Development of Alternate Cropping Pattern Against Tomato-Fallow- T. Aman Rice in Medium High Land of Dinajpur
The experiment was carried out at the research field of Agricultural Research Station, BARI, Dinajpur during Mid December to end of November for two consecutive years (2017-18 and 2018-19) to develop an economically sustainable and profitable cropping pattern over existing pattern. Three alternate cropping patterns Tomato-T. Aus-T. Aman, Tomato-Summer onion-T. Aman, Tomato-Indian Spinach-T. Aman were introduced against the existing cropping pattern Tomato–Fallow–T. Aman rice. The experiment was carried out in RCB design with three replications. The highest REY (35.91 t/ha) was recorded from the cropping pattern Tomato-Indian Spinach-T. Aman followed by Tomato-Summer onion-T. Aman (31.26 t/ha) and Tomato-T. Aus-T. Aman (29.04 t/ha). The lowest REY (24.48 t/ha) was obtained from the cropping pattern Tomato-Fallow-T. Aman (Farmers practice). The gross return and gross margin were higher in the alternate cropping patterns compared to existing cropping pattern due to additional yield of T. Aus rice, Summer Onion and Indian Spinach. Therefore, farmers in Dinajpur region of Bangladesh could follow alternate cropping pattern in their medium high land where lands remain fallow after harvesting of Tomato for higher crop productivity and profitability.
The experiment was carried out at the research field of Agricultural Research Station, Rajbari, Dinajpur (Latitude: 25.63544, Longitude: 88.65144) during rabi season of 2016-2017 and 2017-18 under AEZ-1 to find out the suitable crop combination for higher productivity and economic return. Five different treatments were employed in the study viz. T1= Sole maize (60cm x×20cm), T2= Maize planting (75cm×x 25cm) + 1 row cabbage (50cm×50cm) T3= Maize paired row (150cm/37.5cm x 25cm) + 2 rows cabbage (50cm x×50cm) T4=Maize planting (60cm x×20cm )+1 row cabbage (60cm x×50cm), T5= Maize paired row (120cm/30cm× x 20cm) + 2 rows cabbage (60cm x 50cm) were evaluated. Maize grain yield in intercropped combination varied from 6.60-9.23 t ha-1. But the highest maize yield was recorded in Maize planting (60cm x 20cm) + 1 row cabbage (60cm x 50cm) followed by that in maize paired row (150/37.5cm × 25cm) +2 rows cabbage (50cm x×50cm), while the highest cabbage yield was recorded in maize planting (60cm x 20cm) + 1 row cabbage(60cm x 50cm) between maize. The highest maize equivalent yield was also obtained in maize planting (60cm x 20cm) + 1 row cabbage (60cm x 50cm) followed by that in maize paired row (150/37.5cm x 25cm) + 2 rows cabbage (50cm x 50cm). The highest gross return, gross margin and BCR were obtained in maize planting (60cm × 20cm) + 1 row cabbage (60cm x 50cm) followed by that in maize paired row (150/37.5cm x 25cm) +2 rows cabbage(50cm x 50cm) and the lowest in sole sowing of maize. The overall results indicated that among the intercrop combinations maize planting (60cm x 20cm) + 1 row cabbage (60cm x 50cm) and maize paired row (150/37.5cm x 25cm) +2 rows cabbage (50cm x 50cm) were found suitable for total productivity and economic return of the system. Bangladesh Agron. J. 2019, 22(1): 115-120
Estimation of Temperature Co-Efficient of Wheat for Adjusting Proper Sowing Time
The field experiment was conducted at Agronomy research field, Joydebpur, Gazipur (Latitude: 23.999941, Longitude: 90.420273), RARS, Jamalpur (Latitude: 24.923025, Longitude: 89.950111) and ARS, Rajbari, Dinajpur (Latitude: 25.63544, Longitude: 88.65144) of BARI during rabi of 2018 – 2019 to observe the growth behavior and yield of wheat as influenced by prevailing air temperature based on sowing time. There were five sowing dates viz., D1 = 10 November, D2 =20 November, D3 = 30 November, D4=10 December and D5=20 December. Sowing date showed great influence on TDM production, LAI, physiological maturity, yield and yield components of wheat. 