Growth, late blight and yield response of potato (Solanum tuberosum L.) to arbuscular mycorrhizal fungi inoculation in West region of Cameroon

Anda C.C.O., Ndong A.N., Ndoutoumou P.N., Loubana P.M. (2020): Impact of arbuscular mycorrhizal fungus (Rhizophagus irregularis) on disease symptoms caused by the ascomycete fungus (Mycosphaerella Fijiensis M.) in Black Sigatoka-resistant banana plantain. International Journal of Biological and Chemical Sciences 14: 306–316. DOI:10.4314/ijbcs. v14i2.1 Search in Google Scholar

Balliu A., Sallaku G., Rewald B. (2015): AMF inoculation enhances growth and improves the nutrient uptake rates of transplanted, salt-stressed tomato seedlings. Sustainability 7: 15967–15981. Search in Google Scholar

Barrow C.J. (2012): Biochar potential for countering land degradation and for improving agriculture. Applied Geography 34: 21–28. Search in Google Scholar

Bencherif K., Djaballah Z., Brahimi F., Boutekrabt A., Dalpè Y., Lounès-Hadj A. (2019): Arbuscular mycorrhizal fungi affect total phenolic content and antimicrobial activity of Tamarix gallica in natural semi-arid Algerian areas. South African Journal of Botany 125: 39–45. Search in Google Scholar

Beninal L. (2011): Genetic diversity of Phytophthora infestans agent of late blight of potato in Algeria. El-harrach National School of Agronomy 83–84. Search in Google Scholar

Benniou R., Benamara A. (2001): Influence of the size of mother plants on the final yield and that of the different sizes in four varieties of potato (Solanum tuberosum L.). Science and Technology 16: 29–33. Search in Google Scholar

Bowles T.M., Barrios-Masias F.H., Carlisle E. A., Cavagnaro T.R., Jackson L.E. (2016): Effects of arbuscular mycorrhizae on tomato yield, nutrient uptake, water relations, and soil carbon dynamics under deficit irrigation in field conditions. Science of the Total Environment 566: 1223–1234. doi: 10.1016/j.scitotenv.2016.05.178. Search in Google Scholar

Dey M., Ghosh S. (2022): Arbuscular mycorrhizae in plant immunity and crop pathogen control. R hizosphere 22: 10 0524. http://dx.doi.org/10.1016/j.rhisph.2022.100524. Search in Google Scholar

Djeugap F.J., Dongmo G.Z., Fenohi N., Kenfack N. D., Takuete R., Teguefouet P. (2017): Contribution to the identification of fungi associated w ith Ricinodendron heudelotti and Garcinia kola kernels collected in the Highlands of Western Cameroon. International Journal of Biological and Chemical Sciences 11: 1840–1850. Search in Google Scholar

Dowarah B., Gill S.S., Agarwala N. (2021): Arbuscular mycorrhizal fungi in conferring tolerance to biotic stresses in plants. Journal of Plant Growth Regulation 41: 1429–1444. https://doi.org/10.1007/s00344-021-10392-5. Search in Google Scholar

Duchenne (1990): Cultivation system and elaboration of potato yield in states of Veracruz and Puebla – Mexique. Orstom 1: 12. Search in Google Scholar

Earanna N. (2001): Mycorrhizal Association in Medicinal Plants of Southeastern Dr y Zone of Karnataka and Response of Phyllanthus amarus and Withania somnifera to Inoculat ion with VAM Fungi and Plant Growth Promoting Rhizomicroorganisms. Ph.D. Thesis, University of Agricultural Sciences, Bangalore. Search in Google Scholar

FAO (2022): Food and Agriculture Organization of the United Nations. FAOSTAT Statistical Database. FAO Statistics Division. URL http://faostat.fao.org/. Search in Google Scholar

Ferahani H.A., Lekaschi M.H., Hamidi A. (2008): Effects of a rbuscular mycor rhizal fungi, phosphorus and water stress on quantity and quality characteristics of coriander. Advances in Natural and Applied Sciences 2: 55–59. Search in Google Scholar

Ferjaoui S., Khamassi N., M’Hamdi M., Rhomdani M. E. (2010): Evaluation of the resistance of some varieties of organic potato to late blight (Phytophthora infestans (Mont) de Bary). Tropicultura 28: 44–49. Search in Google Scholar

Fontem D.A., Gumedzoe M.Y.D., Nono-Womdim R. (1998): Biological const raints in tomato production in the western highlands of Cameroun. Tropicultura 17: 89–92. Search in Google Scholar

