Asian Journal of Crop, Soil Science and Plant Nutrition
Volume 04 - Issue 01 | Year of Publication: 2020
Article Type: Research Article | No. 16, 2020 | Country: Bangladesh | pp. 125-133 | Open Access
Title: Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato
Authors: Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H.
DOI: https://doi.org/10.18801/ajcsp.040120.16
Title: Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato
Authors: Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H.
DOI: https://doi.org/10.18801/ajcsp.040120.16
Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato
Abstract
The productivity of organic farming has mainly focused on its relative crop yields than the proportions of organic matters in soil. However, organically cultivation changes crop yields at the same time it depends on types of crops grown. Here, we provide a pot experiment on the rooftop in Latin Square Designs (LSD) with a Diamant variety of potato and four treatment combinations to evaluate variety’s growth and yields. T0: Control, T1: 100% organic fertilizer, T2: 75% organic fertilizer+25% soil and T3: 50% organic fertilizer+50% soil was used for the present study with three replications. Our analysis showed the tallest (23.78 cm) plant was in T2 followed by T1 and T3 (23.37 cm and 23.14 cm, respectively). T2 produced the maximal (76.44) number of leaves per stem followed by T2 and T3 (73.44 and 74.11, respectively). T1 generating the maximal number (6.89) of tubers per hill was significant than all the other treatments. The highest weight (19.13 gm) per tuber per hill was examined in T2 followed by T1 and T3 (17.05 gm and 12.91 gm, respectively). T2 produced the utmost tuber length (3.78 cm) followed by T1 and T3 (3.39 cm and 3.23 cm, respectively. 75% organic fertilizer+25% soil has concluded the potential to be grown successfully and the most suited treatment for production of potato (Diamant) in coastal areas of Bangladesh.
Key Words: Diamant variety, Coastal area, Tuber weight and Tuber length.
Abstract
The productivity of organic farming has mainly focused on its relative crop yields than the proportions of organic matters in soil. However, organically cultivation changes crop yields at the same time it depends on types of crops grown. Here, we provide a pot experiment on the rooftop in Latin Square Designs (LSD) with a Diamant variety of potato and four treatment combinations to evaluate variety’s growth and yields. T0: Control, T1: 100% organic fertilizer, T2: 75% organic fertilizer+25% soil and T3: 50% organic fertilizer+50% soil was used for the present study with three replications. Our analysis showed the tallest (23.78 cm) plant was in T2 followed by T1 and T3 (23.37 cm and 23.14 cm, respectively). T2 produced the maximal (76.44) number of leaves per stem followed by T2 and T3 (73.44 and 74.11, respectively). T1 generating the maximal number (6.89) of tubers per hill was significant than all the other treatments. The highest weight (19.13 gm) per tuber per hill was examined in T2 followed by T1 and T3 (17.05 gm and 12.91 gm, respectively). T2 produced the utmost tuber length (3.78 cm) followed by T1 and T3 (3.39 cm and 3.23 cm, respectively. 75% organic fertilizer+25% soil has concluded the potential to be grown successfully and the most suited treatment for production of potato (Diamant) in coastal areas of Bangladesh.
Key Words: Diamant variety, Coastal area, Tuber weight and Tuber length.
HOW TO CITE THIS ARTICLE?
MLA
Kundu, M. K. et al. “Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato”. Asian Journal of Crop, Soil Science and Plant Nutrition 04(01) (2020): 125-133.
APA
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. (2020). Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 125-133.
Chicago
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. “Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato”. Asian Journal of Crop, Soil Science and Plant Nutrition 04(01), (2020): 125-133.
Harvard
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. 2020. Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 125-133.
Vancouver
Kundu, MK, Islam, MS, Methela, NJ, Khayer, A, Hasan MS, Sultana, MN and Joy, MIH. Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition. 2020 September 04(01): 125-133.
MLA
Kundu, M. K. et al. “Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato”. Asian Journal of Crop, Soil Science and Plant Nutrition 04(01) (2020): 125-133.
APA
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. (2020). Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 125-133.
Chicago
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. “Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato”. Asian Journal of Crop, Soil Science and Plant Nutrition 04(01), (2020): 125-133.
