Sains Malaysiana 52(3)(2023): 757-770

http://doi.org/10.17576/jsm-2023-5203-06

 

Estimation of Biocidal Potential of Desert Phytopowders for the Management of Citrus Canker

(Anggaran Potensi Biosid Fitoserbuk Gurun untuk Pengurusan Kanker Sitrus)

 

MUHAMMAD ATIQ1,*, KIRAN FATIMA2, NASIR AHMED RAJPUT1, SHAHBAZ TALIB SAHI1, AKHTAR HAMEED3, MUHAMMAD USMAN1, USAMA AHMAD1, ADEEL SULTAN1, SHAHID IQBAL1 & AHMAD NAWAZ1

 

1Department of Plant Pathology, University of Agriculture, Faisalabad, Pakistan

2 Department of Botany, Faculty of Basic Sciences, University of Agriculture, Faisalabad,

Pakistan

3Institute of Plant Protection, MNS-University of Agriculture Multan, Pakistan

 

Received: 2 March 2022/Accepted: 27 February 2023

 

Abstract

Citrus is one of the most important fruit crops, throughout the world. It is a rich source of antioxidants and vitamin C. Citrus canker is a potential threat to its successful production. In current study, ten desert phytopowders including Xanthium strumarium, Dipterygium galucun, Leptadenia pyrotechnica, haloxylon recurvum, Suaeda fruticosa, Salsola baryosma, Citruluscolocynthis, Abutilon indicum, Aerva javanica, and Calotropis procera at three different concentrations (5.0, 7.5 and 10.0%) were evaluated under in vitro conditions against Xanthomonas citri pv. citri. Among all phytopowders, X. strumarium and S. fruticosa, showed maximum inhibition zone (40 mm) followed by S. baryosma(38.50 mm) C. colocynthis(37 mm), Abutilon indicum(34 mm), H. recurvum(32 mm), D. galucun (30.5 mm), A. javanica, (29.50 mm), L. pyrotechnica, (29.5 mm) and C. procera (28 mm) as compared to control. Then, effective phytopowders were applied under greenhouse and field conditions @ 5.0, 7.5 and 10.0% against citrus canker. Combination of X. strumarium + S. baryosma showed minimum disease severity (22%) followed by X. strumarium (26%), X. strumarium + S. fruticosa (27%), S. fruticosa (27%), X. strumarium + S. baryosma (27%), and S. baryosma (29%) as compared to control. While in field experiment, the combination of X. strumarium + S. fruticosa showed significant results with minimum disease severity (32%) followed by S. fruticosa + S. baryosma (32%), X. strumarium + S. baryosma (33%), S. baryosma (35%), X. strumarium (36%) and S. fruticosa (36%) as compared to control. It is concluded that application of X. strumarium + S. baryosma phytopowders will be helpful for farmers to combat citrus canker.

Keywords: Citrus Canker; eco-friendly management; phytoextracts; Xac

 

Abstrak

Sitrus ialah salah satu tanaman buah-buahan yang paling penting di seluruh dunia. Ia adalah punca yang kaya dengan antioksidan dan vitamin C. Kanker sitrus merupakan ancaman yang berpotensi kepada pengeluaran yang berjaya. Dalam kajian ini, sepuluh fitoserbuk padang pasir termasuk Xanthium strumarium, Dipterygium galucun, Leptadenia pyrotechnica, Haloxylon recurvum, Suaeda fruticosa, Salsola baryosma, Citrulus colocynthis, Abutilon indicum, Aerva javanica dan Calotropis procera pada kepekatan berbeza (5.0, 7.5 dan 10.0%) telah dinilai dalam keadaan in vitro terhadap Xanthomonas citri pv. citri. Antara semua fitoserbuk, X. strumarium dan S. fruticosa menunjukkan zon perencatan maksimum (40 mm) diikuti oleh S. baryosma (38.50 mm) C. colocynthis (37 mm), Abutilon indicum (34 mm), H. recurvum (32 mm), D. galucun (30.5 mm), A. javanica, (29.50 mm), L. pyrotechnica (29.5 mm) dan C. procera (28 mm) berbanding kawalan. Kemudian, fitoserbuk yang berkesan telah digunakan di bawah keadaan rumah hijau dan ladang @ 5.0, 7.5 dan 10.0% terhadap kanker sitrus. Gabungan X. strumarium + S. baryosma menunjukkan tahap keterukan penyakit minimum (22%) diikuti oleh X. strumarium (26%), X. strumarium + S. fruticosa (27%), S. fruticosa (27%), X. strumarium + S. baryosma (27%), S. baryosma (29%) berbanding kawalan. Manakala dalam uji kaji lapangan, gabungan X. strumarium + S. fruticosa menunjukkan keputusan yang ketara dengan keterukan penyakit minimum (32%) diikuti oleh S. fruticosa + S. baryosma (32%), X. strumarium + S. baryosma (33%), S. baryosma (35%), X. strumarium (36%) dan S. fruticosa (36%) berbanding kawalan. Disimpulkan bahawa penggunaan fitoserbuk X. strumarium + S. baryosma akan membantu petani untuk memerangi kanker sitrus.

