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Library Shrub expansion stimulates soil C and N storage along a coastal soil chronosequence

Shrub expansion stimulates soil C and N storage along a coastal soil chronosequence

Shrub expansion stimulates soil C and N storage along a coastal soil chronosequence

Resource information

Date of publication
December 2010
Resource Language
ISBN / Resource ID
AGRIS:US201301849919
Pages
2052-2061

Expansion of woody vegetation in grasslands is a worldwide phenomenon with implications for C and N cycling at local, regional and global scales. Although woody encroachment is often accompanied by increased annual net primary production (ANPP) and increased inputs of litter, mesic ecosystems may become sources for C after woody encroachment because stimulation of soil CO₂ efflux releases stored soil carbon. Our objective was to determine if young, sandy soils on a barrier island became a sink for C after encroachment of the nitrogen-fixing shrub Morella cerifera, or if associated stimulation of soil CO₂ efflux mitigated increased litterfall. We monitored variations in litterfall in shrub thickets across a chronosequence of shrub expansion and compared those data to previous measurements of ANPP in adjacent grasslands. In the final year, we quantified standing litter C and N pools in shrub thickets and soil organic matter (SOM), soil organic carbon (SOC), soil total nitrogen (TN) and soil CO₂ efflux in shrub thickets and adjacent grasslands. Heavy litterfall resulted in a dense litter layer storing an average of 809 g C m⁻² and 36 g N m⁻². Although soil CO₂ efflux was stimulated by shrub encroachment in younger soils, soil CO₂ efflux did not vary between shrub thickets and grasslands in the oldest soils and increases in CO₂ efflux in shrub thickets did not offset contributions of increased litterfall to SOC. SOC was 3.6-9.8 times higher beneath shrub thickets than in grassland soils and soil TN was 2.5-7.7 times higher under shrub thickets. Accumulation rates of soil and litter C were highest in the youngest thicket at 101 g m⁻² yr⁻¹ and declined with increasing thicket age. Expansion of shrubs on barrier islands, which have low levels of soil carbon and high potential for ANPP, has the potential to significantly increase ecosystem C sequestration.

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Authors and Publishers

Author(s), editor(s), contributor(s)

BRANTLEY, STEVEN T.
YOUNG, DONALD R.

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