Journal of Bioscience and Agriculture Research
Volume 32 - Issue 01 | Year of Publication: 2024
Article Type: Research Article | No. 316, 2024 | Country: Bangladesh | pp. 2620-2628 | Open Access
Title: Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics
Authors: Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S.
DOI: https://doi.org/10.18801/jbar.320124.316
Title: Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics
Authors: Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S.
DOI: https://doi.org/10.18801/jbar.320124.316
Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
HOW TO CITE THIS ARTICLE?
MLA
Milon, M. R. K. et al. “Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2620-2628.
APA
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. (2024). Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics.. Journal of Bioscience and Agriculture Research, 32(01), 2620-2628.
Chicago
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. “Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2620-2628.
Harvard
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. 2024. Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics. Journal of Bioscience and Agriculture Research, 32(01), pp. 2620-2628.
Vancouver
Milon, MRK, Hossain, MA, Hossain, AKMZ. Alim, SMA, Islam, M, Kabir, MA and Reza, MS. Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics. Journal of Bioscience and Agriculture Research, 2024 February, 32(01): 2620-2628.
MLA
Milon, M. R. K. et al. “Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2620-2628.
APA
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. (2024). Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics.. Journal of Bioscience and Agriculture Research, 32(01), 2620-2628.
Chicago
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. “Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2620-2628.
Harvard
Milon, M. R. K., Hossain, M. A., Hossain, A. K. M. Z. Alim, S. M. A., Islam, M., Kabir, M. A. and Reza, M. S. 2024. Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics. Journal of Bioscience and Agriculture Research, 32(01), pp. 2620-2628.
Vancouver
Milon, MRK, Hossain, MA, Hossain, AKMZ. Alim, SMA, Islam, M, Kabir, MA and Reza, MS. Effect of salinity on seed germination and seedling growth in five wheat cultivars grown in hydroponics. Journal of Bioscience and Agriculture Research, 2024 February, 32(01): 2620-2628.
Article Type: Research Article | No. 317, 2024 | Country: Bangladesh | pp. 2629-2635 | Open Access
Title: Adaptive yield performance of BARI potato varieties at hill valleys of Bandarban
Authors: Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J.
DOI: https://doi.org/10.18801/jbar.320124.317
Title: Adaptive yield performance of BARI potato varieties at hill valleys of Bandarban
Authors: Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J.
DOI: https://doi.org/10.18801/jbar.320124.317
Adaptive yield performance of BARI potato varieties at hill valleys of Bandarban
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
HOW TO CITE THIS ARTICLE?
MLA
Islam, M. T. et al. “Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2629-2635.
APA
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. (2024). Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 32(01), 2629-2635.
Chicago
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. “Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2629-2635.
Harvard
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. 2024. Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 32(01), pp. 2629-2635.
Vancouver
Islam, MT, Arshad, F, Hossain, MI, Kanta, RA, Shaum, AKMI and Uddin, AFMJ. Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 2024 February, 32(01): 2629-2635.
MLA
Islam, M. T. et al. “Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2629-2635.
APA
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. (2024). Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 32(01), 2629-2635.
Chicago
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. “Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2629-2635.
Harvard
Islam, M. T., Arshad, F., Hossain, M. I., Kanta, R. A., Shaum, A. K. M. I. and Uddin, A. F. M. J. 2024. Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 32(01), pp. 2629-2635.
Vancouver
Islam, MT, Arshad, F, Hossain, MI, Kanta, RA, Shaum, AKMI and Uddin, AFMJ. Adaptive Yield Performance of BARI Potato Varieties at Hill Valleys of Bandarban. Journal of Bioscience and Agriculture Research, 2024 February, 32(01): 2629-2635.
Article Type: Research Article | No. 318, 2024 | Country: Bangladesh | pp. 2636-2648 | Open Access
Title: Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing
Authors: Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A.
DOI: https://doi.org/10.18801/jbar.320124.318
Title: Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing
Authors: Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A.
DOI: https://doi.org/10.18801/jbar.320124.318
Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
Abstract
Local germplasm of deep water rice possesses low yield productivity. Our studies showed that grain yield in Laxmi Digha can be increased significantly through backcross program with the high yielding rice variety Binadhan-18. Advanced backcross progenies (Laxmi Digha x Binadhan-18) exhibited higher values for most of the yield and yield-related traits analyzed in comparison with the parent. Number of tillers plant-1 and filled grains panicles-1 are positively correlated to yield and those resulted in higher grain yield in backcross families. In S103, S104, S105, S106 and S111 families, yield increase ranges from 52.97 to 84.1% when compared to Laxmi Digha parent. Five families, viz., S103, S104, S105, S106 and S111, were identified through yield increase analysis as most promising genotypes for cultivar development and processes variation in special characteristics viz. aerial root number and Knee capacity. The backcross families will be used to develop a deep water rice variety and efficient source of genetic diversity for future breeding programs.
