Detecting the invisible through DNA metabarcoding: The role of gelatinous taxa in the diet of two demersal Antarctic key stone fish species (Notothenioidei)

Q1 Agricultural and Biological Sciences Environmental DNA Pub Date : 2024-05-23 DOI:10.1002/edn3.561
Micaela B. Ruiz, Eugenia Moreira, Manuel Novillo, Stefan Neuhaus, Florian Leese, Charlotte Havermans
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Abstract

Gelatinous zooplankton (GZP), i.e., ctenophores, cnidarian medusae, chaetognaths, appendicularians and salps, are considered climate change winners. This becomes particularly obvious in the Southern Ocean, which has undergone a significant shift from a krill-based to a salp-based ecosystem over the last decades. A better knowledge on the role of gelatinous invertebrates as prey is needed to predict the impact of such a gelatinous shift. Until recently, GZP was considered as a “trophic dead end”. However, their true importance in diets has remained unresolved due to the rapid digestion of their watery and soft tissues in predators' stomachs. In this study, we want to validate the paradigm shift from GZP being considered as “survival food” to be considered a “regular” prey item for two demersal fish species (Notothenia rossii and N. coriiceps) of Potter Cove, South Shetland Islands, using a multimarker (COI and 18S) metabarcoding approach. We found that GZP taxa commonly occurred in the diets of both species, represented by pelagic tunicates (appendicularians, salps), cnidarians, chaetognaths and ctenophores. Salps were the most abundant prey group, preyed upon by each individual of both species, reaching 98.7% relative read abundance for 18S. We recovered a wide range of different taxa in their diets, from primary producers to highly abundant invertebrates, thus the two nototheniid species can be regarded as “natural samplers” of the ecosystem in study. Finally, we want to point out the importance of multimarker metabarcoding approaches for broad ecological assessments, given the differential amplification and sequencing success of different markers for specific groups and the unequal taxonomic coverage of the reference databases. The output of each marker was highly complementary, since an important prey item such as salps, was only detected with 18S, while other taxa (e.g., Arthropoda) were represented with a higher taxonomic resolution with COI.

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通过 DNA 代谢编码检测隐形物种:胶状类群在两种底栖南极关键石鱼(Notothenioidei)食物中的作用
胶状浮游动物(GZP),即栉水母类、网水母类、糠虾类、附肢动物和盐类,被认为是气候变化的赢家。这一点在南大洋尤为明显,因为在过去几十年中,南大洋生态系统已从磷虾为主显著转变为盐类为主。要预测这种胶状转变的影响,需要更好地了解胶状无脊椎动物作为猎物的作用。直到最近,胶状无脊椎动物一直被认为是 "营养死胡同"。然而,由于其含水软组织在捕食者胃中被快速消化,它们在食物中的真正重要性仍未得到解决。在本研究中,我们希望利用多标记(COI 和 18S)代谢编码方法,验证南设得兰群岛波特湾的两种底栖鱼类(Notothenia rossii 和 N. coriiceps)从将 GZP 视为 "生存食物 "到将其视为 "常规 "猎物的范式转变。我们发现,这两个物种的食物中常见的 GZP 类群包括浮游腔肠动物(附肢动物、盐类)、刺网动物、链目动物和栉水母。盐类是最丰富的猎物群,两个物种的每个个体都捕食盐类,18S 的相对读丰度达到 98.7%。我们在它们的食物中发现了多种不同的分类群,从初级生产者到高度丰富的无脊椎动物,因此这两种蝾螈可以被视为研究生态系统的 "天然采样器"。最后,我们要指出的是,鉴于不同标记物对特定类群的扩增和测序成功率不同,以及参考数据库的分类覆盖范围不均等,多标记物代谢编码方法对于广泛的生态评估非常重要。每种标记的输出都具有高度互补性,因为只有 18S 才能检测到重要的猎物(如鲑鱼),而 COI 则能以更高的分类分辨率代表其他类群(如节肢动物)。
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来源期刊
Environmental DNA
Environmental DNA Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
11.00
自引率
0.00%
发文量
99
审稿时长
16 weeks
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