用于模拟土壤温度和湿度时间序列的门控循环单元:性能和过程反映评估

IF 4.8 2区 环境科学与生态学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Environmental Modelling & Software Pub Date : 2024-10-15 DOI:10.1016/j.envsoft.2024.106245
Maiken Baumberger , Bettina Haas , Walter Tewes , Benjamin Risse , Nele Meyer , Hanna Meyer
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引用次数: 0

摘要

土壤温度和湿度是控制生态过程的重要变量,但很少有连续的高分辨率数据。因此,我们利用与气温和降水等可广泛获取的气象变量的相关性,开发了预测土壤温度和水分时间序列的模型。为了建立高分辨率时间序列模型,预测变量和目标变量的时间分辨率为 1 小时。在四年的测试集中,模型显示出较高的预测能力,土壤温度的平均绝对误差为 0.87°C,土壤水分的体积含水量误差为 3.20%。通过将简化的合成数据传递给训练有素的模型,我们进一步研究了模型的可信度,从而证明了模型反映已知过程的能力。最后,我们展示了利用迁移学习将模型应用于其他地点和土壤深度的潜力。
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Gated recurrent units for modelling time series of soil temperature and moisture: An assessment of performance and process reflectivity
Soil temperature and moisture are important variables controlling ecological processes, but continuous high-resolution data are rarely available. Therefore, we used the correlation with widely accessible meteorological variables, including air temperature and precipitation, to develop models that predict time series of soil temperature and moisture. To model high-resolution time series, predictor and target variables had a temporal resolution of 1 h. We tested the applicability of Gated Recurrent Units with time series from one exemplary site. The models showed a high predictability on the four years test set with a mean absolute error of 0.87°C for soil temperature and 3.20% volumetric water content for soil moisture. We further investigated the plausibility of the models by passing simplified synthetic data to the trained models and thereby proved their ability to reflect known processes. Finally, we showed the potential to apply the models to other sites and soil depths using transfer learning.
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来源期刊
Environmental Modelling & Software
Environmental Modelling & Software 工程技术-工程:环境
CiteScore
9.30
自引率
8.20%
发文量
241
审稿时长
60 days
期刊介绍: Environmental Modelling & Software publishes contributions, in the form of research articles, reviews and short communications, on recent advances in environmental modelling and/or software. The aim is to improve our capacity to represent, understand, predict or manage the behaviour of environmental systems at all practical scales, and to communicate those improvements to a wide scientific and professional audience.
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