N2O Emission Factors for Italian Crops
Region
Site
Coordinates m a.s.l
Mean air T (°C)
ID
Crop type
Irrigation
Total water input rainfall + irrigation (mm)
Soil management
Previous crop
Clay (%)
Sand (%)
pH
SOC (%)
Ref.
Campania
Torre Lama
40°37′N,
17.1
1
Maize
Sub-optimal
362 + 109
Conventional
Bare soil
32.9
47
7.4
0.7
1
14°58′E,
2
Maize
Sub-optimal
362 + 109
Minimum tillage
Bare soil
32.9
47
7.4
0.7
1
30 m a.s.l.
3
Maize
Sub-optimal
362 + 109
Conventional
Hairy vetch
32.9
47
7.4
0.7
1
Borgo Cioffi
40°31′N,
15.5
4
Maize
Yes
245 + 68
Ripping, cultivation
Ryegrass/clover
52
28
7.5
2.5
2
14°57′E,
5
Florence fennel
Rainfed
854 + 0
Ploughing, cultivation
Maize
52
28
7.5
2.5
2
15 m a.s.l
Piemonte
Turin
44°53′N,
11.9
6
Maize
Rainfed
117 + 0
Conventional tillage
Maize
7.5
36
8.1
1.0
3
7°41′E,
7
Maize
Rainfed
118 + 0
Stalk shredder and conventional tillage
Maize
7.5
36
8.1
1.0
3
232 m a.s.l.
8
Maize
Rainfed
257 + 0
Conventional tillage
Maize
7.5
36
8.1
1.0
3
Tuscany
Pistoia
43°56′N
14.43
9
Maize
177 + 0
Ploughing, milling
Maize
10
35
5.4
2.1
4
10°53′E
88 m a.s.l.
Friuli
Beano
46°00′N
12.9
10
Maize
Yes
1585 + 0
Tillage (0–30 cm)
Maize
14.5
24.9
7.1
1.8
5
13°01′E
65 m a.s.l.
11
Maize
Yes
1585 + 0
No tillage
Maize
13.2
26.0
7.1
1.8
5
12
Alfalfa
Yes
1612 + 0
Tillage (0–30 cm)
Maize
15.8
29.5
7.2
1.9
5
At each site, the total amount of N2O emitted at each single fertilization event was quantified by linear interpolation between sampling dates following the event till the flux reached a steady value close to the pre-fertilization level. The latter was instead defined as baseline flux and the fertilizer induced emission (FIE) was then calculated as the difference between the total flux minus the baseline flux. The corresponding EF was finally computed as the ratio between FIE and the amount of N added at the considered fertilization event.
Results show that for this specific crop, with its growing season in spring-summer, hence when the combination of temperature and rain regime mostly differs from non Mediterranean climate areas, the calculated emission factors were lower than the average emission factor reported by IPCC (2006) for temperate agricultural soils (1 %) (EFs reported in Table 9.2), with the exception of the Turin site (site 7 and 8). The overall mean EF was 0.7 % ± 2.3 (2 SD) and 0.3 % ± 0.4 (2 SD) including or excluding this site from the analysis, respectively. For a better characterization of the magnitude of N2O emissions, the total fertilizer induced emission (FIE), the maximum peak value and the time length of the emission peak (back to baseline) were calculated (Table 9.2