Aqueous Extract of (Eruca sativa Mill) as Growth Stimulant in Enhancing Growth and Yield of Faba Bean (Vicia faba L)

Amal F  Ehtaiwwesh; Fouziyah  Qarimidah

doi:10.54172/mjsc.v36i1.14

Authors

Amal F Ehtaiwwesh Department of plant science, University of Zawia, Libya
Fouziyah Qarimidah Department of plant science, University of Zawia, Libya

DOI:

https://doi.org/10.54172/mjsc.v36i1.14

Keywords:

Vicia faba L, Eruca sativa Mill, Aqueous Extracts, Growth, Yield

Abstract

A field study was conducted in the fall of 2019 to investigate the potential of Arugula (Eruca sativa Mill) aqueous extract as a growth stimulant in enhancing the growth and yield of Fa- ba Bean (Vicia faba L). The study was conducted using sandy soil at a farm in Abo Esaa town in a plot size of 3X5 m2 with a row spacing of 25cm,which based on a complete randomized design (RCD) with four replications, three treatments were carried out, including no foliar spray with E. sativa extracts (control) and foliar sprayed with 20% and 40% aqueous extracts of E. sativa. Ac- cordingly, Faba Bean (Vicia faba L) plants were foliar sprayed six times with the aqueous extracts of E. sativa at rates of 20 and 40% at vegetative and reproductive stages. The result showed that among these concentrations, the foliar spray of faba bean plants with 40% of E. sativa extracts po- tentially were increased all measured growth and yield traits. The results pointed out that plant height increased by 32%, number of branches by 73%, number of leaves by 95%, number of seeds plant by 89%, leaves, stems, pods and roots dry weight by 92%, 80%, 74%, and 89%, respectively. Thus, the study concluded that E. sativa aqueous extracts could potentially be used efficiently by crop producers as a growth enhancer for faba bean crops because of their productivity, great nutri- tive value, low cost, and environmentally friendly nature.

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References

Abdalla, M. M. (2013). The potential of Moringa oleifera extract as a biostimulant in enhancing the growth, biochemical and hormonal contents in rocket (Eruca vesi-caria subsp. sativa) plants. International journal of plant physiology and biochem-istry, 5(3), 42-49. DOI: https://doi.org/10.5897/IJPPB2012.026

Abd El–Hamied, S. A., & El-Amary, E. I. (2015). Improving growth and productivi-ty of “pear” trees using some natural plants extracts under north sinai condi-tions. Journal of Agriculture and veteri-nary Science, 8(1), 1-9.

Ashraf, R., Sultana, B., Iqbal, M., & Mushtaq, M. (2016). Variation in biochemical and antioxidant attributes of Raphanus sativus in response to foliar application of plant leaf extracts as plant growth regula-tor. Journal of Genetic Engineering and Biotechnology, 14(1), 1-8. DOI: https://doi.org/10.1016/j.jgeb.2016.08.003

Barlas, N. T., Irget, M. E., & Tepecik, M. (2011). Mineral content of the rocket plant (Eruca sativa). African Journal of Biotech-nology, 10(64), 14080-14082. DOI: https://doi.org/10.5897/AJB11.2171

Bukhsh, E., Malik, S. A., & Ahmad, S. S. (2007). Estimation of nutritional value and trace elements content of Carthamus oxy-acantha, Eruca sativa and Plantago ovata. Pakistan Journal of Botany, 39(4), 1181.

Bulgari, R., Cocetta, G., Trivellini, A., Verni-eri, P., & Ferrante, A. (2015). Biostimu-lants and crop responses: a review. Bio-logical Agriculture & Horticulture, 31(1), 1-17. DOI: https://doi.org/10.1080/01448765.2014.964649

Cherif, C., Hassanat, F., Claveau, S., Girard, J., Gervais, R., & Benchaar, C. (2018). Faba bean (Vicia faba) inclusion in dairy cow diets: effect on nutrient digestion, ru-men fermentation, nitrogen utilization, me-thane production, and milk perfor-mance. Journal of dairy science, 101(10), 8916-8928. DOI: https://doi.org/10.3168/jds.2018-14890

Crépon, K., Marget, P., Peyronnet, C., Carrou-ee, B., Arese, P., & Duc, G. (2010). Nu-tritional value of faba bean (Vicia faba L.) seeds for feed and food. Field Crops Re-search, 115(3), 329-339. DOI: https://doi.org/10.1016/j.fcr.2009.09.016

Culver, M., Fanuel, T., & Chiteka, A. Z. (2012). Effect of Moringa extract on growth and yield of tomato. Greener Journal of Agricultural Sciences, 2(5), 207-211.

