JoWUA

Abstract

The swift advancement of the country's maritime industry has led to an escalating demand for marine space and resources, causing significant harm to the marine biological ecosystem. This study examines the legal framework for marine biological preservation, focusing on the context of wireless network (WN) data fusion to safeguard marine ecosystems and enhance the long-term sustainability of marine ecosystems. By examining the current conditions of various prominent marine locations and environmental settings in China, establishing a WN exchange device, incorporating WN information into marine sustainable assessments, gathering information via WN nodes, and contrasting WN data combined with conventional techniques, the effectiveness of marine conservation efforts and the detection of marine pollution techniques across different timeframes can be aligned with rapid economic growth to foster an ecologically sound aquatic ecology. The findings from the research indicated that surveillance efficiency via WN data fusion exceeds traditional methods by over 25%, and identification efficiency after three months remains more than 20% superior to the conventional approach. Data fusing in WNs significantly establishes a legal framework for marine biological and environmental safeguards.