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Abido, A., Alkharpotly, A., El-Hakim, S., Abd El-Aziz, A. (2020). Processing Potato Growth Performance as Affected by Foliar Application of Seaweed Extract and Boron. Journal of the Advances in Agricultural Researches, 25(1), 66-85. doi: 10.21608/jalexu.2020.163926
Aly Ibrahim Aly Abido; Abdelbaset Abdelsamea Alkharpotly; Saed Ahmed Zaki El-Hakim; Amira Nasr Abdellatif Abd El-Aziz. "Processing Potato Growth Performance as Affected by Foliar Application of Seaweed Extract and Boron". Journal of the Advances in Agricultural Researches, 25, 1, 2020, 66-85. doi: 10.21608/jalexu.2020.163926
Abido, A., Alkharpotly, A., El-Hakim, S., Abd El-Aziz, A. (2020). 'Processing Potato Growth Performance as Affected by Foliar Application of Seaweed Extract and Boron', Journal of the Advances in Agricultural Researches, 25(1), pp. 66-85. doi: 10.21608/jalexu.2020.163926
Abido, A., Alkharpotly, A., El-Hakim, S., Abd El-Aziz, A. Processing Potato Growth Performance as Affected by Foliar Application of Seaweed Extract and Boron. Journal of the Advances in Agricultural Researches, 2020; 25(1): 66-85. doi: 10.21608/jalexu.2020.163926

Processing Potato Growth Performance as Affected by Foliar Application of Seaweed Extract and Boron

Article 9, Volume 25, Issue 1 - Serial Number 94, March 2020, Page 66-85  XML PDF (1.2 MB)
Document Type: Research papers
DOI: 10.21608/jalexu.2020.163926
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Authors
Aly Ibrahim Aly Abido1; Abdelbaset Abdelsamea Alkharpotly2; Saed Ahmed Zaki El-Hakim3; Amira Nasr Abdellatif Abd El-Aziz1
1Plant Prod. Dept, Fac. Agric. (Saba Basha), Alex. Univ.
2Fac. Agric. and Natl. Resour., Aswan Univ.
3Nubaria Farm Manager, Chipsy for Food Industries Co.
Abstract
: Potato (Solanum tuberosum L.) is a leading staple food in the diet of the world population and providing of regular caloric requirements for human and deliver many essential elements, and vitamins including K, P, Mn, Mg, foliate, vit. C, and vit. B6. Increasing its potential yield could be hypothesized via environmental friendly agricultural supplements as seaweed extracts (SWEs) instead of mineral fertilization, and certain micronutrients as boron (B).Therefore, two field experiments were carried out during both seasons of 2016 / 2017 and 2017 / 2018, in a private farm, at El-Nobaria region, El-Behiera Governorate, Egypt, under open field conditions in sandy soil to investigate the effects of two independent variable  as SWE (control, 1000 and 2000 mg/l),and B (control, 25, 50 and 75 mg/l) and their combinations on the growth performance (i.e. vegetative growth-related attributes and the yield) of 'Caruso' potato cultivar. Both conducted experiments were factorial experiments laid out in randomized complete blocks design (RCBD), with three replicates. Each replicate included 12 treatments. All determined treatments were distributed randomly within each block. Foliar application of SWEB at 2000; brought about the highest mean values of the studied vegetative growth attributes (plant height [cm] and number of main stems / plant) compare with the other treatments during both seasons. Likewise, pertaining the tuber yield, the same combination; led to the highest mean values for number of tubers / plant, tuber fresh weight / plant (g), total yield / feddan, as compared with control treatment during both seasons. Hence, the above-mentioned combination is the appropriate for both tested independent variables for the best growth performance of the tested dependent variable (i.e., vegetative and yield attributes of the given cultivar).Nevertheless, applying SWE at 2000 mg / l × B at 50 mg / l; brought about the best potato for processing
Keywords
Foliar application; seaweed extract (SWE); boron (B); potato (Solanum tuberosum L.); vegetative growth attributes; yield attributes
References
Abd El-Gawad, H. G. and H. S. Osman (2014). Effect of exogenous application of boric acid and seaweed extract on growth, biochemical content and yield of eggplant. J. Hort.  Sci. & Ornam. Pl., 6 (3): 133-143.

Abdulraheem, S. M. (2009). Effect of nitrogen fertilizer and seaweed extracts on vegetative growth and yield of cucumber. Diyala Agric. Sci. J., 1:134-145.

