4.6 Article

Applying spectral fractal dimension index to predict the SPAD value of rice leaves under bacterial blight disease stress

Journal

PLANT METHODS
Volume 18, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s13007-022-00898-8

Keywords

Hyperspectral; Fractal dimension; SPAD value; Vegetation index; Disease stress; Rice

Funding

  1. Startup Foundation of New Professor at Nanjing Agricultural University [106-804005]
  2. National Natural Science Foundation of China [61502236]
  3. Fundamental Research Funds for the Central Universities [KYLH202006, KYZ201914]

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This study predicts the SPAD value of rice leaves under bacterial blight disease stress by calculating the spectral fractal dimension index (SFDI) and finds a strong positive correlation between the SPAD value and SFDI. The support vector regression model combined with SFDI performs the best in predicting SPAD value. These findings are of great significance for accurately predicting chlorophyll content and monitoring plant health.
Background The chlorophyll content is a vital indicator for reflecting the photosynthesis ability of plants and it plays a significant role in monitoring the general health of plants. Since the chlorophyll content and the soil-plant analysis development (SPAD) value are positively correlated, it is feasible to predict the SPAD value by calculating the vegetation indices (VIs) through hyperspectral images, thereby evaluating the severity of plant diseases. However, current indices simply adopt few wavelengths of the hyperspectral information, which may decrease the prediction accuracy. Besides, few researches explored the applicability of VIs over rice under the bacterial blight disease stress. Methods In this study, the SPAD value was predicted by calculating the spectral fractal dimension index (SFDI) from a hyperspectral curve (420 to 950 nm). The correlation between the SPAD value and hyperspectral information was further analyzed for determining the sensitive bands that correspond to different disease levels. In addition, a SPAD prediction model was built upon the combination of selected indices and four machine learning methods. Results The results suggested that the SPAD value of rice leaves under different disease levels are sensitive to different wavelengths. Compared with current VIs, a stronger positive correlation was detected between the SPAD value and the SFDI, reaching an average correlation coefficient of 0.8263. For the prediction model, the one built with support vector regression and SFDI achieved the best performance, reaching R-2, RMSE, and RE at 0.8752, 3.7715, and 7.8614%, respectively. Conclusions This work provides an in-depth insight for accurately and robustly predicting the SPAD value of rice leaves under the bacterial blight disease stress, and the SFDI is of great significance for monitoring the chlorophyll content in large-scale fields non-destructively.

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