Treating ballast waters to limit Mnemiopsis leidyi access to new habitats

IF 1.5 4区环境科学与生态学 Q3 BIODIVERSITY CONSERVATION

Management of Biological Invasions Pub Date : 2023-01-01 DOI:10.3391/mbi.2023.14.3.12

Andrea Budiša, Emil Burić, Paolo Blecich, Tin Matulja, Giaconda Millotti, Neven Iveša, T. Djakovac, M. Najdek, Milena Mičić, P. Paliaga

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引用次数: 0

Abstract

Discharging untreated ballast waters supports the spread of invasive species. One of the most successful ballast-water mediated biological invasions was a transatlantic transport of the ctenophore Mnemiopsis leidyi to many Eurasian seas, where it has significantly impacted local ecosystems. To prevent its spread to new areas, we studied the survival of different M. leidyi life stages exposed to several eradication techniques. We looked closely into the technical applicability of an onboard thermal treatment by calculating its duration and the required energy to perform it. The duration was considered as a sum of the time to heat ballast tanks by using the engine’s waste heat for two types of ships and M. leidyi ’s eradication. The calculated duration of the proposed treatment allowed us to estimate a minimum travel length undertaken by a specific type of ship to eliminate M. leidyi successfully. The travel length determines the appropriate technique and minimal requirements to eliminate M. leidyi successfully and, thus, can serve as a guideline for a management plan. In conclusion, the proposed onboard treatment would be efficient on smaller ships and minimum distances of 200–300 km depending on the season but not on the short routes where other treatment techniques, e.g. exposure to ultrasonic cavitation or microwave radiation, should be considered.

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处理压载水以限制雷氏记忆藻进入新栖息地

排放未经处理的压载水会助长入侵物种的传播。压载水介导的生物入侵最成功的案例之一是将栉水母(Mnemiopsis leidyi)跨大西洋迁移到许多欧亚海洋，对当地生态系统产生了重大影响。为了防止其传播到新的地区，我们研究了不同的雷伊氏分枝杆菌生命阶段暴露于几种根除技术下的存活率。我们仔细研究了机载热处理的技术适用性，计算了其持续时间和所需的能量。持续时间被认为是使用两种类型船舶的发动机废热加热压载舱的时间和M. leidyi的根除。计算出的拟议处理的持续时间使我们能够估计出特定类型的船舶成功消除M. leidyi所需的最小航行长度。行程长度决定了成功消除M. leidyi的适当技术和最低要求，因此可以作为管理计划的指导方针。总之，拟议的船上处理在较小的船舶上是有效的，并且根据季节的不同，最小距离为200-300公里，但在短途航线上则不适用，因为短途航线应考虑其他处理技术，例如暴露于超声波空化或微波辐射。

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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来源期刊

Management of Biological Invasions Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

3.40

自引率

6.70%

发文量

审稿时长

16 weeks

期刊介绍： Management of Biological Invasions, established in 2010 by Dr. Elias Dana, is an open access, peer-reviewed international journal focusing on applied research in biological invasions in aquatic and terrestrial ecosystems from around the world. This journal is devoted to bridging the gap between scientific research and the use of science in decision-making, regulation and management in the area of invasive species introduction and biodiversity conservation. Managing biological invasions is a crisis science, with Management of Biological Invasions aiming to provide insights to the issues, to document new forms of detection, measurements and analysis, and to document tangible solutions to this problem. In addition to original research on applied issues, Management of Biological Invasions publishes technical reports on new management technologies of invasive species and also the proceedings of relevant international meetings. As a platform to encourage informed discussion on matters of national and international importance, we publish viewpoint papers that highlight emerging issues, showcase initiatives, and present opinions of leading researchers.