Kata kunci: Ekstrakfito; kanker sitrus; pengurusan mesra alam; Xac

 

REFERENCES

Afroz, A., Zahur, M., Zeeshan, N. & Komatsu, S. 2013. Plant-bacterium interactions analyzed by proteomics. Frontiers in Plant Science 4: 21-27.

Ahmad, M., Sultana, S., Fazl-i-Hadi, S., Ben Hadda, T., Rashid, S., Zafar, M., Khan, M.A., Khan, M.P.Z. & Yaseen, G. 2014. An ethnobotanical study of medicinal plants in high mountainous region of Chail valley (district swat-Pakistan). Journal of Ehnobiology and Ethnomedicin 10: 1-18.

Al-Faifi, Z.I. 2019. In vitro anticancer, antioxidant and antimicrobial activities of crude methanolic extract of Euphorbia cactus plant. Pharmacology 15: 907-915.

Amaral, A.M., Carvalho, S.A., Silva, L.F.C. & Machado, M.A. 2010. Reaction of genotypes of Citrus species and varieties to Xanthomonas citri subsp. citri under greenhouse conditions. Journal of Plant Pathology 92: 519-524.

Asthana, D.K. 2001. Environment: Problems and Solutions. Jalandhar: S. Chand Publishing.

Atiq, M., Khan, M.A., Sahi, S.T., Ahmad, R., Younas, M., Shafiq, M. & Ali, Y. 2018. Appraisal of plant extracts and streptomycin sulfate against citrus canker disease. Archives of Phytopathology and Plant Protection 51: 824-833.

Azimbaeva, G.E., Abdikerim, M.S., Izteleu, B.M., Smailova, K.S. & Kamysbaeva, A.K. 2020. Study of the amino acid and elemental composition of the aboveground part of Xanthium strumarium plants. Chemical Journal of Kazakhstan 3: 161-164.

Ben Yakoub, A.R., Abdehedi, O., Jridi, M., Elfalleh, W., Nasri, M. & Ferchichi, A. 2018. Flavonoids, phenols, antioxidant and antimicrobial activities in various extracts from Tossa jute leave (Corchorus olitorus L.). Indian Crops Production 118: 206-213.

Bowers, J.H. & Locke, J.C. 2000. Effect of botanical extracts on the population density of Fusarium oxysporum in soil and control of Fusarium wilt in the greenhouse. Plant Disease 84: 300-305.

Cernadas, R.A. & Benedetti, C.E. 2009. Role of auxin and gibberellin in citrus canker development and in the transcriptional control of cell-wall remodeling genes modulated by Xanthomonas axonopodis pv. citriPlant Science 177: 190-195.

Chapman, J.M., Muhlemann, J.K., Gayomba, S.R. & Muday, G.K. 2019. RBOH-dependent ROS synthesis and ROS scavenging by plant specialized metabolites to modulate plant development and stress responses. Chemical Research and Toxicology 32: 370-396.

Choi, J.G., Kang, O.H., Lee, Y.S., Oh, Y.C., Chae, H.S., Obiang-Obounou, B., Park, S.C., Shin, D.W., Hwang, B.Y. & Kwon, D.Y. 2010. Antimicrobial activity of the constituents of Smallanthus sonchifolius leaves against methicillin-resistant Staphylococcus aureus. European Review of Medicine and Pharmacological Science 14: 1005-1009.

Danahap, L.S. & Wonang, D.L. 2016.  Antinematicidal efficacy of root exudates of some crotalaria species on Meloidogyne incognita (root-knot nematode) (kofoid and white) chitwood isolated from infected Lycopersicume sculentum (Tomato) plant. International Journal of Science and Technology Research 5: 79-84.

Daungfu, O., Youpensuk, S. & Lumyong, S. 2019. Endophytic bacteria isolated from citrus plants for biological control of citrus canker in lime plants. Tropical Life Science Research 30: 73-80.

Dewdney, M.M. & Graham, J.H. 2016. Citrus canker. In Florida Citrus Pest Management Guide SP-43, edited by Rogers, M.E. & Dewdney, M.M. IFAS, Gainesville: University of Florida. pp. 93-96.

