Your search keyword '"Tsuyoshi Komiya"' showing total 145 results

1. Zinc isotopic evidence for recycled carbonate in the deep mantle

Author

Xiao-Yu Zhang, Li-Hui Chen, Xiao-Jun Wang, Takeshi Hanyu, Albrecht W. Hofmann, Tsuyoshi Komiya, Kentaro Nakamura, Yasuhiro Kato, Gang Zeng, Wen-Xian Gou, and Wei-Qiang Li

Subjects

Science

Abstract

Zhang et al. perform high-precision zinc (Zn) isotopic analysis on lavas from St. Helena Island in the Atlantic, and Cook-Austral Islands in the Pacific, and confirm that ancient superficial carbonates were transported into the deep mantle billions of years ago.

Published

2022

2. New materials of multicellular algae from the earliest Cambrian Kuanchuanpu biota in South China

Author

QING-QIN TANG, YA-JUAN ZHENG, SONG QIN, YIN-CHU WANG, XIAO-GUANG YANG,, XING WANG, JIE SUN, KENTARO UESUGI, TSUYOSHI KOMIYA, and JIAN HAN

Subjects

algal fossils, bowl-shaped fossils, early cambrian, kuanchuanpu biota, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

The Kuanchuanpu biota (ca. 535 Ma) from the basal Cambrian in South China yields various phosphatized, three-dimensionally preserved microscopic fossils, such as animal embryos, cyanobacteria, and algae. This provides an exceptional window for investigating the rapid divergent evolution of animal phyla in the early Cambrian ocean. However, the fossil eukaryotic algae are poorly documented and are not properly incorporated into the conceptual food web of the Cambrian ocean ecosystem. In this study, we report a new taxon of calathiform alga, Calathophycus irregulatus Tang gen. et sp. nov., and an indeterminate alga, from the Kuanchuanpu biota. Calathophycus irregulatus can be distinguished from other reported phosphatized multicellular algal fossils from the Kuanchuanpu biota and the Ediacaran Weng’an biota (Guizhou Province, China), based on the external morphology and features of cell clump aggregation. The observation of C. irregulatus and the indeterminate alga indicates a certain diversity of algae at the beginning of the Cambrian. Concerning the regularly or irregularly shaped multicellular algal fossils from the Kuanchuanpu Formation, co-occurring spherical fossils, previously interpreted as “cleavage stage” of animal embryos, should be reconsidered in affinity.

Published

2022

3. Muscle systems and motility of early animals highlighted by cnidarians from the basal Cambrian

Author

Xing Wang, Jean Vannier, Xiaoguang Yang, Lucas Leclère, Qiang Ou, Xikun Song, Tsuyoshi Komiya, and Jian Han

Subjects

jellyfish swimming, motility, muscle system, small shelly fossils, basal Cambrian, Medicine, Science, Biology (General), QH301-705.5

Abstract

Although fossil evidence suggests that various animal groups were able to move actively through their environment in the early stages of their evolution, virtually no direct information is available on the nature of their muscle systems. The origin of jellyfish swimming, for example, is of great interest to biologists. Exceptionally preserved muscles are described here in benthic peridermal olivooid medusozoans from the basal Cambrian of China (Kuanchuanpu Formation, ca. 535 Ma) that have direct equivalent in modern medusozoans. They consist of circular fibers distributed over the bell surface (subumbrella) and most probably have a myoepithelial origin. This is the oldest record of a muscle system in cnidarians and more generally in animals. This basic system was probably co-opted by early Cambrian jellyfish to develop capacities for jet-propelled swimming within the water column. Additional lines of fossil evidence obtained from ecdysozoans (worms and panarthropods) show that the muscle systems of early animals underwent a rapid diversification through the early Cambrian and increased their capacity to colonize a wide range of habitats both within the water column and sediment at a critical time of their evolutionary radiation.

Published

2022

4. Weak hydrothermal carbonation of the Ongeluk volcanics: evidence for low CO2 concentrations in seawater and atmosphere during the Paleoproterozoic global glaciation

Author

Takazo Shibuya, Tsuyoshi Komiya, Ken Takai, Shigenori Maruyama, and Michael J. Russell

Subjects

Paleoproterozoic global glaciation, Ongeluk volcanics, Carbonation, Carbon and oxygen isotopes, Seawater/atmosphere CO2 level, Geography. Anthropology. Recreation, Geology, QE1-996.5

Abstract

Abstract It was previously revealed that the total CO2 concentration in seawater decreased during the Late Archean. In this paper, to assess the secular change of total CO2 concentration in seawater, we focused on the Paleoproterozoic era when the Earth experienced its first recorded global glaciation. The 2.4 Ga Ongeluk Formation outcrops in the Kaapvaal Craton, South Africa. The formation consists mainly of submarine volcanic rocks that have erupted during the global glaciation. The undeformed lavas are mostly carbonate-free but contain rare disseminated calcites. The carbon isotope ratio of the disseminated calcite (δ13Ccc vs. VPDB) ranges from − 31.9 to − 13.2 ‰. The relatively low δ13Ccc values clearly indicate that the carbonation was partially contributed by 13C-depleted CO2 derived from decomposition of organic matter beneath the seafloor. The absence of δ13Ccc higher than − 13.2‰ is consistent with the exceptionally 13C-depleted CO2 in the Ongeluk seawater during glaciation. The results suggest that carbonation occurred during subseafloor hydrothermal circulation just after the eruption of the lavas. Previously, it was reported that the carbonate content in the uppermost subseafloor crust decreased from 3.2 to 2.6 Ga, indicating a decrease in total CO2 concentration in seawater during that time. However, the average CO2 (as carbonate) content in the Ongeluk lavas (

Published

2017

5. Ar–Ar dating for hydrothermal quartz from the 2.4 Ga Ongeluk Formation, South Africa: implications for seafloor hydrothermal circulation

Author

Takuya Saito, Hua-Ning Qiu, Takazo Shibuya, Yi-Bing Li, Kouki Kitajima, Shinji Yamamoto, Hisahiro Ueda, Tsuyoshi Komiya, and Shigenori Maruyama

Subjects

fluid inclusion, ar–ar dating, hydrothermal quartz, ongeluk formation, hydrothermal alteration, south africa, Science

