{"title":"晶体取向和茧石形态的进化变化:新近纪-第四纪脐带藻(Prymnesiophyceae)世系","authors":"Masayuki Utsunomiya , Toshihiro Kogure","doi":"10.1016/j.marmicro.2024.102370","DOIUrl":null,"url":null,"abstract":"<div><p>The crystallographic orientation and its relationship to the morphology of coccoliths were investigated for the Neogene-Quaternary calcareous nannoplankton <em>Umbilicosphaera</em> lineage using scanning electron microscopy (SEM) and electron back-scattered diffraction (EBSD). The <strong>c</strong>-axis of the calcite forming the distal shield elements was inclined upward at 66–68° (<em>U. sibogae</em>), 65–68° (<em>U. foliosa</em>), 57–58° (<em>U. rotula</em>), and 55–57° (<em>U. patera</em>) from the coccolith plane. Accordingly, the outward dip angle of one of the {<span><math><mn>10</mn><mover><mn>1</mn><mo>¯</mo></mover><mn>4</mn></math></span>} faces forming the surface of the distal shield of <em>U. patera</em> coccolith was shallower than those of <em>U. sibogae</em> and <em>U. foliosa</em>, explaining the nearly flat distal shield and the steep inner slope, formed by another equivalent {<span><math><mn>10</mn><mover><mn>1</mn><mo>¯</mo></mover><mn>4</mn></math></span>} face, around the central opening of <em>U. patera</em>. Our results showed that the evolution from <em>U. rotula</em> to <em>U. patera</em> during the Late Miocene was not accompanied by a change in crystallographic orientation. In contrast, the evolution from <em>U. patera</em> to <em>U. sibogae</em> and <em>U. foliosa</em> during the Pliocene was accompanied by a rotation of the orientation. The crystallographic orientation of calcite nuclei on the baseplate with a combination of other factors would have resulted in species-specific differences in shield shape and suture lines within the same phylogeny, consequently producing morphological diversity in the coccolith throughout geological time.</p></div>","PeriodicalId":49881,"journal":{"name":"Marine Micropaleontology","volume":null,"pages":null},"PeriodicalIF":1.5000,"publicationDate":"2024-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Evolutionary change of crystallographic orientation and coccolith morphology: Neogene-Quaternary Umbilicosphaera (Prymnesiophyceae) lineage\",\"authors\":\"Masayuki Utsunomiya , Toshihiro Kogure\",\"doi\":\"10.1016/j.marmicro.2024.102370\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The crystallographic orientation and its relationship to the morphology of coccoliths were investigated for the Neogene-Quaternary calcareous nannoplankton <em>Umbilicosphaera</em> lineage using scanning electron microscopy (SEM) and electron back-scattered diffraction (EBSD). The <strong>c</strong>-axis of the calcite forming the distal shield elements was inclined upward at 66–68° (<em>U. sibogae</em>), 65–68° (<em>U. foliosa</em>), 57–58° (<em>U. rotula</em>), and 55–57° (<em>U. patera</em>) from the coccolith plane. Accordingly, the outward dip angle of one of the {<span><math><mn>10</mn><mover><mn>1</mn><mo>¯</mo></mover><mn>4</mn></math></span>} faces forming the surface of the distal shield of <em>U. patera</em> coccolith was shallower than those of <em>U. sibogae</em> and <em>U. foliosa</em>, explaining the nearly flat distal shield and the steep inner slope, formed by another equivalent {<span><math><mn>10</mn><mover><mn>1</mn><mo>¯</mo></mover><mn>4</mn></math></span>} face, around the central opening of <em>U. patera</em>. Our results showed that the evolution from <em>U. rotula</em> to <em>U. patera</em> during the Late Miocene was not accompanied by a change in crystallographic orientation. In contrast, the evolution from <em>U. patera</em> to <em>U. sibogae</em> and <em>U. foliosa</em> during the Pliocene was accompanied by a rotation of the orientation. 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引用次数: 0
摘要
利用扫描电子显微镜(SEM)和电子背散射衍射(EBSD)研究了新元古代-第四纪钙质拟南星脐带藻系的结晶取向及其与茧石形态的关系。形成远端盾构元素的方解石的 c 轴向上倾斜,与茧石平面的倾角分别为 66-68°(U. sibogae)、65-68°(U. foliosa)、57-58°(U. rotula)和 55-57°(U. patera)。因此,形成 U. patera 卵石远端盾面的一个{101¯4}面的外倾角比 U. sibogae 和 U. foliosa 的要浅,这就解释了为什么 U. patera 的远端盾面几乎是平的,而由另一个等效的{101¯4}面形成的围绕中央开口的陡峭内坡。我们的研究结果表明,晚中新世期间从 U. rotula 到 U. patera 的演化并没有伴随着晶体学取向的变化。相反,在上新世,从 U. patera 到 U. sibogae 和 U. foliosa 的演化过程中,方解石的取向发生了旋转。基板上方解石核的结晶取向与其他因素的综合作用将导致同一系统发育中不同物种的盾形和缝合线的差异,从而在整个地质年代中产生茧石形态的多样性。
Evolutionary change of crystallographic orientation and coccolith morphology: Neogene-Quaternary Umbilicosphaera (Prymnesiophyceae) lineage
The crystallographic orientation and its relationship to the morphology of coccoliths were investigated for the Neogene-Quaternary calcareous nannoplankton Umbilicosphaera lineage using scanning electron microscopy (SEM) and electron back-scattered diffraction (EBSD). The c-axis of the calcite forming the distal shield elements was inclined upward at 66–68° (U. sibogae), 65–68° (U. foliosa), 57–58° (U. rotula), and 55–57° (U. patera) from the coccolith plane. Accordingly, the outward dip angle of one of the {} faces forming the surface of the distal shield of U. patera coccolith was shallower than those of U. sibogae and U. foliosa, explaining the nearly flat distal shield and the steep inner slope, formed by another equivalent {} face, around the central opening of U. patera. Our results showed that the evolution from U. rotula to U. patera during the Late Miocene was not accompanied by a change in crystallographic orientation. In contrast, the evolution from U. patera to U. sibogae and U. foliosa during the Pliocene was accompanied by a rotation of the orientation. The crystallographic orientation of calcite nuclei on the baseplate with a combination of other factors would have resulted in species-specific differences in shield shape and suture lines within the same phylogeny, consequently producing morphological diversity in the coccolith throughout geological time.
期刊介绍:
Marine Micropaleontology is an international journal publishing original, innovative and significant scientific papers in all fields related to marine microfossils, including ecology and paleoecology, biology and paleobiology, paleoceanography and paleoclimatology, environmental monitoring, taphonomy, evolution and molecular phylogeny. The journal strongly encourages the publication of articles in which marine microfossils and/or their chemical composition are used to solve fundamental geological, environmental and biological problems. However, it does not publish purely stratigraphic or taxonomic papers. In Marine Micropaleontology, a special section is dedicated to short papers on new methods and protocols using marine microfossils. We solicit special issues on hot topics in marine micropaleontology and review articles on timely subjects.
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