Physical and Chemical Features affecting starch digestion in ruminants

L’amido è la maggiore fonte di energia per i ruminanti e la sua efficienza di utilizzazione nel tratto gastro-intestinale è importante per soddisfare i fabbisogni energetici dell’animale. La degradabilità dell’amido è misurata da diversi metodi (i.e., metodi in vivo, in situ, in vitro con inoculo ruminale e/o metodi enzimatici) e appare essere influenzata dal tipo di cereale, dai metodi di lavorazione e conservazione degli alimenti, dalla dimensione delle particelle, dal tipo di endosperma, etc.). La tesi è consistita di 4 esperimenti: Esperimento 1) la degradabilità dell’amido di diversi alimenti è stata valutata con un metodi condotto in situ ed il metodo in vitro proposto da Tilley&Terry: entrambi sono stati capaci di differenziare gli alimenti in base alla diversa degradabilità dell’amido. Esperimento 2) Un approccio enzimatico è stato studiato per determinare la quantità di amido degradato. Esperimento 3) Il metodo enzimatico ed il metodo Tilley&Terry sono stati comparati e sono risultati essere ben correlati, evidenziando la possibilità di utilizzare l’approccio enzimatico per studiare i fattori che influenzano la degradabilità dell’amido. Dato che pochi lavori scientifici hanno confrontato la degradabilità dell’amido di granelle e pastoni di mais, nell’Esperimento 4) sono stati raccolti campioni di mais conservati con diverse modalità (i.e., farina di mais, pastoni di granella e pastoni integrali di mais) per verificare quali le caratteristiche chimiche che influenzano la degradabilità dell’amido. I fattori che maggiormente condizionano la valutazione enzimatica della degradabilità dell’amido sono il contenuto in prolamine e l’umidità dei campioni. In conclusione, il metodo enzimatico può essere routinariamente utilizzato dai laboratori commerciali per la rapida valutazione della degradabilità dell’amido negli alimenti destinati all’uso animale.Starch is the main energy source for ruminants and its efficient utilization in gastro-intestinal tract is important to meet animal energy requirements. The starch degradability is determined by several methods (i.e., in vivo, in situ, in vitro ruminal and/or enzymatic methods) and is affected by type of grain, processing and conservation methods, particle size, type of endosperm, etc.. Four experiments were conducted: Experiment 1) starch degradability of different feeds was evaluated with in-situ and in-vitro Tilley&Terry methods: both are able to differentiate starch degradability among feeds. Experiment 2) An in-vitro enzymatic approach was studied to determine the amount of starch degradation. Experiment 3) Enzymatic and Tilley-Terry methods were compared, resulting well correlated and highlighting the possible application of enzymatic method to investigate the factors affecting starch degradability. Because few works compared the starch degradability of dry-ground and high-moisture corns, in Experiment 4) a data set of different conserved corn samples (i.e., dry, high-moisture and high-moisture-ear corns) was produced and chemical factors affecting starch degradability were studied. The most important factors influencing the enzymatic starch degradability were prolamin and moisture. Concluding, the enzymatic method could be used by commercial laboratories as a routine method for rapid determination of feed starch degradability

Biological interactions to select biocontrol agents against toxigenic strains of Aspergillus flavus and Fusarium verticillioides from maize

Biological control represent an alternative to the use of pesticides in crop protection. A key to progress in biological control to protect maize against Fusarium verticillioides and Aspergillus flavus maize pathogens are, to select in vitro, the best agent to be applied in the field. The aim of this study was to examine the antagonistic activity of bacterial and yeast isolates against F. verticillioides and A. flavus toxigenic strains. The first study showed the impact of Bacillus amyloliquefaciens BA-S13, Microbacterium oleovorans DMS 16091, Enterobacter hormomaechei EM-562T, and Kluyveromyces spp. L14 and L16 isolates on mycelial growth of two strains of A. flavus MPVPA 2092, 2094 and three strains of F. verticillioides MPVPA 285, 289, and 294 on 3% maize meal extract agar at different water activities (0.99, 0.97, 0.95, and 0.93). From this first assay antagonistics isolates M. oleovorans, B. amyloliquefaciens and Kluyveromyces sp. (L16) produced an increase of lag phase of growth and decreased a growth rate of all fungal strains. These isolates were selected for further studies. In vitro non-rhizospheric maize soil (centrally and sprayed inoculated) and in vitro maize (ears apex and base inoculated) were treated with antagonistics and pathogenic strains alone in co-inoculated cultures. Bacillus amyloliquefaciens significantly reduced F. verticillioides and A. flavus count in maize soil inoculated centrally. Kluyveromyces sp. L16 reduced F. verticillioides and A. flavus count in maize soil inoculated by spray. Kluyveromyces sp. L16 was the most effective treatment limiting percent infections by F. verticillioides on the maize ears