3.2.3. Effect of washing, acids and

3.2.3. Effect of washing, acids and ash
It is known that short-chain organic acids such as acetic acid can inhibit SSF (Palmqvist and Hahn-Hägerdal, 2000). For pectinrich substrate such as alfalfa stems, the galacturonic acid may also have an inhibitory effect on the growth of S. cerevisiae (Huisjes et al., 2012). In the present study, the lactic acid and VFAs were produced during the ensiling, and the galacturonic acid was from the cell wall of alfalfa stems (Huisjes et al., 2012). Thus, it was of interest to determine whether these acids had an inhibitory effect on SSF. The ensiled alfalfa stems were washed and subjected to SSF. As shown in Fig. 3, the ethanol yield of washed substrates was identical to that of unwashed for ensiled alfalfa stems without acid pretreatment (0 g/kg), at which conditions the lactic acid and VFAs were produced in greatest amounts (Section 3.1 above), indicating that lactic acid and VFAs did not have a significant effect on SSF. Specifically, the inhibitory effect of lactic acid and VFAs was not observed, likely because the concentrations of these acids were too low. For example, the highest concentration of acetic acid in the SSF broth was 2.16 g/L, which was too low to inhibit the SSF according to literature (Taherzadeh et al., 1997a, b). The galacturonic acid could have some inhibitory effect at pH 3.5 (Huisjes et al., 2012). However, the pH at the beginning and ending of our SSF were all around 4.8, thus the inhibition effect of galacturonic acid can be excluded or ignored.