In situ effects of elevated CO₂ on the carbon and nitrogen status of alpine plants

Abstract: Summary1. The effect of elevated CO 2 on tissue composition in an alpine grassland (Swiss Central Alps, 2500 m) under both natural and increased nutrient supply (NPK) is summarized. 2. During 3 years of CO 2 enrichment the concentration of total non-structural carbohydrates (TNC) in leaves increased by 32% in Leontodon helveticus (largely sugar) and by 56% in Trifolium alpinum (largely starch) but did not change significantly in the dominant sedge Carex curvula and in Poa alpina, currently a rare species at th… Show more

“…Soluble sugars and starch concentrations in stem and roots have already been found not to increase in other experiments [4,28]. In contrast with our findings, starch and total non-structural carbohydrate accumulation in foliage (and other compartments) of plants grown at elevated [CO 2 ] is a much more common phenomenon [2,42,43], although it has been reported to be a strong species-specific response [29,50]. We sampled the plant material in the afternoon and Wullschleger et al [56] [28,31,41].…”

“…Elevated [CO 2 ] may also reduce dark respiration [56]. Total non-structural carbohydrates ( but it also appears that this is a species-specific response [29,50]. The magnitude of these responses may be affected by nutrient levels [15,17].…”

The effect of elevated atmospheric CO₂ concentration and nutrient supply on gas exchange, carbohydrates and foliar phenolic concentration in live oak (Quercus virginiana Mill.) seedlings

“…Soluble sugars and starch concentrations in stem and roots have already been found not to increase in other experiments [4,28]. In contrast with our findings, starch and total non-structural carbohydrate accumulation in foliage (and other compartments) of plants grown at elevated [CO 2 ] is a much more common phenomenon [2,42,43], although it has been reported to be a strong species-specific response [29,50]. We sampled the plant material in the afternoon and Wullschleger et al [56] [28,31,41].…”

“…Elevated [CO 2 ] may also reduce dark respiration [56]. Total non-structural carbohydrates ( but it also appears that this is a species-specific response [29,50]. The magnitude of these responses may be affected by nutrient levels [15,17].…”

The effect of elevated atmospheric CO₂ concentration and nutrient supply on gas exchange, carbohydrates and foliar phenolic concentration in live oak (Quercus virginiana Mill.) seedlings

“…The physiological mechanism behind this response may be similar to what is typically observed in leaves (e.g. Curtis 1996;Schäppi and Körner 1997). CO 2 -induced stimulation of photosynthesis may have caused an accumulation of carbohydrates in seeds leading to a dilution of the nitrogen reserves.…”

Maternal and direct effects of elevated CO 2 on seed provisioning, germination and seedling growth in Bromus erectus

“…The absence of a significant CO2 growth response may be attributed to increased biomass allocation toward heterotrophic rather than autotrophic tissue, thereby leading to a higher R/S Ratio and lower LAR (Norby et al, 1992;Callaway et al, 1994). For instance, the accumulation of nonstructural carbohydrates in plant roots, which causes increases in either the respiration rate or the R/S under elevated CO2 (Schappi and Korner, 1997), may offset the positive effects of improved carbon assimilation on growth. In the current study, however, there was no indication that the proportion of beterotrophic tissue increased under elevated CO2.…”

Effects of elevated CO2 and nitrogen on growth ofPoa pratensis (L.)