Full Length Research Paper
References
Abo Elgat WAA, Kordy AM, Böhm M, ?erný R, Abdel-Megeed A, Salem MZM (2020). Eucalyptus camaldulensis, Citrus aurantium, and Citrus sinensis essential oils as antifungal activity against Aspergillus flavus, Aspergillus niger, Aspergillus terreus, and Fusarium culmorum. Processes 8(8). |
|
Agassounon DTM, Houansou GD, Ladekan E, Adjagodo A, Tchobo PF, Agbangla C (2020). Identification des microflores mycologiques présentes dans les casse-croûtes à base de céréales produits et vendus dans sept departements du Bénin. Revue Ivoirienne Des Sciences et Technologie 36:267-283. |
|
Barra A, Coroneo V, Dessi S, Cabras P, Angioni A (2010). Chemical variability, antifungal and antioxidant activity of Eucalyptus camaldulensis essential oil from Sardinia. Natural Product Communications 5(2):329-335. |
|
Boedeker W, Watts M, Clausing P, Marquez E (2020). The global distribution of acute unintentional pesticide poisoning: estimations based on a systematic review. BMC Public Health 20(1):1-19. |
|
Bossou AFAD, Bogninou GSR, Agbangnan Dossa CP, Yedomonhan H, Avlessi F, Sohounhloué CKD (2020). Volatile Profiles and Biological Properties of Cymbopogon Citratus, Cymbopogon Giganteus, Cymbopogon Shoenanthus, and Their Isolated Compounds: a Review. Journal of Biomedical and Pharmaceutical Research 9(1):22-32. |
|
CSP (2020). Liste globale des pesticides autorisés par le Comité Sahélien des Pesticides (CSP). Institut Du Sahel 23(4):1-16. |
|
Czerwiecki L, Czajkowska D, Witkowska-Gwiazdowska A (2010). On ochratoxin A and fungal flora in Polish cereals from conventional and ecological farms - Part 1: Occurrence of ochratoxin A and fungi in cereals in 1997. Food Additives and Contaminants 19(5):470-477. |
|
Elbouchtaoui MC, Chebli B, Errami M, Salghi R, Jodeh S, Warad I, Hamed O, El Yamlahi A (2015). Efficiency anti-fungal of perydroxan for Botrytis cinerea and Penicillium digitatum. Efficacité du perydroxan contre deux champignons phytopathogènes Botrytis cinerea et Penicillium digitatum. Journal of Materials and Environmental Science 6(7):1938-1943. |
|
Fandohan P, Gbenou JD, Gnonlonfin B, Hell K, Marasas WFO, Wingfield MJ (2004). Effect of Essential Oils on the Growth of Fusarium verticillioides and Fumonisin Contamination in Corn. Journal of Agricultural and Food Chemistry 52(22):6824-6829. |
|
FAO/OMS (2020). Programme mixte FAO/OMS sur les normes alimentaires comité du codex sur les contaminants dans les aliments. Codex Alimentarius 26. |
|
Gakuubi MM, Maina AW, Wagacha JM (2017). Antifungal Activity of Essential Oil of Eucalyptus camaldulensis Dehnh. against Selected Fusarium spp. International Journal of Microbiology ID 8761610:7. |
|
Heindel JJ, Jobling S, Karen A (2013). State of the Science of Endocrine Disrupting Chemicals. Rapport OMS-PNUE. Réseau Environnement Santé P 15. |
|
ISTA (1999). International Rules for Seed Testing. Seed Science and Technology, Zürich, Switzerland 23:269. |
|
Ky J, Diomandé BY (2017). Caractérisation de la mycoflore de grains de maïs ( Zea mays ) destinés à la préparation d'aliments composés pour la volaille Characterization of the fungal flora of maize grains (Zea mays) intended for the preparation of compound feeding stuffs of po. International Journal Biological and Chemical Sciences 11(6):2594-2603. |
|
Lankoande GD, Maradan D (2013). Coût de l 'inaction de la gestion des produits chimiques dans le secteur minier et agricole. Ministère de l'Environment et Du Développement Durable pp. 1-48. |
|
Lehmann E, Oltramare C, Nfon Dibié JJ, Konaté Y, de Alencastro LF (2018). Assessment of human exposure to pesticides by hair analysis: The case of vegetable-producing areas in Burkina Faso. Environment International 111:317-331. |
