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Cropping systems in the Level Barind Tract (LBT) of Bangladesh are highly diverse, as Transplanted (T.) Aman and Boro (T. Boro) rice are a common practice in the area. Although. T. Aman is generally cultivated in the rainy (monsoon) season, but the T. Boro rice is the intensive irrigation-based winter rice with high establishment costs as a result of exhaustive tillage and high labours for transplanting of seedlings. Furthermore, pumping of a large amount of irrigation during T. Boro cultivation declines the level of groundwater, which is not environmentally friendly nor cost-effective. Therefore, the replacement of the T. Boro rice from the cropping pattern in the LBT area is the major concern of policymakers. In this context, a replicated three to four crop-based cropping systems (CS) field trial was conducted in LBT of Gaibandha, Bangladesh for consecutive three years (2018–2020) to evaluate productivity, profitability and sustainability of the multiple crop-based cropping systems. Among these CS, existing three crops based CS, CS1: T. Aman–Potato–T. Boro (introduction of the local potato in the existing cropping system) were compared with four crops based CS2: T. Aman–Potato–Cucumber–T. Aus (Introduction of high yielding potato, cucumber and T. Aus as an improved cropping system). After two years of observations, significantly higher system productivity (rice equivalent yield; REY) was found in the improved CS2 than that of existing CS1 in both years (two years’ average 49% or 11.1 t ha−1). As a result of the introduction of the high yielding potato, cucumber and T. Aus rice instead of the T. Boro rice. The CS2 was also found profitable as compared to the CS1 in terms of higher gross margin (by 74%), net return (double) and benefit-cost ratio (BCR) (1.69 vs. 1.44) due to higher gross return with slightly higher (by 28%) production cost. It is due to farmers received higher prices for potato, cucumber and two rice crops in the improved CS2 than the existing CS1. On the other hand, protein and energy output was lower (by 17% and 9%, respectively) in the CS2 than the existing CS1, due to the less content of protein and energy value in the vegetable cucumber. The results of the study revealed that crops diversification in the existing T. Boro based CS with high yielding potato, cucumber, and T. Aus rice, improved the system productivity, profitability and sustainability; which lead to improve the food security of the increasing population and also reduce the adverse effect on the environment.
Jahangir Alam; Abdullah- Al-Mahmud; Aminul Islam; Faruque Hossain; Akkas Ali; Eldessoky Dessoky; Ehab El-Hallous; Mohamed Hassan; Nasrin Begum; Akbar Hossain. Crop Diversification in Rice—Based Cropping Systems Improves the System Productivity, Profitability and Sustainability. Sustainability 2021, 13, 6288 .
AMA StyleJahangir Alam, Abdullah- Al-Mahmud, Aminul Islam, Faruque Hossain, Akkas Ali, Eldessoky Dessoky, Ehab El-Hallous, Mohamed Hassan, Nasrin Begum, Akbar Hossain. Crop Diversification in Rice—Based Cropping Systems Improves the System Productivity, Profitability and Sustainability. Sustainability. 2021; 13 (11):6288.
Chicago/Turabian StyleJahangir Alam; Abdullah- Al-Mahmud; Aminul Islam; Faruque Hossain; Akkas Ali; Eldessoky Dessoky; Ehab El-Hallous; Mohamed Hassan; Nasrin Begum; Akbar Hossain. 2021. "Crop Diversification in Rice—Based Cropping Systems Improves the System Productivity, Profitability and Sustainability." Sustainability 13, no. 11: 6288.
International Potato Center (CIP), -bred potato genotypes produce various yields under heat stress conditions due to being sown late. To explore options for achieving this, a replicated experiment was conducted at the field of Tuber Crops Research Sub-Centre, Bangladesh Agricultural Research Institute, Bogura, Bangladesh to evaluate the performance of fourteen CIP-bred potato genotypes with two controls (Asterix and Granola). The experiment was laid out in a split-plot design with three replications. Several indices were applied to find out the suitable genotypes under heat stress. The plant height increased by 34.61% under heat stress, which was common in all the potato genotypes. Similarly, other yield-participating characters like stem per hill, canopy coverage (%), plant vigor, and tuber number per plant were also increased under heat stress conditions. However, the tuber yield was decreased by 6.30% and 11.41%, respectively when harvested at 70 and 90 days after plantation. Moreover, “CIP-203” yielded the highest (40.66 t ha−1) in non-stressed whereas, “CIP-118” yielded the highest (32.89 t/ha) in stressed conditions. Likewise, the bred “CIP-218” and “CIP-118” performed better under both growing conditions and yielded >35.00 t ha−1. According to a rank-sum test, among the fourteen potato genotypes, “CIP-218”, “LB-7”, “CIP-118”, “CIP-232”, and “CIP-112” were selected as heat-tolerant potatoes and can grow in both growing conditions with higher yield potential.
Abdullah Al Mahmud; M. Alam; Bimal Kundu; Milan Skalicky; M. Rahman; E. Rahaman; Mousumi Sultana; M. Molla; Akbar Hossain; Ahmed El-Shehawi; Marian Brestic; Ayman Sabagh. Selection of Suitable Potato Genotypes for Late-Sown Heat Stress Conditions Based on Field Performance and Stress Tolerance Indices. Sustainability 2021, 13, 2770 .
AMA StyleAbdullah Al Mahmud, M. Alam, Bimal Kundu, Milan Skalicky, M. Rahman, E. Rahaman, Mousumi Sultana, M. Molla, Akbar Hossain, Ahmed El-Shehawi, Marian Brestic, Ayman Sabagh. Selection of Suitable Potato Genotypes for Late-Sown Heat Stress Conditions Based on Field Performance and Stress Tolerance Indices. Sustainability. 2021; 13 (5):2770.
Chicago/Turabian StyleAbdullah Al Mahmud; M. Alam; Bimal Kundu; Milan Skalicky; M. Rahman; E. Rahaman; Mousumi Sultana; M. Molla; Akbar Hossain; Ahmed El-Shehawi; Marian Brestic; Ayman Sabagh. 2021. "Selection of Suitable Potato Genotypes for Late-Sown Heat Stress Conditions Based on Field Performance and Stress Tolerance Indices." Sustainability 13, no. 5: 2770.