Key Words: Deep water rice, Back cross families and Deep water rice screening tank.
HOW TO CITE THIS ARTICLE?
MLA
Kader, K. et al. “Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. (2024). Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2636-2648.
APA
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. (2024). Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 32(01), 2636-2648.
Chicago
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. “Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2636-2648.
Harvard
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. 2024. Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 32(01), pp. 2636-2648.
Vancouver
Kader, K, Karim, DMF, Amin, DAKMR and Baque, DMA. Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 2024 May, 32(01): 2636-2648.
MLA
Kader, K. et al. “Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. (2024). Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2636-2648.
APA
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. (2024). Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 32(01), 2636-2648.
Chicago
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. “Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing”. Journal of Bioscience and Agriculture Research, 32(01), (2024): 2636-2648.
Harvard
Kader, K., Karim, D. M. F., Amin, D. A. K. M. R. and Baque, D. M. A. 2024. Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 32(01), pp. 2636-2648.
Vancouver
Kader, K, Karim, DMF, Amin, DAKMR and Baque, DMA. Influence on productivity and yield contributing characters of blackgram varieties as affected by different plant spacing. Journal of Bioscience and Agriculture Research, 2024 May, 32(01): 2636-2648.
Volume 32 - Issue 02 | Year of Publication: 2024
Article Type: Research Article | No. 319, 2024 | Country: Bangladesh | pp. 2649-2659 | Open Access
Title: Effect of zinc and iron fertilization on yield of wheat
Authors: Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S.
DOI: https://doi.org/10.18801/jbar.320224.319
Title: Effect of zinc and iron fertilization on yield of wheat
Authors: Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S.
DOI: https://doi.org/10.18801/jbar.320224.319
Effect of zinc and iron fertilization on yield of wheat
Abstract
To determine the impact of zinc (Zn) and iron (Fe) fertilization on wheat yield performance, a field experiment was conducted at the Agronomy Field Laboratory, Bangladesh Agricultural University, Mymensingh, from November 2019 to March 2020. There were four zinc levels used in the experiment: 0 kg Zn ha‑1 (Zn0): No Zn fertilizer, 10 kg Zn ha‑1 (Zn1): Basal application of Zn, 10 kg Zn ha‑1 (Zn2): One foliar application (at tillering stage), 10 kg Zn ha‑1 (Zn3): Two foliar application (at tillering stage and flag leaf stage); and four levels of Fe viz., 0 kg Fe ha-1 (Fe0): No Fe fertilizer, 12 kg Fe ha-1 (Fe1): Basal application of Fe, 12 kg Fe ha-1 (Fe2): One foliar application (at tillering stage), 12 kg Fe ha-1 (Fe3): Two foliar application (at tillering stage and flag leaf stage). Three replications of the experiment were set up using a Randomized Complete Block Design (RCBD). The results showed that 10 kg Zn ha-1 at basal application (Zn1) produced the highest grain yield (4.08 t ha-1), straw yield (4.93 t ha-1), biological yield (9.01 t ha-1), and harvest index (45.13). Application of 0 kg Zn ha-1 (Zn0) resulted in the lowest plant height (86.85 cm), number of fertile spikelets spike-1 (12.78), number of filled grains spike-1 (33.63), grain (3.08 t ha-1), straw (4.53 t ha-1), biological (7.61) yields, and harvest index. The highest total tillers plant-1 (2.96), grain yield (4.11 t ha-1), straw (5.32 t ha-1), and biological (9.43 t ha-1) yields were obtained with the application of 12 kg Fe ha-1 (Fe1) at basal application; in contrast, the control treatment (Fe0) yielded the lowest grain (2.62 t ha-1), straw (4.21 t ha-1), biological (6.83 t ha-1) yields, and harvest index (38.53 %). Out of all the interactions, 10 kg Zn ha-1 and 12 kg Fe ha-1 at both basal applications produced the highest grain yield (4.95 t ha-1) and straw yield (5.89 t ha-1). Results showed that the grain yield of wheat was increased with the treatment combination of Zn and Fe.
