通过靶向物种特异性环境DNA揭示本地和入侵海藻的季节性和空间分布差异。

Contrasting seasonal and spatial distribution of native and invasive seaweed revealed by targeting species-specific eDNA.

作者信息

Muha Teja Petra, Skukan Roberta, Borrell Yaisel J, Rico José M, Garcia de Leaniz Carlos, Garcia-Vazquez Eva, Consuegra Sofia

机构信息

Swansea University Swansea UK.

Neoalgae Asturias Spain.

出版信息

Ecol Evol. 2019 Jul 10;9(15):8567-8579. doi: 10.1002/ece3.5379. eCollection 2019 Aug.

DOI:10.1002/ece3.5379

PMID:31410262

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6686311/

Abstract

AIM

, an invasive seaweed, has spread widely during the last century, impacting on local seaweed communities through competition and disturbance. Early detection of can help on its control and management. Environmental DNA (eDNA) has proved successful for early detection of aquatic invasive species but its potential use for seaweed remains understudied. We used a species-specific eDNA qPCR approach to investigate the spatial distribution, abundance, and coexistence of the invasive and three native species (, , and ) in the Cantabrian Sea.

LOCATION

Bay of Biscay, Northern Atlantic Coast of the Iberian Peninsula; two ports, a beach and a rocky cliff.

METHODS

We designed species-specific primers in barcoding regions targeting short fragments of the rbcL gene for the invasive species, and the elongation factor Tu (tufA) gene for the native species, to assess their spatial and seasonal distributions using quantitative real-time PCR in samples collected during summer, autumn, and winter.

RESULTS

We found seasonal differences in the presence of the invasive and two of the native species, but did not detect at any point. Species distribution patterns produced with qPCR targeting species-specific eDNA coincided with the known distribution based on previous conventional sampling, with a seasonal alternance of and , and a marked dominance of invasive in ports, which are known hotspots for invasive species.

MAIN CONCLUSIONS

Our results demonstrate the utility of using eDNA for early detection and monitoring of invasive seaweed. Native and invasive spp. displayed significant seasonal and spatial differentiation that needs to be taken into account in risk management. Regular monitoring of ports and adjacent areas using eDNA should help to assess the potential expansion of invasive and the need for management interventions to avoid the displacement of native seaweed.

摘要

目标

一种入侵性海藻在上个世纪广泛扩散，通过竞争和干扰对当地海藻群落产生影响。对其进行早期检测有助于对其进行控制和管理。环境DNA（eDNA）已被证明在水生入侵物种的早期检测中取得成功，但其在海藻方面的潜在用途仍未得到充分研究。我们使用物种特异性eDNA定量聚合酶链反应（qPCR）方法，研究了这种入侵性海藻与三种本地海藻物种（、和）在坎塔布连海的空间分布、丰度和共存情况。

地点

伊比利亚半岛北大西洋海岸的比斯开湾；两个港口、一个海滩和一个岩石悬崖。

方法

我们针对入侵性海藻物种的rbcL基因短片段以及本地物种的延伸因子Tu（tufA）基因，在条形码区域设计了物种特异性引物，以便通过对夏季、秋季和冬季采集的样本进行定量实时PCR来评估它们的空间和季节分布。

结果

我们发现入侵性海藻和两种本地海藻物种的出现存在季节差异，但在任何时候都未检测到。针对物种特异性eDNA的qPCR产生的物种分布模式与基于先前传统采样的已知分布相吻合，和呈现季节性交替，入侵性海藻在港口明显占主导地位，而港口是已知的入侵物种热点地区。

主要结论

我们的结果证明了使用eDNA进行入侵性海藻早期检测和监测的实用性。本地和入侵性海藻物种表现出显著的季节和空间差异，在风险管理中需要加以考虑。使用eDNA对港口及周边地区进行定期监测，应有助于评估入侵性海藻的潜在扩散以及采取管理干预措施以避免本地海藻被取代的必要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/22ac/6686311/a12b1390e708/ECE3-9-8567-g001.jpg

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Population characteristics of a large whale shark aggregation inferred from seawater environmental DNA.基于海水环境DNA推断的大型鲸鲨聚集群体的种群特征

Nat Ecol Evol. 2016 Nov 21;1(1):4. doi: 10.1038/s41559-016-0004.

Monitoring of noble, signal and narrow-clawed crayfish using environmental DNA from freshwater samples.利用淡水样本中的环境DNA监测贵族螯虾、信号螯虾和窄额螯虾。

PLoS One. 2017 Jun 27;12(6):e0179261. doi: 10.1371/journal.pone.0179261. eCollection 2017.

Environmental DNA (eDNA) detects the invasive rusty crayfish at low abundances.环境DNA（eDNA）能在低丰度情况下检测到入侵的锈色小龙虾。

J Appl Ecol. 2016 Jun;53(3):722-732. doi: 10.1111/1365-2664.12621. Epub 2016 Feb 24.

Environmental DNA reveals that rivers are conveyer belts of biodiversity information.环境 DNA 揭示了河流是生物多样性信息的输送带。

Nat Commun. 2016 Aug 30;7:12544. doi: 10.1038/ncomms12544.

Use of droplet digital PCR for estimation of fish abundance and biomass in environmental DNA surveys.在环境DNA调查中使用液滴数字PCR技术估算鱼类丰度和生物量。

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通过靶向物种特异性环境DNA揭示本地和入侵海藻的季节性和空间分布差异。

Contrasting seasonal and spatial distribution of native and invasive seaweed revealed by targeting species-specific eDNA.

作者信息

机构信息

出版信息

AIM

LOCATION

METHODS

RESULTS

MAIN CONCLUSIONS

目标

地点

方法

结果

主要结论

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