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Effect of different sowing time on plant height, nodes, square and flowering initiation of Gossypium hirsutum under current climatic condition

By: Shazia Khaliq, Abdul Wahid

Key Words: BT-cotton, Flower initiation, Nodes, Plant height, Sowing time.

Int. J. Biosci. 14(6), 143-150, June 2019.

DOI: http://dx.doi.org/10.12692/ijb/14.6.143-150

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Abstract

Changing scenario of climate has moved the attention of scientists to modify the sowing time of various crops. Global warming has shifted the cultivation season of many crops as compared to previously adopted production technologies. It is a documented fact that early or late sowing of crops usually resulted in a significant reduction of yield. However, improvement in production technologies regarding sowing time of crops is the necessity of time to achieve the goal of sustainable yield. Therefore, a field experiment was conducted with the hypothesis that improvement in sowing time would improve the phenological attributes of various cotton genotypes. There were four cotton genotypes (CIM-595, CIM-598, CIM-599 and IR-3701) sown at five different sowing dates (March 15, April 01, April 15, May 01 and May 15). The seeds rate was 20 kg ha-1. Recommended NPK fertilizers were also applied to meet the nutritional demand of plants. Results confirmed that March 15 is the best sowing time for significant improvement in plant height (61.7 and 61.5%) and number of nodes per cotton plant (56.7 and 47.5%) of CIM-599 comparative to late sowing (May 15) of CIM-598 in year-I and year-II respectively. A significant improvement in square initiation (11.0 and 9.54%) and flower initiation (5.61 and 6.27%) in cotton validated the effectiveness of March-15 sowing as compared to May 15 during year-I and year-II respectively. Maximum increase of 3.91 and 2.77% in flower initiation and 4.48 and 8.22% in square initiation confirmed the efficacious role of IR-3701. It is concluded that both CIM-599 and IR-3701 have potential to give maximum growth if sowing would be done at March-15.

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Effect of different sowing time on plant height, nodes, square and flowering initiation of Gossypium hirsutum under current climatic condition

Ahmad M, Razi MF. 2011. Cotton sowing in doldrums. Pakissan.com Court. Daw.

Ali H, Afzal MN, Muhammad D. 2009. Effect of Sowing Dates and Plant Spacing on Growth and Dry Matter Partitioning in Cotton (Gossypium Hirsutum L.). Pakistan Journal of Botany 41(5), 2145–2155.

Arshad M, Wajid A, Maqsood M, Hussain K, Aslam M, Ibrahim M. 2007. Response of growth, yield and quality of different cotton cultivars to sowing dates. Pakistan Journal of Agricultural Sciences 44(2), 208–212.

Bange MP, Caton SJ, Milroy SP. 2008. Managing yields of high fruit retention in transgenic cotton (Gossypium hirsutum L.) using sowing date. Australian Journal of Agricultural Research 59(8), 733–741.

http://dx.doi.org/10.1071/AR07423.

Bouyouces GJ. 1962. Hydrometer method improved for making particle size analysis of soil. Agronomy Journal 53, 464–465.

http://dx.doi.org/10.2134/agronj1962.00021962005400050028x

Bozbek T, Sezener V, Unay A. 2006. The Effect of Sowing Date and Plant Density on Cotton Yield. Journal of Agronomy 5(1), 122–125.

http://dx.doi.org/10.3923/ja.2006.122.125.

Bremner M. 1996. Chapter 37: Nitrogen-Total. Methods Soil Anal. Part 3. Chem. Methods-SSSA B. Ser. 5(5), 1085–1121.

Desai M, Rangarajan P, Donahue JL, Williams SP,Land ES, Mandal MK, Phillippy BQ, Perera IY, Raboy V, Gillaspy GE. 2014. Two inositol hexakisphosphate kinases drive inositol pyrophosphate synthesis in plants. Plant Journal 80(4), 642–653.

http://dx.doi.org/10.1111/tpj.12669.

El-Moneim, MHA, Omar MA, EL-Tabbakh SS, Nawar AI. 2017. The Effect of Date and Pattern of Sowing on Growth, Productivity and Technological Characters of Cotton (Gossypium barbadense L.). Alexandria Science Exchange Journal 38, 389–396. http://dx.doi.org/10.21608/asejaiqjsae.2017.3702

El-Zik KM. 1980. The cotton plant – its growth and development. In: Estern Cotton Prod. Conf. Summary Proc. Fresno, CA, p. 18–21.

Fortucci P. 2002. The contribution of cotton to economy and food security in developing countries. UN Food Agric. Organ.

Government of Pakistan. 2017. Econ. Surv. Pakistan. Ministry Finance.

