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The Effects of Changing Environments, Abiotic Stresses, and Management Practices on Cropland Evapotranspiration: A Review

Rangjian Qiu, Gabriel G. Katul, Lu Zhang, Shujing Qin, Xuelian Jiang

2024Reviews of Geophysics39 citationsDOI

Abstract

Abstract The significance of crop evapotranspiration (ET a ) to climate science, agronomic research, and water resources is not in dispute. What continues to draw attention is how variability in ET a is driven by changing environments, abiotic stresses, and management practices. Here, the impacts of elevated CO 2 concentration (e[CO 2 ]), elevated ozone concentration (e[O 3 ]), warming, abiotic stresses (water, salinity, heat stresses), and management practices (planting density, irrigation methods, mulching, nitrogen application) on cropland ET a were reviewed, along with their possible causes and estimation. Water and salinity stresses, e[O 3 ], and drip irrigation adoption generally led to lower total growing–season ET a . However, total growing–season ET a responses to e[CO 2 ], warming, heat stress, mulching, planting density, and nitrogen supplement appear inconsistent across empirical studies. The effects of e[CO 2 ], e[O 3 ], water and salinity stresses on total growing–season ET a are attributed to their influence on stomatal conductance, root water uptake, root and leaf area development, microclimate, and potentially phenology. Total growing–season ET a in response to warming is affected by variations in ambient growing–season mean air temperature and phenology. The differences in crop ET a under varying planting densities are due to their differences in leaf area. The responses of ET a to heat stress, mulching, and nitrogen application represent trade–off between their opposite effects on transpiration and evaporation, along with possibly phenology. Modified ET a models currently in use can estimate the response of ET a to the many aforementioned factors except for e[O 3 ], heat stress, and nitrogen application. These factors offer a blueprint for future research inquiries.

Topics & Concepts

EvapotranspirationAbiotic componentEnvironmental scienceWater stressHydrology (agriculture)GeologyAgronomyEcologyGeotechnical engineeringBiologyPaleontologyPlant Water Relations and Carbon DynamicsBioenergy crop production and managementCrop Yield and Soil Fertility
The Effects of Changing Environments, Abiotic Stresses, and Management Practices on Cropland Evapotranspiration: A Review | Litcius