|
Martinazzo AP, Oliveira FDS, Teodoro CES (2019). Antifungal activity of Cymbopogon citratus essential oil against Aspergillus flavus. Ciência e Natura 41:20. |
|
Mathur SB, Kongsdal O (2003). Common laboratory seed health testing methods for detecting fungi. International Seed Testing Association Bassendorf Switzerland. P 425. |
|
Nasr A, Zhou X, Huang SP, Wang Y, Li X, Zhu GP (2018). Comparative effects of some extraction solvents on the antimicrobial activity of Eucalyptus camaldulensis leaf, bud, capsule and seed crude extracts. Natural Product Research 33(17):2560-2565. |
|
Ouédraogo M, Toe? AM, Oue?draogo TZ, Guissou PI (2011). Pesticides in Burkina Faso: Overview of the Situation in a Sahelian African Country. Pesticides in the Modern World - Pesticides Use and Management pp. 35-48. |
|
Rasooli E, Yadegarinia D, Gachkar L, Rezaee M, Fakoor M, Allameh A (2009). Inhibition of Aspergillus parasiticus Aflatoxin production by essential oils. PAJOUHESH-VA-SAZANDEGI 21:146-155. |
|
Sala OE, Chapin FS, Armesto JJ, Berlow E, Bloomfield J, Dirzo R, Huber-Sanwald E, Huenneke LF, Jackson RB, Kinzig A, Leemans R, Lodge DM, Mooney HA, Oesterheld M, Poff NLR, Sykes MT, Walker BH, Walker , Wall DH (2000). Global biodiversity scenarios for the year 2100. Science 287(5459):1770-1774. |
|
Salem MZM, Zidan YE, Mansour MMA, El Hadidi NMN, Abo Elgat WAA (2016). Antifungal activities of two essential oils used in the treatment of three commercial woods deteriorated by five common mold fungi. International Biodeterioration and Biodegradation 106:88-96. |
|
Samaté AD, Nacro M, Menut C, Lamaty G, Bessière JM (2011). Aromatic Plants of Tropical West Africa. VII. Chemical Composition of the Essential Oils of two Eucalyptus Species (Myrtaceae) from Burkina Faso: Eucalyptus alba Muell. and Eucalyptus camaldulensis Dehnardt 10(3):321-324. |
|
Séguy L (1999). Systèmes de culture durables en semis direct et avec minimuns d'intrants, protecteurs de l'environnement. Création-diffusion de ces systèmes en petit paysannat, dans différentes régions écologiques de Madagascar, depuis le Sud-Ouest sahélien. CIRAD-CA. P 20. |
|
Siramon P, Ohtani Y, Ichiura H (2013). Chemical composition and antifungal property of Eucalyptus camaldulensis leaf oils from Thailand. Records of Natural Products 7(1):49-53. |
|
Szwejkowska B, Duchovskis P, Winnicki T (2008). Effect of fungicide and insecticide seed dressings on the elements of yields of some pea cultivars. Sodininkyste ir Darzininkyste 27(1):105-114. |
|
Tarnagda B, Tankoano A, Tapsoba F, Sourabié PB, Abdoullahi HO, Djbrine AO, Drabo KM, Traoré Y, Savadogo A (2017). Évaluation des pratiques agricoles des légumes feuilles?: le cas des utilisations des pesticides et des intrants chimiques sur les sites maraîchers de Ouagadougou, Burkina Faso. Journal of Applied Biosciences 117(1):11658. |
|
Toé M, Zida PE, Sawadogo I, Soalla WR, Nébié HCR (2022). Efficacité fongicide de trois biopesticides à base d'huiles essentielles sur les principaux champignons associés aux semences de niébé au Burkina Faso. Journal de La Société Ouest-Africaine de Chimie 51(2022):38-44. |
|
Toffa DD, Mahnine NL, Ouaffak A, El Abidi FZ, El Alaoui Faris, Zinedine A (2013). First survey on the presence of ochratoxin A and fungi in raw cereals and peanut available in the Republic of Niger. Food Control 32(2013):558-562. |
|
Waongo A, Yamkoulga M, Dabire-Binso CL, Ba Malick N, Sanon A (2013). Post-harvest conservation of cereals in the southern Sudanese zone of Burkina Faso?: Farmer perception and stock assessment. International Journal of Biological and Chemical Sciences 7(3):1157-1167. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0