Key Words: Wheat, Foliar application, Zinc fertilization, Iron fertilization and Yield performance.
Abstract
To determine the impact of zinc (Zn) and iron (Fe) fertilization on wheat yield performance, a field experiment was conducted at the Agronomy Field Laboratory, Bangladesh Agricultural University, Mymensingh, from November 2019 to March 2020. There were four zinc levels used in the experiment: 0 kg Zn ha‑1 (Zn0): No Zn fertilizer, 10 kg Zn ha‑1 (Zn1): Basal application of Zn, 10 kg Zn ha‑1 (Zn2): One foliar application (at tillering stage), 10 kg Zn ha‑1 (Zn3): Two foliar application (at tillering stage and flag leaf stage); and four levels of Fe viz., 0 kg Fe ha-1 (Fe0): No Fe fertilizer, 12 kg Fe ha-1 (Fe1): Basal application of Fe, 12 kg Fe ha-1 (Fe2): One foliar application (at tillering stage), 12 kg Fe ha-1 (Fe3): Two foliar application (at tillering stage and flag leaf stage). Three replications of the experiment were set up using a Randomized Complete Block Design (RCBD). The results showed that 10 kg Zn ha-1 at basal application (Zn1) produced the highest grain yield (4.08 t ha-1), straw yield (4.93 t ha-1), biological yield (9.01 t ha-1), and harvest index (45.13). Application of 0 kg Zn ha-1 (Zn0) resulted in the lowest plant height (86.85 cm), number of fertile spikelets spike-1 (12.78), number of filled grains spike-1 (33.63), grain (3.08 t ha-1), straw (4.53 t ha-1), biological (7.61) yields, and harvest index. The highest total tillers plant-1 (2.96), grain yield (4.11 t ha-1), straw (5.32 t ha-1), and biological (9.43 t ha-1) yields were obtained with the application of 12 kg Fe ha-1 (Fe1) at basal application; in contrast, the control treatment (Fe0) yielded the lowest grain (2.62 t ha-1), straw (4.21 t ha-1), biological (6.83 t ha-1) yields, and harvest index (38.53 %). Out of all the interactions, 10 kg Zn ha-1 and 12 kg Fe ha-1 at both basal applications produced the highest grain yield (4.95 t ha-1) and straw yield (5.89 t ha-1). Results showed that the grain yield of wheat was increased with the treatment combination of Zn and Fe.
Key Words: Wheat, Foliar application, Zinc fertilization, Iron fertilization and Yield performance.
HOW TO CITE THIS ARTICLE?
MLA
Khatun, M. T. et al. “Effect of zinc and iron fertilization on yield of wheat”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2649-2659.
APA
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. (2024). Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 32(02), 2649-2659.
Chicago
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. “Effect of zinc and iron fertilization on yield of wheat”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2649-2659.
Harvard
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. 2024. Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 32(02), pp. 2649-2659.
Vancouver
Khatun, MT, Mia, ML, Talukder, SK, Datta, P, Das, B, Kabir, MH, Rashid, MH and Islam, MS. Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 2024 May, 32(02): 2649-2659.
MLA
Khatun, M. T. et al. “Effect of zinc and iron fertilization on yield of wheat”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2649-2659.
APA
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. (2024). Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 32(02), 2649-2659.
Chicago
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. “Effect of zinc and iron fertilization on yield of wheat”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2649-2659.
Harvard
Khatun, M. T., Mia, M. L., Talukder, S. K., Datta, P., Das, B., Kabir, M. H., Rashid, M. H. and Islam, M. S. 2024. Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 32(02), pp. 2649-2659.
Vancouver
Khatun, MT, Mia, ML, Talukder, SK, Datta, P, Das, B, Kabir, MH, Rashid, MH and Islam, MS. Effect of zinc and iron fertilization on yield of wheat. Journal of Bioscience and Agriculture Research, 2024 May, 32(02): 2649-2659.
Article Type: Research Article | No. 320, 2024 | Country: Bangladesh | pp. 2660-2664 | Open Access
Title: Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla
Authors: Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A.
DOI: https://doi.org/10.18801/jbar.320224.320
Title: Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla
Authors: Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A.