Harvard
Kundu, M. K., Islam, M. S., Methela, N. J., Khayer, A., Hasan M. S., Sultana, M. N. and Joy, M. I. H. 2020. Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 125-133.
Vancouver
Kundu, MK, Islam, MS, Methela, NJ, Khayer, A, Hasan MS, Sultana, MN and Joy, MIH. Organic fertilizer’s proportion in soil: Evaluating growth and yield of potato. Asian Journal of Crop, Soil Science and Plant Nutrition. 2020 September 04(01): 125-133.
Article Type: Research Article | No. 17, 2020 | Country: Bangladesh | pp. 134-140 | Open Access
Title: Effects of seedling age and potassium fertilizer on growth and yield of summer onion
Authors: Fatematuzzohora, Sultana, S. and Karim, M. R.
DOI: https://doi.org/10.18801/ajcsp.040120.17
Title: Effects of seedling age and potassium fertilizer on growth and yield of summer onion
Authors: Fatematuzzohora, Sultana, S. and Karim, M. R.
DOI: https://doi.org/10.18801/ajcsp.040120.17
Effects of seedling age and potassium fertilizer on growth and yield of summer onion
Abstract
An experiment was conducted at the Horticulture Farm of Bangladesh Agricultural University, Mymensingh to assess the effects of seedling age and potassium fertilizer to improve summer onion production (cv. BARI Piaj-3). The experiment consisted of two factors; Factor A: three seedling age, viz. 35; 40 and 45 days old and Factor B: four different doses of potassium, viz. 0; 40; 80 and 120 kg/ha-1. The experiment was laid out in a randomized complete block design with three replications. The effect of different seedling age and potassium fertilizer and their combined effects showed significant variations in growth and yield of onion. In case of seedling age, the highest plant height (56.58 cm), leaf number (12.37) per plant, leaf length (41.77 cm), yield of bulb per plot (1.96 kg) and yield of bulb (19.64 t/ha) were recorded from 45 day old seedling. In case of different doses of potassium, the highest plant height (58.82 cm), leaf number per plant (13.93), leaf length (43.69 cm), yield of bulb per plot (1.90 kg) and yield of bulb (19.00 t/ha) were recorded from 120 kg K ha-1. Combined effects of seedling age and potassium fertilizer exhibited significant variation on plant height at different days after transplant (DAT), leaf number per plant, leaf length, bulb diameter, pseudostem diameter, fresh weight of bulb, dry weight of bulbs, fresh weight of foliage, dry weight of foliage, yield of bulbs per plot and yield of bulbs (t/ha). The highest bulb yields per plot (2.31 kg) as well as per hectare (23.05 tons) were achieved from the treatment combination of 45 day old seedling and 120 kg K ha-1.
Key Words: Growth, bulb yield and summer onion
Abstract
An experiment was conducted at the Horticulture Farm of Bangladesh Agricultural University, Mymensingh to assess the effects of seedling age and potassium fertilizer to improve summer onion production (cv. BARI Piaj-3). The experiment consisted of two factors; Factor A: three seedling age, viz. 35; 40 and 45 days old and Factor B: four different doses of potassium, viz. 0; 40; 80 and 120 kg/ha-1. The experiment was laid out in a randomized complete block design with three replications. The effect of different seedling age and potassium fertilizer and their combined effects showed significant variations in growth and yield of onion. In case of seedling age, the highest plant height (56.58 cm), leaf number (12.37) per plant, leaf length (41.77 cm), yield of bulb per plot (1.96 kg) and yield of bulb (19.64 t/ha) were recorded from 45 day old seedling. In case of different doses of potassium, the highest plant height (58.82 cm), leaf number per plant (13.93), leaf length (43.69 cm), yield of bulb per plot (1.90 kg) and yield of bulb (19.00 t/ha) were recorded from 120 kg K ha-1. Combined effects of seedling age and potassium fertilizer exhibited significant variation on plant height at different days after transplant (DAT), leaf number per plant, leaf length, bulb diameter, pseudostem diameter, fresh weight of bulb, dry weight of bulbs, fresh weight of foliage, dry weight of foliage, yield of bulbs per plot and yield of bulbs (t/ha). The highest bulb yields per plot (2.31 kg) as well as per hectare (23.05 tons) were achieved from the treatment combination of 45 day old seedling and 120 kg K ha-1.
