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Estimating leaf nitrogen content by coupling a nitrogen allocation model with canopy reflectance

氮气 天蓬 环境科学 生长季节 植被(病理学) 光合作用 氮气循环 叶绿素 经验模型 叶面积指数 农学 数学 植物 计算机科学 生态学 化学 生物 程序设计语言 病理 医学 有机化学
作者
Dong Li,Jing M. Chen,Yan Yan,Hengbiao Zheng,Xia Yao,Yan Zhu,Weixing Cao,Tao Cheng
出处
期刊:Remote Sensing of Environment [Elsevier BV]
卷期号:283: 113314-113314 被引量:34
标识
DOI:10.1016/j.rse.2022.113314
摘要

The area-based leaf nitrogen content (LNCA) has gained increasing attention recently in ecology and plant physiology, and the mass-based nitrogen content (LNCM) has been extensively used by agronomists for making fertilization recommendations. Remote sensing has been emerging as an important tool to quantify LNCA and LNCM across multiple observation scales, such as leaf and canopy. Most models for estimating LNCA and LNCM are based on their empirical relationships with chlorophyll-related vegetation indices (VIs), which cannot capture the dynamic allocation of nitrogen into different components throughout the growing season. This study proposed a simplified nitrogen allocation model by dividing the total nitrogen into photosynthetic nitrogen (PN) and non-photosynthetic nitrogen with the purpose of estimating LNCA and LNCM in rice and winter wheat. The nitrogen allocation model was calibrated with an independent leaf-scale dataset (R2 = 0.82) and then applied to the canopy scale without the need to adjust the model coefficients. The estimated fractions of PN were 71% and 78% for rice and wheat leaves, respectively, which were close to the reported value (∼75%) for common C3 plants. Overall, the nitrogen allocation-based models were applicable for estimating both LNCA and LNCM with relative root mean square error (RRMSE) values <15% for the jointing and booting stages. In addition, our novel estimation model was generic for rice and wheat, yielding the best estimations for LNCM (R2 = 0.63) across the entire growing season compared with traditional empirical models based on VIs. This study represents a first attempt to couple nitrogen allocation theory with remote sensing data to improve the spectroscopic estimation of LNCA and LNCM.
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