Abstract

Fluid inclusions in hydrothermal quartz in the 2.4 Ga Ongeluk Formation, South Africa, are expected to partially retain a component of the ancient seawater. To constrain the origin of the fluid and the quartz precipitation age, we conducted Ar–Ar dating for the quartz via a stepwise crushing method. The obtained argon isotopes show two or three endmembers with one or two binary mixing lines as the crushing proceeds, suggesting that the isotopic compositions of these endmembers correspond to fluid inclusions of each generation, earlier generated smaller 40Ar- and K-rich inclusions, moderate 40Ar- and 38ArCl (neutron-induced 38Ar from Cl)-rich inclusions and later generated larger atmospheric-rich inclusions. The K-rich inclusions show significantly different 40Ar/38ArCl values compared to the 38ArCl-rich inclusions, indicating that it is difficult to constrain the quartz formation age using only fluid inclusions containing excess 40Ar. The highest obtained 40Ar/36Ar value from the fluid inclusions is consistent with an expected value of the Ongeluk plume source, suggesting that the quartz precipitation was driven by Ongeluk volcanism. Considering the fluid inclusion generations and their compositions, the hydrothermal system was composed of crustal fluid and magmatic fluid without seawater before the beginning of a small amount of seawater input to the hydrothermal system.

Published

2018

6. Early Cambrian pentamerous cubozoan embryos from South China.

Author

Jian Han, Shin Kubota, Guoxiang Li, Xiaoyong Yao, Xiaoguang Yang, Degan Shu, Yong Li, Shunichi Kinoshita, Osamu Sasaki, Tsuyoshi Komiya, and Gang Yan

Subjects

Medicine, Science

Abstract

BackgroundExtant cubozoans are voracious predators characterized by their square shape, four evenly spaced outstretched tentacles and well-developed eyes. A few cubozoan fossils are known from the Middle Cambrian Marjum Formation of Utah and the well-known Carboniferous Mazon Creek Formation of Illinois. Undisputed cubozoan fossils were previously unknown from the early Cambrian; by that time probably all representatives of the living marine phyla, especially those of basal animals, should have evolved.MethodsMicroscopic fossils were recovered from a phosphatic limestone in the Lower Cambrian Kuanchuanpu Formation of South China using traditional acetic-acid maceration. Seven of the pre-hatched pentamerous cubozoan embryos, each of which bears five pairs of subumbrellar tentacle buds, were analyzed in detail through computed microtomography (Micro-CT) and scanning electron microscopy (SEM) without coating.ResultsThe figured microscopic fossils are unequivocal pre-hatching embryos based on their spherical fertilization envelope and the enclosed soft-tissue that has preserved key anatomical features arranged in perfect pentaradial symmetry, allowing detailed comparison with modern cnidarians, especially medusozoans. A combination of features, such as the claustrum, gonad-lamella, suspensorium and velarium suspended by the frenula, occur exclusively in the gastrovascular system of extant cubozoans, indicating a cubozoan affinity for these fossils. Additionally, the interior anatomy of these embryonic cubozoan fossils unprecedentedly exhibits the development of many new septum-derived lamellae and well-partitioned gastric pockets unknown in living cubozoans, implying that ancestral cubozoans had already evolved highly specialized structures displaying unexpected complexity at the dawn of the Cambrian. The well-developed endodermic lamellae and gastric pockets developed in the late embryonic stages of these cubozoan fossils are comparable with extant pelagic juvenile cubomedusae rather than sessile cubopolyps, whcih indicates a direct development in these fossil taxa, lacking characteristic stages of a typical cnidarian metagenesis such as planktonic planula and sessile polyps.

Published

2013

7. From Subduction Initiation to Polarity Reversal: Zircon Age and Geochemical Constraints from Solomon Islands

Author

Rashmi Battan, Truong Tai Nguyen, Sun-Lin Chung, Tsuyoshi Komiya, Shigenori Maruyama, Andrew Tien-Shun Lin, Hao-Yang Lee, and Yoshiyuki Izuka

Abstract

Intra-oceanic arc’s collision with an oceanic plateau plays a crucial role in the development of complex tectonic setting and induce subduction polarity reversal. Despite several studies and investigations, the origin and timing of subduction initiation in Solomon Island Arc (SIA) is still ambiguous. This study presents first robust zircon U-Pb ages and in-situ Hf isotope data from Choiseul, Santa Isabel (SI) and New Georgia Group (NGG), three major islands of SIA. Magmatic zircons and Hf isotope data from one gabbro sample, geochemically identical to N-MORB with Nb, Ta depletion in spidergram yielded 46 ± 1 Ma, which we decipher as the timing of Stage I magmatism by subduction of Pacific plate and subduction initiation in Choiseul. Six Choiseul andesites gave a mean age 206Pb/238U of 0.7 Ma, with εHf(t) values from +9 to +15 which represents the youngest crystallization age of Stage II magmatism with typical island arc-like signatures and a depleted mantle source. Detrital zircons from two sand sample yielded a population of mean age ranging from 0.3-0.7 Ma, 10 Ma and 48-46 Ma with εHf(t) values +9 to 15, +11 to +12 and +11 to +14 respectively and third sample has yielded a mean age 207Pb/206Pb 2.6 Ga and 500-1600 Ma with εHf(t) values -8 to +9, probably associated with Australian-type source indicating presence of a continental fragment beneath SIA. Similar ages of ca. 2.6 Ma have been obtained from inherited zircons from three gabbroic dyke sample from Santa Isabel with εHf(t) values +1 to +9 whereas one gabbroic dyke sample yields 110 ± 1 Ma, with εHf(t) values +14 to + 16 which we interpret as the basement age of SI. U-Pb dating of zircons from mafic to felsic rocks along NGG, covered mostly by Quaternary eruptive lavas. The youngest age population indicate Late Pliocene-Pleistocene 206Pb/238U ages, 2.5-1.5 Ma, interpreted as zircon crystallization ages of Stage II arc magmatism resulting from subduction of the Solomon Sea plate, as those of Choiseul Andesite. The first U-Pb age from ca. 36.8±0.5 Ma granite on Ghizo Island in New Georgia Group, revealing Late Eocene-aged magmatic zircon. This age represents the magmatic emplacement as the basement of plutonic rock from NGG that has not been reported before. We conclude that, (i) The Solomon Islands has a Cretaceous basement preserved in SI. (ii) The timing of subduction initiation and Stage I N-MORB type tholeiitic magmatism in SIA is 46 Ma followed by episodic eruptions from the early Eocene to late Eocene. (iii) Oligocene (30-20 Ma) magmatic hiatus, probably the time of subduction polarity reversal from subduction of Pacific plate to subduction of Solomon Sea plate. (iv) Stage II island arc magmatism initiated at 20-18 Ma in NGG to youngest emplacement age of Pliocene to Pleistocene in Choiseul as well as in NGG. (v)Abundant Archean zircons are present in samples from all three islands, indicate presence of micro-continent beneath Islands of Solomon. We are still working on the whole rock isotopic analysis to better constrain the tectonic and magmatic evolution of SIA.

