通过将表型异质性嵌入模型参数集来提高作物产量预测的准确性

IF 6.1 1区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agricultural Systems Pub Date : 2023-06-01 DOI:10.1016/j.agsy.2023.103666
Simone Bregaglio, Fabrizio Ginaldi, Elisabetta Raparelli, Gianni Fila, Sofia Bajocco
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引用次数: 0

摘要

将遥感(RS)数据同化到作物模型中,通过考虑作物生长动态及其由于不同的管理实践和环境条件而产生的空间异质性,提高了产量预测的准确性。目的本研究提出了一种使用RS时间序列数据和作物模型进行亚区域产量预测的新方法(统计地区单位命名法,NUTS-3水平)。主要目标是发布一个程序,利用RS观察到的农业景观的异质性(即农业表型)来驱动作物模型校准。方法已使用精细分辨率的大麦和玉米分布图(100米)和相关作物日历来推导2018-2019年位于阿普利亚、托斯卡纳和威尼托的8天MODIS NDVI时间序列数据的“地点”和“时间”。主成分分析和层次聚类已应用于NDVI季节剖面,以确定农业表型,并用于推导作物生长和叶面积指数动态。这些数据作为优化WOFOST_GT模型最相关参数的参考,使用网格天气数据作为输入(0.25°分辨率,哥白尼ERA5)。对来自多个自动校准的参数分布进行了采样,以表征22个NUTS-3行政单位内的农业异质性。意大利国家统计研究所的产量统计数据已被用作参考数据,以测试作物模型WOFOST_GT产量模拟的准确性。结果和结论农业表型反映了这两种作物在意大利经历的广泛的南北纬度梯度,导致整个研究区域大麦和玉米的开花和收获日期相差15-30天。Nast-Sutcliffe在从RS(0.6)再现LAI动态方面的平均建模效率和在后播模拟中预测产量数据的相对均方根误差(RRMSE)(大麦为12.1%,玉米为3.7%)证明了我们方法的有效性。与基线相比,平均RRMSE降低了32.7%(大麦)和8.5%(玉米),两种作物的绝对产量误差都降低了0.7–1 Mg ha−1。显著性与NUTS-3水平的无监督模拟相比,在产量预测工作流程中纳入本地农业表型减少了产量预测的误差。向科学界发布了农业表型提取脚本和模型参数集,以促进对其他作物、生态气候区域、卫星传感器和空间尺度的改进和进一步应用。
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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Improving crop yield prediction accuracy by embedding phenological heterogeneity into model parameter sets

CONTEXT

The assimilation of Remote Sensing (RS) data into crop models improves the accuracy of yield predictions by considering crop growth dynamics and their spatial heterogeneity due to the different management practices and environmental conditions.

OBJECTIVE

This study proposes a new method for performing sub-regional yield predictions (Nomenclature of territorial units for statistics, NUTS-3 level) using RS time series data and crop models. The primary objective was to release a procedure whereby the heterogeneity of the agricultural landscape (i.e. the agrophenotypes) observed from RS is used to drive crop model calibration.

METHODS

Fine-resolution barley and maize distribution maps (100 m) and related crop calendars have been used to derive the “where” and “when” of the 8-day MODIS NDVI time series data, located in Apulia, Tuscany, and Veneto in 2018–2019. Principal Component Analysis and Hierarchical Clustering have been applied to NDVI seasonal profiles to identify the agrophenotypes, which have been used to derive crop growth and leaf area index dynamics. These data served as the reference to optimize the most relevant parameters of the WOFOST_GT model, using gridded weather data as input (0.25° resolution, Copernicus ERA5). Parameter distributions from multiple automatic calibrations have been sampled to characterize the agricultural heterogeneity within 22 NUTS-3 administrative units. Yield statistics from the Italian National Institute of Statistics have been used as reference data to test the accuracy of the yield simulation by the crop model WOFOST_GT.

RESULTS AND CONCLUSIONS

The agrophenotypes reflected the wide north-south latitudinal gradient experienced in Italy by the two crops, leading to a gap of 15–30 days in barley and maize flowering and harvest dates across the study area. Average Nast-Sutcliffe modelling efficiency in reproducing LAI dynamics from RS (0.6) and Relative Root Mean Square Error (RRMSE) in predicting yield data (12.1% for barley, 3.7% for maize) in hindcast simulations demonstrated the effectiveness of our approach. The average RRMSE was reduced by 32.7% (barley) and 8.5% (maize) compared to baseline, decreasing by 0.7–1 Mg ha−1 absolute yield errors on both crops.

SIGNIFICANCE

The inclusion of local agrophenotypes in the yield prediction workflow reduced errors in yield prediction compared to unsupervised simulations at NUTS-3 level. The script for agrophenotypes extraction and the model parameter sets are released to the scientific community, to foster improvements and further applications to other crops, ecoclimatic regions, satellite sensors and spatial scales.

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来源期刊
Agricultural Systems
Agricultural Systems 农林科学-农业综合
CiteScore
13.30
自引率
7.60%
发文量
174
审稿时长
30 days
期刊介绍: Agricultural Systems is an international journal that deals with interactions - among the components of agricultural systems, among hierarchical levels of agricultural systems, between agricultural and other land use systems, and between agricultural systems and their natural, social and economic environments. The scope includes the development and application of systems analysis methodologies in the following areas: Systems approaches in the sustainable intensification of agriculture; pathways for sustainable intensification; crop-livestock integration; farm-level resource allocation; quantification of benefits and trade-offs at farm to landscape levels; integrative, participatory and dynamic modelling approaches for qualitative and quantitative assessments of agricultural systems and decision making; The interactions between agricultural and non-agricultural landscapes; the multiple services of agricultural systems; food security and the environment; Global change and adaptation science; transformational adaptations as driven by changes in climate, policy, values and attitudes influencing the design of farming systems; Development and application of farming systems design tools and methods for impact, scenario and case study analysis; managing the complexities of dynamic agricultural systems; innovation systems and multi stakeholder arrangements that support or promote change and (or) inform policy decisions.
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