Key Words: Growth, bulb yield and summer onion
HOW TO CITE THIS ARTICLE?
MLA
Fatematuzzohora et al. “Effects of seedling age and potassium fertilizer on growth and yield of summer onion”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 134-140.
APA
Fatematuzzohora, Sultana, S. and Karim, M. R. (2020). Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 134-140.
Chicago
Fatematuzzohora, Sultana, S. and Karim, M. R. “Effects of seedling age and potassium fertilizer on growth and yield of summer onion”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 134-140.
Harvard
Fatematuzzohora, Sultana, S. and Karim, M. R. 2020. Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 134-140.
Vancouver
Fatematuzzohora, Sultana, S and Karim, MR. Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, October 2020 04(01), 134-140.
MLA
Fatematuzzohora et al. “Effects of seedling age and potassium fertilizer on growth and yield of summer onion”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 134-140.
APA
Fatematuzzohora, Sultana, S. and Karim, M. R. (2020). Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 134-140.
Chicago
Fatematuzzohora, Sultana, S. and Karim, M. R. “Effects of seedling age and potassium fertilizer on growth and yield of summer onion”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 134-140.
Harvard
Fatematuzzohora, Sultana, S. and Karim, M. R. 2020. Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 134-140.
Vancouver
Fatematuzzohora, Sultana, S and Karim, MR. Effects of seedling age and potassium fertilizer on growth and yield of summer onion. Asian Journal of Crop, Soil Science and Plant Nutrition, October 2020 04(01), 134-140.
Article Type: Research Article | No. 18, 2020 | Country: Bangladesh | pp. 141-149 | Open Access
Title: Effects of varieties and boron on growth and yield of summer tomato
Authors: Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T.
DOI: https://doi.org/10.18801/ajcsp.040120.18
Title: Effects of varieties and boron on growth and yield of summer tomato
Authors: Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T.
DOI: https://doi.org/10.18801/ajcsp.040120.18
Effects of varieties and boron on growth and yield of summer tomato
Abstract
A study was conducted to investigate the effects of varieties and boron (B) levels on growth and yield of summer tomato (Lycopersicon esculentum Mill.) at the Germplasm Centre in the Department of Horticulture, Patuakhali Science and Technology University, Patuakhali during the period from May, 2018 to September, 2018. Fifteen treatments were comprising (i) three summer tomato varieties (BARI hybrid tomato 4, 8 and 10) and (ii) five levels of boron as boric acid (0, 1, 2, 3 and 5 kg B ha-1) in all combinations. Randomized complete block design with three replications was used in the earthen pot (0.79 ft3) experimentation. The effects of varieties and boron levels showed significant variations (p <0.05) on growth and yield of summer tomato at different days after transplanting. Among the varieties at final count plant-1, delayed flowering (32.6 days), the highest plant height (93.8 cm), number of leaves (99.93), no. of branches (26.27), no. of flower clusters (18.53), no. of flowers (82.73), no. of fruits (51.87), longest fruit length (41.87 mm) and maximum fruit width (48.0 mm), weight of individual fruit (55.71 g) and total weight of fruits (2892.88 g) were observed in BARI hybrid tomato 8. In contrast, the lowest plant height (87.3 cm), no. of leaves (86.47), no. of branches (24.06), no. of flower clusters (15.87), no. of flowers (66.07), no. of fruits (37.33), weight of individual fruit (43.60 g) and total weight of fruits (1630.57 g) were found in BARI hybrid tomato 4; and early flowering (31.93 days), shortest fruit length (33.07 mm) and maximum fruit width (34.60 mm) were noticed in BARI hybrid tomato 10. Among the boron levels at final count plant-1, early flowering (29.67 days), the maximum no. of flower clusters (18.44), no. of flowers (89.11), no. of fruits (46.22) and total weight of fruits (2364.29 g) were recorded in 2 kg B ha-1 treatment; the maximum plant height (96.50 cm), no. of leaves (102.89), no. of branches (28.11), longest fruit length (42.89 mm) and maximum fruit width (46.78 mm) and weight of individual fruit (51.74 g) were obtained in 3 kg B ha-1 treatment. Conversely, delayed flowering (34.67 days), minimum plant height (83.50 cm), no. of leaves (87.56), no. of branches (21.78), no. of flower clusters (15.89), no. of flowers (63.56), no. of fruits (40.33), shortest fruit length (31.78 mm) and minimum fruit width (34.67 mm), weight of individual fruit (47.47 g) and total weight of fruits (1936.00 g) were recorded in control (0 kg B ha-1) treatment. Our results suggest that the inclusion of B (2–3 kg ha-1) with the current fertilization practice will enhance the growth and yield of summer tomato grown at AEZ (agro-ecological zone) 13 while BARI hybrid tomato 8 could be recommended as one of the promising varieties.
