Phyllis Mono, René Hoffmann, Max Wisshak, Stephen W. Lokier, Chelsea L. Pederson, Dominik Hennhoefer, Mara R. Diaz, Peter Swart, Gernot Nehrke, Adrian Immenhauser
{"title":"Microborings reveal alternating agitation, resting and sleeping stages of modern marine ooids","authors":"Phyllis Mono, René Hoffmann, Max Wisshak, Stephen W. Lokier, Chelsea L. Pederson, Dominik Hennhoefer, Mara R. Diaz, Peter Swart, Gernot Nehrke, Adrian Immenhauser","doi":"10.1111/sed.13149","DOIUrl":null,"url":null,"abstract":"ABSTRACT Ooids are abundant carbonate grains throughout much of Earth's history, but their formation is not well understood. Here, an in‐depth study of microbial bioerosion features of Holocene ooids from the Schooner Cays ooid shoals (Great Bahama Bank, Eleuthera, Bahamas) and the Shalil al Ud ooid shoals in the Gulf (Abu Dhabi, United Arab Emirates) is presented. No obvious differences were found in ooid size distribution, cortex layer thickness, the composition of nuclei or euendolithic community when comparing ooids from both locations. Microendolithic borings are present in most studied ooid surfaces, but the intensity of (micro‐)bioerosion varies significantly. Applying an epoxy vacuum cast‐embedding technique allowed the identification of ichnotaxa and their inferred producers (various genera of diatoms, cyanobacteria, coccolithophores and unspecified bacteria). Euendolithic taxa have specific low‐light tolerances and light optima. This implies that information about the relative bathymetry (seafloor versus burial within an ooid shoal) and ecology for ooid cortex formation can be obtained via the presence or absence of their respective ichnotaxa. The history of a statistically significant number of ooid cortices can be translated into dune dynamics and the temporal variations thereof by allocating the inferred index producer to a defined burial or light penetration zone. In this context, ooid formation can be divided into four stages: (i) an agitation stage in the water column, characterized by the colonization of grains by photoautotrophs; (ii) a resting stage, characterized by temporary burial of the ooid, leading to immobilization and a shift towards heterotrophs; (iii) a sleeping stage, characterized by prolonged burial and colonialization by organotrophs; and (iv) a reactivation stage, characterized by a resurfacing of the ooid and a subsequent shift towards photoautotrophs. The sleeping stage is presumably a stage of ooid degradation where bioerosion, mainly by heterotrophic fungi and bacteria is particularly active.","PeriodicalId":21838,"journal":{"name":"Sedimentology","volume":"5 1","pages":"0"},"PeriodicalIF":2.6000,"publicationDate":"2023-10-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Sedimentology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1111/sed.13149","RegionNum":2,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"GEOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
ABSTRACT Ooids are abundant carbonate grains throughout much of Earth's history, but their formation is not well understood. Here, an in‐depth study of microbial bioerosion features of Holocene ooids from the Schooner Cays ooid shoals (Great Bahama Bank, Eleuthera, Bahamas) and the Shalil al Ud ooid shoals in the Gulf (Abu Dhabi, United Arab Emirates) is presented. No obvious differences were found in ooid size distribution, cortex layer thickness, the composition of nuclei or euendolithic community when comparing ooids from both locations. Microendolithic borings are present in most studied ooid surfaces, but the intensity of (micro‐)bioerosion varies significantly. Applying an epoxy vacuum cast‐embedding technique allowed the identification of ichnotaxa and their inferred producers (various genera of diatoms, cyanobacteria, coccolithophores and unspecified bacteria). Euendolithic taxa have specific low‐light tolerances and light optima. This implies that information about the relative bathymetry (seafloor versus burial within an ooid shoal) and ecology for ooid cortex formation can be obtained via the presence or absence of their respective ichnotaxa. The history of a statistically significant number of ooid cortices can be translated into dune dynamics and the temporal variations thereof by allocating the inferred index producer to a defined burial or light penetration zone. In this context, ooid formation can be divided into four stages: (i) an agitation stage in the water column, characterized by the colonization of grains by photoautotrophs; (ii) a resting stage, characterized by temporary burial of the ooid, leading to immobilization and a shift towards heterotrophs; (iii) a sleeping stage, characterized by prolonged burial and colonialization by organotrophs; and (iv) a reactivation stage, characterized by a resurfacing of the ooid and a subsequent shift towards photoautotrophs. The sleeping stage is presumably a stage of ooid degradation where bioerosion, mainly by heterotrophic fungi and bacteria is particularly active.
在地球的大部分历史中,卵状体是丰富的碳酸盐颗粒,但它们的形成尚不清楚。本文对Schooner Cays鲕滩(巴哈马群岛伊鲁塞拉岛大巴哈马滩)和Shalil al Ud鲕滩(阿拉伯联合酋长国阿布扎比)全新世鲕滩的微生物侵蚀特征进行了深入研究。两个地点的卵体在卵体大小分布、皮层厚度、核组成和中石器群落等方面均无明显差异。微内石器时代的钻孔存在于大多数研究的流体表面,但(微)生物侵蚀的强度差异很大。应用环氧树脂真空铸造包埋技术,可以鉴定出鱼分类群及其推断的生产者(硅藻、蓝藻、球石藻和未指明的细菌的各种属)。中石器类群具有特定的弱光耐受性和最佳光照条件。这意味着关于相对水深的信息(海底与埋藏在一个卵状浅滩内)和卵状皮质形成的生态学可以通过它们各自的鱼分类群的存在或不存在来获得。通过将推断的指数生产者分配到确定的埋藏区或光穿透区,统计上显著数量的球状皮质的历史可以转化为沙丘动力学及其时间变化。在这种情况下,流体的形成可分为四个阶段:(i)水柱中的搅动阶段,以光自养生物定植颗粒为特征;(ii)休养期,特征是卵体暂时埋藏,导致固定和向异养转变;(iii)睡眠阶段,特征是长时间埋葬和有机营养物的殖民化;(iv)再激活阶段,其特征是水体表面重新形成,随后向光自养生物转变。睡眠阶段可能是液体降解的一个阶段,主要是由异养真菌和细菌引起的生物侵蚀特别活跃。
期刊介绍:
The international leader in its field, Sedimentology publishes ground-breaking research from across the spectrum of sedimentology, sedimentary geology and sedimentary geochemistry.
Areas covered include: experimental and theoretical grain transport; sediment fluxes; modern and ancient sedimentary environments; sequence stratigraphy sediment-organism interaction; palaeosoils; diagenesis; stable isotope geochemistry; environmental sedimentology