Akpinfa ED, Kissira A, Akpo MA, Houssou CS (2017) Evaluation du cout économique de la dégradation des terres dans la zone agro-écologique du centre Benin. European Scientific Journal 13 : 354-366

Balzergue C (2012) Regulation of the symbiosis endomycorhizienne by lephosphate, PhD thesis submitted to the department of Biology, University Paul Sabatier - Toulouse III.  

Benjelloun C, Ghachtouli NE, Benbrahim K, Amrani JK, Yamani JE (2004) Influence of the mycorhization by the mushroom glomus mosseae on the growth and the metabolism of the corn (Zea mays. L) under conditions of stress hydrique. Journal of Catalysis, Material and Environment III: 31-36.

Bourou S (2012) Survey physiological éco of the Tamarind (Tamarindus indica L.) in arid tropical environment. PhD Thesis submitted to the Faculty of Bioscience Engineering,  University of Ghent, Pp. 193.

Dalpé Y (2005) Les mycorhizes : un outil de protection des plantes mais non une panacée Phytoprotection 86 : 1-82.

Delphine M, Thé C, Tsoata E, Zonkeng C, Yvette C, Mfopou M (2011) Inhibition of the growth and the output of the corn (Zea mays) in very acidic soils in Cameroon, and identification of precocious criterias of tolerance to the toxicity, Tropicultura, Pp. 94-100.

Diagne O, Ingleby K. (2003) Ecology of the AMF mycorhiziens arbusculaires infecting Acacia raddiana. In : Grouzis M, Floc'h L (Eds.) Un arbre au desert. IRD Editions: Paris; Pp : 205-228.

Diatta MB, Laminou O, Macoumba PR, Diop T (2013) Effects of the inoculation mycorhizienne on the sesame (Sesamumindicum L.) in natural conditions. International Journal of Biological and Chemical Science 7: 2050-2057.

Diouf A, Lambin E (2001) Monitoring land-cover changes in semi-arid regions: Remote sensing data and field observations in the Ferlo, Senegal. Journal of Arid Environments 48: 129–148.

Diouf M, Boureima S, Diop TA (2009) Answers of two varieties of sesame have  inoculation with Arbuscular mycorrhizal fungi candidates. Agronomy African 21: 37 – 47

Fernández F, Gómez R, Vanegas LF, Noval BM, Martínez MA (2000) Producto inoculante micorrizógeno. Oficina Nacional de Propiedad Industrial. Cuba, Patente No. 22641.

Goalbaye T, Guisse A, Ndiaye MR, Tissou M (2013) The populations of corn improven and adapted to the drought for the zones to weak pluviométrie in the Tchad. International Journal of Biological and Chemical Science, 7: 2275-2282.

Haro H (2016) Optimization of the symbioses rhizobienne and mycorhizienne to improve the productivity of the cowpea [Vigna unguiculata (L.) Walp.] to Burkina. PhD thesis submitted to the University Ouaga, Pp. 241.

Hetrick B, Wilson G, Cox T (1992) Mycorrhizal dependency of modern wheat varieties, landraces ancestors. Canadian and Newspaper of Botany 70: 2032-2040.

Igué A, Adjanohoun A, Aîhou C, Mensah G (2015) Technique of information: Assessment of the state of the fertility of the soils fields of the producers elites of corn of Benin. Deposit legal N° 8116 of the 09/09/2015, 3^rdQuarter, National Library (BN) of Benin - ISBN: 978-99919-0-707-9.

INRAB (1995) Fiches Techniques Des Cultures Vivrières.

Javot H, Penmetsa RV, Terzaghi N, Cook DR, Harrison J (2007) To Medicagotruncatula phosphate to transport indispensable heart the arbuscular mycorrhizal symbiosis. Proceedings of the National Academy of Sciences of the United States of America 104: 1720-1725.

Jesús SB, Trinitario F, Angeles M, Asunción M, José A (2004) Variations in water status, gas exchange, and growth in Rosmarinus officinalis plantations infected Glomus with deserticola under drought conditions. Plantation Physiology 161: 675-682.

Johnson Y (2008) Biodiversity of the mushrooms indigenous endomycorhiziens associated to the niébé (Vigna unguiculata (L.) Walpers) in different agroécosystèmes of the Bénin. PhD Thèsis submitted to the University of Calavi Abomey.

