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Plant Nitrogen Assimilation: A Climate Change Perspective

Mirwais M. Qaderi, Cameryn C. Evans, Madeleine D. Spicer

2025Plants16 citationsDOIOpen Access PDF

Abstract

Of all the essential macronutrients necessary for plant growth and development, nitrogen is required in the greatest amounts. Nitrogen is a key component of important biomolecules like proteins and has high nutritive importance for humans and other animals. Climate change factors, such as increasing levels of carbon dioxide, increasing temperatures, and increasing watering regime, directly or indirectly influence plant nitrogen uptake and assimilation dynamics. The impacts of these stressors can directly threaten our primary source of nitrogen as obtained from the soil by plants. In this review, we discuss how climate change factors can influence nitrogen uptake and assimilation in cultivated plants. We examine the effects of these factors alone and in combination with species of both C3 and C4 plants. Elevated carbon dioxide, e[CO2], causes the dilution of nitrogen in tissues of non-leguminous C3 and C4 plants but can increase nitrogen in legumes. The impact of high-temperature (HT) stress varies depending on whether a species is leguminous or not. Water stress (WS) tends to result in a decrease in nitrogen assimilation. Under some, though not all, conditions, e[CO2] can have a buffering effect against the detrimental impacts of other climate change stressors, having an ameliorating effect on the adverse impacts of HT or WS. Together, HT and WS are seen to cause significant reductions in biomass production and nitrogen uptake in non-leguminous C3 and C4 crops. With a steadily rising population and rapidly changing climate, consideration must be given to the morphological and physiological effects that climate change will have on future crop health and nutritional quality of N.

Topics & Concepts

Assimilation (phonology)NitrogenEnvironmental scienceAgronomyClimate changePhotosynthesisBiomass (ecology)PopulationNitrogen deficiencyNitrogen cycleCarbon dioxideBiologyEcologyChemistryBotanyLinguisticsOrganic chemistrySociologyPhilosophyDemographyPlant responses to elevated CO2Legume Nitrogen Fixing SymbiosisPlant nutrient uptake and metabolism
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