Abstract
Maize is a possible host of many fungi, some of them able to produce different mycotoxins. Few studies exist on co-occurring fungi and resulting multi-mycotoxin contamination in field; for this reason, in field trials were conducted in two consecutive years to verify fungal incidence and mycotoxin production in the case of the co-occurrence of the three main mycotoxigenic fungi of maize in Italy: Aspergillus flavus, Fusarium verticillioides, and Fusarium graminearum able to produce, respectively, aflatoxin B1 (AFB1), fumonisins (FBs), and deoxynivalenol (DON). Artificial inoculation was done after silk emergence of maize and samples were collected with a 2 week schedule up to harvest time (four samplings). Fungal interaction resulted as playing a role for both fungal incidence and mycotoxins production, as did weather conditions too. Main interactions were noted between A. flavus and F. verticillioides, and between F. verticillioides and F. graminearum. In particular, as a result of fungal co-occurrence, AFB1 resulted stimulated by F. graminearum presence while no effects were noted in FBs and DON in case of F. verticillioides–F. graminearum co-occurrence. Interestingly, the co-presence of A. flavus significantly reduced both FB and DON production.
Highlights
Maize is an important world-wide crop prone to different fungal colonization both in field and during storage
The occurrence of the three fungi used in our study has been frequently reported on maize (Pearson and Wicklow, 2006; Mukanga et al, 2010; Krnjaja et al, 2019), environmental conditions play a key role in determining their development in field
The years considered in this study showed similar temperatures (
Summary
Maize is an important world-wide crop prone to different fungal colonization both in field and during storage. The environment during in field cultivation or in post-harvest determine the conditions in which fungal species are more likely to develop (Queiroz et al, 2012). Many fungal species can co-occur and impact each other on growth and mycotoxin production. Literature report several examples of microbe interactions underlining how fungal metabolites may act as protection against other microbes or contribute for an environmental niche more suitable for their development (Venkatesh and Keller, 2019). Some studies seem to give to mycotoxin an important and direct role in microbial competition for space and nutrients acting as antibacteria (Spraker et al, 2018) while others suggest they can increase pathogenicity of fungi on the host
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