Molecular Methods to Study Great Cormorant Feeding Ecology

Pub Date : 2022-07-01 DOI:10.5253/arde.v109i2.a22
B. Thalinger, Johannes Oehm, M. Traugott
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Abstract

The feeding ecology of the Great Cormorant Phalacrocorax carbo has been the subject of many studies in which the hard parts of fish, contained in dietary samples such as regurgitated pellets, were identified using morphological characteristics. However, morphological prey identification does not necessarily permit the reliable identification of all fish species due to digestion eroding diagnostic characters and/or morphologically indiscernible hard parts in a range of fish species. Molecular methods have the potential to overcome these obstacles by allowing the detection and identification of minute quantities of prey DNA present in pellets, faeces, and stomach samples. Moreover, DNA of the consumer (i.e. the Cormorant) is also present in dietary samples and can thus be employed for ecological studies too. Here, we present a methodological overview of two molecular approaches commonly used to study trophic interactions, namely diagnostic PCR and next generation sequencing, along with their main advantages and disadvantages. Regarding the use of consumer DNA contained in dietary samples, molecular sexing, i.e. the non-invasive sex determination of the sample-producing bird, is presented. We exemplify the potential of DNA-based methods for future research via a case study on pellets collected at Chiemsee (Germany), which were subjected to molecular and morphological prey identification as well as to molecular sexing. Compared to morphological prey identification, molecular analysis led to a 53% increase in prey species and genera, mainly caused by eight additionally detected cyprinid taxa. For 79% of the pellets, the sex of the pellet-producing Cormorant could be successfully determined via molecular sexing. Our findings highlight the exciting possibilities molecular methods offer for future studies on Cormorant feeding ecology, especially regarding evaluations of prey spectra and the non-invasive assessment of sex-specific differences.
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用分子方法研究大蟾蜍的觅食生态学
大鸬鹚的摄食生态一直是许多研究的主题,在这些研究中,鱼类的坚硬部分包含在饮食样本中,如反流颗粒,通过形态学特征来识别。然而,由于消化侵蚀的诊断特征和/或在一系列鱼类中形态学上不可识别的硬部分,形态学上的猎物识别不一定能够可靠地识别所有鱼类。分子方法有可能克服这些障碍,因为它允许检测和鉴定颗粒、粪便和胃样本中存在的微量猎物DNA。此外,消费者(即鸬鹚)的DNA也存在于饮食样本中,因此也可以用于生态研究。在这里,我们提出了两种通常用于研究营养相互作用的分子方法的方法学概述,即诊断PCR和下一代测序,以及它们的主要优点和缺点。关于饮食样本中含有的消费者DNA的使用,提出了分子性别测定,即对产生样本的鸟类进行非侵入性性别测定。我们通过对在Chiemsee(德国)收集的颗粒进行分子和形态鉴定以及分子性别鉴定的案例研究,举例说明了基于dna的方法在未来研究中的潜力。与形态鉴定相比,分子鉴定结果表明,猎物种类和属增加了53%,这主要是由于增加了8个鲤科分类群。对于79%的颗粒,生产颗粒的鸬鹚的性别可以通过分子性别鉴定成功确定。我们的发现强调了分子方法为未来研究鸬鹚摄食生态学提供的令人兴奋的可能性,特别是在猎物光谱评估和性别特异性差异的非侵入性评估方面。
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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