Ebrahimi, Z., Rezaei, R., Masoumi-Asl, A. & Charehgani, H. 2020. Variation in the aggressiveness of Xanthomonas citri subsp. citri pathotypes A on three Citrus species, and epiphytic growth on some citrus weeds. Crop Pasture Science 71: 260-267.

Food and Agricultural Organization (FAO). 2017. Citrus Fruits Fresh and Processed: Annual Statistics. Rome: United Nations.

Farooq, O. 2014. Pakistan Economic Survey 2013-14. Agriculture. Economic advisory wing, Ministry Finance, Government of Pakistan, Islamabad.

Francis, I., Holsters, M. & Vereecke, D. 2010. The Gram-positive side of plant–microbe interactions. Environmental Microbiology 12: 1-12.

Ghahari, S., Alinezhad, H., Nematzadeh, G.A., Tajbakhsh, M. & Baharfar, R. 2017. Biochemical composition, antioxidant and biological activities of the essential oil and fruit extract of Xanthium strumarium Linn. from Northern Iran. Journal of Agriculture Science and Technology 19: 1603-1616.

Goswami, B.K., Bhuiyan, K.A. & Mian, I.H. 2010. Morphological and pathogenic variations in the isolates of Rhizoctonia solani in Bangladesh. Bangladesh Journal of Agricultural Research 35: 375-380.

Hemraj, V., Diksha, S. & Avneet, G. 2013. A review on commonly used biochemical test for bacteria. Innovare Journal of Life Sciences 1: 1-7.

Holt, R.M., Brandshaug, T. & Cundall, P.A. 2000. Discrete particle and laboratory modelling of core mechanics. In 4th North American Rock Mechanics Symposium, Seattle, Washington.

Hoque, M.D., Mansfield, J.W. & Bennett, M.H. 2005. Agrobacterium-mediated transformation of Indica rice genotypes: An assessment of factors affecting the transformation efficiency. Plant Cell, Tissue and Organ Culture 82: 45-55.

Jawalkar, N., Zambare, S. & Kulkarni, A. 2020. In vitro antimicrobial activity and preliminary phytochemical screening of some plant extracts. Journal of Pharmacognosy and Photochemistry 9: 1649-1653.

Jia, H. & Wang, N. 2020. Generation of homozygous canker resistant citrus in the T0 generation using CRISPR SpCas9p. Plant Biotechnology Journal 18: 1990-1992.

Juhasz, C.C., Leduc, A., Boyer, C., Guérin, F., Vernière, C., Pruvost, O., Wonni, I. & Ouédraogo, L. 2013. First report of Xanthomonas citri pv. citri causing Asiatic citrus canker in Burkina Faso. Plant Disease 97: 1653-1653.

Khan, R.A.A., Ahmad, M., Naz, I., Najeeb, S., Yanlin, L. & Alam, S.S. 2020. Sustainable management of bacterial wilt of tomato using dried powder of Xanthium strumarium L. Journal of Plant Pathology 102: 421-431.

Klement, Z. 1963. Rapid detection of the pathogenicity of phytopathogenic pseudomonads. Nature 199: 299-300.

Lanza, F.E., Marti, W., Silva Jr., G.J. & Behlau, F. 2019. Characteristics of citrus canker lesions associated with premature drop of sweet orange fruit. Phytopathology 109: 44-51.

Mahato, N., Sharma, K., Sinha, M. & Cho, M.H. 2018. Citrus waste derived nutra-/pharmaceuticals for health benefits: Current trends and future perspectives. Journal of Functional Foods 40: 307-316.

Mansfield, J., Genin, S., Magori, S., Citovsky, V., Sriariyanum, M., Ronald, P., Dow, M., Verdier, V., Beer, S.V., Machado, M.A. & Toth, I. 2012. Top 10 plant pathogenic bacteria in molecular plant pathology. Molecular             Plant Pathology 13: 614-629.

Memon, N. 2017. Citrus fruit (Kino): Punjab produced 98% of production. Exclusive on Kino. pp. 29-31.

Mitra, J. & Paul, P.K. 2017. A potent biocide formulation inducing SAR in plants. The Journal Plant Diseases and Protection 124: 163-175.

Mubeen, M., Mia, H., Iftikhar, Y., Irfan, M. & Bilqees, I. 2015. Bio-chemical characterization of Xanthomonas axonopodis pv. citri: A gram negative bacterium causing citrus canker. Journal of Pharmacognosy and Photochemistry 6: 151-154.