Key Words: Summer tomato, Variety, Boron, Growth and Yield parameters
Abstract
A study was conducted to investigate the effects of varieties and boron (B) levels on growth and yield of summer tomato (Lycopersicon esculentum Mill.) at the Germplasm Centre in the Department of Horticulture, Patuakhali Science and Technology University, Patuakhali during the period from May, 2018 to September, 2018. Fifteen treatments were comprising (i) three summer tomato varieties (BARI hybrid tomato 4, 8 and 10) and (ii) five levels of boron as boric acid (0, 1, 2, 3 and 5 kg B ha-1) in all combinations. Randomized complete block design with three replications was used in the earthen pot (0.79 ft3) experimentation. The effects of varieties and boron levels showed significant variations (p <0.05) on growth and yield of summer tomato at different days after transplanting. Among the varieties at final count plant-1, delayed flowering (32.6 days), the highest plant height (93.8 cm), number of leaves (99.93), no. of branches (26.27), no. of flower clusters (18.53), no. of flowers (82.73), no. of fruits (51.87), longest fruit length (41.87 mm) and maximum fruit width (48.0 mm), weight of individual fruit (55.71 g) and total weight of fruits (2892.88 g) were observed in BARI hybrid tomato 8. In contrast, the lowest plant height (87.3 cm), no. of leaves (86.47), no. of branches (24.06), no. of flower clusters (15.87), no. of flowers (66.07), no. of fruits (37.33), weight of individual fruit (43.60 g) and total weight of fruits (1630.57 g) were found in BARI hybrid tomato 4; and early flowering (31.93 days), shortest fruit length (33.07 mm) and maximum fruit width (34.60 mm) were noticed in BARI hybrid tomato 10. Among the boron levels at final count plant-1, early flowering (29.67 days), the maximum no. of flower clusters (18.44), no. of flowers (89.11), no. of fruits (46.22) and total weight of fruits (2364.29 g) were recorded in 2 kg B ha-1 treatment; the maximum plant height (96.50 cm), no. of leaves (102.89), no. of branches (28.11), longest fruit length (42.89 mm) and maximum fruit width (46.78 mm) and weight of individual fruit (51.74 g) were obtained in 3 kg B ha-1 treatment. Conversely, delayed flowering (34.67 days), minimum plant height (83.50 cm), no. of leaves (87.56), no. of branches (21.78), no. of flower clusters (15.89), no. of flowers (63.56), no. of fruits (40.33), shortest fruit length (31.78 mm) and minimum fruit width (34.67 mm), weight of individual fruit (47.47 g) and total weight of fruits (1936.00 g) were recorded in control (0 kg B ha-1) treatment. Our results suggest that the inclusion of B (2–3 kg ha-1) with the current fertilization practice will enhance the growth and yield of summer tomato grown at AEZ (agro-ecological zone) 13 while BARI hybrid tomato 8 could be recommended as one of the promising varieties.
Key Words: Summer tomato, Variety, Boron, Growth and Yield parameters
HOW TO CITE THIS ARTICLE?
