Predicting Minimum Temperatures of Plastic Greenhouse During Strawberry Growing in Changfeng, China: A Comparison of Machine Learning Algorithms and Multiple Linear Regression

Predicting Minimum Temperatures of Plastic Greenhouse During Strawberry Growing in Changfeng, China: A Comparison of Machine Learning Algorithms and Multiple Linear Regression

Scientific management and environmental regulation of facility strawberries depends on the level of accurate prediction and forecasting of low temperature freezes in plastic greenhouses during winter and spring strawberry cultivation. Accurate identification of potential factors affecting layer-by-l...

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Bibliographic Details
Main Authors: Xuelin Wang, Qinqin Huang, Dong Wu, Jinhua Xie, Ming Cao, Jun Liu
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Agronomy
Subjects:
<i>Fragaria</i> × <i>ananassa</i> Duch
low-temperature stress
strawberry growing season
random forest
back propagation
microclimate regulation and control
Online Access:https://www.mdpi.com/2073-4395/15/3/709
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Summary:Scientific management and environmental regulation of facility strawberries depends on the level of accurate prediction and forecasting of low temperature freezes in plastic greenhouses during winter and spring strawberry cultivation. Accurate identification of potential factors affecting layer-by-layer minimum temperatures in plastic greenhouses and selection of optimal forecasting methods are important for safe strawberry production. However, the identification of important drivers of minimum temperatures in plastic greenhouses and the prediction of potential drivers of use are still unclear. In this study, we used Classification and Regression Tree (CART) to identify the importance of the potential factors affecting the minimum temperatures at different depths and different heights of plastic greenhouses. Random forest (RF), back-propagation (BP), and multiple linear regression (MLR) were used to establish the minimum temperature prediction models for plastic greenhouses at different depths and heights, respectively. The results showed that T<sub>smin10</sub>, T<sub>smin25</sub>, T<sub>amin150</sub>, T<sub>amin320</sub>, and T<sub>amin150</sub> were the most important variables explaining the changes in minimum temperatures at heights T<sub>smin25</sub>, T<sub>smin10</sub>, T<sub>smin2</sub>, T<sub>amin150</sub>, and T<sub>amin320</sub> respectively. RF, BP performed much better than MLR, as it showed much lower error indices (AE and RMSE) and higher R<sup>2</sup> than MLR. The superiority of RF and BP in predicting minimum temperatures is related to their ability to deal with non-linear and hierarchical relationships between minimum temperatures and predictors. The low-temperature frost protection and fine management of strawberries in the Changfeng area can be related to the prediction method of minimum temperature in plastic greenhouses constructed in this study.
ISSN:2073-4395

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