Published

2023

8. Traces of intra-oceanic arcs recorded in sandstones of eastern Kazakhstan: implications from U–Pb detrital zircon ages, geochemistry, and Nd–Hf isotopes

Author

Tsuyoshi Komiya, Bo Wang, Min Sun, P.D. Kotler, Olga Obut, Inna Safonova, Shogo Aoki, and Alina Perfilova

Subjects

Volcanic rock, Provenance, geography, Igneous rock, geography.geographical_feature_category, Paleozoic, Carboniferous, Geochemistry, Trace element, General Earth and Planetary Sciences, Ophiolite, Geology, Zircon

Abstract

This paper presents first U–Pb detrital zircon ages, major and trace element geochemical data and whole-rock Nd and Hf-in-zircon isotope data from sandstones of the Char and Zharma zones of eastern Kazakhstan. Petrographically the sandstones represent greywackes. The U–Pb ages of detrital zircons show unimodal distributions peaked at 345–340 and 330–325 Ma indicating post-Early Carboniferous deposition. The sandstones have high CIA values (60–68), suggesting moderate to weak chemical weathering. Their high ICV values (1.1–1.3) and relatively high MgO and low Y, Nb indicate an immature probably mafic–intermediate igneous source (low La/Th, medium Hf). Positive whole-rock eNd(t) and zircon eHf(t) indicate dominantly juvenile character of igneous rocks in the provenance. In total, the unimodal character of U–Pb detrital zircon age patterns, the chemical composition of sandstones similar to that of associated volcanic rocks and the positive values of eNd(t) and eHf(t) suggest their derivation from one or more intra-oceanic arcs. The data from eastern Kazakhstan fit those obtained from late Paleozoic greywacke sandstones of NW China. The new geochemical and geochronological data from sandstones and published data from oceanic and supra-subduction ophiolites of eastern Kazakhstan suggest an extended Pacific-type subduction system in the western Paleo-Asian Ocean in Devonian–early Carboniferous time.

Published

2021

9. Significance of the Uehiro Academy for Moral Education at Joetsu University of Education : The Transition of the Training Theme for Lecturer Dispatch Requests and Contents

Author

Hirotaka, HAYAKAWA, Tsuyoshi, KOMIYA, Hirohisa, TAMURA, Kenji, SATO, Yoshiki, IWAKI, and Yasunari, HAYASHI

Subjects

上廣倫理財団, 示範授業, Uehiro Academy for Moral Education, 上廣道徳教育アカデミー, 研修会, the Uehiro Foundation on Ethics and Education, Mock Lesson, Workshop, 道徳授業, 模擬授業, Demo Lesson, Moral Lesson

Published

2021

10. An intermediate type of medusa from the early Cambrian Kuanchuanpu Formation, South China

Author

Kentaro Uesugi, Xing Wang, Tsuyoshi Komiya, Xiaoguang Yang, Qiang Ou, Xiaoyong Yao, Jean Vannier, Jian Han, Osamu Sasaki, and Shin Kubota

Subjects

Paleontology, South china, Biology, Ecology, Evolution, Behavior and Systematics, Intermediate type

Published

2020

11. Whole-rock geochemistry and U-Pb ages of Devonian bimodal-type rhyolites from the Rudny Altai, Russia: Petrogenesis and tectonic settings

Author

V.A. Yakovlev, O. V. Murzin, Min Sun, I. V. Nikolaeva, M. Khlestov, P.D. Kotler, R.A. Shelepaev, A. V. Naryzhnova, Inna Safonova, N.N. Kruk, Jean Wong, M.L. Kuibida, N.M. Murzina, Tsuyoshi Komiya, Shogo Aoki, and D. V. Semenova

Subjects

Rift, Felsic, 010504 meteorology & atmospheric sciences, Geochemistry, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Devonian, Mantle (geology), Tectonics, Lithosphere, 0105 earth and related environmental sciences, Petrogenesis, Zircon

Abstract

The paper presents new original data on the Devonian felsic volcanism of the NW Rudny Altai (Russia) in the west of Central Asian Orogenic Belt (CAOB) – the front part of the Altai convergent margin of the Siberian continent. Two geochemical types of subvolcanic rhyolites were emplaced synchronously with the bimodal rhyolite-basalt association, which began to form in the end-Emsian, and clearly manifested on the border of the Givetian and the Frasnian. The rhyolites yield zircon U-Pb ages of ca. 390 Ma (R1-type) and 380 Ma (R2- and R3-types), reflecting two peaks of the volcanic activity. Most of these rocks have extreme petrochemical characteristics of high SiO2 contents and have contrast Na/K ratios. Their compositions are transition between calc-alkaline and tholeiite series: (La/Yb)n ~ 2–7, Zr/Y ~ 4 (Zr 350 ppm), Zr (>250 ppm), and high Ga/Al (>2.6) values. The island-arc-like R1-rhyolite formed immediately after the beginning of rifting due to widespread crustal melting under reduced conditions. The generation of rift-like R2- and R3-rhyolites took place under non-equilibrium conditions, synchronously with the rise in the upper crust of Givetian-Frasnian basic magmas, as a result of the active lithospheric extension and high thermal input from the underlying hot mantle. We propose an extension regime in the transition area between the island-arc and back-arc basin for the origin of rhyolites. The study of the Devonian volcanism of the Rudny Altai gives important information about the processes that occurred at the initial stage of the formation of the Altai convergent margin.

