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RESEARCH ARTICLE

Soil organic carbon and nitrogen in soil physical fractions in woody encroached grassland in South African savannas

Admore Mureva A B , Pauline Chivenge A C and David Ward https://orcid.org/0000-0002-2705-408X A D E
+ Author Affiliations
- Author Affiliations

A School of Life Sciences, University of KwaZulu-Natal, P. Bag X01, Scottsville 3209, South Africa.

B Bindura University of Science Education, P. Bag 1020, Bindura, Zimbabwe.

C International Rice Research Institute, DAPO Box 7777, Metro Manila 1301, Philippines.

D Present address: Biological Sciences Department, Kent State University, Kent OH 44242, USA.

E Corresponding author. Email: dward21@kent.edu

Soil Research - https://doi.org/10.1071/SR20245
Submitted: 24 August 2020  Accepted: 29 January 2021   Published online: 18 March 2021

Abstract

Woody plant encroachment has transformed land-cover patterns in savannas and grasslands throughout the world, with implications for changes in soil organic carbon (SOC) dynamics. However, our understanding of the effects of woody encroachment on SOC is very limited. In a study of pairs of neighbouring, woody encroached and grassland plots along a rainfall gradient (300–1500 mm mean annual precipitation, MAP) in South African savannas, we quantified the changes in SOC and nitrogen pools to a depth of 100 cm, in three soil physical fractions (coarse particulate organic matter, macroaggregates and silt and clay) and bulk soil. The 0–10 cm soil layer of the 1500 mm MAP site lost 26% of SOC stocks due to shrub encroachment. Contrastingly, the 300 and 350 mm MAP sites gained 24% and 27% total SOC, respectively, due to shrub encroachment. In the soil fractions, the largest changes in SOC, ranging within 2.64–464%, were in the coarse particulate organic matter (unprotected organic matter > 250 μm), and the lowest in the silt and clay fraction (6–32%) across all sites and depths. Soil nitrogen increased across all encroached sites compared with open grasslands, regardless of MAP. For every 1-unit increase in MAP and soil fraction size there was a change of –0.06 and 0.1 SOC (gC/kg soil) in encroached grasslands, respectively. We conclude that shrub-encroached grasslands potentially sequester more C in soils of arid regions than in humid regions. At three of our sites, we were unable to differentiate SOC between encroached and open-grassland soils from bulk soil but could do so from soil fraction analysis. Thus, soil fraction analysis is a more effective way to assess changes in soil C than bulk soil.

Keywords: grasslands, macroaggregates, rainfall gradient, savanna, shrub encroachment, soil nitrogen, soil organic carbon, soil physical fractions.


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