MLA
Sanjida, M. et al. “Effects of Varieties and Boron on Growth and Yield of Summer Tomato”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 141-149.
APA
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. (2020). Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 141-149.
Chicago
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. “Effects of Varieties and Boron on Growth and Yield of Summer Tomato”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 141-149.
Harvard
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. 2020. Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 141-149.
Vancouver
Sanjida, M, Howlader, J, Akon, MR and Ahmed, T. Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 October 04(01), 141-149.
MLA
Sanjida, M. et al. “Effects of Varieties and Boron on Growth and Yield of Summer Tomato”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 141-149.
APA
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. (2020). Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), 141-149.
Chicago
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. “Effects of Varieties and Boron on Growth and Yield of Summer Tomato”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), (2020): 141-149.
Harvard
Sanjida, M., Howlader, J., Akon, M. R. and Ahmed, T. 2020. Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(01), pp. 141-149.
Vancouver
Sanjida, M, Howlader, J, Akon, MR and Ahmed, T. Effects of Varieties and Boron on Growth and Yield of Summer Tomato. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 October 04(01), 141-149.
Volume 04 - Issue 02 | Year of Publication: 2020
Article Type: Research Article | No. 19, 2020 | Country: Bangladesh | pp. 150-156 | Open Access
Title: Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh
Authors: Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B.
DOI: https://doi.org/10.18801/ajcsp.040220.19
Title: Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh
Authors: Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B.
DOI: https://doi.org/10.18801/ajcsp.040220.19
Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh
Abstract
Salinity is one of the major issues that lead to a reduction in crop productivity. This study aimed to investigate the response of sweet pepper (Capsicum annuum L.) to saline soil. The research was conducted in Agricultural Research Field at Noakhali Science and Technology University during 2018-19 with two sweet pepper varieties as treatment named Red Army (V1) and California Wonder (V2). The results indicated that there were significant variations between the two varieties in different parameters of growth as well as yield performance. The result showed that between the treatments V2 (California Wonder) gave the higher yield ie., 10.65 ton/ha while V1(Red Army) produced 9.61 ton/ha. Moreover, the taller plants and longer fruit were obtained from the V2 which were 32.43 cm and 8.23 cm respectively. Even among the other parameters, V2 gave higher growth and development than V1. Furthermore, average single fruit weight/plant was recorded 76.33 g in California Wonder (V2) whereas Red Army (V1) provided 74.16 g. The finding of the experiment indicated that the overall better performance could be obtained from V2 California Wonder variety of sweet pepper. This study evaluated the varietal performance of two varieties and it can be said from the experiment that the California Wonder is the best variety for cultivation in saline region in Bangladesh.
Key Words: Sweet Pepper, Salinity, Growth and Yield
Abstract
Salinity is one of the major issues that lead to a reduction in crop productivity. This study aimed to investigate the response of sweet pepper (Capsicum annuum L.) to saline soil. The research was conducted in Agricultural Research Field at Noakhali Science and Technology University during 2018-19 with two sweet pepper varieties as treatment named Red Army (V1) and California Wonder (V2). The results indicated that there were significant variations between the two varieties in different parameters of growth as well as yield performance. The result showed that between the treatments V2 (California Wonder) gave the higher yield ie., 10.65 ton/ha while V1(Red Army) produced 9.61 ton/ha. Moreover, the taller plants and longer fruit were obtained from the V2 which were 32.43 cm and 8.23 cm respectively. Even among the other parameters, V2 gave higher growth and development than V1. Furthermore, average single fruit weight/plant was recorded 76.33 g in California Wonder (V2) whereas Red Army (V1) provided 74.16 g. The finding of the experiment indicated that the overall better performance could be obtained from V2 California Wonder variety of sweet pepper. This study evaluated the varietal performance of two varieties and it can be said from the experiment that the California Wonder is the best variety for cultivation in saline region in Bangladesh.
Key Words: Sweet Pepper, Salinity, Growth and Yield
HOW TO CITE THIS ARTICLE?
MLA
Suhel, M. R. I. et al. “Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 150-156.
APA
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. (2020). Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), 150-156.
Chicago
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. “Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 150-156.
Harvard
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. 2020. Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), pp. 150-156.
