Plant Growth Regulators for Cotton Production in Changing Environment
作者: Sibgha Noreen , Seema Mahmood , Sumrina Faiz , Salim Akhter
DOI: 10.1007/978-981-15-1472-2_8
关键词: Auxin 、 Seedling 、 Gibberellin 、 Nutrient 、 Abscisic acid 、 Germination 、 Seed treatment 、 Crop 、 Biology 、 Agronomy
摘要: In the recent past, much interest has been generated for commercial application of plant growth regulators in cotton production, especially eventual threat to climate change. Since 1950s, a number are use improve quantity and quality produce. These substances organic ones, unlike inorganic nutrients, which applied low concentrations mainstream various physiological, biochemical, anatomical processes during life span. constitute auxins, gibberellins, cytokinins, abscisic acid, ethylene that leverage seed germination seedling vigor; upscale photosynthetic machinery, fruitfulness, greater divergence photoassimilates from source sink; tolerance external vagaries timely harvesting crop ahead weather onslaught. Other than these, brassinosteroids, jasmonates, salicylic acid also applied. The journey starts treatment final harvest. development greatly interacted with ecological environments other farm management practices. Therefore, rates timings adjusted concurrence its architectural developmental habit cycle. usage termed “shotgun” approach realm climate-smart production. This tool is not only cost-effective but ready season. advancing footprints change be mitigated by adaptation strategies considering region-specific scenarios.
springer.com
sci-hub.st 参考文章(148)
Shakeel Ahmad Shakeel Ahmad, Ilyas Raza Ilyas Raza, Hakoomat Ali Hakoomat Ali, AN Shahzad, Atiq-ur-Rehman Atiq-ur-Rehman, Naeem Sarwar Naeem Sarwar, Response of cotton crop to exogenous application of glycinebetaine under sufficient and scarce water conditions Brazilian Journal of Botany. ,vol. 37, pp. 407- 415 ,(2014) , 10.1007/S40415-014-0092-Z
Joe L. Key, Modulation of gene expression by auxin BioEssays. ,vol. 11, pp. 52- 58 ,(1989) , 10.1002/BIES.950110204
K. Raja Reddy, Gayle H. Davidonis, Ann S. Johnson, Bryan T. Vinyard, Temperature Regime and Carbon Dioxide Enrichment Alter Cotton Boll Development and Fiber Properties Agronomy Journal. ,vol. 91, pp. 851- 858 ,(1999) , 10.2134/AGRONJ1999.915851X
X. Xu, H. M. Taylor, Increase in Drought Resistance of Cotton Seedlings Treated with Mepiquat Chloride Agronomy Journal. ,vol. 84, pp. 569- 574 ,(1992) , 10.2134/AGRONJ1992.00021962008400040005X
Johnie N. Jenkins, J. C. McCarty, W. L. Parrott, Fruiting efficiency in cotton: boll size and boll set percentage. Crop Science. ,vol. 30, pp. 857- 860 ,(1990) , 10.2135/CROPSCI1990.0011183X003000040018X
Paul A. Hedin, Jack C. McCarty, Effects of kinetin formulations on allelochemicals and agronomic traits of cotton Journal of Agricultural and Food Chemistry. ,vol. 39, pp. 549- 553 ,(1991) , 10.1021/JF00003A023
M. B. TAHA, D. E. NOAKES, The effect of age and season of the year on testicular function in the dog, as determined by histological examination of the seminiferous tubules and the estimation of peripheral plasma testosterone concentrations Journal of Small Animal Practice. ,vol. 23, pp. 351- 357 ,(1982) , 10.1111/J.1748-5827.1982.TB01677.X
In-Seob Han, Ian Jongewaard, Donald E. Fosket, Limited expression of a diverged β-tubulin gene during soybean (Glycine max [L.] Merr.) development Plant Molecular Biology. ,vol. 16, pp. 225- 234 ,(1991) , 10.1007/BF00020554
Kongming Wu, Monitoring and management strategy for Helicoverpa armigera resistance to Bt cotton in China. Journal of Invertebrate Pathology. ,vol. 95, pp. 220- 223 ,(2007) , 10.1016/J.JIP.2007.03.012
Yun Chen, Zhi-Hao Liu, Li Feng, Yong Zheng, Deng-Di Li, Xue-Bao Li, Genome-Wide Functional Analysis of Cotton (Gossypium hirsutum) in Response to Drought PLoS ONE. ,vol. 8, pp. e80879- ,(2013) , 10.1371/JOURNAL.PONE.0080879