Morphological evolution of menardiform globorotalids at Western Pacific Warm Pool ODP Hole 806C (Ontong-Java Plateau) Evolution morphologique du groupe de Globorotalia menardii au Site ODP 806C (Ontong-Java Plateau, Pacifique tropical occidental)

IF 0.7 Q4 PALEONTOLOGY
Michael Knappertsbusch
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引用次数: 0

Abstract

The morphological evolution was investigated in the tropical Neogene planktonic foraminiferal lineage Globorotalia menardii, G. limbata and G. multicamerata during the past 8 million years at ODP Hole 806C (Ontong-Java Plateau, western equatorial Pacific). This research is an extension of several similar studies since 2007 from the Caribbean Sea, the tropical Atlantic and the Eastern Equatorial Pacific. The goal is to find empirical and quantitative confirmation for morphological speciation – splitting or phyletic gradualism or accelerated evolution – in planktonic foraminifera with the above lineage as model objects. The present study from ODP Hole 806C serves as a test to discriminate between these evolutionary scenarios.

In the western equatorial Pacific warm and stable environments prevailed back to Pliocene times, and potential influences of Northern Hemisphere Glaciation are thought to bear less severely on shell size evolution than in the Atlantic Ocean. A slow and gradual pattern of shell size increase is therefore expected in the western tropical Pacific, in contrast to the intermittent rapid menardiform shell size increase during periods of intensified formation of warm water eddies in the southern to tropical Atlantic.

For this study a total of 11,101 specimens from 37 stratigraphic levels extending over the past 8 million years were morphometrically investigated thanks to the AMOR robot for imaging and microfossil orientation. Of those, 6080 specimens comprise the G. menardii–limbata-multicamerata plexus. Special attention was given to trends of spiral height (δX) versus axial length (δY) in keel view, for which bivariate contour- and volume-density diagrams were constructed to visualize speciation and evolutionary trends.

The investigation at Hole 806C showed, that G. menardii evolved in a more gradual manner than in the Atlantic. Contour plots of δX versus δY reveal modest bimodality between 3.18 Ma – 2.55 Ma with a dominant branch consisting of smaller G. menardii (δX<∼300 μm) persisting until the Late Quaternary, and a less dominant branch of larger G. menardii (δX>∼300 μm) until 2.63 Ma. There is evidence for cladogenesis – splitting with subsequent morphological divergence in the Late Pliocene G. menardii-limbata-multicamerata lineage, and which may be linked to changes in the thermocline. Due to the general scarcity of G. multicamerata at Site 806, the divergence was less clearly expressed than originally expected. Up-section, bimodality vanished but G. menardii populations shifted towards extra large shells between 2.19-1.95 Ma.

The morphological evolution of Pacific menardiform globorotalids contrasts the one observed in the Atlantic. This inter-oceanic asymmetry may indicate possible long-distance dispersal of G. menardii, at least during intermittent phases. For plankton biostratigraphy this implies, that correlating events represent more often than previously thought large scale environmental perturbations with local morphological ecophenotypic adaptations and nuances.

西太平洋暖池ODP孔806C (onong -爪哇高原)menorotalia Globorotalia menaridi au站点ODP 806C (onong -爪哇高原,太平洋热带西部)演化形态学
本文研究了赤道西太平洋onong - java高原ODP 806C孔800万年来热带新近纪浮游有孔虫系Globorotalia menardii、G. limbata和G. multicamerata的形态演变。这项研究是自2007年以来在加勒比海、热带大西洋和东赤道太平洋进行的几项类似研究的延伸。目标是以上述谱系为模型对象的浮游有孔虫的形态物种形成-分裂或种系渐进或加速进化-找到经验和定量的证实。目前来自ODP Hole 806C的研究可以作为区分这些进化情景的测试。在赤道西太平洋,温暖稳定的环境一直延续到上新世,北半球冰川作用的潜在影响被认为对贝壳尺寸演化的影响不如大西洋那么严重。因此,在热带西部太平洋,预计贝壳尺寸会缓慢而渐进地增加,而在南部到热带大西洋的暖水涡流加强形成期间,则会间歇性地快速增加menardiform贝壳尺寸。在这项研究中,得益于AMOR机器人的成像和微化石定位,来自37个地层水平的11101个标本在过去800万年中进行了形态计量学研究。在这些标本中,6080个标本包括梅纳蒂-边缘-多斑丛。特别关注龙骨视图中螺旋高度(δX)与轴向长度(δY)的趋势,为此构建了二元轮廓图和体积密度图,以可视化物种形成和进化趋势。在806C洞的调查表明,墨纳地鼠的进化比在大西洋的进化更为缓慢。δX与δY的等高线图在3.18 Ma - 2.55 Ma之间显示适度的双峰性,其中一个优势分支由较小的G. menardii (δX< ~ 300 μm)组成,持续到晚第四纪,而一个较小的G. menardii (δX> ~ 300 μm)组成,直到2.63 Ma。有证据表明,晚上新世G. menardii-limbata-multicamerata谱系存在枝生分裂和随后的形态分化,这可能与温跃层的变化有关。由于806站点的G. multicamerata普遍稀缺,分化程度不如最初预期的清晰。在2.19 ~ 1.95 Ma之间,双峰型种群消失,大壳型种群向特大壳型种群转移。太平洋menardiform globorotalids的形态进化与大西洋中观察到的形成了对比。这种海洋间的不对称性可能表明墨氏弧菌可能有长距离的传播,至少在间歇阶段是这样。对于浮游生物地层学来说,这意味着相关事件比以前认为的更频繁地代表了局部形态生态表型适应和细微差别的大规模环境扰动。
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来源期刊
CiteScore
2.50
自引率
0.00%
发文量
17
期刊介绍: La Revue de micropaléontologie publie 4 fois par an des articles de intérêt international, consacrés à tous les aspects de la micropaléontologie. Les textes, en anglais ou en français, sont des articles originaux, des résultats de recherche, des synthèses et mises au point, des comptes rendus de réunions scientifiques et des analyses de ouvrages. La revue se veut résolument ouverte à tous les aspects de la micropaléontologie en accueillant des travaux traitant de la systématique des microfossiles (et de leurs équivalents actuels), des bactéries aux microrestes de vertébrés, et de toutes leurs applications en sciences biologiques et géologiques.
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