作物酚学模型校准方案的建议和广泛测试

IF 6.4 1区 农林科学 Q1 AGRONOMY Agronomy for Sustainable Development Pub Date : 2023-07-13 DOI:10.1007/s13593-023-00900-0
Daniel Wallach, Taru Palosuo, Peter Thorburn, Henrike Mielenz, Samuel Buis, Zvi Hochman, Emmanuelle Gourdain, Fety Andrianasolo, Benjamin Dumont, Roberto Ferrise, Thomas Gaiser, Cecile Garcia, Sebastian Gayler, Matthew Harrison, Santosh Hiremath, Heidi Horan, Gerrit Hoogenboom, Per-Erik Jansson, Qi Jing, Eric Justes, Kurt-Christian Kersebaum, Marie Launay, Elisabet Lewan, Ke Liu, Fasil Mequanint, Marco Moriondo, Claas Nendel, Gloria Padovan, Budong Qian, Niels Schütze, Diana-Maria Seserman, Vakhtang Shelia, Amir Souissi, Xenia Specka, Amit Kumar Srivastava, Giacomo Trombi, Tobias K. D. Weber, Lutz Weihermüller, Thomas Wöhling, Sabine J. Seidel
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引用次数: 2

摘要

环境对作物的主要影响是通过作物的酚学,因此,预测新环境的酚学能力很重要。机械化作物模型是进行此类预测的主要工具,但作物表型模型的校准很困难,而且对最佳方法没有达成共识。我们提出了一种原始的、详细的方法来校准这些模型,我们称之为校准协议。该协议涵盖了校准工作流程中的所有步骤,即默认参数值的选择、目标函数的选择、根据数据估计的参数的选择、最佳参数值的计算和诊断。主要创新在于选择从数据中估计哪些参数,这结合了专家知识和基于数据的模型选择。首先,识别和估计几乎是加性参数。这应该使偏差(观测值和模拟值之间的平均差)几乎为零。这些都是“强制性”参数,肯定会被估计出来。然后识别候选参数,这些参数可能解释模拟值和观测值之间的剩余差异。如果候选项导致模型选择标准BIC(贝叶斯信息准则)降低,则仅将其添加到要估计的参数列表中。协议的第二个原始方面是协议每个阶段的文档规范。该协议由19个建模团队应用于三个小麦表型数据集。所有团队首先使用“常规”校准方法校准他们的模型,因此可以比较常规校准和协议校准。预测误差的评估基于训练数据中未显示的地点和年份的数据。与通常的校准相比,根据新协议进行的校准将建模团队之间的可变性降低了22%,并将预测误差降低了11%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Proposal and extensive test of a calibration protocol for crop phenology models

A major effect of environment on crops is through crop phenology, and therefore, the capacity to predict phenology for new environments is important. Mechanistic crop models are a major tool for such predictions, but calibration of crop phenology models is difficult and there is no consensus on the best approach. We propose an original, detailed approach for calibration of such models, which we refer to as a calibration protocol. The protocol covers all the steps in the calibration workflow, namely choice of default parameter values, choice of objective function, choice of parameters to estimate from the data, calculation of optimal parameter values, and diagnostics. The major innovation is in the choice of which parameters to estimate from the data, which combines expert knowledge and data-based model selection. First, almost additive parameters are identified and estimated. This should make bias (average difference between observed and simulated values) nearly zero. These are “obligatory” parameters, that will definitely be estimated. Then candidate parameters are identified, which are parameters likely to explain the remaining discrepancies between simulated and observed values. A candidate is only added to the list of parameters to estimate if it leads to a reduction in BIC (Bayesian Information Criterion), which is a model selection criterion. A second original aspect of the protocol is the specification of documentation for each stage of the protocol. The protocol was applied by 19 modeling teams to three data sets for wheat phenology. All teams first calibrated their model using their “usual” calibration approach, so it was possible to compare usual and protocol calibration. Evaluation of prediction error was based on data from sites and years not represented in the training data. Compared to usual calibration, calibration following the new protocol reduced the variability between modeling teams by 22% and reduced prediction error by 11%.

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来源期刊
Agronomy for Sustainable Development
Agronomy for Sustainable Development 农林科学-农艺学
CiteScore
10.70
自引率
8.20%
发文量
108
审稿时长
3 months
期刊介绍: Agronomy for Sustainable Development (ASD) is a peer-reviewed scientific journal of international scope, dedicated to publishing original research articles, review articles, and meta-analyses aimed at improving sustainability in agricultural and food systems. The journal serves as a bridge between agronomy, cropping, and farming system research and various other disciplines including ecology, genetics, economics, and social sciences. ASD encourages studies in agroecology, participatory research, and interdisciplinary approaches, with a focus on systems thinking applied at different scales from field to global levels. Research articles published in ASD should present significant scientific advancements compared to existing knowledge, within an international context. Review articles should critically evaluate emerging topics, and opinion papers may also be submitted as reviews. Meta-analysis articles should provide clear contributions to resolving widely debated scientific questions.
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