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Optimizing growth conditions and biostimulant application for enhanced growth, yield and quality in Butter bean (Phaseolus lunatus L.) cultivar KKL 1

Authors

Vignesh M Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0009-0009-7369-2101
Ravindran C Horticultural & Forestry Research station, Kodaikanal, Dindigul, Tamil Nadu Agricultural University, Tamil Nadu - 624 103, India https://orcid.org/0000-0002-7514-4848
Kumar S Horticultural & Forestry Research station, Kodaikanal, Dindigul, Tamil Nadu Agricultural University, Tamil Nadu - 624 103, India https://orcid.org/0000-0003-3015-5751
Kalpana K Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0000-0002-8609-8429
Srimathi Priya L Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0000-0003-3649-2548
Sundharaiya K Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0009-0009-4913-0942
Nageswari K Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0000-0002-6814-4233
Preethi T L Krishi Vigyan Kendra, Tirur, Tiruvallur, Tamil Nadu - 602 025, India https://orcid.org/0000-0002-9999-1144
Manivannan R Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0000-0002-4355-3399
Muthuramaligam C Horticultural College and Research Institute, Periyakulam, Theni, Tamilnadu Agricultural University, Tamil Nadu - 625 604, India https://orcid.org/0000-0001-5739-8775

DOI:

https://doi.org/10.14719/pst.4516

Keywords:

Biostimulant, butter bean, fulvic acid, panchagavya, seaweed extract, yield characters

Abstract

Butter beans (Phaseolus lunatus) are prized for their significant nutraceutical benefits, which are crucial in addressing malnutrition in developing countries. Given their nutritional advantages, global cultivation demand is increasing. This study aims to boost production and improve crop quality through effective agronomic practices. To minimize dependence on synthetic chemicals, the study investigates the use of biostimulants as an alternative, offering a promising method for enhancing crop growth and performance. The experiment took place under 2 different conditions: polyhouse (G1) and open field condition (G2) at Horticultural and Forestry Research Station, Kodaikanal, from December 2023 to June 2024. Various biostimulants were applied in foliar parts in different doses: control (B1) seaweed extract at 3 % (B2) and 5 % (B3), panchagavya at 3 % (B4) and 5 % (B5), vermiwash at 5 % (B6) and 10 % (B7) and fulvic acid at 6 g/L (B8) and 9 g/L (B9), each replicated 3 times. Among the treatment combinations, G1B3 (seaweed extract 5 % under polyhouse condition) was most effective in all growth, yield and quality parameters including days to first flower emergence (48.50 days), number of pods per plant (96.33), pod yield (4.98 t/ha), highest soluble protein (37.36 %) than G2B1 (control group under open field condition). It resulted in a greater number of days for flower emergence (57.85 days), lowest values in number of pods per plant (69.91), pod yield (2.96 t/ha) and soluble protein (24.69 %). These findings suggest that seaweed extract has great potential as a sustainable agricultural input, enhancing productivity and crop performance in butter bean cultivation. The main goals were to investigate how different biostimulants and growing conditions affect the growth and yield of butter beans and to identify effective organic growth promoters that could improve the yield and quality of butter bean crops in various growing environments. The results of this study are discussed in the following sections.

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References

da Costa Neto VP, Mendes JB, de Araújo AS, de Alcântara Neto F, et al. Symbiotic performance, nitrogen flux and growth of lima bean (Phaseolus lunatus L.) varieties inoculated with different indigenous strains of rhizobia. Symbiosis. 2017;73:117-24. https://doi.org/10.1007/s13199-017-0475-6

Ishaya F, Aletor O. Nutritive potential and functional attributes of Lima bean (Phaseolus lunatus) and Pigeon pea (Cajan cajanus) protein isolates. Journal of Integrative Food Sciences and Nutrition. 2019;3(1):6.

Souci S, Fachmann W, Kraut H. revised by Kirchhoff E. Food Composition and Nutrition Tables, based on the 7th edition. Stuttgart; 2008.

Aremu MO, Salau RB, Olowoniyi FD, Ambo AI, et al. Chemical analyses and food property of Lima bean (Phaseolus lunatus L.) seeds grown in Plateau state in Nigeria. International Journal of Chemical Sciences. 2010;3(1):83-93.

