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6155792 
Journal Article 
Minimum tillage of a cover crop lowers net GWP and sequesters soil carbon in a California vineyard 
Alsina, MM; Khalsa, SDS; Smart, DR; Stockert, CM; Wolff, MW 
2018 
Soil & Tillage Research
ISSN: 0167-1987
EISSN: 1879-3444 
175 
244-254 
WOS:000414816800025 
The net global warming potential (GWP) of a cropping system describes net exchanges of carbon dioxide (CO2), nitrous oxide (N2O) and methane (CH4). Greenhouse gas intensity (GHGI) relates net GWP to productivity. The use of a barley cover crop was tested in a California vineyard from 2003 to 2010 under two alternative tillage systems, along with a business-as-usual control treatment with incorporation of native weeds. The aim was a comprehensive assessment of barleýs potential to sequester carbon in the soil, and of related (tillage-derived) effects on the vineyard́s net GWP and GHGI. Measurements were made over two years (2009–2010) and included surface fluxes of N2O and CH4, differences in soil carbon, fuel consumption and yield. Above- and belowground net primary productivity (ANPP and BNPP) were also measured to enable further calculations of carbon input. Over 7 years yields and ANPP were lowered under minimum tillage, but soil carbon accumulation in this treatment produced a net GWP of approx. −873kg CO2-eq ha−1 yr−1, which would remain negative over a timeframe of at least 31 years, allowing for removal of vines but not for deep tillage. Conventional-tilled alleys with and without cover crops had positive net GWP because their treatments caused little or no gain in soil carbon and their net GWPs could only be considered negative if wood accumulation was included. Fuel combustion contributed the most to net GWP, followed by soil carbon loss under twice-yearly tillage. Total N2O emissions accounted for 63–76kg CO2–eq ha−1 yr−1. In a vineyard where 8.4–16.8kgNha−1 yr−1 were applied, 90% of N2O emissions occurred at least 4 months after fertigation, mainly following precipitation. Total CH4 fluxes were negative and offset 5–10kg CO2–eq ha−1 yr−1. A minimum-tilled system with cover crops offers potential for important GWP offsets in this climate and soil, if possible negative impacts on yields are acceptable. 
Nitrous oxide; Soil respiration; Fertigation; Methane