Colombia (Mosquera-Espinosa, 2010).

Colombia (Mosquera-Espinosa, 2010). P-18 isolate, obtained from Valadares (2009), had a significant effect on the variable plant length; in contrast, the other isolates were not noticeable on the other biomass variables. This indicates that, possibly for the rest of fungi, the nutrient input is not enough to increase growth rates or that for this stage on plant growth this association is not fundamental, as it is on seed germination, and it is facultative for stages where the plant is photosynthetically active (Porras-Alfaro and Bayman 2007). In biomass variables like plant and root length, and root mass, the best treatments were V-13, V-11 and V-9, the latest two are members of the Xylariaceae family. This group was identified by Bayman et al. (1997); Chen et al. (2011, 2012); Xing et al. (2011); and Yuan et al. (2009) as orchid endophyte and was isolated mainly from leaves and roots. This family is characterized for having saprophyte organisms and orchid endophytes like Lephantes, Dendrobium, Sobralia, Maxillaria, Psychilis and Epidendrum (Bayman and Otero,
2006) as in other plants as in Guarea guidonia Meliaceae (Gamboa-Gaitán and Bayman 2001), among others, (Davis et al., 2003). Similarly, they are common inhabitants of wood and substrates in decomposition (Whalley, 1996). In vitro studies demonstrated that both, Xilaria and species of the genus Hypoxilon, are capable of producing enzymes like calases, cellulases, cellulo-biohydrolases and cellulo-deshydrogenases involved in degradation of lignin and cellulose, mainly components of substrates used in orchid culture (Whalley 1996; Pointing et al., 2003). In this way, degradation of woody materials as wood chips and leaf litter, substrates in which vanilla grows, contributes to the solubilization and availability of nutrients for the plant, improving the nutrition on the growth media. Studies showing that Xylariaceae family species can give benefits living like endophytes are scarce. The application of inoculum with endophytes of the genus Xylaria reduces effectively the damage caused by pathogens in Theobroma cacao (Yuan et al., 2009). Studies