Assessment of Different Water Use Efficiency Calculations for Dominant Forage Crops in the Great Lakes Basin

Kevin De Haan,Warren Helgason,Myroslava Khomik,Adam Green,Richard M Petrone,Mazda Kompanizare,Merrin L Macrae

doi:10.3390/agriculture11080739

Kevin De Haan, Warren Helgason + Show 5 more

Open Access

https://doi.org/10.3390/agriculture11080739

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Journal: Agriculture	Publication Date: Aug 4, 2021
Citations: 5	License type: CC BY 4.0

Affiliation: University of Waterloo, University of Saskatchewan

Abstract

Water use efficiency (WUE) can be calculated using a range of methods differing in carbon uptake and water use variable selection. Consequently, inconsistencies arise between WUE calculations due to complex physical and physiological interactions. The purpose of this study was to quantify and compare WUE estimates (harvest or flux-based) for alfalfa (C3 plant) and maize (C4 plant) and determine effects of input variables, plant physiology and farming practices on estimates. Four WUE calculations were investigated: two “harvest-based” methods, using above ground carbon content and either precipitation or evapotranspiration (ET), and two “flux-based” methods, using gross primary productivity (GPP) and either ET or transpiration. WUE estimates differed based on method used at both half-hourly and seasonal scales. Input variables used in calculations affected WUE estimates, and plant physiology led to different responses in carbon assimilation and water use variables. WUE estimates were also impacted by different plant physiological responses and processing methods, even when the same carbon assimilation and water use variables were considered. This study highlights a need to develop a metric of measuring cropland carbon-water coupling that accounts for all water use components, plant carbon responses, and biomass production.

Highlights

Growing season water use efficiency (WUE) for maize and alfalfa are summarized in Alfalfa EWUES was greater than values recorded elsewhere [61], which is attributed to greater gross primary productivity (GPP) found here
This study quantified growing season Water use efficiency (WUE) of maize and alfalfa crops, which resulted in higher harvest WUE (HWUE) estimates in maize but higher ecosystem WUE (EWUE)
Patterns observed between methods do not necessarily correlate, because above ground biomass and GPP estimates, used as WUE calculation inputs, are influenced differently by plant physiology and farming practices

Summary

Introduction

Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Water use efficiency (WUE) represents an important indicator of plant resource use, with implications for local, regional, and global carbon and water cycle responses to changing environments [1,2]. WUE is the ratio of plant production (carbon assimilation) per unit of water use, and is commonly used to indicate vegetation performance [1,3,4,5]. Plants function more efficiently when they balance atmospheric gas exchanges to maximize carbon dioxide uptake for photosynthesis and minimize water use through transpiration [6]

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