TY - CONF
T1 - SOILS WITH HIGH ORGANIC CARBON STORAGE CAPACITY IN DEPTH
AU - Fantappie', Maria
PY - 2012
Y1 - 2012
N2 - Most studies about soil organic carbon (OC) stock focus on the topsoil storage capacity, however,it has been proved that OC can reach relatively high values also in depth. The aim of this work wasa preliminary investigation of the soil types with a high OC content in depth and the relationshipwith the main pedogenetic factors. The dataset was the 1,414 Italian National Soil Typologies(STU). The selected attributes were: mean value of OC in the superficial functional horizon (L1);weighted average value between 50 and 100 cm (L2) and under 100 cm (L3); WRB classification;main lithology, morphology and land-use. About 92% of typologies had more than 0.58% of OC inL1, about 30% in L2, and 10% in L3. The highest OC contents were in L2 of Histosols, Umbrisols,Podzols, Vertisols, Andosols, and in L3 of Vertisols, Andosols, Fluvisols. STU on volcanic rocks,slope and residual deposits showed relatively higher accumulation in L2; soils on delta plane,lacustrine and alluvial deposits, both in L2 and L3. STU on upland plains, transitional areas withplateau in the mountain, high gradient mountains and low plains, showed higher OC content.Land-use was not significantly connected with OC content in depth. About 65% of the studiedterritory (47% of Italian surface) had a relatively high CO content in L2, and about 2% in L3. Themain processes connected to soil CO storage capacity in depth were morphological, namelycolluvium and alluvium, as well as pedological, in particular, podzolization and andisolization.
AB - Most studies about soil organic carbon (OC) stock focus on the topsoil storage capacity, however,it has been proved that OC can reach relatively high values also in depth. The aim of this work wasa preliminary investigation of the soil types with a high OC content in depth and the relationshipwith the main pedogenetic factors. The dataset was the 1,414 Italian National Soil Typologies(STU). The selected attributes were: mean value of OC in the superficial functional horizon (L1);weighted average value between 50 and 100 cm (L2) and under 100 cm (L3); WRB classification;main lithology, morphology and land-use. About 92% of typologies had more than 0.58% of OC inL1, about 30% in L2, and 10% in L3. The highest OC contents were in L2 of Histosols, Umbrisols,Podzols, Vertisols, Andosols, and in L3 of Vertisols, Andosols, Fluvisols. STU on volcanic rocks,slope and residual deposits showed relatively higher accumulation in L2; soils on delta plane,lacustrine and alluvial deposits, both in L2 and L3. STU on upland plains, transitional areas withplateau in the mountain, high gradient mountains and low plains, showed higher OC content.Land-use was not significantly connected with OC content in depth. About 65% of the studiedterritory (47% of Italian surface) had a relatively high CO content in L2, and about 2% in L3. Themain processes connected to soil CO storage capacity in depth were morphological, namelycolluvium and alluvium, as well as pedological, in particular, podzolization and andisolization.
KW - soil organic carbon
KW - soil typological units
KW - topsoil and subsoil storage capacity
KW - soil organic carbon
KW - soil typological units
KW - topsoil and subsoil storage capacity
UR - http://hdl.handle.net/10447/106195
UR - http://www.scienzadelsuolo.org/_docs/Atti_Eurosoil_2012.pdf
M3 - Other
SP - 1732
EP - 1732
ER -