Published

2020

12. The end of the atmospheric xenon Archean’s evolution: a study of the Great Oxygenation Event period

Author

Lisa Ardoin, Micheal Broadley, Matthieu Almayrac, Guillaume Avice, David Byrne, Alexandre Tarantola, Aivo Lepland, Takuya Saito, Tsuyoshi Komiya, Takazo Shibuya, and Bernard Marty

Abstract

Several geochemical tracers (S, C, O, Xe) underwent irreversible global changes during the Precambrian, and in particular during the Great Oxygenation Event (GOE), between the Archean and Proterozoïc eons [1]. Xenon is of particular interest as it presents a secular isotopic evolution during the Archean that ceased around the time of the GOE. In this regard Xe is somewhat analogous to mass-independent fractionation sulfur (MIF-S) in that it can be used to categorically identify Archean atmospheric components [2]. Xe isotopes in the modern atmosphere are strongly mass-dependent fractionated (MDF-Xe), with a depletion of the light isotopes relative to the heavy ones. There was a continuous Xe isotope evolution from primitive Xe to modern Xe that ceased between 2.6 and 1.8 Ga [2] and this evolution has been attributed to coupled H+-Xe+ escape to space [3].The purpose of this project is to document the Xe composition of the paleo-atmosphere trapped in well-dated hydrothermal quartz fluid inclusions with ages covering the Archean-Proterozoic transition to better constraint its link with the GOE.We have measured an isotopically fractionated Xe composition of 2.0 ± 1.8 ‰ relative to modern atmosphere at 2441 ± 1.6 Ma, in quartz vein from the Seidorechka sedimentary formation (Imandra-Varzuga Greenstone belt, Russia). A slightly younger sample from the Polisarka sedimentary formation (Imandra-Varzuga Greenstone belt, Russia) of 2434 ± 6.6 Ma does not record such fractionation and is indistinguishable from the modern atmospheric composition. A temporal link between the disappearance of the Xe isotopes fractionation and the MIF-S signature at the Archean-Proterozoic transition is clearly established for the Kola Craton. The mass-dependent evolution of Xe isotopes is the witness of a cumulative atmospheric process that may have played an important role in the oxidation of the Earth's surface [3], independently of biogenic O2 production that started long before the permanent rise of O2 in the atmosphere [4]. [1] Catling & Zahnle, 2020, Sciences Advances 6, eaax1420. [2] Avice et al., 2018, Geochimica et Cosmochimica Acta 232, 82-100 [3] Zahnle et al., 2019, Geochimica et Cosmochimica Acta 244, 56-85. [4] Lyons et al., 2014, Nature 506, 307-315.

Published

2022

13. Author response: Muscle systems and motility of early animals highlighted by cnidarians from the basal Cambrian

Author

Xiaoguang Yang, Jean Vannier, Xing Wang, Lucas Leclère, Qiang Ou, Xikun Song, Tsuyoshi Komiya, and Jian Han

Published

2022

14. Large contribution of oxygen to organic matter degradation during the Ediacaran Shuram excursion

Author

Fumihiro Matsu'ura, Yusuke Sawaki, Tsuyoshi Komiya, Takayuki Ushikubo, Kenji Shimizu, and Yuichiro Ueno

Published

2022

15. New materials of multicellular algae from the earliest Cambrian Kuanchuanpu biota in South China

Author

Qingqin Tang, Yajuan Zheng, Song Qin, Yinchu Wang, Xiaoguang Yang, Xing Wang, Jie Sun, Kentaro Uesugi, Tsuyoshi Komiya, and Jian Han

Subjects

Paleontology

Published

2022

16. Muscle systems and motility of early animals highlighted by cnidarians from the basal Cambrian

Author

Jian Han, Xiaoguang Yang, Qiang Ou, Jean Vannier, Lucas Leclère, Xing Wang, Xikun Song, Tsuyoshi Komiya, Laboratoire de Géologie de Lyon - Terre, Planètes, Environnement (LGL-TPE), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut national des sciences de l'Univers (INSU - CNRS)-Université Jean Monnet - Saint-Étienne (UJM)-Centre National de la Recherche Scientifique (CNRS), LBDV_MECANISMES_DEVELOPPEMENTAUX_DES_CNIDAIRES (cnidaires), Laboratoire de Biologie du Développement de Villefranche sur mer (LBDV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon

Subjects

Jellyfish, Scyphozoa, Range (biology), jellyfish swimming, QH301-705.5, [SDV]Life Sciences [q-bio], Science, Zoology, Motility, Biology, small shelly fossils, General Biochemistry, Genetics and Molecular Biology, Basal (phylogenetics), Cnidaria, Water column, biology.animal, Animals, Biology (General), Ecosystem, Phylogeny, muscle system, basal Cambrian, Geography, General Immunology and Microbiology, Fossils, Muscles, General Neuroscience, General Medicine, Evolutionary radiation, Biological Evolution, Animal groups, motility, [SDU]Sciences of the Universe [physics], Benthic zone, Medicine

Abstract

International audience; Although fossil evidence suggests that various animal groups were able to move actively through their environment in the early stages of their evolution, virtually no direct information is available on the nature of their muscle systems. The origin of jellyfish swimming, for example, is of great interest to biologists. Exceptionally preserved muscles are described here in benthic peridermal olivooid medusozoans from the basal Cambrian of China (Kuanchuanpu Formation, ca. 535 Ma) that have direct equivalent in modern medusozoans. They consist of circular fibers distributed over the bell surface (subumbrella) and most probably have a myoepithelial origin. This is the oldest record of a muscle system in cnidarians and more generally in animals. This basic system was probably co-opted by early Cambrian jellyfish to develop capacities for jet-propelled swimming within the water column. Additional lines of fossil evidence obtained from ecdysozoans (worms and panarthropods) show that the muscle systems of early animals underwent a rapid diversification through the early Cambrian and increased their capacity to colonize a wide range of habitats both within the water column and sediment at a critical time of their evolutionary radiation. Editor's evaluation Based on exceptionally preserved fossils of olivooids, a group of early cnidarians, from the basal Cambrian of China (535 million years ago), Wang and colleagues reveal primitive muscles of early animals with well-developed system of circular fibers directly comparable with the myoepithelial muscles of modern medusae, representing the oldest record of a muscle system in cnidarians and more generally in animals. The manuscript will be of broad interest to scientists, including paleontologists and evolutionary biologists as well as the public.