Al-Bayati, H. J. M. and G. M. A. Al-Quraishi (2019). Response of three potato varieties to seaweed extracts. Kufa J. Agric. Sci., 11 (1): 36-40.

Alkharpotly, A., A. Roshdy and E. Mady (2018). Potato growth and yield attributes as affected by Boron and Selenium foliar application. J. Pl. Prod. Mansoura Univ., 9 (11).

Arafa A. A., S. Farouk and H. S. Mohamed (2011). Effect of potassium fertilizer, biostimulants and effective microorganisms as well as their interactions on potato growth, photosynthetic pigments and stem anatomy. J. Pl. Prod., Mansoura Univ., 2(8):1017-1035.

Arafa, A. A., S. Farouk and H. S. Mohamed (2012). Response of tuber yield quantity and quality of potato plants and its economic consideration to certain bioregulators, effective microorganisms under potassium fertilization. J. Pl. Prod. Mansoura Univ., 3(1):131-150.

Arafa, A. A., S. Farouk and H. S. Mohamed (2013). Effect of potassium fertilizers, biostimulants and effective microorganisms of growth, carbohydrates concentration and ion percentage in the shoots of potato plants. J. Pl. Prod. Mansoura Univ., 4 (1):15 - 32.

Awad, E. M. M., N. S. Youssef and Z. S. El-Shall (2006). Effect of foliar spraying with seaweed extracts and inorganic fertilizers levels on growth, yield and quality of potato crop. J. Agric. Sci., Mansoura Univ., 31 (10): 6549-6559.

Bricker, B. (1991). MSTATC: A Micro Computer Program from the Design Management and Analysis of Agronomic Research Experiments. Michigan State Univ., USA.

Burton, W. G., A. Van Es and K. J. Hartmans (1992). The physics and physiology of storage. In: Harris PM (ed) The potato crop, 2nd ed. Chapman and Hall, London, pp: 608–727.

Calvo, P., L. Nelson and J. W. Kloepper (2014). Agricultural uses of plant biostimulants. Pl. & Soil, 383:3–41.

Cassan L., I. Jean, J. Lamaze and J. F. Morotgaudry (1992). The effect of the Ascophylum nodosum extract Geomer GA14 on the growth of spinach. Bot. Mar., 35: 437–439.

Demir, N., B. Dural and K. Yildirim (2006). Effect of seaweed suspensions on seed germination of tomato, pepper and aubergine. J. Biol. Sci., 6(6): 1130-1133.

Dinesh, K., R. Ezekiel, B. Singh and I. Ahmed (2005). Conversion table for specific gravity dry matter and starch content from under water weight of potatoes grown in North India plains. Potato J., 32 (1-2): 79-84.

Dursun, A., M. Turan, M. Ekinci, A. Gunes, N. Ataoglu, A. Esringü and E. Yıldırım (2010). Effects of boron fertilizer on tomato, pepper, and cucumber yields and chemical composition. Comm. Soil Sci. & Pl. Anal., 41:1576–1593.

El-Banna, E. N. and H. Z. Abd El-Salam (2005). Response of potato plants for different sources of potassium with different foliar rates of boron and molybdenum. J. Agric. Sci. Mansoura Univ., 30 (10): 6221-6233.

El-Dissoky, R. A. and A. E. S. Abdel-Kadar (2013). Effect of boron as a foliar application on some potato's cultivars under Egyptian alluvial soil conditions. Res. J. Agric. & Biol. Sci., 9(5): 232-240.

Farouk, S. (2015). Improving growth and productivity of potato (Solanum tuberosum L.) by some biostimulants and lithovit with or without boron. J. Pl. Prod., Mansoura Univ., 6 (12): 2187-2206.

Fitzpatrick, T. J., W. L. Porter and G. V. Hoghland (1969). Continued studies of the relationship of specific gravity to total solids of potatoes. Amer. Potato J., 46(4):120–127.

Frébort, I., M. Kowalska, T. Hluska, J. Frébortová and P. Galuszka (2011). Evolution of cytokinin biosynthesis and degradation. J. Exp. Bot., 62(8): 2431-2452.   

Frito Lay Company (1999). Potato sending Manual. Operations quality system department. Leicester, United Kingdom.

George, E. F., M. A. Hall and G. J. De Klerk (2008 a). Plant growth regulators II: cytokinins, their analogues and antagonists. In Plant propagation by tissue culture (pp. 205-226). Springer, Dordrecht.‏

George, E. F., M. A. Hall, and G. J. De Klerk.(2008 b)."Plant tissue culture procedure-background. "Plant propagation by tissue culture. Springer, Dordrecht.‏, 1-28.

