测定沙巴州曼迪达拉岛海底基质分布的声学方法

IF 0.8 Q3 ENGINEERING, MARINE

Transactions on Maritime Science-ToMS Pub Date : 2021-10-21 DOI:10.7225/toms.v10.n02.007

Mohd Shukri Mohd Yusop, Mohd Norsyarizad Razali, Nazirah Md Tarmizi, Mohd Najib Abdul Ghani Yolhamid, M. Azzeri, A. Rahman

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引用次数: 0

摘要

海洋生态系统和自然栖息地是地球生命维持系统的重要组成部分。它们对经济和食品安全做出了重大贡献，并有助于保护生态过程。然而，由于人为因素和气候变化，马来西亚海洋生态系统的破坏是相当惊人的。因此，海洋空间信息，特别是海底底物分布和生境测绘，对海洋生态系统的管理和养护至关重要。传统上，海底基材和生境制图是基于摄影、视频、采样、取芯和水肺潜水等直接观测技术进行分类的。由于水的清晰度和天气条件，这些技术往往受到限制，只适用于较小规模的调查。在这项研究中，我们采用了一种声学方法，使用RoxAnn声学地面识别系统(AGDS)和高频单波束回声测深仪来检测沙巴州Mandi Darah岛的海底基岩分布。AGDS记录的声学信号被转换成硬度和粗糙度指数，然后用于识别记录的海底类型的独特特征。分析表明，已确定并分类了15种基质，从淤泥到粗糙/一些海草。研究结果表明，与传统的直接观测技术相比，声学方法在成本和时间上是确定海底基材的更好选择，特别是在大规模调查中。本研究的海底基质数据集可作为更好地管理和保护海洋生态系统的基线信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Acoustic Approach to Determining Seabed Substrates Distribution at Mandi Darah Island, Sabah

Marine ecosystems and natural habitat play the important role of the Earth’s life support system. They significantly contribute to economies and food safety and help preserve ecological processes. However, the devastation of the marine ecosystem in Malaysia due to the human factor and climate change is quite alarming. Therefore, spatial marine information, especially on the distribution of seabed substrates and habitat mapping, are of utmost importance for marine ecosystem management and conservation. Traditionally, seabed substrate and habitat mapping were classified based on direct observation techniques such as photography, video, sampling, coring and scuba diving. These techniques are often limited due to water clarity and weather conditions and only suitable for smaller scale surveys. In this study, we employed an acoustic approach using the RoxAnn Acoustic Ground Discrimination System (AGDS) with a high-frequency single-beam echo sounder to examine the distribution of seabed substrate at the Mandi Darah Island, Sabah. The acoustic signals recorded by AGDS are translated into hardness and roughness indices which are then used to identify the unique characteristics of the recorded seabed types. The analysis has shown that fifteen types of substrates, ranging from silt to rough/some seagrass, have been identified and classified. The findings demonstrated that the acoustic method was a better alternative for seabed substrate determination than the conventional direct observation techniques in terms of cost and time spent, especially in large scale surveys. The seabed substrate dataset from this study could be used as baseline information for the better management and conservation of the marine ecosystem.

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来源期刊

Transactions on Maritime Science-ToMS ENGINEERING, MARINE-

CiteScore

1.50

自引率

12.50%

发文量

期刊介绍： ToMS is a scientific journal with international peer review which publishes papers in the following areas: ~ Marine Engineering, ~ Navigation, ~ Safety Systems, ~ Marine Ecology, ~ Marine Fisheries, ~ Hydrography, ~ Marine Automation and Electronics, ~ Transportation and Modes of Transport, ~ Marine Information Systems, ~ Maritime Law, ~ Management of Marine Systems, ~ Marine Finance, ~ Bleeding-Edge Technologies, ~ Multimodal Transport, ~ Psycho-social and Legal Aspects of Long-term Working Aboard. The journal is published in English as an open access journal, and as a classic paper journal (in limited editions). ToMS aims to present best maritime research from South East Europe, particularly the Mediterranean area. Articles will be double-blind reviewed by three reviewers. With the intention of providing an international perspective at least one of the reviewers will be from abroad. ToMS also promotes scientific collaboration with students and has a section titled Students’ ToMS. These papers also undergo strict peer reviews. Furthermore, the Journal publishes short reviews on significant papers, books and workshops in the fields of maritime science.