Published

2022

17. Magnesium and zinc isotopic evidence for the involvement of recycled carbonates in the petrogenesis of Gaussberg lamproites, Antarctica

Author

Jian-Qiang Liu, Li-Hui Chen, Xiao-Jun Wang, Xiao-Yu Zhang, Gang Zeng, Saskia Erdmann, David T. Murphy, Kenneth D. Collerson, Tsuyoshi Komiya, and Lukáš Krmíček

Subjects

Geochemistry and Petrology, Geology

Published

2022

18. Middle paleozoic rhyolite of Gorny and Rudny Altai: geochronology and composition characteristics

Author

Shogo Aoki, Tsuyoshi Komiya, N. I. Gusev, Y. V. Kuibida, A. V. Naryzhnova, V. I. Krupchatnikov, N. N. Kruk, O. V. Murzin, V. A. Krivchikov, S. P. Shokal’sky, O. M. Popova, Min Sun, S. N. Rudnev, V. I. Timkin, and M.L. Kuibida

Subjects

geography, Multidisciplinary, geography.geographical_feature_category, Felsic, Volcano, Paleozoic, Rhyolite, Geochronology, Geochemistry, Radiometric dating, Volcanism, Geology

Abstract

The paper presents the results of geological, geochemical and isotope-geochronological studies of subvolcanic rhyolites of the Western Gorny Altai and Rudny Altai which have related to two large volcanic systems, the Altai-Minusinsk and Altai-Salair, respectively. The results of U-Pb isotopic dating of zircons revealed two groups of ages ~410-405 and 390-381 million years. Isotope-geochemical characteristics of rhyolites show relatively high values of εNd(T) = +2,7...6,0 with relatively young values of model ages T(DM) = 851-966 Ma in the Rudny Altai and more ancient - up to 1266 Ma in the West Gorny Altai. Geochemical characteristics indicate that its composition is consistent with transitional field between within-plate and island-arc felsic magmas. The results obtained correspond to the two-stage evolution of volcanism and its migration from the continent to the ocean.

Published

2019

19. Shift in limiting nutrients in the late Ediacaran–early Cambrian marine systems of South China

Author

Tsuyoshi Komiya, Yuki Tsuchiya, Yue Wang, Yusuke Sawaki, Manabu Nishizawa, Wei Du, Yohei Matsui, and Jian Han

Subjects

Extinction event, 010506 paleontology, Paleontology, 010502 geochemistry & geophysics, Oceanography, Cambrian Stage 2, 01 natural sciences, Isotopes of nitrogen, Waves and shallow water, Geologic time scale, Phanerozoic, Photic zone, Cambrian Series 2, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The Ediacaran to Cambrian periods are characterized by the diversification and extinction of metazoans, carbon-cycle perturbation, and ocean oxygenation. Ocean nutrient cycles play a major role in the primary production and productivity-driven shallow water anoxia that was responsible for mass extinction in some Phanerozoic intervals. However, the relationships between these cycles and primary production and biological events during the Ediacaran to Cambrian periods have not previously been well-explored. This study presents stratigraphic profiles of nitrogen and organic carbon isotopes for sections belonging to the shelf and deep basin regions of the Yangtze Platform, South China. The nitrogen isotope profiles for these two regions share a similar trend, showing 1) relatively stable δ15N values of 5–6‰ in the early–middle Ediacaran (635 Ma–ca. 560 Ma) and 2) a shift towards lower δ15N values (3–4‰) since the Shuram δ13Ccarb Excursion. The δ15N values in the shelf section experienced a two-stage decrease from the late Ediacaran to Cambrian Stage 2 of the Terreneuvian series (down to −1‰) and then an increase from −1‰ to +4‰ across the Cambrian Stage 2/3 boundary (i.e., the Terreneuvian/Cambrian Series 2 boundary at 521 Ma). These data, in combination with previously reported nutrient profiles (δ15N, P, and Mo), allow the following new conclusions to be drawn. 1) The early–middle Ediacaran ocean was characterized by N Mo colimitation of primary production on a geological timescale that is different from the P limitation on long-term primary production in the modern ocean. 2) A shift in the ultimate limiting nutrient from N and Mo to P likely occurred in late Ediacaran–early Cambrian marine systems. This shift may have been a prerequisite for the extinction of small shelly fossils in response to the development of photic zone anoxia for several million years in Cambrian Stage 2, which was followed by the third and most prominent phase of metazoan diversification.

Published

2019

20. Compositions of Carbonate Rocks and Carbon Isotope Ratios of Graphite in Nulliak Supracrustal Rocks, Labrador: The Oldest Evidence for Life and Seawater Composition

Author

Satoshi Yoshida and Tsuyoshi Komiya

Subjects

Global and Planetary Change, Geophysics, Geography, Planning and Development, Geology, Earth-Surface Processes

Published

2019

21. Middle Paleozoic Rhyolite of the Gorny and Rudny Altai: Geochronology and Composition

Author

V. A. Krivchikov, Tsuyoshi Komiya, V. I. Krupchatnikov, O. V. Murzin, Y. V. Kuibida, V. I. Timkin, N. N. Kruk, Min Sun, S. N. Rudnev, N. I. Gusev, S. P. Shokal’sky, O. M. Popova, A. V. Naryzhnova, M. L. Kuibida, and Shogo Aoki

Subjects

geography, geography.geographical_feature_category, Felsic, 010504 meteorology & atmospheric sciences, Paleozoic, Geochemistry, Volcanism, 010502 geochemistry & geophysics, 01 natural sciences, Volcano, Age groups, Rhyolite, Geochronology, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences, Zircon

Abstract

The paper reports the results of geological, geochemical, and isotope–geochronological studies of subvolcanic rhyolites of NW Gorny Altai and Rudny Altai, which belong to the large Hercynian volcanic systems: Altai-Minusa and Altai–Salair, respectively. U–Pb zircon dating revealed two age groups: ~410–405 and 390–381 Ma. The isotope–geochemical characteristics of the rhyolites demonstrate high eNd(Т) from +2.6 to 6.0 with relatively young model ages T(DM) = 851–966 Ma in Rudny Altai and older model ages, up to 1266 Ma, in NW Gorny Altai. The rhyolites show transitional geochemical signatures between within-plate and island-arc felsic magmas. The results obtained are consistent with two-stage evolution of volcanism and its migration from the continent to the ocean.

