Temperature of alfalfa silage was monitored for 28 d at three depths following ensiling in a vacuum bag system. For this silo system, silage was piled on one sheet of plastic and covered by another; the plastic sheets were connected on all sides by rolling and clamping around a polyvinylchloride pipe. The silo was evacuated with a vacuum pump attached to a perforated pipe placed on the bottom sheet of plastic prior to filling. Temperatures increased linearly as depths increased (0.3 to 0.6 and 0.9 m), but temperature measurements were <35.9oC at all depths. Storage cost per ton of silage ensiled was very sensitive to the quantity ensiled and marginally sensitive to DM losses. For a vacuum silo with 40 metric ton (mT)(DM) capacity, storage cost estimates per mT (DM) were $8.90, $9.50, $9.95, and $10.44 for 5, 11, 15 or 19% DM losses, respectively. Temperature differences attributable to post-ensiling days were detected. The performance of 48 midlactation (187+ 45 din milk) cows fed diets based on forages (45.8 to 61.4% DM) of corn(CS),alfalfa, or ryegrass silages(RS)with or without 7.0% cottonseed hulls(CSH) was compared in a 75-d lactation trial. Corn silage was ensiled in an upright silo; alfalfa silage was ensiled in both an Ag-Bag® (Ag-Bag International, Warrenton, OR) and vacuum bag system (BALandVAL,respectively); RS was ensiled in an Ag-Bag® system. Cows fed CS without CSH produced more milk (21.1 kg/d) than did cows fed the other three silages (17.1 to 19.1 kg/d). No differences in milk production were detected for cows consuming silage from the different ensiling systems, indicating that the vacuum ensiling process can be a satisfactory method of making silage. Cows fed RS consumed less DM (11.0 to 12.1 kg/d) than did cows fed the other three silages (14.4 to 20.4 kg/d). Inclusion of CSH in the alfalfa silage-based diet increased DMI, milk production, and BW gain but had no effect on milk fat or protein percentage. A vacuum silo system may be a satisfactory method of ensiling crops, especially during emergency situations, for short-term ensiling, and for small herds. Systems, Silage, Dairy Cows, Milk Production.)