Oxygen Extraction Efficiency and Tolerance to Hypoxia in Sponges

Journal of Marine Science and Engineering Pub Date : 2024-01-10 DOI:10.3390/jmse12010138

H. U. Riisgård

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Abstract

Sponges have always been filter feeders, in contrast to all the other filter-feeding invertebrate groups for which this feeding mode is a secondary adaptation. This study calls attention to this aspect, which explains why sponges are tolerant to hypoxia, but probably not more tolerant than the other filter-feeding invertebrates. The measurement of respiration rates at decreasing oxygen concentrations along with an estimation of the oxygen extraction efficiency in the marine demosponge Halichondria panicea have been used to understand why sponges are tolerant to low oxygen concentrations. It was found that the respiration rate was constant down to about 1.5 mL O2 L−1, which shows that the extraction efficiency increases with a decreasing oxygen concentration. It is argued that the relationship between the filtration rate and oxygen consumption in filter feeders is controlled by the resistance to the diffusion of oxygen across the boundary layer between the feeding current and the tissues of the body. A high tolerance to hypoxia is a consequence of the adaptation to filter feeding, and sponges do not have a special capacity to overcome hypoxic events.

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海绵的吸氧效率和耐缺氧能力

海绵一直是滤食性无脊椎动物，这与所有其他滤食性无脊椎动物不同，它们的这种摄食模式是次要适应。这项研究提醒人们注意这一点，这也解释了为什么海绵能耐受缺氧，但可能并不比其他滤食性无脊椎动物更耐受缺氧。通过测量海洋底栖海绵 Halichondria panicea 在氧气浓度降低时的呼吸速率以及估算氧气提取效率，我们了解了海绵耐受低氧浓度的原因。研究发现，呼吸速率在低至约 1.5 mL O2 L-1 时保持不变，这表明萃取效率随着氧气浓度的降低而增加。有观点认为，滤食性动物的滤食速率与耗氧量之间的关系受控于氧气在食流与身体组织之间边界层的扩散阻力。对缺氧的高度耐受性是适应滤食性的结果，海绵没有克服缺氧事件的特殊能力。

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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Journal of Marine Science and Engineering

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