Published

2019

22. Early Cretaceous Granitic and Monzonitic Rocks of the Southern Part of the Zhuravlevka Terrane (Sikhote-Alin): Geochemical Composition and Melt Sources

Author

S. A. Kasatkin, N. N. Kruk, V. P. Kovach, S. N. Rudnev, Tsuyoshi Komiya, Sh. Aoki, V. I. Gvozdev, Pavel Serov, V. V. Golozubov, A. A. Orekhov, and E. A. Kruk

Subjects

Incompatible element, 020209 energy, Stratigraphy, Continental crust, Geochemistry, Paleontology, Geology, Crust, 02 engineering and technology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Mantle (geology), Cretaceous, Geophysics, Geochemistry and Petrology, Geochronology, 0202 electrical engineering, electronic engineering, information engineering, 0105 earth and related environmental sciences, Terrane, Petrogenesis

Abstract

The article presents new geological, geochronological, mineralogical, geochemical, and isotopic data on the Early Cretaceous granitic rocks of the southern part of the Zhuravlevka Terrane (Sikhote-Alin). It is shown that four intrusive complexes containing significant amounts of granitic rocks were formed almost simultaneously in this area in the Early Cretaceous (about 100 Ma). These magmatic associations differ in rock set, their mineralogical characteristics, and chemical composition, varying from medium-potassium tonalites and granodiorites depleted in incompatible elements to shoshonitic monzonitic rocks enriched in HFSE and REE. The geochemical and isotopic characteristics of the granitic rocks indicate that the source of their melts was dominated by essentially juvenile metabasite crust with a limited contribution of the upper-crustal metasedimentary rocks. The diversity of geochemical types of the granitic rocks is explained by variable metabasite and metapelite contributions to their source, upper crustal contamination during magma ascent, as well as the variable contribution of the mantle source and different mechanisms of mantle–crust interaction.

Published

2019

23. EARLY CREATACEOUS GRANITOIDS AND MONTSITOIDS OF THE SOUTHERN PART OF THE ZHURAVLEVKA TERRAIN (SIKHOTE-ALIN): GEOCHEMICAL COMPOSITION AND MELT SOURCES

Author

S. N. Rudnev, V. P. Kovach, Sh. Aoki, N. N. Kruk, V. V. Golozubov, E. A. Kruk, V. I. Gvozdev, A. A. Orekhov, Tsuyoshi Komiya, Pavel Serov, and S. A. Kasatkin

Subjects

Geochemistry, Terrain, Composition (visual arts), Geology

Published

2019

24. Characterization of the Multicellular Membrane‐Bearing Algae From the Kuanchuanpu Biota (Cambrian: Terreneuvian)

Author

Tsuyoshi Komiya, Yajuan Zheng, Junfeng Guo, Jie Sun, Qingqin Tang, Ping Liu, Xiaoguang Yang, Kentaro Uesugi, Wenjing Hao, Xiaoyong Yao, and Jian Han

Subjects

Atmospheric Science, Bearing (mechanical), Ecology, biology, Chemistry, Cellular differentiation, Paleontology, Soil Science, Forestry, Biota, Aquatic Science, biology.organism_classification, law.invention, Cell biology, Multicellular organism, Membrane, Algae, law, Water Science and Technology

Published

2021

25. Spatial distribution of organic functional groups in Ediacaran acritarchs from the Doushantuo Formation in South China as revealed by micro-FTIR spectroscopy

Author

Motoko Igisu, Yuichiro Ueno, Tsuyoshi Komiya, Stanley M. Awramik, Yuka Ikemoto, and Ken Takai

Subjects

Geochemistry and Petrology, Geology

Published

2022

26. Characterization of the multicellular membrane-bearing algae from the early Cambrian Kuanchuanpu biota

Author

Xiaoyong Yao, Jian Han, Xiaoguang Yang, Qingqin Tang, Wenjing Hao, Junfeng Guo, Jie Sun, Tsuyoshi Komiya, Ping Liu, Yajuan Zheng, and Kentaro Uesugi

Subjects

Multicellular organism, Algae, biology, Ecology, Biota, biology.organism_classification

Abstract

The diversity of small shelly fossils (SSF) demonstrates that multicellular organisms underwent large-scale radiation at the beginning of the Cambrian, which is highlighted by the coexistence of va...

Published

2020

27. Assessments of the Effects by Mass-Dependent Fractionation for 142Nd Compositions in Archean Rocks

Author

Ryota Fukai, Hisashi Asanuma, Tsuyoshi Komiya, Testuya Yokoyama, and Takafumi Hirata

Published

2020

28. No Impact Signatures in Earth’s Oldest Rocks from Acasta Gneiss Complex, Canada

Author

Akira Ishikawa, Keiko Koshida, Katsuhiko Suzuki, Tetsuya Yokoyama, and Tsuyoshi Komiya

Published

2020

29. Behaviour of First-Row Transition Elements during Early Differentiation of Arc Magmas, Solomon Islands, SW Pacific: Implications for the Redox State of Sub-Arc Mantle

Author

Kwan-Nang Pang, Truong Tai Nguyen, Sun-Lin Chung, Shigenori Maruyama, Tsuyoshi Komiya, Yoshiyuki Iizuka, and Hao-Yang Lee

Published

2020

30. Constraints on the P–T conditions of high-pressure metamorphic rocks from the Inyoni shear zone in the mid-Archean Barberton Greenstone Belt, South Africa

Author

Tsuyoshi Komiya, Kazumasa Aoki, Shinji Yamamoto, Yusuke Sawaki, Yuta Tsuchiya, Motoyuki Matsuo, Tomohiko Sato, Brian F. Windley, Hisashi Asanuma, Daichi Kato, and Katsumi Shozugawa

