Direct N₂O emissions following transition from conventional till to no-till in a cover cropped Mediterranean vineyard (Vitis vinifera)

Knowing underlying practices for current greenhouse gas (GHG) emissions is a necessary precursor for developing best management practices aimed at reducing N₂O emissions. The effect of no-till management on nitrous oxide (N₂O), a potent greenhouse gas, remains largely unclear, especially in perennia...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2011-04, Vol.141 (1-2), p.234-239
Main Authors: Garland, Gina M, Suddick, Emma, Burger, Martin, Horwath, W.R, Six, Johan
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Air pollution
best management practices
Biological and medical sciences
conventional tillage
cover crops
Cropping systems. Cultivation. Soil tillage
emissions
Emissions control
Emittance
Fundamental and applied biological sciences. Psychology
General agroecology
General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping
General agronomy. Plant production
Generalities. Agricultural and farming systems. Agricultural development
Greenhouse effect
greenhouse gases
growing season
Management
New technology
nitrous oxide
Nitrous oxides
no-tillage
seasonal variation
Soil tillage
Tillage. Tending. Growth control
vines
Vineyards
Vitaceae
Vitis vinifera
wine grapes
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Summary:Knowing underlying practices for current greenhouse gas (GHG) emissions is a necessary precursor for developing best management practices aimed at reducing N₂O emissions. The effect of no-till management on nitrous oxide (N₂O), a potent greenhouse gas, remains largely unclear, especially in perennial agroecosystems. The objective of this study was to compare direct N₂O emissions associated with management events in a cover-cropped Mediterranean vineyard under conventional tillage (CT) versus no-till (NT) practices. This study took place in a wine grape vineyard over one full growing season, with a focus on the seven to ten days following vineyard floor management and precipitation events. Cumulative N₂O emissions in the NT system were greater under both the vine and the tractor row compared to CT, with 0.13±0.021kg N₂O–Nha⁻¹growing season⁻¹ emitted from the CT vine compared to 0.19±0.017kg N₂O–Nha⁻¹growing season⁻¹ emitted from the NT vine and 0.07±0.041kg N₂O–Nha⁻¹growing season⁻¹ emitted from the CT row compared to 0.11±0.018kg N₂O–Nha⁻¹growing season⁻¹ from the NT row. Yet these variations were not significant, indicating no differences in seasonal N₂O emissions following conversion from CT to NT compared to long-term CT management. Individual management events such as fertilization and cover cropping, however, had a major impact on seasonal emissions, indicating that management events play a critical role in N₂O emission patterns.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2011.02.017