Lytic polysaccharide monooxygenases (LPMOs) are oxidative enzymes found in viruses, archaea, bacteria as well as eukaryotes, such as fungi, algae and insects, actively contributing to the degradation of different polysaccharides. Analysis of the extracellular proteome (secretome) from Aspergillus nidulans growing in Avicel, sugarcane bagasse and sugarcane straw and analysed by LC-MS/MS in a LTQ Orbitrap Velos revealed that up to five LPMOs from family AA9 (AnLPMO9s), along with an AA3 cellobiose dehydrogenase (AnCDH1), are co-secreted upon growth on crystalline cellulose and lignocellulosic substrates, indicating their role in the degradation of plant cell wall components. Functional analysis revealed that the three main secreted LPMO9s (AnLPMO9C, AnLPMO9F and AnLPMO9G) correspond to cellulose- active enzymes with distinct regioselectivity. Deletion and overexpression studies confirmed that the abundantly secreted AnLPMO9F is a major component of the extracellular cellulolytic system, while AnLPMO9G, less abundant in the secretome, and has an important role by oxidizing crystalline fractions of cellulose. Single or double deletion of these AnLPMO9s partially impair fungal growth on sugarcane straw but not on crystalline cellulose, demonstrating the importance of LPMO9s for the saprophytic fungal lifestyle in the degradation of complex lignocellulosic substrates. Although the deletion of AnCDH1 slightly reduced the cellulolytic activity, it did not affect fungal growth indicating the existence of other electron donors to LPMOs. Additionally, double or triple knockouts of these enzymes had no accumulative deleterious effect on the cellulolytic activity nor on fungal growth, regardless of the deleted gene. Overexpression of AnLPMO9s in a cellulose-induced secretome background confirmed the importance and applicability of AnLPMO9G to improve lignocellulose saccharification.