Aufsatz in einer Fachzeitschrift
Effect of plant communities on aggregate composition and organic matter stabilisation in young soils



Details zur Publikation
Autor(inn)en:
Gunina, A.; Ryzhova, I.; Dorodnikov, M.; Kuzyakov, Y.
Verlag:
SPRINGER
Publikationsjahr:
2015
Zeitschrift:
Plant and Soil
Seitenbereich:
265-275
Jahrgang/Band:
387
Heftnummer:
1-2
Erste Seite:
265
Letzte Seite:
275
Seitenumfang:
11
ISSN:
0032-079X

Zusammenfassung, Abstract
Carbon (C) content in pools of very young soils that developed during 45 years from loess was analysed in relation to vegetation: deciduous and coniferous forests and cropland. We hypothesised that variations in the amount of particulate organic matter (POM) can explain the C accumulation and also affects the C bound to mineral surfaces in soil under various vegetation.Soil samples were collected under three vegetation types of a 45-year-old experiment focused on initial soil development. Aggregate and density fractionations were combined to analyse C accumulation in large and small macro- and microaggregates as well as in free and occluded POM and mineral factions.Deciduous forest soil accumulated the highest C content in the 0-5 cm layer (43 g C kg(-1)), whereas values in coniferous forest and arable soils were lower (30 and 12 g C kg(-1), respectively). The highest portion of C in arable soil was accumulated in the mineral fraction (80 %), whereas 50-60 % of the C in forest soils were in POM. More C was associated with minerals in deciduous forest soil (16 g C kg(-1) soil) than under coniferous forest and arable land (8-10 g C kg(-1) soil).Particulate organic matter explains most of the differences in organic C accumulation in soils developed during 45 years under the three vegetation types on identical parent material. The C content of the mineral soil fraction was controlled by plant cover and contributed the most to differences in C accumulation in soils developed under similar vegetation type (forest).


Schlagwörter
Aggregate turnover, Carbon accumulation rates, Initial soil formation, Organic matter stabilisation, Young soils

Zuletzt aktualisiert 2019-25-07 um 16:10