Labidi S, Lounès-Hadj SA, Tisserant B, Laruelle F, Rjaibia W, Hamdi K, Ben Jeddi F (2014) Interest of a fertilizing local mycorhizien in the growth of the plants in big cultures. National day on the valorization of the Research results in the Big Culture domain. Tunisia, Available on www.iresa.agrinet.tn access on 25^th September, 2018. 

Lambers H, Raven JA, Shaver GR, Smith SE (2008) Plant nutrient-acquisition strategies change with soil age. Trends in Ecology and Evolution 23 : 95-103.

Laminou MO (2010) Fixing of the dunes in the southeast of Niger: assessment of the efficiency of the mechanical gate, adapted woody species and potentialities of inoculation mycorhizienne. PhD thesis submitted to the University of Cork, Cork, Belgium, Pp. 158.

Mader P, Edenhofer S, Boller T, Wiemken A, Niggli U (2000) Arbuscular mycorrhizae in a long-term fiel trial comparing low-input (organic, biological) and high-input (conventional) farming systems in a crop rotation. Journal of Biology and Fertility of Soil 31: 150-156.

MAEP (Ministry agriculture, raising and the Fishing) (2010) Strategic plan of Raise of Agricultural Sector (PSRSA). MAEP, Cotonou, Benin, Pp. 69

Meddad-Hamza, Beddiar1 A, Gollotte A, Gianinazzi S (2011) Management des mycorhizes chez l’olivier. Available on https://www.researchgate.net/publication/313837067 access on 25th September, 2018.

Megueni C, Awono ET, Ndjouenkeu R (2011) Simultaneous effect of dilution and the combination of the Rhizobium and mycorhizes on the leaveproduction and the physico - chemical properties of the young leaves of Vigna unguiculata (L.) Walp. Journal of Applied Biosciences 40 : 2668 – 2676.

Micaela N (2015) Impact of a mushroom mycorhizien to arbuscules (Rhizophagus irregularis MUCL 41833) on the withdrawal of the phosphor at the corn (Zea mays) in condition of saline stress, Pp. 14.

Nouaim R, Chaussod R (1996) Role of the mycorhizes in the food hydrique and mineral of the plants, notably of the woody of arid zones. Notebooks Mediterranean Options, Vol. 20 seminary.

Ouahmane L, Hafidi M, Thioulouse J, Ducousso M, Kisa M, Prin Y, Galiana A, Boumezzough A, Duponnois R (2007) Improvement of CupressusatlanticaGaussen growth by inoculation with native arbuscularmycorrhizal fungi. Journal of
Applied Microbiology, 103: 683-690. Doi: 10.1111/j.1365-2672.2007.03296.x

Phillips JM, Hayman DS (1970) Improved procedures heart clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi heart rapid assessment of infection. Transactions of the British Mycological Society 55: 158-161. 

Priou L (2013) Multiplication des mycorhizes arbusculaires en milieu liquide et solide afin d’améliorer la formulation de biofertilisants. Sciences agricoles. Available on https://dumas.ccsd.cnrs.fr/file/index/docid/975007/filename/Priou_Laure_Mycorhizes_arbusculaires_milieu_liquide_solide.fr.pdf access on 25th septembre, 2018.

Ramon ARE, Felix F, Alberto HJ, José RT (2003) The simbiosismicorrizicaarbuscular. In: El manejoefectivo of the simbiosismicorrizica, unaviahacialaagriculturasostenible. Estudio of caso: El Caribe. The Habana INCA, 2003 :1-42. 

Ruget FB, Bonhomme R, Chartier M (1996) Estimation simple de la surface foliaire de plantes de maïs en croissance. Agronomie 16: 553-562. DOI : https://doi.org/10.1051/agro:19960903

Trouvelot A, Kough JL, Gianinazzi-Pearson V (1986) Mesure du taux de mycorhization VA d’un système radiculaire. Recherches et méthodes d’estimation ayant une signification fonctionnelle. In: Aspects physiologiques et génétiques des mycorhizes, Dijon, 1985: INRA.

Warda S (2011) Diversité des mycorhizes arbusculaire chez la variété « Sigoise » d’olivier (Oleaeuropea L.) : étude de leurs efficacités sur la croissance des plants. M.Sc. Thesis submitted to the University of Oran ES-SENIA, Pp. 180 available on https://theses.univ-oran1.dz/document/TH3392.pdf

Yallou CG, Aïhou K, Adjanohoun A, Toukourou M, Sanni OA, Ali D (2010) Itinéraires techniques de production de maïs au Bénin. Fiche technique. Dépôt légal N° 4922 du 3 Décembre, Bibliothèque Nationale du Bénin.