Carbon allocation in a mixed-species plantation of 'Eucalyptus globulus' and 'Acacia mearnsii'

Forrester, David I; Bauhus, Jurgen; Cowie, Annette

doi:10.1016/j.foreco.2006.05.018

Author(s)

Forrester, David I

Bauhus, Jurgen

Cowie, Annette

Publication Date

2006

Abstract

Aboveground biomass was twice as high in mixtures of 'Eucalyptus globulus' and 'Acacia mearnsii' when compared to 'E. globulus' monocultures after 11 years. This was attributed to increased nutrient availability and accelerated rates of N and P cycling in mixtures. This study examined whether the increase in aboveground biomass production was associated with an increase in total productivity (both above- and belowground), a change in C partitioning (from below to aboveground) or both. Total annual belowground C allocation (TBCA) was determined during year 11 in a mixed-species trial near Cann River, southeastern Australia. Monocultures of 'E. globulus' (100%E) and 'A. mearnsii' (100%A) and mixtures of these species (50%E:50%A) were planted in a replacement series. Using a conservation of mass approach, TBCA was estimated as soil carbon dioxide (CO₂) efflux C minus the C input from aboveground litter plus changes in the C stored in soil, roots and the forest floor litter layer. Aboveground net primary production (ANPP) was also estimated to enable comparison of ratios of above and belowground fluxes between treatments. TBCA ranged from 14.6 to 16.3 Mg C ha⁻¹ year⁻¹ and was not significantly different in 100%E, 50%E:50%A and 100%A. Higher ratios of ANPP:TBCA in the mixtures (0.41) than in either monoculture (100%A:0.28 100%E:0.31) indicated that trees in mixture partitioned a lower proportion of assimilated C belowground than those in monocultures. Since the mixture was as productive as monocultures belowground but more productive aboveground, it appears to be more productive overall and thus have the potential to increase C sequestration above that of monocultures.

Citation

Forest Ecology and Management, 233(2-3), p. 275-284

ISSN

1872-7042

0378-1127

Link

https://hdl.handle.net/1959.11/9011

Language

en

Publisher

Elsevier BV

Title

Carbon allocation in a mixed-species plantation of 'Eucalyptus globulus' and 'Acacia mearnsii'

Type of document

Journal Article

Entity Type

Publication

Author(s)	Forrester, David I Bauhus, Jurgen Cowie, Annette
Publication Date	2006
Abstract	Aboveground biomass was twice as high in mixtures of 'Eucalyptus globulus' and 'Acacia mearnsii' when compared to 'E. globulus' monocultures after 11 years. This was attributed to increased nutrient availability and accelerated rates of N and P cycling in mixtures. This study examined whether the increase in aboveground biomass production was associated with an increase in total productivity (both above- and belowground), a change in C partitioning (from below to aboveground) or both. Total annual belowground C allocation (TBCA) was determined during year 11 in a mixed-species trial near Cann River, southeastern Australia. Monocultures of 'E. globulus' (100%E) and 'A. mearnsii' (100%A) and mixtures of these species (50%E:50%A) were planted in a replacement series. Using a conservation of mass approach, TBCA was estimated as soil carbon dioxide (CO₂) efflux C minus the C input from aboveground litter plus changes in the C stored in soil, roots and the forest floor litter layer. Aboveground net primary production (ANPP) was also estimated to enable comparison of ratios of above and belowground fluxes between treatments. TBCA ranged from 14.6 to 16.3 Mg C ha⁻¹ year⁻¹ and was not significantly different in 100%E, 50%E:50%A and 100%A. Higher ratios of ANPP:TBCA in the mixtures (0.41) than in either monoculture (100%A:0.28 100%E:0.31) indicated that trees in mixture partitioned a lower proportion of assimilated C belowground than those in monocultures. Since the mixture was as productive as monocultures belowground but more productive aboveground, it appears to be more productive overall and thus have the potential to increase C sequestration above that of monocultures.
Citation	Forest Ecology and Management, 233(2-3), p. 275-284
ISSN	1872-7042 0378-1127
Link	https://hdl.handle.net/1959.11/9011
Language	en
Publisher	Elsevier BV
Title	Carbon allocation in a mixed-species plantation of 'Eucalyptus globulus' and 'Acacia mearnsii'
Type of document	Journal Article
Entity Type	Publication

Carbon allocation in a mixed-species plantation of 'Eucalyptus globulus' and 'Acacia mearnsii'

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