The effect of different doses of liquid vermicompost application on yield and yield components of some potato (solanum tuberosum l.) varieties | [Pakistan Journal of Botany • 2024]

Author(s):

1. VOLKAN GUL: Bayburt University, Aydıntepe Vocational School, Food Technology Program,Bayburt/,Turkey

2. BETUL GIDIK: Bayburt University, School of Applied Sciences,Organic Farming Management, Bayburt/,Turkey

Abstract:

This is one of the early studies to produce healthy, yielding, and high-quality tubers from the potatoes grown in Bayburt, an organic agriculture basin, using liquid vermicompost that can supplement organic fertilizers. The purpose of this study was to examine the effect of liquid vermicompost applications (0, 3, 6, 9, and 12 L ha-1), which can supplement the stable manure used as bottom fertilizer, on yield and yield components of potato (Solanum tuberosum L.) varieties (Agria and Lady Olympia). The research was designed in random blocks with three replications. As a result of the study, it was found that the tuber yield was within the range of 20.24-30.40 tons' ha-1, the protein ratio was within the range of 1.53-2.51%, and the starch ratio was within the range of 11.98%-15.99%. The liquid vermicompost doses applied to the potato varieties created significant differences in all three parameters. Due to the positive effect of the Agria (3.40 tons/da) variety on the yield and vegetative development of potatoes, It was concluded that 9 L liquid vermicompost application per decare would be beneficial.

Page(s): 685-690

DOI: 10.30848/PJB2024-2(17)

Published: Journal: Pakistan Journal of Botany, Volume: 56, Issue: 2, Year: 2024

Keywords:

Population , Yield , Organic agriculture , Solanum tuberosum L , Liquid vermicompost

References:

[1] Abbas G.,Farooq K.,Hafiz I.A.,Husain A. .2011 .Assessment of processing and nutritional quality of potato genotypes in Pakistan. Pak. J. Agric. Sci., 48(3) : 169-175.

[2] Alvarez S.,Grigera S.,Agron S. .2005 .Analysis of soil fertility and management effects on yields of wheat and corn in the rolling pampa of Argentina. , 191(5) : 321-329.

[3] Bahadirli M.,Dogan K. .2021 .The effect of organic and mineral fertilizer applications on yield and soil microbial activities in potato (Solanum tuberosum L.). EJOSAT., 22 : 140-145.

[4] Bartova V.,J V.,Barta J.,Brabcova A.,Svajnerova M. .2013 .Variation of nitrogenous components in potato (Solanum tuberosum L.) tubers produced under organic and conventional crop management. Eur. J. Agron., 49 : 20-31.

[5] Boke S. .2014 .Effect of organic and inorganic fertilizer application and seedbed preparation on potato yield and soil properties on alisols of chencha. Int. J. Natr. Sci. Res, 2(8) : 123-132.

[6] Bradshaw J.E. .2009 .A genetic perspective on yield plateau in potato. , 36(3-4) : 79-94.

[7] Camin F.,Moshella A.,Miselli F.,Parisi B.,Ranalli P.,Bagnaresi P. .2007 .Evaluation of the markers for the traceability of potato tuber grown in an organic and versus conventional regime. J. Sci. Food, 87 : 1330-1336.

[8] Chemeda A.S.,Geremew B.,Nigussie D. .2014 .Effect of variety and storage on the tuber quality of potatoes cultivated in the eastern highlands of Ethiopia. J. Sci. Technol. Arts. Res., 3(1) : 84-9.

[9] Eaton T.E.,Azad A.K.,Kabir H.,Siddiq A.B. .2017 .Evaluation of six modern varieties of potatoes for yield, plant growth parameters and resistance to insects and diseases. Agri. Sci., 8(11) : 1315-1326.

[10] Ekin Z. .2009 .Determination of yield and quality characters of some potato (Solanum tuberosum L.) Varieties under Ahlat ecological conditions. J. Harran Univ. Faculty of Agric, 13(3) : 1-10.

[11] Eleroglu K.,Korkmaz K. .2016 .Effects of different organic fertilizers on the yield and quality traits of seed potato cultivars (Solanum Tuberosum L.). TURJFAS., 4(7) : 566-578.

[12] Fahrurrozi F.,Sari D.N.,Togatorop E.R.,Salamah U.,Chozin Z. Muktamar N. Setyowati M.,Sudjatmiko S. .2019 .Yield performances of potato (Solanum tuberosum L.) as amended with liquid organic fertilizer and vermicompost. Int. J. Agric. Technol., 15(6) : 869-878.

