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Mixed Models as a Tool for Comparing Groups of Time Series in Plant Sciences

Ioannis Spyroglou, Jan Skalák, Veronika Balakhonova, Zuzana Benedikty, A. Rigas, Jan Hejátko

2021Plants26 citationsDOIOpen Access PDF

Abstract

Plants adapt to continual changes in environmental conditions throughout their life spans. High-throughput phenotyping methods have been developed to noninvasively monitor the physiological responses to abiotic/biotic stresses on a scale spanning a long time, covering most of the vegetative and reproductive stages. However, some of the physiological events comprise almost immediate and very fast responses towards the changing environment which might be overlooked in long-term observations. Additionally, there are certain technical difficulties and restrictions in analyzing phenotyping data, especially when dealing with repeated measurements. In this study, a method for comparing means at different time points using generalized linear mixed models combined with classical time series models is presented. As an example, we use multiple chlorophyll time series measurements from different genotypes. The use of additional time series models as random effects is essential as the residuals of the initial mixed model may contain autocorrelations that bias the result. The nature of mixed models offers a viable solution as these can incorporate time series models for residuals as random effects. The results from analyzing chlorophyll content time series show that the autocorrelation is successfully eliminated from the residuals and incorporated into the final model. This allows the use of statistical inference.

Topics & Concepts

AutocorrelationMixed modelSeries (stratigraphy)Abiotic componentStatisticsComputer scienceTime seriesBiological systemScale (ratio)InferenceLinear modelTerm (time)MathematicsEconometricsArtificial intelligenceEcologyBiologyQuantum mechanicsPhysicsPaleontologyPlant Water Relations and Carbon DynamicsGreenhouse Technology and Climate ControlRemote Sensing in Agriculture