Soil C, N and P cycling enzyme responses to nutrient limitation under elevated CO2
Ben Keane, Marcel R. Hoosbeek, Christopher Taylor, F. Miglietta, Gareth K. Phoenix, Iain P. Hartley
Abstract
Abstract Elevated CO 2 (eCO 2 ) can stimulate plant productivity and increase carbon (C) input to soils, but nutrient limitation restricts productivity. Despite phosphorus (P)-limited ecosystems increasing globally, it is unknown how nutrient cycling, particularly soil microbial extra cellular enzyme activity (EEA), will respond to eCO 2 in such ecosystems. Long-term nutrient manipulation plots from adjacent P-limited acidic and limestone grasslands were exposed to eCO 2 (600 ppm) provided by a mini-Free Air CO 2 Enrichment system. P-limitation was alleviated (35 kg-P ha −1 y −1 (P35)), exacerbated (35 kg-N ha −1 y −1 (N35), 140 kg-N ha −1 y −1 (N140)), or maintained (control (P0N0)) for > 20 years. We measured EEAs of C-, N- and P-cycling enzymes (1,4-β-glucosidase, cellobiohydrolase, N-acetyl β-D-glucosaminidase, leucine aminopeptidase, and acid phosphatase) and compared C:N:P cycling enzyme ratios using a vector analysis. Potential acid phosphatase activity doubled under N additions relative to P0N0 and P35 treatments. Vector analysis revealed reduced C-cycling investment and increased P-cycling investment under eCO 2 . Vector angle significantly increased with P-limitation (P35 < P0N0 < N35 < N140) indicating relatively greater investment in P-cycling enzymes. The limestone grassland was more C limited than the acidic grassland, characterised by increased vector length, C:N and C:P enzyme ratios. The absence of interactions between grassland type and eCO 2 or nutrient treatment for all enzyme indicators signaled consistent responses to changing P-limitation and eCO 2 in both grasslands. Our findings suggest that eCO 2 reduces C limitation, allowing increased investment in P- and N-cycle enzymes with implications for rates of nutrient cycling, potentially alleviating nutrient limitation of ecosystem productivity under eCO 2 . Graphic abstract "Image missing"