Nayem, S.A., Chowdhury, M.S.M., Aminuzzaman, F.M., Hossain, B. & Ali, S. 2017. Phytohormone-induced resistance against Xanthomonas axonopodispv. citri in Citrus aurantifolia. American Journal of Plant Science 8: 1135-1147. 

Parveen, Z., Mazhar, S., Siddique, S., Manzoor, A. & Ali, Z. 2017. Chemical composition and antifungal activity of essential oil from Xanthium strumarium L. leaves. Indian Journal of Pharmaceutical Science 79: 316-321.

Prakash, M. & Karmegam, N. 2012. In-vitro antibacterial activity of certain plant extracts against plant disease causing bacteria isolated from citrus plant. International Journal of Current Microbiology and Applied Sciences 1: 1-11.

Radwan, D.E.M., Essa, A., Ghozwany, S., Hamzy, K. & Hefzy, M. 2020. Bioactive compounds, antioxidant and antimicrobial properties of wild plants seed extracts used in traditional medicine. Research Journal of Medicinal Plants 14: 15-23.

Rasool, R., Ganai, B.A., Akbar, S., Kamili, A.N. & Masood, A. 2010. Phytochemical screening of Prunella vulgaris L. - An important medicinal plant of Kashmir. Pakistan Journal of Pharmacological Sciences 23: 399-402.

Rehman, F., Kalsoom, M. & Adnan, M. 2020. Huanglongbing (HLB) as citrus devastating disease: A technical reportSunText Review in Biotechnology 1: 113.

Riaz, T., Shakoori, F.R. & Ali, S.S. 2014. Effect of temperature on the development, survival, fecundity and longevity of stored grain pest, Trogoderma granariumPakistan Journal of Zoology 46: 1485-1489.

Riera, N., Wang, H., Li, Y., Li, J., Pelz-Stelinski, K. & Wang, N. 2018. Induced systemic resistance against citrus canker disease by rhizobacteriaPhytopathology 108: 1038-1045.

Sachin, K., Choudhary, H.S. & Seniya, C. 2011. In-vitro antibacterial study of aqueous and methanolic extracts of some selected medicinal plants. Journal of Chemical and Pharmacological Research 3: 854-860.

Saidulu, C., Venkateshwar, C. & Gangadhar, R.S. 2014. Preliminary phytochemical studies of medicinal plant drug, Withania somniferalinn. Journal of Bio Life 2: 306-312.

Salhan, M., Kumar, B., Tiwari, P., Sharma, P., Sandhar, H.K. & Gautam, M. 2011. Comparative anthelmintic activity of aqueous and ethanolic leaf extracts of Clitoria ternatea. International Journal of Drug Development and Research 3: 68-69.

Sharifi-Rad, J., Hoseini-Alfatemi, S.M., Sharifi-Rad, M., Sharifi-Rad, M., Iriti, M., Sharifi-Rad, M., Sharifi-Rad, R. & Raeisi, S. 2015. Phytochemical compositions and biological activities of essential oil from Xanthium strVVumarium L. Molecules 20: 7034-7047.

Steel, R.G.D. 1997. Analysis of variance II: multiway classifications. In Principles and Procedures of Statistics: A Biometrical Approach, Steel, R.G.D., Torrie, J.H. & Dickey, D.A. McGraw-Hill. pp. 204-252.

Van, K.P., Hoang, N.H., Thu, V.K., Tai, B.H. & Nhiem, N.X. 2020. Diterpene glycosides and phenolic compounds from the fruits of Xanthium strumariumVietnam Journal of Chemistry 58: 648-653.

Villamizar, S. & Caicedo, J.C. 2019. Biological Control of Citrus Canker, New Approach for Disease Control in Plant Pathology and Management of Plant Diseases. IntechOpen.  pp. 215-226.

Yadav, S. & Sharma, C.S. 2018. Novel and green processes for citrus peel extract: A natural solvent to source of carbon. Polymer Bulletin 75: 5133-5142.

Young, M., Ozcan, A., Myers, M.E., Johnson, E.G., Graham, J.H. & Santra, S. 2017. Multimodal generally recognized as safe ZnO/nanocopper composite: A novel antimicrobial material for the management of citrus phytopathogensJournal of Agriculture and Food Chemistry 66: 6604-6608.

Yuniati, N., Kusumiyati, K., Mubarok, S. & Nurhadi, B. 2022. The role of Moringa leaf extract as a plant biostimulant in improving the quality of agricultural products. Plants 11: 2186.

 

*Corresponding author; email: dratiqpp@gmail.com

 

 

 

 

 

 

previous