Seasonal variation of autochthonous and allochthonous carbon sources for the first levels of the Beagle Channel food web

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-03-01 DOI:10.1016/j.jmarsys.2023.103859
Daniel O. Bruno , Luciana Riccialdelli , Eduardo M. Acha , Daniel A. Fernández
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引用次数: 4

Abstract

This study aimed to evaluate the relative importance of autochthonous (microplankton (i.e., phytoplankton and small heterotrophs), and Macrocystis pyrifera detritus) and allochthonous (terrestrial detritus) sources to the first levels of the planktonic trophic web supporting fish larvae in the Beagle Channel. Monthly samplings were conducted along the mid area of the Beagle Channel from March 2015 to February 2016, covering all seasons. Larval fish were present throughout the year, of which Patagonotothen spp. were dominant, particularly in spring. Bayesian stable isotope mixing models revealed that autochthonous carbon sources were more important for the particulate organic matter in surface (POM) and the particulate organic matter in sediment (SPOM) than allochthonous sources, which only slightly contributed to the POM. Also, seasonality in the contribution was observed. Microplankton was more important to the POM from the autochthonous carbon sources analysed, particularly in winter and spring. In addition, parts of the giant kelp M. pyrifera (blade, stipe and holdfast) equally contributed to the SPOM in all seasons. Microzooplankton organisms in the Beagle Channel depended on the POM and microplankton almost all the year, except in spring when SPOM gained relevance as a carbon source. Although fish larvae fed mainly on microzooplankton, a significant contribution of SPOM was also observed. Therefore, the giant kelp forests, in addition to providing refuge for fish larvae in the Beagle Channel, constitute an important carbon source for their planktonic prey during spring through the detrital pathway.

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比格海峡食物网一级本地和异地碳源的季节变化
本研究旨在评估本地(微型浮游生物(即浮游植物和小型异养生物)和梨形大孢子虫碎屑)和异地(陆地碎屑)来源对比格海峡支持鱼类幼虫的浮游营养网第一级的相对重要性。2015年3月至2016年2月,在比格海峡中部地区进行了月度采样,涵盖所有季节。幼鱼全年都有,其中巴塔哥诺托恩属占主导地位,尤其是在春季。贝叶斯稳定同位素混合模型表明,与外来碳源相比,本地碳源对地表颗粒有机物(POM)和沉积物颗粒有机物更重要,而外来碳源对POM的贡献很小。此外,还观察到了贡献的季节性。从分析的本地碳源来看,浮游动物对POM更为重要,尤其是在冬季和春季。此外,在所有季节,巨型海带M.pyrifera的部分(叶片、柄和固着物)对SPOM的贡献相同。Beagle海峡的微型浮游动物几乎全年都依赖POM和微型浮游动物,春季除外,此时SPOM作为碳源变得越来越重要。尽管鱼类幼虫主要以微小浮游动物为食,但也观察到SPOM的显著贡献。因此,巨型海带林除了为比格海峡的鱼类幼虫提供避难所外,还通过碎屑通道为春季的浮游猎物提供了重要的碳源。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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