Gomez, K. A. and A. A. Gomez (1984). Statistical Procedures for Agricultural Research. John Wiley and Sons. Inc., New York.

Gould, W. A. (1988). Quality of potatoes for chip manufacture. In: Symposium on potato quality: Industry needs, for growth. The potato Association of America. Fort Collins, CO. p. 10-20.

Horgan, R. (1992). Present and future prospects for cytokinin research. physiology and biochemistry of cytokinins in plants, pp 3–14. The Hague, The Netherlands: SPB Academic Publ.

Jafari-Jood, S., A. H. Shiranirad, J. Daneshian and A. Rokhzadi (2013). Effects of nitrogen application and spraying of boron and manganese on growth traits of two potato cultivars.Intl. J. BioSci., 3(9): 298-303.

Jayasinghe, P. S., V. Pahalawattaarachchi and K. Ranaweera (2016). Effect of seaweed liquid fertilizer on plant growth of Capsicum annuum. Discovery, 52(244): 723-734.

Kabira, J. and L. Berga (2003). Potato processing quality evaluation procedures for research and food industry applications in East and Central Africa. Kenya Agricultural Research Institute, Nairobi, Kenya.

Khan, W., U. Rayirath, S. Subramanian, M. Jithesh, P. Rayorath, D. M. Hodges, A. Critchley, J. Craigie, J. Norrie and B. Prithiviraj (2009). Seaweed extracts as biostimulants of plant growth and development. J. Plant Growth Reg., 28(4): 386-399.

Klienschimdt, G. D., G. E. Klienkopf, D. T. Westermann and J. C. Zalewski (1984). Specific gravity of potatoes CIS 609.University of Idaho College of Agriculture, Cooperative Extension System. Moscow, ID. 4pp.

Korasick, D. A., T. A. Enders and L. C. Strader (2013). Auxin biosynthesis and storage forms. J. Exp. Bot., 64 (9): 2541-2555.‏

Kunkel, R., J. Gregory and A. M. Binkley (1951). Mechanical separation of potatoes into specific gravity groups shows promise for the potato chip industry. Amer. Potato J., 28:690–696. Potato Research (2010) 53:95–109.

Lana, E. P., R. H. Johnson and D. C. Nelson (1970). Variations in specific gravity of potato tubers. Amer. Potato J., 47 (1):9–12.

Manjunath, R. P., V. M. Anjanappa, G. K. Ramegowda, S. Anilkumar and P.S. Prasad (2018). Influence of foliar spray of micronutrient formulation on

quality and shelf life of potato (Solanum tuberosum L.). Intl. J. Pure. Appl. BioSci., 6(1): 660-665.

Marhoon, I. A. and M. K. Abbas (2015). Effect of foliar application of seaweed extract and amino acids on some vegetative and anatomical characters of two sweet pepper (Capsicum AnnuumL.) cultivars. Intl. J. Res. Stud. Agric. Sci. (IJRSAS) 1(1): 35-44.

Masny, A. B. and E. Zurawicz (2004). Effect of applications of Kelpak SL. and Goremar BM 86, preparation on yield and fruit quality in two strawberry cultivars. Res. Instit. Pomo.& Floricul. Pomo.,18:96-100.

Mohammed, G. H. (2013). Effect of seamino and ascorbic acid on growth, yield and fruits quality of pepper (Capsicum annum L). Intl. J. Pure Appl. Sci. Technol., 17(2): 9-16.

Muhammad, W. H., C. M. Ayyub, M. A. Pervez, H. U. Asad, A. Manan, S. A. Raza and I. Ashraf (2012). Impact of foliar application of seaweed extract on growth, yield and quality of potato (Solanum tuberosum L.). Soil Environ. 31(2):157-162.

Muthanna, M. A., A. K. Singh, A. Tiwari, V. K. Jain and M. Padhi (2017). Effect of boron and sulphur application on plant growth and yield attributes of potato (Solanum tuberosum L.). Intl. J. Curr. Microbiol. Appl. Sci.,6(10): 399-404.

Panda, D., K. Pramanik and B. R. Nayak (2012). Use of seaweed extracts as plant growth regulators for sustainable agriculture. Int. J. Biores. Stress Manag., 3(3), 404-411.

