Predicting rice phenology and optimal sowing dates in temperate regions using machine learning.

Autor: Brinkhoff, James, McGavin, Sharon L., Dunn, Tina, Dunn, Brian W.
Zdroj: Agronomy Journal; May2024, Vol. 116 Issue 3, p871-885, 15p
Abstrakt: Crop phenology modeling often involves determining variety‐specific growing degree day thresholds, or parameterizing mechanistic crop models. In this work, we used machine learning methods to develop models that provide daily predictions of the probability that rice (Oryza sativa) crops had reached the panicle initiation and flowering growth stages. These per‐date classifications were summarized into per‐paddock growth stage transition dates, which were then compared with field‐sampled reference data, encompassing 15 rice varieties, 10 years, and 380 sites. Leave‐one‐year‐out cross validation was used to provide realistic estimates of model errors. Compared with more complex and computationally intensive algorithms, logistic regression produced competitive results (mean cross‐season validation RMSE 3.9 and 5.2 days for panicle initiation and flowering, respectively). Logistic regression had additional advantages: providing confidence of growth stage predictions at each date (as it is a probabilistic algorithm), and straightforward explainability (as model parameters directly indicated how the various input variables contributed to growth stage predictions). Input variables included accumulated weather, rice variety, and sowing methods. The models were applied to forecasting phenology transition dates of the rice crops planted throughout the Murray and Murrumbidgee valleys. In addition, recommendations for optimal sowing dates were developed, using simulations involving more than 40 years of weather data, with the goal of minimizing the risk of cold‐temperatures during the microspore growth phase, which can severely degrade yield in temperate rice growing regions. Core Ideas: Crop phenology predictions aid timely interventions such as water and fertilizer application.Machine learning models predict growth stages of rice crops at each date in a time series.Input variables include weather, rice variety, and sowing method.Logistic regression yields competitive results, providing probabilistic predictions and explainability.Models enable climate‐based simulations of optimal sowing dates for rice crops in temperate regions. [ABSTRACT FROM AUTHOR]
Databáze: Supplemental Index