and rainfall on production and productivity of coconut , Indian Journal of Horticulture: Vol. 78 No. 03 (2021): Indian Journal of Horticulture
- V.R. Sagar, Effect of pre-treatment and packaging on quality of β-carotene rich mango powder , Indian Journal of Horticulture: Vol. 75 No. 02 (2018): Indian Journal of Horticulture
- D.D. Pawar, S.K. Dingre, Influence of fertigation scheduling through drip on growth and yield of banana in western Maharashtra , Indian Journal of Horticulture: Vol. 70 No. 2 (2013): Indian Journal of Horticulture
- Tsama Subrahmanyeswari, Saikat Gantait, Jayoti Majumder Sarkar, Suchita N. Kamble, Sudhir Singh, Somnath Bhattacharyya, Field performance and characterization of two stable stevia mutants with increased biomass and rebaudioside - ‘A’ content , Indian Journal of Horticulture: Vol. 82 No. 03 (2025): Indian Journal of Horticulture
You may also start an advanced similarity search for this article.
