CO 2 enrichment and soil type additively regulate grassland productivity

Summary Atmospheric CO 2 enrichment usually increases the aboveground net primary productivity (ANPP) of grassland vegetation, but the magnitude of the ANPP–CO 2 response differs among ecosystems. Soil properties affect ANPP via multiple mechanisms and vary over topographic to geographic gradients, but have received little attention as potential modifiers of the ANPP–CO 2 response. We assessed the effects of three soil types, sandy loam, silty clay and clay, on the ANPP response of perennial C 3 /C 4 grassland communities to a subambient to elevated CO 2 gradient over 10 yr in Texas, USA. We predicted an interactive, rather than additive, effect of CO 2 and soil type on ANPP. Contrary to prediction, CO 2 and soil additively influenced grassland ANPP. Increasing CO 2 by 250 μl l −1 increased ANPP by 170 g m −2 across soil types. Increased clay content from 10% to 50% among soils reduced ANPP by 50 g m −2 . CO 2 enrichment increased ANPP via a predominant direct effect, accompanied by a smaller indirect effect mediated by a successional shift to increased dominance of the C 4 tallgrass Sorghastrum nutans . Our results indicate a large, positive influence of CO 2 enrichment on grassland productivity that resulted from the direct physiological benefits of CO 2 augmented by species succession, and was expressed similarly across soils of differing physical properties.