Huang J. 2016. Different sowing dates affected cotton yield and yield components. International Journal of Plant Production 10(1), 63–83.

Hussain M, Shabir G, Farooq M, Jabran K, Farooq S. 2012. Developmental and phenological responses of wheat to sowing dates. Pakistan Journal of Agricultural Sciences 49(4), 459–468.

Jamro SA, Ali MU, Buriro M, Ahmad MI, Jamro GM, Khan A, Shah FA, Siddique WA, Sher A, Jakhro MI. 2017. Impact of Various Sowing Dates on Growth and Yield Parameters of Different Cotton Varieties. Journal of Applied Environmental and Biological Sciences 7(8), 135–143.

Khan MA, Khan S, Mushtaq S. 2009. Energy and economic efficiency analysis of rice and cotton production in china. Sarhad Journal of Agriculture 25(2), 291–300.

Khan A, Wang L, Ali S, Tung SA, Hafeez A, Yang G. 2017. Optimal planting density and sowing date can improve cotton yield by maintaining reproductive organ biomass and enhancing potassium uptake. Field Crops Research 214, 164–174.

http://dx.doi.org/10.1016/j.fcr.2017.09.016

Nadeem F, Ahmad R, Rehmani MIA, Ali A, Ahmad M, Iqbal J. 2013. Qualitative and Chemical Analysis of Rice Kernel To Time of Application of Phosphorus in Combination With Zinc Under Anaerobic Conditions. Asian Journal of Agriculture and Biology 1(2), 67–75.

Olsen SR, Sommers LE. 1982. Phosphorus. In: Method of soil analysis. Page AL, Ed. Agron. No. 9, part 2: Chemical and microbiological properties. 2nd ed. American Society of Agronomy, Madison, WI, USA, p. 403–430.

Qayyum SM, Ansari AH, Choudhry NA, Baig MMA. 1990. Seed cotton yield, its components and their interrelation response of six upland cotton varieties with regard to sowing dates. Pakistan Cottons 34, 59–73.

Reddy KR, Davidonis GH, Johnson AS, Vinyard BT. 1999. Temperature regime and carbon dioxide enrichment alter cotton boll development and fiber properties. Agronomy Journal 91(5), 851–858.

http://dx.doi.org/10.2134/agronj1999.915851x

Schofield RK, Taylor AW. 1995. The measurement of soil pH. Soil Science Society of America, Proceedings 19(2), 164–167.

Shah MA, Farooq M, Shahzad M, Khan MB, Hussain M. 2017. Yield and phenological responses of bt cotton to different sowing dates in semi-arid climate. Pakistan Journal of Agricultural Sciences 54(2), 233–239.

Siddiqui MH, Oadand FC, Shah AN. 2004. No Dry matter accumulation in various parts of cotton genotypes as affected by sowing dates. Asian Journal of Plant Sciences 3, 262–263.

Soomro AR, Anjum R, Soomro AW, Memmon AM, Bano S. 2007. Optimum sowing time for new commercial cotton variety, Marvi (CRIS–5A). The Pakistan Cottons 45, 25–28.

Steel RG, Torrie JH, Dickey DA. 1997. Principles and Procedures of Statistics: A Biometrical Approach. 3rd ed. McGraw Hill Book International Co., Singapore.

United States Department of Agriculture. 2012. Cott. World Mark. Trade.

US Salinity Laboratory Staff. 1954. In: Diagnosis and Improvement of Saline and Alkali Soils. Agric. Handbk. 60.US Government Printing Office, Washington DC.

Walkley A. 1935. An Examination of Methods for Determining Organic Carbon and Nitrogen in Soils. The Journal of Agricultural Science 25, 598.

http://dx.doi.org/10.1017/S0021859600019687

Williams MM. 2008. Sweet Corn Growth and Yield Responses to Planting Dates of the North Central United States. HortScience 43(6), 1775–1779.

http://dx.doi.org/10.21273/HORTSCI.43.6.1775

Wrather JA, Phipps BJ, Stevens WE, Phillips AS, Vories ED. 2008. Cotton Planting Date and Plant Population Effects on Yield and Fiber Quality In the Mississippi Delta. Journal of Cotton Science 12(1), 1.

Shazia Khaliq, Abdul Wahid.
Effect of different sowing time on plant height, nodes, square and flowering initiation of Gossypium hirsutum under current climatic condition.
Int. J. Biosci. 14(6), 143-150, June 2019.
https://innspub.net/ijb/effect-different-sowing-time-plant-height-nodes-square-flowering-initiation-gossypium-hirsutum-current-climatic-condition/
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