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Oct 19, 2020
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Apr 17, 2021
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Abstract

A multilocational field trial was conducted to investigate the effect of some plant extracts (Bolanite aegyptica, Eucalyptus camaldulensis and Citrus aurantium) and a synthetic antibiotic (Streptomycin) on the incidence and severity of angular leaf spot on five cotton genotypes namely SAMCOT-8, SAMCOT-9, SAMCOT-10, SAMCOT-11 and SAMCOT-12 in Yola and Jalingo, both located in the northern guinea savannah zone of Nigeria. The experiment was carried out on a split-plot design having three replications with cotton genotypes on the main plots and plant extracts on the sub-plots. Data collected on the incidence and severity of the disease were analysed using the Generalized Linear Model procedure and means separation at 5% level of probability by Duncan Multiple Range Test. Findings of the study revealed that Streptomycin and Bolanite aegyptiaca were able to reduce the disease incidence by 18.12% from 58.69% in Yola at 13 WAS. In Jalingo however, B. aegyptiaca was found to have reduced the disease severity from 52.12% to 19.69% at 13 WAS. SAMCOT-8 consistently recorded lower incidence and severity means in Yola and Jalingo of 47.96%; 59.12% and 40.82%; 39.70% while SAMCOT-12 recorded higher means of 53.29%; 59.82% and 48.03%; 46.70% respectively.

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How to Cite
Bawa, I., Nahunnaro, H., Barde, L. Y., Sule Gaba, T., & Musa, A. (2021). Effects of botanical extracts and antibiotic on incidence and severity of bacterial blight of cotton incited by Xanthomonas axonopodis pv. Malvacearum. Journal of Agriculture and Applied Biology, 2(1), 20-26. https://doi.org/10.11594/jaab.02.01.03

References

Atiq, M., Ahmad, W., Rafique, M., Sahi, S. T., ur Rehman, A., Younis, M., ... & Nawaz, U. (2014). Genetic po-tential of cotton germplasm for management of bacterial blight disease. Pakistan Journal of Phyto-pathology, 26(1), 109-112. CrossRef
Atungwu, J. J., Olabiyi, T. I., Olatunji, J. O., & Fasanu, A. (2011). Assessment of varietal resistance and two organic fertilizers in the management of southern root-knot nematode in soyabean (Glycine max). Bi-ological Agriculture & Horticulture, 27(2), 231-239. CrossRef
Awurum, A. N., & Emechebe, A. M. (2001). The effects of leaf spot diseases and staking on yield and yield at-tributes of winded bean Psophocarpus tetragonolo-bus (L. Dc.). Journal of Applied Chemistry and Agri-cultural Research, 7(1), 42-47. CrossRef
Guo, W., Sun, J., & Zhang, T. (2003). Gene cloning and molecular breeding to improve fiber qualities in cotton. Chinese Science Bulletin, 48(8), 709-717.
Hutin, M., Sabot, F., Ghesquière, A., Koebnik, R., & Szurek, B. (2015). A knowledge‐based molecular screen uncovers a broad‐spectrum Os SWEET 14 re-sistance allele to bacterial blight from wild rice. The Plant Journal, 84(4), 694-703. CrossRef
Jalloul, A., Sayegh, M., Champion, A., & Nicole, M. (2015). Bacterial blight of cotton. Phytopathologia Mediter-ranea, 3-20. CrossRef
Jayalakshmi, B., Raveesha, K. A., & Amruthesh, K. N. (2014). Evaluation of antibacterial and antioxidant potential of Euphorbia cotinifolia Linn. leaf extracts. Chemical Industry and Chemical Engineer-ing Quarterly, 20(1), 19-28. CrossRef
Juroszek, P., & Von Tiedemann, A. (2011). Potential strategies and future requirements for plant dis-ease management under a changing climate. Plant Pathology, 60(1), 100-112. CrossRef
Marri, N. A., Lodhi, A. M., Hajano, J., Shah, G. S., & Maitlo, S. A. (2012). Response of different sesame (Sesamum indicum L.) cultivars to alternaria leaf spot disease (Alternaria sesami) (kawamura) mo-hanty & behera. Pakistan Journal of Phytopatholo-gy, 24(2), 129-132. http://pakps.com/pjp/files/129-132-Dr.Abdul-Mobeen.pdf
Opara, E. U., & Obani, F. T. (2009). Performance of some plant extracts and pesticides in the control of bac-terial spot diseases of Solanum. Agricultural Jour-nal, 4(5), 250-253. CrossRef
Partzsch, L., Zander, M., & Robinson, H. (2019). Cotton certification in Sub-Saharan Africa: Promotion of environmental sustainability or greenwashing? Global Environmental Change, 57, 101924. Cross-Ref
Rajput, I. A., Syed, T. S., Abro, G. H., Khatri, I., & Lodhi, A. M. (2017). Effect of different plant extracts against pink bollworm, Pectinophora gossypiella (Saund.) larvae on Bt. and non-Bt. cotton. Pakistan Journal of Agricultural Research, 30(4), 373-379. https://www.cabi.org/gara/FullTextPDF/2018/20183111824.pdf
Sharlach, M., Dahlbeck, D., Liu, L., Chiu, J., Jiménez-Gómez, J. M., Kimura, S., ... & Jones, J. B. (2013). Fi-ne genetic mapping of RXopJ4, a bacterial spot dis-ease resistance locus from Solanum pennellii LA716. Theoretical and Applied Genetics, 126(3), 601-609. CrossRef
Soladoye, M. O., & Chukwuma, E. C. (2012). Phytochemi-cal analysis of the stem and root of Cissus populnea (Vitaceae)–an important medicinal plant in Central Nigeria. Phytologia Balcanica, 18(2), 149-153. http://www.bio.bas.bg/~phytolbalcan/PDF/18_2/18_2_08_Soladoye_&_Chukwuma.pdf
Thompson, P. B. (2012). The agricultural ethics of biofu-els: the food vs. fuel debate. Agriculture, 2(4), 339-358. CrossRef
Wendel, J. F., & Grover, C. E. (2015). Taxonomy and evo-lution of the cotton genus, Gossypium. Cotton, 57, 25-44. CrossRef