Soil carbon change and carbon storage in litter on the forest floor after land use change from native pasture to pine plantation

Guo, L B; Cowie, Annette; Gifford, R M

Author(s)

Guo, L B

Cowie, Annette

Gifford, R M

Publication Date

2005

Abstract

From our meta-analysis of worldwide data, soil carbon content decreased following land use change from pasture to conifer plantation. However, carbon stored in litter on the forest floor may balance the carbon lost from mineral soil. A paired study (a native pasture with 'Themeda triandra' dominant, and a 16-year-old 'Pinus radiata' plantation) at Kowen Forests, ACT, Australia, assessed the soil carbon change, carbon accumulation in litter on the forest floor and annual carbon return to soil surface via litterfall after land use change from native pasture to pine plantation. Results show that carbon stocks in the top 1 m mineral soil had decreased by 18% from 75 to 61 t/ha, 16 years after the land use change. However, approximately 10 t C/ha in litter had accumulated on the forest floor (including 3.2 t/ha in woody debris mostly from pruning/thinning). In the last two (local drought) years (July 2002-June 2004) approximately 2 t C/ha/yr returned to the soil surface via litterfall. Hence, C in the litter pool could substantially compensate the C loss from soil. Thus, considering the significant amount of carbon likely to be stored in plant biomass, a pine ecosystem planted onto prior pasture should be a net sink for C despite possible losses in soil C.

Citation

XXII IUFRO World Congress Abstracts, p. 294-295

ISSN

1465-5489

Link

https://hdl.handle.net/1959.11/13199

Language

en

Publisher

Commonwealth Forestry Association

Series

International Forestry Review

Title

Soil carbon change and carbon storage in litter on the forest floor after land use change from native pasture to pine plantation

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Guo, L B Cowie, Annette Gifford, R M
Publication Date	2005
Abstract	From our meta-analysis of worldwide data, soil carbon content decreased following land use change from pasture to conifer plantation. However, carbon stored in litter on the forest floor may balance the carbon lost from mineral soil. A paired study (a native pasture with 'Themeda triandra' dominant, and a 16-year-old 'Pinus radiata' plantation) at Kowen Forests, ACT, Australia, assessed the soil carbon change, carbon accumulation in litter on the forest floor and annual carbon return to soil surface via litterfall after land use change from native pasture to pine plantation. Results show that carbon stocks in the top 1 m mineral soil had decreased by 18% from 75 to 61 t/ha, 16 years after the land use change. However, approximately 10 t C/ha in litter had accumulated on the forest floor (including 3.2 t/ha in woody debris mostly from pruning/thinning). In the last two (local drought) years (July 2002-June 2004) approximately 2 t C/ha/yr returned to the soil surface via litterfall. Hence, C in the litter pool could substantially compensate the C loss from soil. Thus, considering the significant amount of carbon likely to be stored in plant biomass, a pine ecosystem planted onto prior pasture should be a net sink for C despite possible losses in soil C.
Citation	XXII IUFRO World Congress Abstracts, p. 294-295
ISSN	1465-5489
Link	https://hdl.handle.net/1959.11/13199
Language	en
Publisher	Commonwealth Forestry Association
Series	International Forestry Review
Title	Soil carbon change and carbon storage in litter on the forest floor after land use change from native pasture to pine plantation
Type of document	Conference Publication
Entity Type	Publication

Soil carbon change and carbon storage in litter on the forest floor after land use change from native pasture to pine plantation

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