30 November sowing produced the maximum TDM and LAI followed by 20 November sowing. These parameters finally contributed to higher grain yield than earlier and later sowing date. The crop sown on 30 November took the longest period (105, 106 and 109 days, respectively) to attain the physiological maturity with the highest GDD (1639, 1638 and 1640 respectively) and 20 December sown crop took the shortest period (95 , 96 and 98 days respectively) to attain the physiological maturity with the lowest GDD (1530, 1528 and 1525 at Joydebpur, Jamalpur and Rajbari, respectively).It was also found that 30 November sown crop produced the higher grain yield (4.90 t ha-1, 4.99 t ha-1 and 5.03 t ha-1 at Joydebpur, Jamalpur and Rajbari, respectively).The results revealed that 20-30 November sowing produced higher grain yield might be due to favourable air temperature for growth and development. Late sowing after November 30 produced lower grain yield due to high temperature prevailed at the later growth stage (March) of wheat at Joydebpur, Jamalpur and Rajbari region. The temperature co-efficient of wheat was estimated at 2.41 t ha-1 (1.95-2.89 t ha-1) indicated grain yield reduced 2.41 t ha-1 per 1°C increased of air temperature and effect of temperature on the grain yield of wheat was estimated at 81-84%. Bangladesh Agron. J. 2020, 23(2): 69-80
Intercropping is a popular way to boost crop yield and profitability by maximizing the use of natural and agricultural resources. A study was carried out to establish crop arrangement for sweet gourd and cauliflower intercropping systems. The experiment was carried out during two consecutive years of 2019-20 and 2020-21 to identify the appropriate cauliflower population for intercropping with sweet gourd for increased production and profitability. Seven treatments viz. T1= Sole Sweet gourd (2 m × 2 m), T2=100% Sweet gourd + 3 rows cauliflower 37.5% (60 cm × 50 cm), T3=100% Sweet gourd + 3 rows cauliflower 23% (60 cm × 80 cm), T4=100% Sweet gourd + 4 rows cauliflower 50% (50 cm × 50 cm), T5=100% Sweet gourd + 4 rows cauliflower 31% (50 cm × 80 cm), T6=100% Sweet gourd + 5 rows cauliflower 31% (40 cm × 100 cm) and T7=Sole Cauliflower (50 cm × 50 cm). The maximum sweet gourd equivalent yield (SGEY) 34.83 t ha-1 was obtained from T4. The maximum gross return (Tk. 278640 ha-1), gross margin (Tk. 180384 ha-1), BCR (2.85) and LER (1.40) were also observed from T4 and the lowest in sole cauliflower (T7). The overall results revealed that among the intercrop combinations 100% Sweet gourd+4 rows cauliflower 50% (50 cm × 50 cm) (T4) followed by 100% Sweet gourd + 3 rows cauliflower 37.5% (60 cm × 50 cm) (T2) combinations could be profitable combinations for cauliflower with sweet gourd intercropping system. Bangladesh Agron. J. 2022, 25(1): 129-138
Effect of Organic Manures and Planting Time on Growth, Yield, Quality and Economics of Squash Under Medium High Land Condition of Dinajpur Region
The experiment was conducted at the research field of Agricultural Research Station, Rajbari, Dinajpur during rabi season of 2018-19 and 2019-20 to develop a profitable and economic fertilizer dose and optimum planting time for Squash and to increase the productivity and yield. Two different dates of planting viz. 15 November and 30 November considered as factor A and different organic manures viz., vermicompost, poultry manure and cowdung considered as factor B. The experiment was laid out in randomized complete block (RCB) design (Factorial) with three replications. Organic manures and planting time showed significant effects on most of the parameters. In case of organic manures, highest individual fruit weight (1707.50 g) and fruit yield (32.43 tha-1) was recorded from vermicompost whereas the lowest fruit weight (1233.17 g) and fruit yield (23.52 tha-1) was recorded from cowdung application. In case of planting time, the highest individual fruit weight (1747.11 g) and fruit yield (29.61 tha-1) was recorded from 15 November planting date whereas the lowest fruit weight (1196.44 g) and fruit yield (25.86 tha-1) was recorded from 30 November planting date. For combination, highest individual fruit weight (2153.66g) and fruit yield (34.06 tha-1) were recorded from vermicompost with 15 November planting date while the lowest individual fruit weight (1105.33g) and fruit yield (20.56 tha-1) were recorded from cowdung with 30 November planting date. Vermicompost with 15 November planting date was found suitable for total productivity and economic return of the system.
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