[13] Hindersah R.,Nabila A.,Yuniarti A. .2019 .Effect of vermicompost and compound inorganik fertilizer on soil phosphate availability and yield of potatoes (Solanum tuberosum L.). Agrologia, 8 : 21-27.

[14] Jankowski K.J.,Kijewski L.,Skwierawska M.,Krzebietke S.,Mackiewicz-Walec E. .2014 .Effect of sulfur fertilization on the concentrations of copper, zinc and manganese in the roots, straw and oil cake of rapeseed (Brassica napus L. ssp. J. of Elemento, 19(2) : 433-446.

[15] Kacar B. and V.,Katkat B. and V. .2007 .Fertilizers and fertilization technique. Nobel Publication Distribution, : .

[16] Kaiser H.F. .1960 .The application of electronic-computers to factor-analysis. Edu. Psychol, 20(1) : 141-51.

[17] Larrigaudiere C.,I. Lentheric C.,Puy J.,Pinto E. .2004 .Biochemical characterisation of core browning and brown heart disorders in pear by multivariate analysis. Postharvest Biol. Tech., 31(1) : 29-39.

[18] Maggio A.,Carillo P.,Bulmetti G.S.,Fuggi A.,Barbieri Gand De Pascale S. .2008 .Potato yield and metabolic profiling under conventional and organic farming. Eur. J. Agron., 28 : 343-350.

[19] Marpaung A.E.,Karo B.,Tarigan R. .2014 .The utilization of liquid organic fertilizer and planting techniques for increasing the potato growth and yielding. J. Hort., 24 : 49-55.

[20] Morales-Corts M.R.,Pérez-Sánchez R.,Á. GómezSánchez M. .2018 .Efficiency of garden waste compost teas on tomato growth and its suppressiveness against soilborne pathogens. Sci. Agric, 75 : 400-409.

[21] Moschella A.,Camin F.,Miselli F.,Parisi B.,Ranalli P.,Bagnaresi P. .2005 .Markers of characterization of agricultural regime and geographical origin in potato. Agroindustria, 4(3) : 325-332.

[22] Ozkaynak E.,Samancı B. .2005 .Determining relationships among plant and tuber components in potato. J. Harran Univ. Faculty of Agric., 9(1) : 53-58.

[23] Ozturk E.,Kara E.,Polat T. .2007 .The effects of nitrogenous fertilizer forms and application times on tuber yield and tuber size of potato. JOTAF., 4(2) : 127-135.

[24] Parman S. .2007 .Pengaruh pemberian pupuk organik cair terhadap pertumbuhan dan produksi kentang (Solanum tuberosum L.). Buletin Anatomi dan Fisiologi, 15 : 21-31.

[25] Payne R.W.,Murray D.A.,Harding S.A.,Baird D.B.,Soutar D.M. .2011 .An introduction to GenStat for windows. Hemel Hempstead, : .

[26] Piya S.,Shrestha I.,Gauchan D.P.,Lamichhane J. .2018 .Vermicomposting in organic agriculture; Influence on the soil nutrients and plant growth. Int. J. Res., 5 : 1055-1063.

[27] Raja S.,Verma M.R.,Satpathy P.C.,Yadav L.M.,Kumar R.,Ullah Z.,Govindakrishnan P.M. .2018 .Genotype by environment interaction and yield stability of potato cultivars under tropical conditions. JAST., 20(3) : 583-595.

[28] Sikder R.K.,M.M. Rahman S.M.W.,Bari H.,Mehraj H. .2017 .Effect of organic fertilizers on performance of seed potato. Trop. Plant. Res., 4 : 104-108.

[29] Tesfaye A,Wongchaochant S.,Taychasinpitak T.,Leelapon O. .2012 .Dry matter content, starch content and starch yield variability and stability of potato varieties in Amhara Region of Ethiopia. , 46(5) : 671-683.

[30] Wass M. .2016 .Specific gravity, dry matter content, and starch content of potato (Solanum tuberosum L.) varieties cultivated in Eastern Ethiopia. East Afr. J. Sci., 10(2) : 87-102.

[31] Yourtchi M.S.,Hadi M.H.S.,Darzi M.T. .2013 .Effect of nitrogen fertilizer and vermicompost on vegetative growth, yield and NPK uptake by tuber of potato (Agria CV.). Int. J. Agric. Sci., 5(18) : 2033-2040.

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