Subjects

010504 meteorology & atmospheric sciences, Continental collision, Archean, Metamorphic rock, Geochemistry, Metamorphism, Geology, Greenstone belt, 010502 geochemistry & geophysics, 01 natural sciences, Geochemistry and Petrology, Oceanic crust, Banded iron formation, Shear zone, 0105 earth and related environmental sciences

Abstract

The metamorphic P–T conditions and processes of the mid-Archean Barberton Greenstone Belt (BGB), South Africa were examined with petrological and thermodynamic data from metamorphosed banded iron formation (BIF) and garnet amphibolite in the Inyoni shear zone (ISZ). Equilibrium mineral assemblages in these two rocks range from Grt + Cpx + Gru + Mag + Qz through Grt + Cpx + Gru + Amp + Mag + Qz to Amp + Gru + Mag + Qz, and from Grt + Cpx + Amp + Pl + Ep + Qz to Cpx + Amp + Pl + Ep + Qz, respectively. The metamorphic P–T conditions of these assemblages were estimated from thermodynamic calculations combined with their whole-rock and constituent mineral compositions. The results show that the metamorphosed BIF and garnet amphibolite samples record three and two different metamorphic P–T conditions, respectively, within a single period of metamorphism. The P–T conditions of the BIF changed from ca. 600–680 °C and >10 kbar through ca. 510–540 °C and 8–11 kbar to less than 500 °C and 4 kbar. The P–T conditions of the garnet amphibolite changed from ca. 9.5–10.5 kbar and 620–660 °C to less than 5 kbar and 500 °C. These new results combined with previously published data suggest that the geothermal gradients of the peak and retrograde metamorphisms were ca. 15–20 °C/km and 20–30 °C/km, respectively, and the possibility that the ISZ underwent slightly earlier prograde metamorphism than the high-pressure BGB. The difference between the gradients of 15–20 °C/km and 20–30 °C/km in the ISZ rocks was probably related to a shift from oceanic plate subduction to continental collision at ca. 3.23 Ga.

Published

2018

31. Redox history of the Three Gorges region during the Ediacaran and Early Cambrian as indicated by the Fe isotope

Author

Degan Shu, Yusuke Sawaki, Miyuki Tahata, Tsuyoshi Komiya, Takafumi Hirata, and Jian Han

Subjects

010504 meteorology & atmospheric sciences, Three Gorges, Geochemistry, Earth and Planetary Sciences(all), δ56/54Fe, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, Ferrous, Ediacaran, Iron cycle, Organic matter, 0105 earth and related environmental sciences, chemistry.chemical_classification, Pyrite, lcsh:QE1-996.5, Doushantuo Formation, lcsh:Geology, chemistry, Isotopes of carbon, Cambrian, engineering, General Earth and Planetary Sciences, Seawater, Sedimentary rock, Geology

Abstract

The Ediacaran–Cambrian transition is characterized by numerous events such as the emergence of large multi-cellular metazoans and surface environmental disturbances. Based on geological evidence, it has been proposed that this transition coincided with the increase in the atmospheric oxygen level that was key to the evolution of life. Even though ancient redox conditions can be inferred from the composition of sedimentary iron mineral species, this method is not necessarily applicable to all rocks. In the Earth system, the cycling of iron is of considerable interest owing to its sensitivity to redox conditions. Information regarding the paleo-oceanic iron cycle is revealed in the iron isotopic composition of iron-bearing minerals. Unfortunately, only limited iron isotopic data exists for Ediacaran- to Cambrian-period oceans. To circumvent this deficiency, we drilled a fossiliferous Ediacaran to Early Cambrian sedimentary succession in the Three Gorges region, South China. We analyzed the iron isotope ratios (δ56/54Fe) of pyrite grains in the drill cores using laser ablation multi collector inductively coupled plasma mass spectrometry. The results demonstrate large variations in δ56/54Fe, from −1.6 to 1.6‰, and positive iron isotope ratios are observed in many successions. The presence of positive δ56/54Fe in pyrite indicates that the ferrous iron in the seawater was partially oxidized, suggesting that seawater at Three Gorges was ferruginous during the Ediacaran and Early Cambrian periods. However, aggregated pyrite grains in organic carbon-rich black shales at Member 4 of the Doushantuo Formation and the base of the Shuijingtuo Formation yield near-zero δ56/54Fe values; this suggests that the ocean was transiently dominated by sulfidic conditions during these periods. Notably negative δ56/54Fe values, lower than −1‰, can be interpreted as a signature of DIR. The DIR also might contribute in part to the re-mineralization of organic matter during the largest negative carbon isotope anomaly in the Ediacaran.

Published

2018

32. Rhenium-osmium isotopes and highly siderophile elements in ultramafic rocks from the Eoarchean Saglek Block, northern Labrador, Canada: implications for Archean mantle evolution

Author

Kenneth D. Collerson, Jingjao Liu, Akira Ishikawa, D. Graham Pearson, Katsuhiko Suzuki, and Tsuyoshi Komiya

Subjects

Peridotite, 010504 meteorology & atmospheric sciences, Archean, Hadean, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Geochemistry and Petrology, Ultramafic rock, Transition zone, Primitive mantle, Protolith, Geology, 0105 earth and related environmental sciences

