Soil organic carbon and nitrogen fractions and water-stable aggregation as affected by cropping and grassland reclamation in an arid sub-alpine soil

This paper investigates effects of cropping abandonment and perennial grass growing on soil organic C and N pools and aggregate stability, by comparing soils under native grassland, crop cultivation, perennial grass growing and cropping abandonment, in degraded cropland at a sub-alpine site in north...

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Bibliographic Details
Published in:Land degradation & development 2009-03, Vol.20 (2), p.176-186
Main Authors: Li, Xiao Gang, Zhang, Ping Liang, Yin, Ping, Li, Yin Ke, Ma, Qi Fu, Long, Rui Jun, Li, Feng Min
Format: Article
Language:English
Subjects:
abandoned land
aggregate stability
aggregate water-stability
agricultural soils
arid soils
carbohydrates
carbon
cropping abandonment
grassland soils
nitrogen content
nitrogen fractions
particulate organic matter
perennial grass growing
soil degradation
soil organic carbon
soil properties
sub-alpine grasslands
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Summary:This paper investigates effects of cropping abandonment and perennial grass growing on soil organic C and N pools and aggregate stability, by comparing soils under native grassland, crop cultivation, perennial grass growing and cropping abandonment, in degraded cropland at a sub-alpine site in north-western China. The pools of total and particulate organic C (115 and 37 Mg ha⁻¹) in the 0-30 cm soil layer of native grassland were reduced by 31 and 54% after 30 years of crop cultivation. After 4 years of conversion from cropland to perennial grass growing total and particulate organic C pools were increased by 29 and 56%, whereas 4 year cropping abandonment increased particulate organic C by 36%. Rapid increases in total and particulate N were also found in perennial grass growing and cropping abandonment soils. The native grassland soil and soils of cropping abandonment and perennial grass growing had higher carbohydrate C concentrations in the 0-10 cm layer than the cropped soil. The rapid recovery of particulate organic fraction and carbohydrates in the re-vegetated soils were probably due to higher plant biomass inputs and lower organic matter decomposition compared with those in the cropped soil. Aggregate stability of the 0-30 cm soil layer was significantly decreased by crop cultivation but showed a good recovery after 4 year re-vegetations. This study suggests that reduction of soil organic matter and aggregate stability under crop cultivation may be remedied by cropping abandonment or perennial grass growing. Copyright © 2008 John Wiley & Sons, Ltd.
ISSN:1085-3278
1099-145X
DOI:10.1002/ldr.895