Abstract
The water components affecting turbidity are complex and changeable, and the spectral response mechanism of each water quality parameter is different. Therefore, this study mainly aimed at the turbidity monitoring by unmanned aerial vehicle (UAV) hyperspectral technology, and establishes a set of turbidity retrieval models through the artificial control experiment, and verifies the model’s accuracy through UAV flight and water sample data in the same period. The results of this experiment can also be extended to different inland waters for turbidity retrieval. Retrieval of turbidity values of small inland water bodies can provide support for the study of the degree of water pollution. We collected the images and data of aquaculture ponds and irrigation ditches in Dawa District, Panjin City, Liaoning Province. Twenty-nine standard turbidity solutions with different concentration gradients (concentration from 0 to 360 NTU—the abbreviation of Nephelometric Turbidity Unit, which stands for scattered turbidity.) were established through manual control and we simultaneously collected hyperspectral data from the spectral values of standard solutions. The sensitive band to turbidity was obtained after analyzing the spectral information. We established four kinds of retrieval, including the single band, band ratio, normalized ratio, and the partial least squares (PLS) models. We selected the two models with the highest R2 for accuracy verification. The band ratio model and PLS model had the highest accuracy, and R2 was, respectively, 0.65 and 0.72. The hyperspectral image data obtained by UAV were combined with the PLS model, which had the highest R2 to estimate the spatial distribution of water turbidity. The turbidity of the water areas in the study area was 5–300 NTU, and most of which are 5–80 NTU. It shows that the PLS models can retrieve the turbidity with high accuracy of aquaculture ponds, irrigation canals, and reservoirs in Dawa District of Panjin City, Liaoning Province. The experimental results are consistent with the conclusions of the field investigation.
Highlights
Turbidity is an important parameter to characterize water quality, especially the transparency of the water area [1]
There is a close relationship between turbidity and other water quality parameters
Monitoring of spatial turbidity distribution is significant for the water ecological environment and human production and living
Summary
Turbidity is an important parameter to characterize water quality, especially the transparency of the water area [1]. There is a close relationship between turbidity and other water quality parameters. Monitoring of spatial turbidity distribution is significant for the water ecological environment and human production and living. The intensity of incident light will be weakened after the absorption and scattering of light by particles in water, because turbidity is a water quality parameter with optical activity. The amount of attenuation and the effect of water on incident light can be well reflected in remote sensing images. Remote sensing can indirectly obtain the spatial distribution of turbidity, which is expressed according to the amount of attenuation
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