Mandaliya J, Desai K, Patel C, Gondaliya B, Solanki P. Response of vegetable cowpea [Vigna unguiculata (L.) Walp.] to different biostimulants. The Pharma Innovation Journal. 2021;11(4):216-21.

Spinelli F, Fiori G, Noferini M, Sprocatti M, Costa G. A novel type of seaweed extract as a natural alternative to the use of iron chelates in strawberry production. Scientia Horticulturae. 2010;125(3):263-69. https://doi.org/10.1016/j.scienta.2010.03.011

Vallimayil J, Sekar R. Investigation on the effect of panchagavya on sounthern sunnhemp mosaic virus (SSMV) infected plant systems. Global Journal of Environmental Research. 2012;6(2):75-79.

Ansari AA. Soil profile studies during bioremediation of sodic soils through the application of organic amendments (vermiwash, tillage, green manure, mulch, earthworms and vermicompost). World Journal of Agricultural Sciences. 2008;4(5):550-53.

Akinci IE, Ongel O. Nikelin fasulye (Phaseolus vulgaris) fide geli?imi üzerindeki toksisitesinin humik asit ile azalt?lmas?. Ekoloji. 2011;20(79):29-37.

García AC, Santos LA, Izquierdo FG, Rumjanek VM, Castro RN, et al. Potentialities of vermicompost humic acids to alleviate water stress in rice plants (Oryza sativa L.). Journal of Geochemical Exploration. 2014;136:48-54. https://doi.org/10.1016/j.gexplo.2013.10.005

Noli ZA, Aliyyanti P, editors. Effect of liquid seaweed extracts as biostimulant on vegetative growth of soybean. IOP conference series: Earth and Environmental Science; 2021:759. https://doi.org/10.1088/1755-1315/759/1/012029

Kocira S, Kocira A, Kornas R, Koszel M, Szmigielski M, et al. Effects of seaweed extract on yield and protein content of two common bean (Phaseolus vulgaris L.) cultivars. Legume Research-An International Journal. 2018;41(4):589-93. https://doi.org/10.18805/LR-383

Shehata S, Abdel-Azem HS, Abou El-Yazied A, El-Gizawy Am. Effect of foliar spraying with amino acids and seaweed extract on growth chemical constitutes, yield and its quality of celeriac plant. European Journal of Scientific Research. 2011;58(2):257-65.

Zodape ST, Mukhopadhyay S, Eswaran K, Reddy MP, Chikara J. Enhanced yield and nutritional quality in green gram (Phaseolus radiata L) treated with seaweed (Kappaphycus alvarezii) extract. Journal of Scientific and Industrial Research. 2010;69:468-71.

Zahid PB. Preparation of organic fertilizer from seaweed and its effect on the growth of some vegetable and ornamental plants. Pakistan Journal of Biological Sciences (Pakistan). 1999;2(4):1274-77. https://doi.org/10.3923/pjbs.1999.1274.1277

Reitz SR, Trumble JT. Effects of cytokinin-containing seaweed extract on Phaseolus lunatus L.: influence of nutrient availability and apex removal. Botanical Marina. 1996;39:33-38. https://doi.org/10.1515/botm.1996.39.1-6.33

Sridhar S, Rengasamy R. Significance of seaweed liquid fertilizers for minimizing chemical fertilizers and improving yield of Arachis hypogaea under field trial. Recent Research in Science and Technology. 2010;2(5):73-80.

Sasikumar K, Govindan T, Anuradha C. Effect of seaweed liquid fertilizer of Dictyota dichotoma on growth and yield of Abelmoschus esculentus (L). European Journal of Experimental Biology. 2011;1(3):223-27.

Sutharsan S, Nishanthi S, Srikrishnah S. Effects of foliar application of seaweed (Sargassum crassifolium) liquid extract on the performance of Lycopersicon esculentum Mill. in sandy regosol of Batticaloa district Sri Lanka. American-Eurasian Journal of Agriculatural and Environmental Sciences. 2014; 14(12):1386-96.

