Side scan sonar in oyster management

OCEANS '02 MTS/IEEE Pub Date : 2002-10-29 DOI:10.1109/OCEANS.2002.1193261

D. Diaz, K. Cuevas, M. Buchanan, S. Gordon, W. S. Perret

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引用次数: 4

Abstract

Oyster harvest from Mississippi reefs provide jobs for numerous fishermen and contribute substantially to the economy. Proper management of these reefs is vital for continued harvest. Enhancement management techniques (i.e. cultch planting and/or cultivation) should helps to ensure even greater future production. Cultch planting is a key component of management measures conducted by the Mississippi Department of Marine Resources (MDMR). Cultch plants are typically evaluated with sounding poles, tongs, dredges or scuba equipment. These methods are not very efficient when surveying large areas for coverage rates or distribution of materials. Using side scan sonar to monitor cultch plants has a number of advantages over these methods. Side scan sonar can cover large areas in less time, provide accurate measurements of coverage, and simultaneously provide differential GPS coordinates. Information acquired from side scan sonar provides a long-term record, which can be used to detect changes due to environmental catastrophes, vessel groundings and/or harvest pressure. A side scan sonar survey was performed before cultch planting on the St. Joseph cultch plant site located in the western MS Sound. The side scan sonar was also used to evaluate two barge groundings sites. The data was processed and input in a mosaic software program for further analysis. This paper will demonstrate the abilities of side scan sonar as a tool for oyster reef management.

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牡蛎管理中的侧扫声纳

密西西比珊瑚礁的牡蛎收获为许多渔民提供了就业机会，并对经济做出了重大贡献。对这些珊瑚礁进行适当的管理对持续的捕捞至关重要。加强管理技术(即栽培种植和/或栽培)应有助于确保未来更大的产量。Cultch种植是密西西比州海洋资源部(MDMR)实施的管理措施的关键组成部分。Cultch植物通常用测深杆、钳、挖泥船或水肺设备进行评估。在测量大面积的覆盖率或材料分布时，这些方法不是很有效。与这些方法相比，使用侧扫声纳监测培养植物有许多优点。侧扫声纳可以在更短的时间内覆盖大面积，提供精确的覆盖测量，并同时提供差分GPS坐标。从侧扫声纳获取的信息提供了一个长期记录，可用于检测由于环境灾难、船舶接地和/或收获压力造成的变化。在位于MS Sound西部的St. Joseph cultch工厂种植之前，进行了侧扫声纳调查。侧扫声纳也被用来评估两个驳船停泊点。这些数据被处理并输入到一个马赛克软件程序中进行进一步分析。本文将论证侧扫声纳作为牡蛎礁管理工具的能力。

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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OCEANS '02 MTS/IEEE

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