Galani Y.J.H., Houbraken M., Wumbei A., Djeugap J.F., Fotio D., Gong Y.Y., Spanoghe P. (2021): Contamination of Foods from Cameroon with Residues of 20 Halogenated Pesticides, and Health Risk of Adult Human Dietary Exposure. International Journal of Environmental Research and Public Health 18: 5043–5069. Search in Google Scholar

Galani Y.J.H., Mankad M.P., Shah A.K., Patel N.J., Acharya R.R., Talati J.G. (2017): Effect of Storage Temperature on Vitamin C, Total Phenolics, UPLC Phenolic Acid profile and Antioxidant Capacity of Eleven Potato (Solanum tuberosum L.) Varieties. Horticultural Plant Journal 3: 73–89. Search in Google Scholar

Gracy L.S., Bagyaraj D.J. (2005): Influence of Different AM Fungi on Growth, Nutrition and Forskolin Content of Coleus Forskohlii. Mycological Research 109: 795–798. Search in Google Scholar

Hardigan M.A., Laimbeer F.P.E., Newton L., Crisovan E., Hamilton J.P., Vaillancourt B., Wiegert-Rininger K., Wood J.C., Douches D. S., Farré E.M. (2017): Genome diversity of tuber-bearing Solanum uncovers complex evolutionary history and targets of domestication in the cultivated potato. Proceedings of the National Academy of Sciences 114: E9999–E10008. Search in Google Scholar

Haverkort A., Boonekamp P., Hutten R., Jacobsen E., Lotz L., Kessel G., Visser R., Van der Vossen E. (2009): Societal costs of late blight in potato and prospects of durable resistance through cisgenic modification. Potato Research 51: 47–57. Search in Google Scholar

Hazzoumi Z., Moustak ime Y., Elharchli E.H.E., Joutei K.A. (2015): Effect of arbuscular mycorrhizal fungi (AMF) and water stress on growth, phenolic compounds, glandular hairs, and yield of essential oil in basil (Ocimum gratissimum L). Chemical and Biological Technologies in Agriculture 2: 10. Doi: 10.1186/s40538-015-0035-3. Search in Google Scholar

Jung S.C., Martinez-Medina A., Lopez-Raez J.A., Pozo M.J. (2012): Mycorrhiza-induced resistance and priming of plant defences. Journal of Chemical Ecology 38: 651–664. Search in Google Scholar

Kaur S., Suseela V. (2020): Unravelling arbuscular mycorrhiza-induced changes in plant primary and secondary plant metabolome. Metabolite 10: 335. Search in Google Scholar

Martin C., Demo P., Gass T., Fondong V., Koi J. (1995): Development of a seed production system from in-vitro in Cameroon: Experiences from the first two years. American Journal of Potato Research 72: 299–302. Search in Google Scholar

MINADER (2022) : Annuaire Statistique du Ministère de l’Agriculture et du Développement Rura l. AGRISTAT No 18, 13–45. Search in Google Scholar

Prasad R., Bhola D., Akdi K., Cruz C., Sairam K.V.S.S., Tuteja N., Varma A. (2017): Introduction to mycor rhiza: historical development, in Mycorrhiza. Eds. Varma A., Prasad R., Tuteja N. (Cham: Springer) 1–7. Search in Google Scholar

Smith S. E., Read D. (2008): Mycorrhizal Symbiosis (Third Edition). Academic Press, London. Search in Google Scholar

Tankou C., Pamo T.E., Boukila T.E. (2006): Effect of different nitrogen sources on the growth and yield of common bean in western Cameroon. Pp. 1–5. Search in Google Scholar

Trouvelot A., Kough J.L., Gianinazzi-Pearson V. (1986): Estimation of vesicular arbuscular mycorhizal infection levels. Proceedings of the 1st European Symposium on Mycorhizae, Dijon, France. Search in Google Scholar

Weng W., Yan J., Zhou M., Yao X., Gao A., Ma C., Cheng J., Ruan J. (2022): Roles of Arbuscular mycorrhizal Fungi as a Biocontrol Agent in the Control of Plant Diseases. Microorganisms 10: 7–1266. Search in Google Scholar

Whipps J.M. (2004): Prospects and limitations for mycorrhizas in biocontrol of root pat hogens. Canadian Journal of Botany 82: 1198–1227. DOI: 10.1139/b04-082. Search in Google Scholar

Zadoks J.C., Schein R.D. (1979): Epidemiology and Plant Disease Management. New York: Oxford University Press Pg. 427. Search in Google Scholar