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Combating Salinity Stress with Foliar Application of Sodium Antagonistic Essential Minerals on Yield and Yield Attributes of Cotton
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http://hdl.handle.net/20.500.12678/0000000044
ec556b95-48a4-4e77-8df2-5dde064970ef
199a8398-dd5f-40a7-9ff5-07c72961cf9c
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 Khaing Khaing Aung.pdf (460.0 kB)
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| Title |
{"attribute_name": "Title", "attribute_name_i18n": "Title", "attribute_type": null, "attribute_value_mlt": [[[{"Title": "Combating Salinity Stress with Foliar Application of Sodium Antagonistic Essential Minerals on Yield and Yield Attributes of Cotton"}], [{"Language": "en"}]]]}
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| Title | Combating Salinity Stress with Foliar Application of Sodium Antagonistic Essential Minerals on Yield and Yield Attributes of Cotton | |||||
| Language | en | |||||
| Publication date |
{"attribute_name": "Publication date", "attribute_name_i18n": "Publication date", "attribute_value": "2018-06"}
2018-06
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| Authors |
{"attribute_name": "Authors", "attribute_name_i18n": "Authors", "attribute_type": null, "attribute_value_mlt": [[[{" ": [[[{"Full name": "Aung, Khaing Khaing"}]], [[{"Full name": "Toe, Kyi"}]], [[{"Full name": "Aung, Mie Mie"}]], [[{"Full name": "Min, Than Da"}]], [[{"Full name": "Htwe, Nyo Mar"}]], [[{"Full name": "Oo, Aung Naing"}]]]}]]]}
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| Full name | Aung, Khaing Khaing | |||||
| Full name | Toe, Kyi | |||||
| Full name | Aung, Mie Mie | |||||
| Full name | Min, Than Da | |||||
| Full name | Htwe, Nyo Mar | |||||
| Full name | Oo, Aung Naing | |||||
| Description |
{"attribute_name": "Description", "attribute_name_i18n": "Description", "attribute_type": null, "attribute_value_mlt": [[[{"": "The aim in this study was to investigate the appropriate level of foliar application on yield attributes of three tested cotton varieties (Ngwegyi-6, Shwetaung-8 and RAKA-666) for combating salinity stress. The common effect of salinity on plant growth is similar to water stress. Two field experiments were conducted in saline soil at Lungyaw Farm during pre-monsoon seasons, 2015 and 2016. Factorial ar-rangement in randomized complete block design was used with three replications. Five treatments as non spray (control), water spray, 500 mg L\u20131 KCl, 500 mg L\u20131 NH4NO3 and spray mixture (500 mg L\u20131 KCl + 500 mg L\u20131 NH4NO3 for 2015 and 250 mg L\u20131 KCl + 250 mg L\u20131 NH4NO3 for 2016) were used. Mineral foliar sprays clearly increased number of symbodial branches per plant, bolls per plant and seed cotton yield per plant than non spray treatment, whereas 500 mg L\u20131 NH4NO3 was more effective than other sprays in 2015. Number of sympodial branches per plant, bolls per plant, boll weight and seed cotton yield per plant were increased with 250 mg L\u20131 KCl + 250 mg L\u20131 NH4NO3 in 2016. Number of monopo-dial branches per plant was not significant among foliar sprays in both seasons. In 2015, the yield in-creased was obtained from 500 mg L\u20131 NH4NO3 and it was from 250 mg L\u20131 KCl + 250 mg L\u20131 NH4NO3 in 2016. However, the highest and satisfactory yield increased was resulted from 250 mg L\u20131 KCl + 250 mg L\u20131 NH4NO3. RAKA-666 generally produced highest seed cotton yield in both seasons. Mineral foli-ar 500 mg L\u20131 NH4NO3 in 2015 and the spray mixture in 2016 gave highest harvest index values. Among"}]]]}
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| The aim in this study was to investigate the appropriate level of foliar application on yield attributes of three tested cotton varieties (Ngwegyi-6, Shwetaung-8 and RAKA-666) for combating salinity stress. The common effect of salinity on plant growth is similar to water stress. Two field experiments were conducted in saline soil at Lungyaw Farm during pre-monsoon seasons, 2015 and 2016. Factorial ar-rangement in randomized complete block design was used with three replications. Five treatments as non spray (control), water spray, 500 mg L–1 KCl, 500 mg L–1 NH4NO3 and spray mixture (500 mg L–1 KCl + 500 mg L–1 NH4NO3 for 2015 and 250 mg L–1 KCl + 250 mg L–1 NH4NO3 for 2016) were used. Mineral foliar sprays clearly increased number of symbodial branches per plant, bolls per plant and seed cotton yield per plant than non spray treatment, whereas 500 mg L–1 NH4NO3 was more effective than other sprays in 2015. Number of sympodial branches per plant, bolls per plant, boll weight and seed cotton yield per plant were increased with 250 mg L–1 KCl + 250 mg L–1 NH4NO3 in 2016. Number of monopo-dial branches per plant was not significant among foliar sprays in both seasons. In 2015, the yield in-creased was obtained from 500 mg L–1 NH4NO3 and it was from 250 mg L–1 KCl + 250 mg L–1 NH4NO3 in 2016. However, the highest and satisfactory yield increased was resulted from 250 mg L–1 KCl + 250 mg L–1 NH4NO3. RAKA-666 generally produced highest seed cotton yield in both seasons. Mineral foli-ar 500 mg L–1 NH4NO3 in 2015 and the spray mixture in 2016 gave highest harvest index values. Among | ||||||
| Keywords |
{"attribute_name": "Keywords", "attribute_name_i18n": "Keywords", "attribute_type": null, "attribute_value_mlt": [[[{"": "Cotton"}]]]}
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| Cotton | ||||||
| Files |
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460 Kb2020-05-05 Available Khaing Khaing Aung.pdf application/pdf preview open_access application/pdf |
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| Journal articles |
{"attribute_name": "Journal articles", "attribute_name_i18n": "Journal articles", "attribute_type": null, "attribute_value_mlt": [[[{"Journal title": "Yezin Agricultural University"}], [{"Volume": "5"}]]]}
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| Journal title | Yezin Agricultural University | |||||
| Volume | 5 | |||||
