Climatic patterns modulate ecosystem and soil respiration responses to fertilization in an alpine meadow on the Tibetan Plateau, China

Abstract

AbstractThe responses of ecosystem (Rec) and soil (Rs) respiration to nutrient enrichment have been extensively investigated, aiding our understanding of ecosystem and soil carbon (C) balances in light of global changes. However, the effects of climatic variables and plant growth on CO2 fluxes under nutrient enrichment remain poorly known. We measured aboveground biomass (Ab), Rec, and Rs during three consecutive growing seasons (2010–2012) in a Tibetan alpine meadow where a nitrogen (N) and phosphorous (P) fertilization experiment began in 2008. The five treatments were Ctrl (no N or P fertilization), LN and HN (addition of 5 and 10 g N m−2 year−1, respectively), LN + P and HN + P (the respective N treatments with 5 g P m−2 year−1 added). LN and HN did not affect Rec, Rs, or Ab during the three growing seasons, but both N + P treatments increased Ab in all 3 years. However, the effects of N + P on Rec and Rs varied among years: N + P increased Rec and Rs at most sampling times in 2010 and 2011, but the effect seemed to reach saturation in 2012. Additionally, Rec and Rs were positively correlated with Ab in N + P, indicating that enhanced Ab contributed considerably to the observed variation in Rec and Rs. Different climate patterns during three seasons drove the inconsistent relationships of CO2 fluxes with soil temperature and moisture. Our results suggest that temperature and precipitation patterns throughout the growing season are important modulators of CO2 fluxes under increasing nutrient levels in arid alpine meadow ecosystems.