利用水下地理参考光样方监测礁石生物多样性

IF 0.4 Q4 Engineering UNDERWATER TECHNOLOGY Pub Date : 2021-03-30 DOI:10.3723/UT.38.017

G. Bravo, J. Livore, G. Bigatti

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引用次数: 3

摘要

数字图像是潜水员对硬底潮下栖息地进行采样的绝佳工具，因为海底时间有限，可以快速准确地采集高清图像。本文描述了一种利用地理参考光样对底栖岩礁群落进行采样的方法，并在大西洋巴塔哥尼亚的几个岩礁上进行了测试。这种方法在两个地方进行了测试，在一个半封闭的海湾中相隔100公里，使用轨道漫游横断面覆盖了11个岩石礁共5800米。该议定书是非破坏性的，成本相对较低，可以充分评估岩石珊瑚礁等海洋栖息地的变化。利用人类专家训练实施人工智能分析可以减少分析时间，增加收集的数据量。本研究建议在监测生物多样性变化的项目中采用这种抽样方法。

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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Monitoring rocky reef biodiversity by underwater geo-referenced photoquadrats

Digital images are an excellent tool for divers to sample hard-bottom subtidal habitats as bottom time is limited and high-definition images can be collected quickly and accurately. The present paper describes a sampling protocol for benthic rocky reef communities using geo-referenced photoquadrats and tests the method over several rocky reefs of Atlantic Patagonia. This method was tested in two localities, separated by 100 km in a semi-enclosed gulf, covering a total of 5800 m of 11 rocky reefs using track roaming transects. The protocol is non-destructive, relatively low-cost and can adequately assess changes in marine habitats as rocky reefs. The implementation of artificial intelligence analysis using human expert training may reduce analysis time and increase the amount of data collected. The present study recommends this sampling methodology for programs aimed at monitoring changes in biodiversity.

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UNDERWATER TECHNOLOGY ENGINEERING, OCEAN-

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