Rain and potential evapotranspiration are the main drivers of yield for wheat and barley in southern Australia: insights from 12 years of National Variety Trials

Ed Barrett-Lennard; Nicholas George; Mario F. D'Antuono; Karen W. Holmes; Phillip R. Ward

doi:10.1071/CP23320

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Rain and potential evapotranspiration are the main drivers of yield for wheat and barley in southern Australia: insights from 12 years of National Variety Trials

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Rain and potential evapotranspiration are the main drivers of yield for wheat and barley in southern Australia: insights from 12 years of National Variety Trials

Ed Barrett-Lennard, Nicholas George, Mario F. D'Antuono, Karen W. Holmes and Phillip R. Ward

Crop & pasture science, Vol.75(6), CP23320

2024

DOI: https://doi.org/10.1071/CP23320

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Abstract

Context Water is widely assumed to be the factor most limiting the growth of annual crops in rainfed environments, but this is rarely tested at sub-continental scale. Aims Our study aimed to determine the key environmental and management variables influencing the yield of wheat and barley in the grain-production regions of southern Australia, using data from National Variety Trials. Methods We used generalised additive models to determine the importance of climatic and management variables on wheat and barley grain yield. We determined the effects of the best one, two or three variables and their interactions. Key results The aridity index, defined as the ratio of cumulative rainfall to potential evapotranspiration, was the single strongest determinant of grain yield for both crops. Model performance was further improved by separating the aridity index into pre-seasonal and seasonal components. Interestingly, other variables that might be expected to influence yield, such as nitrogen fertilisation and extreme temperatures, had relatively minor effects. A comparison between data collected over two 6-year periods showed that there had been yield gains and increased water-use efficiency with time, especially in wetter environments. Conclusions Our findings illustrate the importance of water availability for grain production in this region and suggest opportunities for benchmarking and yield prediction through use of readily available climate data. Implications Our study reinforces the importance of factors such as water-use efficiency and drought tolerance as goals for cultivar development and agronomic research in wheat and barley. It also highlights the potential of National Variety Trial data as a resource for understanding grain production systems and climate resilience. Further work could explore the value of additional variables and improved weather data.

Details

Title: Rain and potential evapotranspiration are the main drivers of yield for wheat and barley in southern Australia: insights from 12 years of National Variety Trials
Authors/Creators: Ed Barrett-Lennard - Murdoch University, Centre for Sustainable Farming Systems
Nicholas George - The University of Western Australia
Mario F. D'Antuono - Department of Primary Industries and Regional Development
Karen W. Holmes
Phillip R. Ward
Publication Details: Crop & pasture science, Vol.75(6), CP23320
Publisher: CSIRO Publishing
Identifiers: 991005668269807891
Copyright: © 2024 The Author(s) (or their employer(s)).
Murdoch Affiliation: Centre for Sustainable Farming Systems
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.4 Crop Science; 3.4.424 Crop Yield Optimization
Web Of Science research areas: Agriculture, Multidisciplinary
ESI research areas: Agricultural Sciences