Aquatic invertebrate mandibles and sclerotized remains in Quaternary lake sediments

IF 1.7 3区 地球科学 Q4 ENVIRONMENTAL SCIENCES
Colin J. Courtney-Mustaphi, Enrica Steiner, Stefanie von Fumetti, Oliver Heiri
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引用次数: 1

Abstract

Subfossil remains of aquatic invertebrates found in lacustrine sediments are useful paleoenvironmental indicators. Strongly scleroticized chitinous body parts from the exoskeleton or exuviae from invertebrates are often the most resistant to degradation during syn- and post-depositional processes. Invertebrate mandibles and body parts that superficially resemble mandibles, such as claw-like appendages and pygopodia, are frequently found in sieved Quaternary lacustrine, palustrine, and deltaic sediments. Guides, catalogs and atlases have been published that are well suited for the identification of subfossil remains for several invertebrate groups, such as chironomids, cladocerans, and ostracods, among others. However, aquatic invertebrate remains of several ecologically important invertebrate groups continue to be underused in paleoenvironmental studies, in part, because there are few visual keys or other documentation sources (e.g. descriptions, catalogs or atlases) that increase awareness and facilitate identification. Here we present sets of digital photomicrographs of pre-identified aquatic invertebrate specimens collected from streams, lakes and ponds that have been chemically cleared to preserve structures that are observed in subfossil remains in sieved sediment samples, commonly the > 100 μm size fractions. In addition, we present examples of these structures from Quaternary lake-sediment samples and cite the dispersed literature that demonstrate that these remains are preserved and remain identifiable in the fossil record. We document mandibles from several taxonomic groups that include Crustacea: Amphipoda, Isopoda, Ostracoda, and Notostraca; and Insecta orders: Coleoptera, Diptera, Ephemeroptera, Hemiptera, Odonata, Lepidoptera, Megaloptera, Plecoptera, and Trichoptera. The compilation of microphotographs also includes pygopodia and claw appendages of Plecoptera and Trichoptera, with additional images of other common invertebrate mouthpart and head remains. We describe several types of fossilizing structures that are, to our knowledge, not previously described in the paleoecological literature (e.g. mandibles of amphipods or plecopterans) but also show that some structures are considerably more variable than expected based on available descriptions, such as the mandibles of Ephemeroptera or Trichoptera, and that these can potentially be separated into different morphotypes useful for identification of subfossil material. We also discuss the potential of analyzing and interpreting the additional remains together with the remains of more commonly analyzed invertebrate groups (e.g. Chironomidae) to contribute to paleoenvironmental interpretations, which will allow assessments of functional groups (e.g. predators, shredders, grazers) or habitat types (e.g. littoral, profundal or lotic environments) that aquatic invertebrate remains originate from.

Abstract Image

第四纪湖泊沉积物中水生无脊椎动物下颌骨和硬化残骸
湖泊沉积物中发现的水生无脊椎动物亚化石遗迹是有用的古环境指示物。来自无脊椎动物的外骨骼或蜕皮的强烈硬化的几丁质身体部位通常在沉积过程中和沉积后的过程中最耐降解。无脊椎动物的下颌骨和表面上类似下颌骨的身体部位,如爪状附属物和尾足,经常在第四纪湖泊、湖泊和三角洲沉积物中发现。已出版的指南、目录和地图集非常适合于鉴定若干无脊椎动物群的亚化石遗骸,如摇尾动物、枝海动物和介形虫等。然而,一些生态上重要的水生无脊椎动物种群的遗骸在古环境研究中仍然没有得到充分利用,部分原因是缺乏视觉关键或其他文件来源(如描述、目录或地图集)来提高认识和促进识别。在这里,我们展示了从溪流、湖泊和池塘中收集的预先识别的水生无脊椎动物标本的数码显微照片,这些标本经过化学清除,以保留在筛选过的沉积物样品(通常为100 μm大小的馏分)的亚化石残留物中观察到的结构。此外,我们从第四纪湖泊沉积物样本中提出了这些结构的例子,并引用了分散的文献,证明这些遗迹被保存下来,并且在化石记录中仍然可以识别。我们记录了几个分类类群的下颌骨,包括甲壳类:片足类、等足类、介形虫类和非甲壳类;昆虫目:鞘翅目、双翅目、蜉蝣目、半翅目、翅目、鳞翅目、大翅目、翅目、毛翅目。显微照片的汇编还包括翼翅目和毛翅目的尾足和爪附属物,以及其他常见的无脊椎动物口器和头部残骸的图像。我们描述了几种类型的化石结构,据我们所知,以前没有在古生态文献中描述过(例如片脚类动物或翼翅目动物的下颌骨),但也表明一些结构比基于现有描述的预期变化要大得多,例如蜉蝣目或毛翅目动物的下颌骨,并且这些结构可能被分为不同的形态类型,有助于识别亚化石材料。我们还讨论了分析和解释这些额外的遗骸以及更常见的无脊椎动物群体(如手摇蝇科)的遗骸的潜力,以促进古环境解释,这将允许评估水生无脊椎动物遗骸起源的功能群(如捕食者、切碎者、食草者)或栖息地类型(如沿海、深海或内陆环境)。
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来源期刊
Journal of Paleolimnology
Journal of Paleolimnology 地学-地球科学综合
CiteScore
3.70
自引率
9.50%
发文量
44
审稿时长
3 months
期刊介绍: The realization that a historical perspective is often useful, if not essential, to the understanding of most limnological processes has resulted in the recent surge of interest in paleolimnology. The main aim of the Journal of Paleolimnology is the provision of a vehicle for the rapid dissemination of original scientific work dealing with the reconstruction of lake histories. Although the majority of papers deal with lakes, paleoenvironmental studies of river, wetland, peatland and estuary systems are also eligible for publication. The Journal of Paleolimnology, like the subject itself, is multidisciplinary in nature, and papers are published that are concerned with all aspects (e.g. biological, chemical, physical, geological, etc.) of the reconstruction and interpretation of lake histories. Both applied and more theoretical papers are equally encouraged. The Journal of Paleolimnology will continue to be a major repository for papers dealing with climatic change, as well as other pressing topics, such as global environmental change, lake acidification, eutrophication, long-term monitoring, and other aspects of lake ontogeny. Taxonomic and methodological papers are also acceptable provided they are of relatively broad interest. New equipment designs are frequently featured. In addition to original data and ideas, the Journal of Paleolimnology also publishes review articles, commentaries and program announcements. A relevant Book Review Section is also featured.
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