Effects of CO2 enrichment and nutrition on growth, photosynthesis, and nutrient concentration of Alaskan tundra plant species

Abstract

Three Alaskan tundra species, Carex bigelowii Torr., Betula nana L., and Ledum palustre L., were grown in controlled-environment chambers at two nutrition levels with two concentrations of atmospheric CO₂ to assess the interactive effects of these factors on growth, photosynthesis, and tissue nutrient content. Carbon dioxide concentrations were maintained at 350 and 675 μL L⁻¹ under photosynthetic photon flux densities of 450 μmol m⁻² s⁻¹ and temperatures of 20:15 °C (light:dark). Nutrient treatments were obtained by watering daily with 1/60- or 1/8- strength Hoagland's solution. Leaf, root, and total biomass were strongly enhanced by nutrient enrichment regardless of the CO₂ concentration. In contrast, enriched atmospheric CO₂ did not significantly affect plant biomass and there was no interaction between nutrition and CO₂ concentration during growth. Leaf photosynthesis was increased by better nutrition in two species but was unchanged by CO₂ enrichment during growth in all three species. The effects of nutrient addition and CO₂ enrichment on tissue nutrient concentrations were complex and differed among the three species. The data suggest that CO₂ enrichment with or without nutrient limitation has little effect on the biomass production of these three tundra species.