Vancouver
Suhel, MRI, Methela, NJ, Ruhi, RA and Hossain, B. Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 November 04(02), 150-156.
MLA
Suhel, M. R. I. et al. “Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 150-156.
APA
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. (2020). Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), 150-156.
Chicago
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. “Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 150-156.
Harvard
Suhel, M. R. I., Methela, N. J., Ruhi, R. A. and Hossain, B. 2020. Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), pp. 150-156.
Vancouver
Suhel, MRI, Methela, NJ, Ruhi, RA and Hossain, B. Response of Sweet pepper (Capsicum annuum L.) in saline region of Bangladesh. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 November 04(02), 150-156.
Article Type: Research Article | No. 20, 2020 | Country: Bangladesh | pp. 157-164 | Open Access
Title: Nitrogen effect on the growth and yield contributing characters of Binadhan-19
Authors: Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B.
DOI: https://doi.org/10.18801/ajcsp.040220.20
Title: Nitrogen effect on the growth and yield contributing characters of Binadhan-19
Authors: Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B.
DOI: https://doi.org/10.18801/ajcsp.040220.20
Nitrogen effect on the growth and yield contributing characters of Binadhan-19
Abstract
The experiment was conducted at the BINA sub-station, Rahmatpur, Barishal, during the period from April 2020 to August 2020 to investigate the effect of nitrogen on the yield of transplant Aus rice cv. Binadhan-19. The experiment comprised four levels of nitrogen viz (a) N0 (zero nitrogen), (b) N1 (90 kg N/ha), (c) N2 (110 kg N/ha) and (d) N3 (130 kg N/ha). Nitrogen fertilizer was applied at two splits. The experiment was laid out in a randomized complete block design with three replications. Results revealed that plant height, effective tiller, non-effective tiller, flag leaf length, filled gran, unfilled grain and 1000 grain weight were increased with increasing nitrogen doses till 110 kg N ha-1. Furthermore, the highest grain weight was recorded in 110 kg N ha-1 due to superior performance of yield contributing characters of BInadhan-19. A positive correlation was found between grain yield and total dry matter production. The experimental results concluded that 110 kg N ha-1 would be the best dose for higher gain yield in Binadhan-19 in aus season.
Key Words: Rice, Nitrogen, Nitrogen level, Binadhan-19 and Yield
Abstract
The experiment was conducted at the BINA sub-station, Rahmatpur, Barishal, during the period from April 2020 to August 2020 to investigate the effect of nitrogen on the yield of transplant Aus rice cv. Binadhan-19. The experiment comprised four levels of nitrogen viz (a) N0 (zero nitrogen), (b) N1 (90 kg N/ha), (c) N2 (110 kg N/ha) and (d) N3 (130 kg N/ha). Nitrogen fertilizer was applied at two splits. The experiment was laid out in a randomized complete block design with three replications. Results revealed that plant height, effective tiller, non-effective tiller, flag leaf length, filled gran, unfilled grain and 1000 grain weight were increased with increasing nitrogen doses till 110 kg N ha-1. Furthermore, the highest grain weight was recorded in 110 kg N ha-1 due to superior performance of yield contributing characters of BInadhan-19. A positive correlation was found between grain yield and total dry matter production. The experimental results concluded that 110 kg N ha-1 would be the best dose for higher gain yield in Binadhan-19 in aus season.
Key Words: Rice, Nitrogen, Nitrogen level, Binadhan-19 and Yield
HOW TO CITE THIS ARTICLE?
MLA
Akter, M. B. et al. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
APA
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. (2020). Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), 157-164.
Chicago
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
Harvard
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. 2020. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), pp. 157-164.
Vancouver
Akter, MB, Nahar, N, Rana, MS, Hasan, MN and Rayhan, MB. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 December 04(02), 157-164.
MLA
Akter, M. B. et al. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
APA
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. (2020). Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), 157-164.
Chicago
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
Harvard
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. 2020. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), pp. 157-164.
Vancouver
Akter, MB, Nahar, N, Rana, MS, Hasan, MN and Rayhan, MB. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 December 04(02), 157-164.