DOI: https://doi.org/10.18801/jbar.320224.320
Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla
Abstract
The experiment was conducted at Horticulture Farm, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh, from September 2023 to December 2023. Nine rooting media (sand, garden soil, cocopeat, vermicompost, mixture of sand: vermicompost (1:1), mixture of garden soil: vermicompost (1:1), mixture of cocopeat: vermicompost (1:1), mixture of sand: cocopeat: vermicompost (1:1:1), mixture of garden soil: cocopeat: vermicompost (1:1 :1) and three levels of node number (single, two, three nodes cutting) were used in this experiment. Twenty-seven treatments evaluated the combined effect of different rooting media and number of nodes per stem cutting on propagation of vanilla. Treatments were arranged in Completely Randomized Design (CRD) with three replications. Among all the parameters in vanilla propagation through stem cutting, propagation was significantly influenced by the type of rooting media and number of nodes per stem cutting. The highest root length was obtained from three node cuttings grown on a 1:1:1 mixture of sand: cocopeat: vermicompost (T8N3; 13.2 cm), except maximum root number of cuttings obtained from three node cuttings grown on a 1:1:1 mixture of garden soil: cocopeat: vermicompost (T9N3; 4.4) and maximum survival rate (100%) was found in (T1N2, T1N3, T3 N2, T6N3, T7N3, T8N3, T9N2, T9N3) , where is the lowest root length (1.1cm), root numbers (2.0) and survival rate (20%) were obtained from single nodal cuttings which were grown in vermicompost (T4N1). This research has identified the best rooting media for successful vanilla propagation. This study endeavors to contribute significantly to the advancement of vanilla cultivation practices in Bangladesh, fostering a thriving and sustainable industry.
Key Words: Vanilla planifolia, Propagation, Rooting media and Vine cutting.
Abstract
The experiment was conducted at Horticulture Farm, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh, from September 2023 to December 2023. Nine rooting media (sand, garden soil, cocopeat, vermicompost, mixture of sand: vermicompost (1:1), mixture of garden soil: vermicompost (1:1), mixture of cocopeat: vermicompost (1:1), mixture of sand: cocopeat: vermicompost (1:1:1), mixture of garden soil: cocopeat: vermicompost (1:1 :1) and three levels of node number (single, two, three nodes cutting) were used in this experiment. Twenty-seven treatments evaluated the combined effect of different rooting media and number of nodes per stem cutting on propagation of vanilla. Treatments were arranged in Completely Randomized Design (CRD) with three replications. Among all the parameters in vanilla propagation through stem cutting, propagation was significantly influenced by the type of rooting media and number of nodes per stem cutting. The highest root length was obtained from three node cuttings grown on a 1:1:1 mixture of sand: cocopeat: vermicompost (T8N3; 13.2 cm), except maximum root number of cuttings obtained from three node cuttings grown on a 1:1:1 mixture of garden soil: cocopeat: vermicompost (T9N3; 4.4) and maximum survival rate (100%) was found in (T1N2, T1N3, T3 N2, T6N3, T7N3, T8N3, T9N2, T9N3) , where is the lowest root length (1.1cm), root numbers (2.0) and survival rate (20%) were obtained from single nodal cuttings which were grown in vermicompost (T4N1). This research has identified the best rooting media for successful vanilla propagation. This study endeavors to contribute significantly to the advancement of vanilla cultivation practices in Bangladesh, fostering a thriving and sustainable industry.
Key Words: Vanilla planifolia, Propagation, Rooting media and Vine cutting.
HOW TO CITE THIS ARTICLE?
MLA
Uddin, A. F. M. J. et al. “Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2660-2664.
APA
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. (2024). Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 32(02), 2660-2664.
Chicago
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. “Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2660-2664.
Harvard
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. 2024. Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 32(02), pp. 2660-2664.
Vancouver
Uddin, AFMJ, Islam, SMR, Chaitee, FTJ, Dastagir, T and Husna, A. Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 2024 May, 32(02): 2660-2664.
MLA
Uddin, A. F. M. J. et al. “Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2660-2664.
APA
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. (2024). Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 32(02), 2660-2664.
Chicago
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. “Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla”. Journal of Bioscience and Agriculture Research, 32(02), (2024): 2660-2664.
Harvard
Uddin, A. F. M. J., Islam, S. M. R., Chaitee, F. T. J., Dastagir, T. and Husna, A. 2024. Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 32(02), pp. 2660-2664.
Vancouver
Uddin, AFMJ, Islam, SMR, Chaitee, FTJ, Dastagir, T and Husna, A. Influence of different rooting media and number of nodes per cutting on vegetative propagation of vanilla. Journal of Bioscience and Agriculture Research, 2024 May, 32(02): 2660-2664.