Field phenotyping for soybean density tolerance using time-series prediction and dynamic modeling
文献类型: 外文期刊
第一作者: Sun, Guangyao
作者: Sun, Guangyao;Fei, Shuaipeng;Lv, Chunli;Xu, Yun;Ma, Yuntao;Zhang, Yong;Wang, Lei;Meng, Lei;Liu, Yaling;Che, Yingpu;Li, Yinghui;Qiu, Lijuan
作者机构:
关键词: Time-series prediction; Dynamic modeling; Soybean density tolerance; Unmanned aerial vehicle
期刊名称:PLANT PHENOMICS ( 影响因子:6.4; 五年影响因子:7.1 )
ISSN: 2643-6515
年卷期: 2025 年 7 卷 3 期
页码:
收录情况: SCI
摘要: With the increasing global demand for food, breeding soybean varieties resistant to dense planting is crucial for achieving high and stable yields. Traditional phenotyping methods are limited by insufficient temporal resolution and challenges in dynamic modeling continuity, making it difficult to elucidate the intrinsic relationship between canopy development rate and yield stability. Moreover, existing machine learning models often neglect temporal dependencies in time series predictions, leading to insufficient biological interpretability. This study proposes an innovative approach integrating spatiotemporal deep learning and dynamic modeling to quantify the dynamic changes in canopy parameters using UAV high-throughput phenotyping technology, revealing the key regulatory mechanisms of traits associated with resistance to dense planting. Based on a two-year field experiment (2022-2023) in northeast China (Qiqihaer, black soil region), this study set high (50w plants/ha) and low density (30w plants/ha) treatments across 208 soybean varieties, combined with multispectral UAV imagery (15-18 times per season) and ground-truth data, to develop a time series prediction model for leaf area index (LAI). Comparing the performance of spatiotemporal residual networks (ST-ResNet), long short-term memory networks (LSTM), and traditional random forests (RF), the ST-ResNet model demonstrated significantly superior prediction accuracy (R2 = 0.90, RMSE = 0.23 m2/m2), effectively capturing the continuous dynamics of canopy growth through its spatiotemporal feature fusion ability. By fitting the time series curves of LAI, canopy cover (CC), and plant height (PH) with P-spline, 15 intermediate traits (e.g., Delta MeanLAI-mid) were extracted. Mixed models and SHAP interpretability analysis showed that Delta MeanLAI-mid was most correlated with the dense planting yield index (Delta Yield, r = 0.51). Furthermore, the high-frequency data acquisition and automated analysis framework using UAVs enabled high-throughput phenotypic screening for 208 varieties per year, significantly improving efficiency compared to traditional methods that rely on manual sampling. This study pioneers the integration of spatiotemporal deep learning with dynamic trait modeling, markedly improving the temporal continuity and stability of LAI estimation compared to traditional single-time-point prediction methods. This advancement allows for more precise quantification of canopy development rates across various growth stages, enabling a systematic analysis of how these dynamic patterns influence resistance to dense planting. By elucidating the dynamic relationship between intermediate traits and yield, this approach offers a high-precision, interpretable phenotypic analysis framework for effectively screening soybean varieties resilient to dense planting.
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