Prasad, K., A. K. Das, M. D. Oza, H. Brahmbhatt, A. K. Siddhanta, R. Meena, K. E. Eswarn, M. R. Rrajyaguru and P. K. Ghosh (2010). Detection and quantification of some plant growth regulators in a seaweed-based foliar spray employing a mass spectrometric technique sans chromatographic separation. J. Agric. Food Chem., 58 (8): 4594-4601.‏

Ramesh, E., J. C. Jana, R. Chatterjee and G. C. Banik (2019). Effect of foliar application of secondary and micronutrients on growth and yield of potato. J. Pharm. & Phytochem., 8(2): 656-660.‏

Sakakibara, H. (2006). Cytokinins: activity, biosynthesis, and translocation. Ann. Rev. Pl. Biol., 57: 431-449.

Saleem M., Y. M. Khanif, I. Fauziah, A.W. Samsuri and B. Hafeez (2011). Importance of boron for agriculture productivity. Inte. Res. J.  Agric. Sci. & Soil Sci., 1(8): 293-300.

Sarhan, T. Z. (2011). Effect of humic acid and seaweed extracts on growth and yield of potato plant (Solanum tubersum L) Desiree cv. Mesopotamia J. Agric., 39(2): 19-25.

Sarkar, S., H. Banerjee, I. Chakraborty, S. Sau, K. Ray, D. Ghosh and P. Deb (2018 a). Assessment of growth, yield, tuber quality and profitability of potato upon boron fertilization. J. Environ., Biol., 39 365-372.

Sarkar, S., H. Banerjee, K. Rayc and D. Ghosha (2018 b). Boron fertilization effects in processing grade potato on an Inceptisol of West Bengal, India. J. Pl. Nutr., 1-13.

Sati, K., M. Raghav, U.C. Sati and A. M. Lavlesh (2017). Effect of zinc sulphate application on quality of potato. Res. Crops, 18 (1): 98-102.

Singh, S. K., M. Sharma, K. R. Reddy and T. Venkatesh (2018). Integrated application of boron and sulphur to improve quality and economic yield in potato. J. Environ. Biol., 39: 204-210.

Smith, O. (1977). Potatoes: production, storing and processing. The AVI Publishing company, Westport, Connecticut, USA. Second edition. pp. 222-302.

Spinelli, F., G. Fiori, M. Noferini, M. Sprocatti and G. Costa (2010). A novel type of seaweed extract as a natural alternative to the use of iron chelates in strawberry production. Sci. Hort., 125(3): 263-269.‏

Sridhar, S. and R. Rengasamy (2012). The effect of Sargassum wightii extract on the growth, biochemical composition and yield of Capsicum annum under field trial. Intl. J. Curr. Sci., 4:35-43.

Stirk, W. A. and J. Van Staden (2010). Flow of cytokinins through the environment. Pl. Grow. Regul., 62(2):101-116.

Strnad, M. (1997). The aromatic cytokinins. Physiol. Pl., 101(4):674-688. 

Tantawy, A. S., Y. A. Salama, S. A. Saleh and A. A. Ghoname (2017). Enhancing yield and quality of two potato cultivars by using boron foliar application. Mid. East J. Appl. Sci., 7(3): 510-518.

Thirumaran, G., M. Arumugam, R. Arumugam and P. Anantharaman (2009 a). Effect of seaweed liquid fertilizer on growth and pigment concentration of Cyamopsistetr ogonolaba(L) Taub. Amer.-Eura. J. Agron., 2 (2): 50-56.

Thirumaran, G., M. Arumugam, R. Arumugam and P. Anantharaman (2009 b). Effect of seaweed liquid fertilizer on growth and pigment concentration of Abelmoschus esculentus (1) medikus. Amer.-Eura. J. Agron., 2 (2): 57-66.

Zalabák, D., H. Pospíšilová, M. Šmehilová, K. Mrízová, I. Frébort and P. Galuszka (2013). Genetic engineering of cytokinin metabolism: prospective way to improve agricultural traits of crop plants. Biotechnol. Adv., 31(1):97-117.

Zhang, D., H. Zhao, L. Shi and F. Xu (2014). Physiological and genetic responses to boron deficiency in Brassica napus: A review. Soil Sci. & Pl. Nutr., 60(3): 304-313.

Ziaeyan, A. H. and M. Rajaie (2012). Combined effect of zinc and boron on yield and nutrients accumulation in corn. Intl. J. Pl. Prod., 3(3):35-44. 

Zodape, S. T., A. Gupta and S.C. Bhandari (2011). Foliar application of seaweed sap as biostimulant for enhancement of yield and quality of tomato (Lycopersicon esculentum Mill.). J. Sci. & Industrial Res., 70: 215–219.

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