Biochar is an amendment that can augment soil water storage; however, its projected cost per ton could be financially limiting at field application scales. It may be more monetarily convenient if an alternate amendment was available that could deliver similar soil enhancements. We compared two switchgrass biochars pyrolyzed at 250 and 500 degrees C with raw switchgrass (uncharred) on moisture storage and bulk density changes in a Norfolk loamy sand (fine-loamy, kaolinitic, thermic Typic Kandiudult). Amendments were mixed into triplicate pots at 20g/kg along with untreated controls. Soils were laboratory incubated at 10% moisture content (w/w) for 118days, and the pots were irrigated three times with 1.3 pore volumes of deionized water every 30days. Soil bulk densities were recorded before each irrigation event. Assessment of alterations in soil water storage was examined through cumulative water evaporative losses from incubation day 0 to day 33 and by monitoring soil water contents for 13 consecutive days past each irrigation event. Rankings of soil water evaporative losses were as follows: uncharred switchgrassswitchgrass (500 degrees C)switchgrass (250 degrees C)<control. After the first irrigation event, uncharred switchgrass amendment significantly increased moisture storage compared with soil treated with biochar and the control. While all amendments increased water storage relative to the control, uncharred switchgrass delivered equivalent, if not slightly better, moisture storage improvements compared with the two switchgrass biochars. Uncharred switchgrass would likely not be as effective over the long term (years to decades) as pyrolyzed biochars, due to greater degradation of uncharred material.

• 出版日期2013-3