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- Title
Soil Ca alters processes contributing to C and N retention in the Oa/A horizon of a northern hardwood forest.
- Authors
Minick, Kevan; Fisk, Melany; Groffman, Peter
- Abstract
Recent studies on the effects of calcium (Ca) additions on soil carbon (C) cycling in organic soil horizons present conflicting results, with some studies showing an increase in soil C storage and others a decrease. We tested the legacy effects of soil Ca additions on C and nitrogen (N) retention in a long-term incubation of soils from a plot-scale field experiment at the Hubbard Brook Experimental Forest, NH, USA. Two levels of Ca (850 and 4250 kg Ca/ha) were surface applied to field plots as the mineral wollastonite (CaSiO) in summer of 2006. Two years after field Ca additions, Oa/A horizon soils were collected from field plots and incubated in the laboratory for 343 days to test Ca effects on C mineralization, dissolved organic carbon (DOC) export, and net N transformations. To distinguish mineralization of soil organic C (SOC) from that of more recent C inputs to soil, we incubated soils with and without added C-labeled sugar maple leaf litter. High Ca additions increased exchangeable Ca and pH compared to the control. While low Ca additions had little effect on mineralization of SOC or added litter C, high Ca additions reduced mineralization of SOC and enhanced mineralization of litter C. In litter-free incubations, δC of respired C was enriched in the high Ca treatment compared to the control, indicating that Ca suppressed mineralization of C-depleted SOC sources. Leaching of DOC and NH were reduced by Ca additions in litter-free and litter-amended soils. Our results suggest that Ca availability in these organic soils influences mineralization of SOC and N primarily by stabilization processes and only secondarily through pH effects on organic matter solubility, and that SOC binding processes become important only with relatively large alterations of Ca status.
- Subjects
HUBBARD Brook Experimental Forest (N.H.); HARDWOOD forests; CARBON in soils; CALCIUM in soils; WOLLASTONITE; SOIL stabilization; MINERALIZATION
- Publication
Biogeochemistry, 2017, Vol 132, Issue 3, p343
- ISSN
0168-2563
- Publication type
Article
- DOI
10.1007/s10533-017-0307-z