Fan LM, Wang YF, Wang H, Wu WH. In vitro Arabidopsis pollen germination and characterization of the inward potassium currents in Arabidopsis pollen grain protoplasts. Journal of Experimental Botany. 2001;52(361):1603-14. https://doi.org/10.1093/jexbot/52.361.1603

Kumari N, Kumar M, Chaudhary N, Zhang B, Radha, Chandran D, et al. Exploring the chemical and biological potential of Jamun (Syzygium cumini (L.) Skeels) leaves: a comprehensive review. Chemistry and Biodiversity.2023;20(9). https://doi.org/10.1002/cbdv.202300479

Sircar S. Hormonal control of root growth. Bulletin of the Botanical Society of Bengal. 1965;19:63.

Kumar G, Sahoo D. Effect of seaweed liquid extract on growth and yield of Triticum aestivum var. Pusa Gold. Journal of Applied Phycology. 2011;23:251-55. https://doi.org/10.1007/s10811-011-9660-9

Temple W, Bomke A. Effects of kelp (Macrocystis integrifolia and Ecklonia maxima) foliar applications on bean crop growth. Plant and Soil. 1989;117:85-92. https://doi.org/10.1007/BF02206260

Ramya SS, Nagaraj S, Vijayanand N. Biofertilizing efficiency of brown and green algae on growth, biochemical and yield parameters of Cyamopsis tetragonolaba (L.) Taub. Recent Research in Science and Technology. 2010;2(5):45-52.

Pramanick B, Brahmachari K, Ghosh A. Effect of seaweed saps on growth and yield improvement of green gram. African Journal of Agricultural Research. 2013;8(13):1180-86. https://doi.org/10.5897/AJAR12.1894

Youssef FA, El-Segai M, Abou-Taleb SM, Massoud KW. Response of cowpea (Vigna unguiculata L.) plant to seaweed and yeast extracts. Plant Archives (09725210). 2019;19(2):2363-70.

Nelson W, Van Staden J. The effect of seaweed concentrate on wheat culms. Journal of Plant Physiology. 1984;115(5):433-37. https://doi.org/10.1016/S0176-1617(84)80042-5

Z Sarhan T. Effect of humic acid and seaweed extract on growth and yield of potato (Solanum tuberosum L) CV. Desiree Mesopotamia Journal of Agriculture. 2011;39(2):19-25. https://doi.org/10.33899/magrj.2011.30377

Thirumaran G, Arumugam M, Arumugam R, Anantharaman P. Effect of seaweed liquid fertilizer on growth and pigment concentration of Cyamopsis tetrogonolaba (L) Taub. American-Eurasian Journal of Agronomy. 2009;2(2):50-56.

Rathore SS, Chaudhary DR, Boricha GN, Ghosh A, et al. Effect of seaweed extract on the growth, yield and nutrient uptake of soybean (Glycine max) under rainfed conditions. South African Journal of Botany. 2009;75(2):351-55. https://doi.org/10.1016/j.sajb.2008.10.009

Khan W, Rayirath UP, Subramanian S, Jithesh MN, Rayorath P, et al. Seaweed extracts as biostimulants of plant growth and development. Journal of Plant Growth Regulation. 2009;28:386-99. https://doi.org/10.1007/s00344-009-9103-x

Beghdady MS. Influence of foliar spray with seaweed extract on growth, yield and its quality, profile of protein pattern and anatomical structure of chickpea plant (Cicer arietinum L.). Middle East Journal of Applied Sciences. 2016.

Atzmon N, Van Staden J. The effect of seaweed concentrate on the growth of Pinus pinea seedlings. New Forests. 1994;8:279-88. https://doi.org/10.1007/BF00025373

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Published

25-09-2024

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01-10-2024 (2)
25-09-2024 (1)

How to Cite

M V, C R, S K, K K, L SP, K S, K N, T L P, R M, C M. Optimizing growth conditions and biostimulant application for enhanced growth, yield and quality in Butter bean (Phaseolus lunatus L.) cultivar KKL 1. Plant Sci. Today [Internet]. 2024 Sep. 25 [cited 2024 Nov. 19];. Available from: https://horizonepublishing.com/journals/index.php/PST/article/view/4516

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