The nitrogen price of improved wheat yield under climate change
The nitrogen price of improved wheat yield under climate change
Abstract Increasing global food demand will require more food production without further exceeding the planetary boundaries, while at the same time adapting to climate change. We used an ensemble of wheat simulation models, with sink-source improved traits from the highest-yielding wheat genotypes to quantify potential yield gains and associated N requirements. This was explored for current and climate change scenarios across representative sites of major world wheat producing regions. The sink-source traits emerged as climate neutral with 16% yield increase with current N fertilizer applications under both current climate and mid-century climate change scenarios. To achieve the full yield potential, a 52% increase in global average yield under a mid-century RCP8.5 climate scenario, fertilizer use would need to increase fourfold over current use, which would unavoidably lead to higher environmental impacts from wheat production. Our results show the need to improve soil N availability and N use efficiency, along with yield potential.
- National Aeronautics and Space Administration United States
- Aarhus University Denmark
- Technical University of Munich Germany
- Czech Academy of Sciences Czech Republic
- University of Buenos Aires
Impacts of Elevated CO2 and Ozone on Plant Physiology, Cartography, Adaptation to Climate Change in Agriculture, Economics, Agricultural engineering, Macroeconomics, Soil Science, Plant Science, Yield (engineering), Environmental science, Agricultural and Biological Sciences, Fertilizer, Engineering, Natural resource economics, Climate change, Production (economics), Biology, Ecology, Evolution, Behavior and Systematics, Soil Fertility, Ecology, Geography, Climate change scenario, Life Sciences, Agronomy, Materials science, Sink (geography), FOS: Biological sciences, Metallurgy, Crop Yield, Soil Carbon Dynamics and Nutrient Cycling in Ecosystems
Impacts of Elevated CO2 and Ozone on Plant Physiology, Cartography, Adaptation to Climate Change in Agriculture, Economics, Agricultural engineering, Macroeconomics, Soil Science, Plant Science, Yield (engineering), Environmental science, Agricultural and Biological Sciences, Fertilizer, Engineering, Natural resource economics, Climate change, Production (economics), Biology, Ecology, Evolution, Behavior and Systematics, Soil Fertility, Ecology, Geography, Climate change scenario, Life Sciences, Agronomy, Materials science, Sink (geography), FOS: Biological sciences, Metallurgy, Crop Yield, Soil Carbon Dynamics and Nutrient Cycling in Ecosystems
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