Using crop intercepted solar radiation and vegetation index to estimate dry matter yield of Choy Sum

He, Yiyin; Wang, Zhao; Sun, Sashuang; Zhu, Lijun; Li, Yu; Wang, Xiaoxiao; Shi, Jiang; Chen, Si; Qi, Dunchang; Peng, Junxiang; Zhou, Zhenjiang

doi:10.3389/fpls.2023.1208404

Research article2023Peer reviewedOpen access

Using crop intercepted solar radiation and vegetation index to estimate dry matter yield of Choy Sum

He, Yiyin; Wang, Zhao; Sun, Sashuang; Zhu, Lijun; Li, Yu; Wang, Xiaoxiao; Shi, Jiang; Chen, Si; Qi, Dunchang; Peng, Junxiang; Zhou, Zhenjiang

Abstract

An accurate assessment of vegetable yield is essential for agricultural production and management. One approach to estimate yield with remote sensing is via vegetation indices, which are selected in a statistical and empirical approach, rather than a mechanistic way. This study aimed to estimate the dry matter of Choy Sum by both a causality-guided intercepted radiation-based model and a spectral reflectance-based model and compare their performance. Moreover, the effect of nitrogen (N) rates on the radiation use efficiency (RUE) of Choy Sum was also evaluated. A 2-year field experiment was conducted with different N rate treatments (0 kg/ha, 25 kg/ha, 50 kg/ha, 100 kg/ha, 150 kg/ha, and 200 kg/ha). At different growth stages, canopy spectra, photosynthetic active radiation, and canopy coverage were measured by RapidScan CS-45, light quantum sensor, and camera, respectively. The results reveal that exponential models best match the connection between dry matter and vegetation indices, with coefficients of determination (R2) all below 0.80 for normalized difference red edge (NDRE), normalized difference vegetation index (NDVI), red edge ratio vegetation index (RERVI), and ratio vegetation index (RVI). In contrast, accumulated intercepted photosynthetic active radiation (Aipar) showed a significant linear correlation with the dry matter of Choy Sum, with root mean square error (RMSE) of 9.4 and R2 values of 0.82, implying that the Aipar-based estimation model performed better than that of spectral-based ones. Moreover, the RUE of Choy Sum was significantly affected by the N rate, with 100 kg N/ha, 150 kg N/ha, and 200 kg N/ha having the highest RUE values. The study demonstrated the potential of Aipar-based models for precisely estimating the dry matter yield of vegetable crops and understanding the effect of N application on dry matter accumulation of Choy Sum.

Keywords

Choy Sum; canopy coverage; radiation use efficiency; dry matter; N fertilization

Published in

Frontiers in Plant Science
2023, Volume: 14, article number: 1208404
Publisher: FRONTIERS MEDIA SA

SLU Authors

Peng, Junxiang
- Department of Agricultural Research for Northern Sweden, Swedish University of Agricultural Sciences

UKÄ Subject classification

Agricultural Science

Publication identifier

DOI: https://doi.org/10.3389/fpls.2023.1208404

Permanent link to this page (URI)

https://res.slu.se/id/publ/126582