1. Coniferous afforestation increases soil carbon in maritime sand dunes
- Author
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Nilda Mabel Amiotti, Pablo Zalba, Adrian Ares, and Javier M. Rossi
- Subjects
geography ,geography.geographical_feature_category ,biology ,Pinus radiata ,Soil Science ,Soil science ,Soil carbon ,Carbon sequestration ,biology.organism_classification ,Grassland ,Sand dune stabilization ,Agronomy ,Soil pH ,Soil water ,Environmental science ,Afforestation ,Agronomy and Crop Science - Abstract
Afforestation of grasslands can increase C sequestration and provide additional economic and environmental benefits. Pine plantations, however, have often been found to deplete soil organic C and trigger detrimental effects on soils. We examined soil characteristics under a 45-year-old Pinus radiata stand and under adjacent grassland on maritime dunes in temperate Argentina. Soil under the pine plantation had greater soil organic C (+93%), total N (+55%) and available P (+100%) concentrations than under grassland. Carbon was stored under the pinestand at an estimated mean accretion rate of 0.64 Mg ha−1 y−1. At 0- to 25-cm depth, soil C amounted to 61 Mg ha−1 under pine and 27 Mg ha−1 under grassland. Soil C accumulated more on dune slopes (35 Mg ha−1 y−1) than on ridges(29 Mg ha−1 y−1) and bottoms (12 Mg ha−1 y−1). Compared with the grassland, soil acidity, cation-exchange capacity, base losses (K > Ca = Mg) and C/N ratio increased under pine. Spatial heterogeneity in soil characteristics was greater unde...
- Published
- 2013
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