INTRASPESIFIC DIVERSITY OF DIPLOID AND TETRAPLOID SPESIFIC OF COTTON ON SALT TOLERANCE.

431

Article consist cotton growth, nutrition absorption and yield were improved by adding appropriate amounts of K and Na. It was thus established that the samples studied showed different resistance to salinity. Samples of the cotton germplasm collection proved to be highly resistant to salinization.

Название журналаZamonaviy fan taʼlim va tarbiyaning dolzarb muammolari ilmiy elektron jurnali
Номер выпускаMintaqada zamonaviy fan,ta'lim va tarbiyaning dolzarb muammolari
Количество просмотров431

Ссылка в интернете http://khorezmscience.uz/public/archive/2018_2.pdf

DOI

Дата создание в систему UzSCI30-10-2019

Количество прочтений372

Дата публикации01-01-2018

Язык статьиIngliz

Страницы68

Ключевые слова

cotton

germplasm

salt tolerance

genetic potential

diploid

tetraploid

English

Article consist cotton growth, nutrition absorption and yield were improved by adding appropriate amounts of K and Na. It was thus established that the samples studied showed different resistance to salinity. Samples of the cotton germplasm collection proved to be highly resistant to salinization.

Ключевые слова

cotton

germplasm

salt tolerance

genetic potential

diploid

tetraploid

Ўзбек

Ушбу мақолада ғўза навларинг ўсиши, озуқуларни ютилиши ва хосилдорликни ошишига K ва Na таьсири ўрганилган. Ўрганилган ғўза намуналари шўрланишга турлича чидамлилигини кўрсатди. Тажриба учун ғўза навларини шўрланишга чидамли идиоплазмалардан олинган.

Ключевые слова

ғўза

идиоплазма

шўрланишга чидамли

генетик потенциал

диплоид

тетраплоид

Русский

В этом стетье расмотрено рость, поглошение питание и повишение урожайност хлопка при дополнение K и Na. Изучаемые сорта хлопка показали различное солее устойчивость. Изучаемые сорта хлопка били собранны из солее устойчивой идиоплазма.

Ключевые слова

идиоплазма

диплоид

тетраплоид

хлопок

солее устойчивость

генетический потенциал

№ Имя автора Должность Наименование организации

1 Rejapova M.M. Institute Genetics and plant experimental biology AS RUz

2 Kurbanbaev I.D. Dr Biology, Institute Genetics and plant experimental biology AS RUz

3 Chiniqulov B.X. PhD in Biology,Institute Genetics and plant experimental biology AS RUz

4 Alloberganova Z.B. PhD in Biology, Department of Biology, Faculty of Natural science UrDU

№ Название ссылки

1 1. Munns, R. (2002). Comparative physiology of salt and water stress. Plant Cell, Environ. 25(2): 239250.

2 2. Pessarakli, M. (2001). Physiological responses of cotton (G. hirsutum L.) to Salt Stress. In: Handbook of Plant and Crop Physiology. 2 nd Ed., Revised and Expanded (M. Pessarakli, Ed.). Marcel Dekker, Inc., New York, pp. 681-696.

3 3. Hou, Z., W. Chen, X. Li, L. Xiu and L. Wu (2009). Effects of salinity and fertigation practice on cotton yield and 15N recovery. Agric. Water Manag. 96(10): 1483-1489

4 4. Maas, E.V. (1990). Crop salt tolerance. In: Agricultural salinity assessment and management. Tanji (Editor). Am. Soc. Civil Eng., New York. pp. 262- 304.

5 5. Zhang, Y., Q. Li, X. Zhou, C. Zhai and R. Li (2006). Effects of partial replacement of potassium by sodium on cotton seedling development and yield. J. Plant Nutr. 29(10): 1845-1854.

6 6. Chen, W., Z. Hou, L. Wu, Y. Liang and C. Wei (2010). Effects of salinity and nitrogen on cotton growth in arid environment. Plant and Soil 326(1- 2): 6173.

7 7. Kent, L.M. and A. Lauchli (2006). Germination and seedling growth of cotton: salinity-calcium interactions. Plant, Cell Environ. 8(2): 155-159.

В ожидании

№	Имя автора	Должность	Наименование организации
1	Rejapova M.M.	Institute Genetics and plant experimental biology	AS RUz
2	Kurbanbaev I.D.	Dr Biology, Institute Genetics and plant experimental biology	AS RUz
3	Chiniqulov B.X.	PhD in Biology,Institute Genetics and plant experimental biology	AS RUz
4	Alloberganova Z.B.	PhD in Biology, Department of Biology, Faculty of Natural science	UrDU

№	Название ссылки
1	1. Munns, R. (2002). Comparative physiology of salt and water stress. Plant Cell, Environ. 25(2): 239250.
2	2. Pessarakli, M. (2001). Physiological responses of cotton (G. hirsutum L.) to Salt Stress. In: Handbook of Plant and Crop Physiology. 2 nd Ed., Revised and Expanded (M. Pessarakli, Ed.). Marcel Dekker, Inc., New York, pp. 681-696.
3	3. Hou, Z., W. Chen, X. Li, L. Xiu and L. Wu (2009). Effects of salinity and fertigation practice on cotton yield and 15N recovery. Agric. Water Manag. 96(10): 1483-1489
4	4. Maas, E.V. (1990). Crop salt tolerance. In: Agricultural salinity assessment and management. Tanji (Editor). Am. Soc. Civil Eng., New York. pp. 262- 304.
5	5. Zhang, Y., Q. Li, X. Zhou, C. Zhai and R. Li (2006). Effects of partial replacement of potassium by sodium on cotton seedling development and yield. J. Plant Nutr. 29(10): 1845-1854.
6	6. Chen, W., Z. Hou, L. Wu, Y. Liang and C. Wei (2010). Effects of salinity and nitrogen on cotton growth in arid environment. Plant and Soil 326(1- 2): 6173.
7	7. Kent, L.M. and A. Lauchli (2006). Germination and seedling growth of cotton: salinity-calcium interactions. Plant, Cell Environ. 8(2): 155-159.