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Abstract
Elevated CO2, drought and soil nitrogen effects on wheat grain quality. New Phytologist 150:295-303
Kimball,B.A., Morris,C.F., Pinter Jr,P.J., Wall,G.W., Hunsaker,D.J., Adamsen,F.J., LaMorte,R.L., Leavitt,S.W., Thompson,T.L., Matthias,A.D. and Brooks,T.J.
  • The likely consequences of future high levels of atmospheric CO2 concentration on wheat (Triticum aestivum L.) grain nutritional and baking quality were determined.
  • Two free-air CO2 enrichment (FACE; 550 mmol mol-1) experiments were conducted at ample (Wet) and limiting (Dry) levels of irrigation, and a further two experiments at ample (High-N) and limiting (Low-N) nitrogen concentrations. Harvested grain samples were subjected to a battery of nutritional and bread-making quality tests.
  • The Dry treatment improved grain quality slightly (protein +2%; bread loaf volume +3%). By contrast, Low-N decreased quality drastically (protein -36%; loaf volume -26%). At ample water and N, FACE decreased quality slightly (protein -5%; loaf volume -2%) in the irrigation experiments and there was no change in the nitrogen experiments. At Low-N, FACE tended to make the deleterious effects of Low-N worse (protein -33% and -39%, at ambient CO2 and FACE, respectively; loaf volume -22% and -29% at ambient CO2 and FACE, respectively).
  • The data suggest that future elevated CO2 concentrations will exacerbate the deleterious effects of low soil nitrogen on grain quality, but with ample nitrogen fertilizer, the effects will be minor.
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