El-Dabaa, M. A. T., Ahmed, S. A. E., Messiha, N. K., & El-Masry, R. R. (2019). The allelopathic efficiency of Eru-ca sativa seed powder in controlling Oro-banche crenata infected Vicia faba culti-vars. Bulletin of the National Research Centre, 43(1), 37. DOI: https://doi.org/10.1186/s42269-019-0079-9

Elzaawely, A. A., Ahmed, M. E., Maswada, H. F., & Xuan, T. D. (2017). Enhancing growth, yield, biochemical, and hormonal contents of snap bean (Phaseolus vulgaris L.) sprayed with moringa leaf extract. Ar-chives of Agronomy and Soil Science, 63(5), 687-699. DOI: https://doi.org/10.1080/03650340.2016.1234042

Emongor, V. E. (2015). Effects of moringa (Moringa oleifera) leaf extract on growth, yield and yield components of snap beans (Phaseolus vulgaris). British Journal of Applied Science & Technology, 6(2), 114. DOI: https://doi.org/10.9734/BJAST/2015/14795

Hassanein, R. A., Abdelkader, A. F., & Fara-mawy, H. M. (2019). Moringa leaf ex-tracts as biostimulants-inducing salinity tolerance in the sweet basil plant. Egyptian Journal of Botany, 59(2), 303-318.

Hong, N. H., Xuan, T. D., Eiji, T., & Khanh, T. D. (2004). Paddy weed control by higher plants from Southeast Asia. Crop Protection, 23(3), 255-261. DOI: https://doi.org/10.1016/j.cropro.2003.08.008

Hoque, T. S., Rana, M. S., Zahan, S. A., Ja-han, I., & Abedin, M. A. (2020). Moringa leaf extract as a bio-stimulant on growth, yield and nutritional improvement in cab-bage. Asian Journal of Medical and Bio-logical Research, 6(2), 196-203. DOI: https://doi.org/10.3329/ajmbr.v6i2.48050

Khanh, T. D., Xuan, T. D., Hahn, S. J., & Chung, I. M. (2004). Methods to screen allelopathic accessions of wheat, barley, oat, sorghum and cucumber for weed con-trol. Allelopathy Journal, 14(2), 145-165.

Khan, A. U., Ullah, F., Khan, N., Mehmood, S., Fahad, S., Datta, R., Irshad, I., Danish, S., Saud, S., & Alaraidh, I. A. (2021). Production of Organic Fertilizers from Rocket Seed (Eruca Sativa L.), Chicken Peat and Moringa Oleifera Leaves for Growing Linseed under Water Deficit Stress. Sustainability, 13(1), 59. DOI: https://doi.org/10.3390/su13010059

Koubaa, M., Driss, D., Bouaziz, F., Ghorbel, R. E., & Chaabouni, S. E. (2015). Antiox-idant and antimicrobial activities of solvent extract obtained from rocket (Eruca sativa L.) flowers. Free Radicals & Antioxi-dants, 5(1). DOI: https://doi.org/10.5530/fra.2015.1.5

Macías, F. A., Chinchilla, N., Varela, R. M., & Molinillo, J. M. (2006). Bioactive steroids from Oryza sativa L. Steroids, 71(7), 603-608. DOI: https://doi.org/10.1016/j.steroids.2006.03.001

Odhiambo, K., Murungi, J., Wanjau, R., & Naumih, N. (2019). The Effect of Croton macrostachyus, Plectranthus barbatus Leaf Aqueous Extracts and Inorganic Fertilizers on Growth and Nutrients Concentration of Brassica oleracea L. in a Greenhouse at Nairobi. Asian Journal of Agricultural Ex-tension, Economics & Sociology. 29(3): 1-10. DOI: https://doi.org/10.9734/AJAEES/2019/46347

Phiri, C. (2010). Influence of Moringa oleifera leaf extracts on germination and early seedling development of major cere-als. Agriculture and Biology Journal of North America, 1(5), 774-777. DOI: https://doi.org/10.5251/abjna.2010.1.5.774.777

Posmyk, M. M., & Szafrańska, K. (2016). Bi-ostimulators: a new trend towards solving an old problem. Frontiers in plant sci-ence, 7, 748. DOI: https://doi.org/10.3389/fpls.2016.00748

Sadiq, A., Hayat, M. Q., & Mall, S. M. (2014). Qualitative and quantitative deter-mination of secondary metabolites and an-tioxidant potential of Eruca sativa. Natural Products Chemistry & Research. DOI: https://doi.org/10.4172/2329-6836.1000137

Yakhin, O. I., Lubyanov, A. A., Yakhin, I. A., & Brown, P. H. (2017). Biostimulants in plant science: a global perspective. Fron-tiers in plant science, 7, 2049 DOI: https://doi.org/10.3389/fpls.2016.02049