Abstract
The accurate extraction of an aquaculture area is significant in aquaculture management, post-disaster evaluation, and aquatic environment protection. However, little attention has been paid to the aquaculture area extraction in coastal water with high turbidity. In this study, based on the spectral and geospatial features of aquaculture cages in complex coastal water with varying turbidity, we proposed a new aquaculture area extraction method using a Gaofen-2 (GF-2) satellite image with 0.8-m spatial resolution. The water was classified into clear, medium, and high turbidity categories according to the suspended sediment concentration derived from the inversion of the GF-2 image. Different rules of extraction were developed with respect to those three categories of water body: First, the normalized difference water index threshold was set for the clear water, second, a ratio index ( R = Green/NIR) was established for the medium turbid water body, and third, for the turbid water body, feature analysis with a specified classification rule was established. The experimental results demonstrated that our proposed method worked well, with the high accuracies of 87.3300% for the overall accuracy, even for the high turbidity water. The kappa coefficient was 0.7375, which was much better than the kappa coefficient values of the three conventional classification methods represented in this article. This study provides effective information support and auxiliary decision analysis for management departments to scientifically plan and environmentally manage coastal aquaculture areas.
Highlights
A QUACULTURE is an important guarantee for world food security
High spatial resolution satellites with submeter resolution have been one of the powerful means for the dynamic monitoring of aquaculture
GF-2 is similar to the Worldview-2 satellite in terms of its spectrum settings, which are of great significance for improving the self-sufficiency rate of high-resolution earth observation data in China and achieving high spatial resolution with a quick revisit
Summary
A QUACULTURE is an important guarantee for world food security. In 2016, aquaculture accounted for 53% of total global fish production, whereas China’s aquaculture accounted for 73.7% of the country’s total fish production [1]. Object-based image analysis breaks through the limitations of the traditional methods that treat a pixel as the basic classification and processing unit This method exhibits improved capability in reflecting the multiscale and multifeature characteristics of the groundlike patches in a sea area, and it is closer to the human understanding of real-world features [10]. Turbid coastal water exhibits similar spectral features to target objectives with strong reflectance, which causes the phenomenon of the “same spectrum of foreign body” in an aquaculture area [18]. The ubiquitous applicability of the threshold values of the turbidity and the rules determined for each category of water body proposed in this study will be discussed elsewhere
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