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- Sanz‐sáez, Álvaro, et al. Show all 4 Authors
- Plant, cell and environment 2015 v.38 no.12 pp. 2589-2602
- Bradyrhizobium japonicum; Glycine max; air; biomass; carbon dioxide; field experimentation; free air carbon dioxide enrichment; growth chambers; leaves; nitrogen; nitrogen content; nitrogen fixation; photosynthesis; seed yield; soil; soil bacteria; soil sterilization; soybeans; stable isotopes
- ... This study tested the hypothesis that inoculation of soybean (Glycine max Merr.) with a Bradyrhizobium japonicum strain (USDA110) with greater N₂ fixation rates would enhance soybean response to elevated [CO₂]. In field experiments at the Soybean Free Air CO₂ Enrichment facility, inoculation of soybean with USDA110 increased nodule occupancy from 5% in native soil to 54% in elevated [CO₂] and 34% ...
- Sanz‐Sáez, Alvaro, et al. Show all 13 Authors
- Plant, cell and environment 2015 v.38 no.12 pp. 2780-2794
- filling period; flowering; durum wheat; acclimation; carbon; carbon sinks; stable isotopes; carbon dioxide; electron transfer; photosynthesis; mesophyll; nutrient use efficiency; metabolomics; leaves; cultivars; lysine; carboxylation; Triticum turgidum subsp. durum; proteomics; biomass; ribulose-bisphosphate carboxylase; proteins; nitrogen
- ... C sink/source balance and N assimilation have been identified as target processes conditioning crop responsiveness to elevated CO₂. However, little is known about phenology‐driven modifications of C and N primary metabolism at elevated CO₂ in cereals such as wheat. Here, we examined the differential effect of elevated CO₂ at two development stages (onset of flowering, onset of grain filling) in du ...