Brown algae (Phaeophyceae) stressors and illnesses: a review for a sustainable aquaculture under climate change

Frontiers in aquaculture Pub Date : 2024-06-03 DOI:10.3389/faquc.2024.1390415

Eliana Ruiz Martínez, D. Schroeder, Gunnar Thuestad, I. A. Hoell

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Abstract

Brown algae (Phaeophyceae) dominate intertidal and shallow subtidal areas globally, where larger species form extensive underwater forests. These structurally complex and highly productive habitats enhance local biodiversity and support food webs in coastal areas through secondary production, thereby shaping local oceanography and ecology. Macroalgal aquaculture is an important and growing sector, where approximately 40% of all cultivated algae belong to Phaeophyceae. However, both cultured and natural brown algae have been under increasing pressure due to climate-driven factors, such as ocean warming, eutrophication, and herbivore outbreaks. We conducted a comprehensive literature review on abiotic (temperature, light intensity, and UV radiation, nutrients, water motion, salinity, and substrata and sediment) and biotic (bacteria, viruses, fungi, eukaryotic endophytes and endoparasites, epiphytes, and grazers) stressors and illnesses in marine brown macroalgae, as well as brown algae defense mechanisms, and discuss how these parameters may affect the production of a sustainable crop for the aquaculture industry under future climate change scenarios.

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褐藻（Phaeophyceae）的压力和疾病：气候变化下可持续水产养殖综述

褐藻（褐藻纲）在全球潮间带和浅海潮下带占主导地位，其中较大的褐藻形成了广阔的水下森林。这些结构复杂、高产的栖息地提高了当地的生物多样性，并通过二次生产支持沿海地区的食物网，从而影响当地的海洋学和生态学。大型藻类水产养殖是一个重要且不断增长的行业，在所有养殖的藻类中，约有 40% 属于辉绿藻科。然而，由于海洋变暖、富营养化和食草动物爆发等气候驱动因素，养殖褐藻和天然褐藻都面临着越来越大的压力。我们对海洋大型褐藻的非生物（温度、光照强度和紫外线辐射、营养物质、水流、盐度、底质和沉积物）和生物（细菌、病毒、真菌、真核内生菌和内寄生虫、附生植物和食草动物）压力和疾病以及褐藻防御机制进行了全面的文献综述，并讨论了在未来气候变化情况下，这些参数可能会如何影响水产养殖业可持续作物的生产。

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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Frontiers in aquaculture

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