Impacts of boat mooring disturbance on productivity and respiration in rhodolith beds from Catalina Island, USA

IF 0.5 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY
Dillon Dolinar
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引用次数: 3

Abstract

Aggregations of rhodoliths, habitat-forming, free-living coralline red algae, form beds throughout the world’s oceans. On Santa Catalina Island, California, USA, rhodolith beds occur in protected coves where dense networks of moorings support recreational boating activities. The chains and spreader lines associated with these moorings chronically disturb the benthos, crushing the rhodoliths and reducing biodiversity of rhodolith-associated communities. Here, we examine how mooring disturbance affects rhodolith photosynthesis and respiration and characterize rhodolith-associated invertebrate respiration to better understand how this disturbance affects productivity by the ecosystem. To do this, we used a respiration chamber in the laboratory to measure the amount of oxygen produced and/or consumed by undisturbed (intact) rhodoliths, mooring-disturbed (“crushed”) rhodolith fragments, and laboratory-crushed rhodoliths, and the amount of oxygen consumed by the dominant rhodolith-associated invertebrate taxa. Our results indicate that rhodolith maximum net productivity is significantly reduced and rhodolith respiration is significantly increased by mooring disturbance in the field, but that crushing of the rhodolith thalli alone does not result in immediate changes to either of these measures. Rather, it appears that chronic crushing of rhodolith thalli, which results in their mortality and rhodolith habitat degradation, is required to elicit these metabolic changes. In addition, we observed variation in respiration rates among the 5 most commonly observed invertebrate taxa within the Catalina Island rhodolith beds, and scaling these respiration rates by each species’ abundance in the rhodolith beds and in adjacent mooring-disturbed (degraded) habitats indicated that mooring disturbance results in a decrease in community respiration by approximately 2.61 mg O2·m·d, with individual species contributing between 0.05 mg O2·m·d and 1.84 mg O2·m·d to this decrease. This study provides insight into the consequences of anthropogenic disturbance on productivity and respiration in these ecologically important habitats.
船系泊干扰对卡塔利纳岛rhodolith床生产力和呼吸的影响
rhodoliths的聚集,栖息地形成,自由生活的珊瑚红藻,形成了遍布世界海洋的床。在美国加利福尼亚州的圣卡塔利娜岛,rhodolith床出现在受保护的海湾中,密集的系泊网络支持休闲划船活动。与这些系泊点相关的链条和延伸线长期扰乱底栖生物,压碎了rhodoliths,减少了rhodoliths相关群落的生物多样性。在这里,我们研究了系泊干扰如何影响rhodolith光合作用和呼吸,并表征了与rhodolith相关的无脊椎动物呼吸,以更好地了解这种干扰如何影响生态系统的生产力。为此,我们在实验室中使用呼吸室来测量未受干扰(完整)的rhodolith,系泊受干扰(“破碎”)的rhodolith碎片和实验室破碎的rhodolith产生和/或消耗的氧气量,以及与rhodolith相关的优势无脊椎动物类群消耗的氧气量。我们的研究结果表明,在现场系泊干扰下,rhodolith最大净生产力显著降低,rhodolith呼吸显著增加,但单独粉碎rhodolith菌体不会立即导致这些措施中的任何一项发生变化。更确切地说,似乎是慢性压碎了rhodolith菌体,导致了它们的死亡和rhodolith栖息地的退化,这是引起这些代谢变化所必需的。此外,我们还观察了Catalina岛rhodolith床内5种最常见的无脊椎动物类群之间的呼吸速率变化,并根据每个物种在rhodolith床和相邻系泊干扰(退化)栖息地中的丰度对这些呼吸速率进行了测量,结果表明系泊干扰导致群落呼吸减少了约2.61 mg O2·m·d。个别物种对O2·m·d的贡献在0.05 ~ 1.84 mg O2·m·d之间。本研究深入探讨了人为干扰对这些重要生态栖息地的生产力和呼吸的影响。
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来源期刊
Ciencias Marinas
Ciencias Marinas 生物-海洋与淡水生物学
CiteScore
1.10
自引率
0.00%
发文量
9
审稿时长
>12 weeks
期刊介绍: A bilingual open-access publication, Ciencias Marinas (CM) is an international peer-reviewed journal that contains original research findings in all areas of marine science. It is published quarterly by the Autonomous University of Baja California, Mexico, and all its contents are publicly available on our journal website. Though a limited number of copies are still printed, the journal is mainly distributed in its electronic format. CM was conceived in 1973 as part of an academic project aimed to entice local researchers to publicly disclose their findings by adopting the culture of peer-review publishing. This academic project evolved into an international journal after accepting papers from researchers in the United States and, eventually, other parts of the world. Because of the diversity in authorship, CM issues were initially published in either Spanish or English, and occasionally in both languages. It was not until 1984 when CM included both language versions of all its contents, and it then became the fully bilingual journal it still is today. At CM we believe our inclusive format allows us not only to address a wider range of submissions from international authors but also to make published findings available to a wider international audience. So whether you are looking for information on the redfish in Icelandic waters or the physical and biological properties of the Gulf of California, feel free to peruse CM contents. You may find them to provide source material for your research.
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