Abstract

We determined highly siderophile element (HSE: Os, Ir, Ru, Pt, Pd, and Re) concentrations and 187Os/188Os ratios for ultramafic rocks distributed over the Eoarchean gneiss complex of the Saglek-Hebron area in northern Labrador, Canada in order to constrain to what extent variations in HSE abundances are recorded in Early Archean mantle that have well-resolved 182W isotope anomalies relative to the present-day mantle (∼+11 ppm: Liu et al., 2016). The samples analysed here have been previously classified into two suites: mantle-derived peridotites occurring as tectonically-emplaced slivers of lithospheric mantle, and metakomatiites comprising mostly pyroxenitic layers in supracrustal units dominated by amphibolites. Although previous Sm-Nd and Pb-Pb isotope studies provided whole-rock isochrons indicative of ∼3.8 Ga protolith formation for both suites, our whole-rock Re-Os isotope data on a similar set of samples yield considerably younger errorchrons with ages of 3612 ± 130 Ma (MSWD = 40) and 3096 ± 170 Ma (MSWD = 10.2) for the metakomatiite and lithospheric mantle suites, respectively. The respective initial 187Os/188Os = 0.10200 ± 18 for metakomatiites and 0.1041 ± 18 for lithospheric mantle rocks are within the range of chondrites. Re-depletion Os model ages for unradiogenic samples from the two suites are consistent with the respective Re-Os errorchrons (metakomatiite TRD = 3.4–3.6 Ga; lithospheric mantle TRD = 2.8–3.3 Ga). These observations suggest that the two ultramafic suites are not coeval. However, the estimated mantle sources for the two ultramafics suites are similar in terms of their broadly chondritic evolution of 187Os/188Os and their relative HSE patterns. In detail, both mantle sources show a small excess of Ru/Ir similar to that in modern primitive mantle, but a ∼20% deficit in absolute HSE abundances relative to that in modern primitive mantle (metakomatiite 74 ± 18% of PUM; lithospheric mantle 82 ± 10% of PUM), consistent with the ∼3.8 Ga Isua mantle source and Neoarchean komatiite sources around the world (∼70–86% of PUM). This demonstrates that the lower HSE abundances are not unique to the sources of komatiites, but rather might be a ubiquitous feature of Archean convecting mantle. This tentatively suggests that chondritic late accretion components boosted the convecting mantle HSE inventory after core separation in the Hadean, and that the Eoarchean to Neoarchean convecting mantle was depleted in its HSE content relative to that of today. Further investigation of Archean mantle-derived rocks is required to explore this hypothesis.

Published

2017

33. Anatomy and affinities of a new 535-million-year-old medusozoan from the Kuanchuanpu Formation, South China

Author

Osamu Sasaki, Tsuyoshi Komiya, Kentaro Uesugi, Xing Wang, Jean Vannier, Qiang Ou, Xiaoguang Yang, Jian Han, Laboratoire de Géologie de Lyon - Terre, Planètes, Environnement [Lyon] (LGL-TPE), École normale supérieure - Lyon (ENS Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Géologie de Lyon - Terre, Planètes, Environnement (LGL-TPE), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut national des sciences de l'Univers (INSU - CNRS)-Université Jean Monnet - Saint-Étienne (UJM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, Cnidaria, Tentacle, South china, Kuanchuanpu Formation, embryo, 010502 geochemistry & geophysics, 010603 evolutionary biology, 01 natural sciences, Paleontology, Early Cambrian, Medusozoa, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, biology, Anatomy, Scyphozoa, biology.organism_classification, Affinities, Cladistics, Animal groups, [SDU]Sciences of the Universe [physics], Cubozoa, periderm

Abstract

We describe here Sinaster petalon gen. et sp. nov., a new embryonic form from the c. 535 million-year-old Kuanchuanpu Formation of South China (Ningqiang, Shaanxi Province). The excellent three-dimensional, phosphatic preservation of these microfossils allowed us to use x-ray microtomographic techniques to make accurate reconstructions of their internal structures and to compare their anatomy point-by-point with that of extant cnidarians and other animal groups. Sinaster petalon has anatomical features typical of extant Medusozoa (Cnidaria), such as coronal muscles, perradial and adradial frenula, interradial septa, accessory septa, gonad-lamellae, tentacle buds and perradial pockets. Although Sinaster cannot be straightforwardly assigned to any crown-group within Medusozoa, the presence of marginal lappets and endodermal lamellae suggests that it is closer to Cubozoa and Scyphozoa than to any other group of modern cnidarians. The tentative placement of Sinaster within the stem-group Cubozoa is justified by the presence of a velarium supported by a frenulum. The cubozoan affinities of Sinaster are also supported by cladistic analysis.

Published

2017

34. Olivooides-like tube aperture in early Cambrian carinachitids (Medusozoa, Cnidaria)

Author

Xiaoguang Yang, Guoxiang Li, Xing Wang, Jian Han, Junfeng Guo, Tsuyoshi Komiya, and Osamu Sasaki

Subjects

Cnidaria, 010506 paleontology, biology, Paleozoic, Aperture (mollusc), Paleontology, Secondary thickening, Tapering, Anatomy, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Lobe, medicine.anatomical_structure, medicine, Tube (container), Medusozoa, Geology, 0105 earth and related environmental sciences

Abstract

The early Cambrian Carinachitidae, a family in the subclass Conulata, are intriguing and important small shelly fossils. Their gently tapering, tube-shaped skeletons consist of convex faces separated from each other by broad, deep corner sulci, and they exhibit triradial, pentaradial, or predominantly tetraradial symmetry. However, the morphology of the aperture and the modes of growth of carinachitid skeletons as well as the anatomy of their soft parts are unknown. Examination of a single new, exceptionally well-preserved specimen of tetramerousCarinachites spinatusQian, 1977, collected from the lower Cambrian Kuanchuanpu Formation in South China, reveals: (1) that its aperture is connected to a small mass of relic soft tissue and (2) that the apertural end of each of the four faces is developed into a subtriangular lappet or oral lobe that is smoothly folded toward the long axis of the tube, partially closing the tube aperture. Similarities between thorn-like spines on the faces and the oral lobes indicate that the transverse ribs were periodically displaced from the perradial portion of the aperture during formation of new ribs. In addition, the tube walls may have undergone secondary thickening during growth. The growth pattern of the tube and the spatial relationships between the tube aperture and soft parts are analogous to those of co-occurring olivooids. These findings further strengthen the previously proposed hypothesis that coeval carinachitids, olivooids, hexangulaconulariids, and Paleozoic conulariids are closely related taxa within the subphylum Medusozoa. Finally, carinachitids most likely represent an evolutionary intermediate between olivooids and hexangulaconulariids.

Published

2017

35. Euendoliths versus ambient inclusion trails from Early Cambrian Kuanchuanpu Formation, South China

Author

Osamu Sasaki, Xiaoguang Yang, Kentaro Uesugi, Xing Wang, Jian Han, Tsuyoshi Komiya, and James D. Schiffbauer

Subjects

Total organic carbon, 010506 paleontology, South china, Taphonomy, Endolith, Range (biology), Paleontology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Sequence (geology), Phosphorite, Inclusion (mineral), Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Abundant microstructures have been discovered in small skeletal fossils (SSFs) and embryo-like fossils collected from the Lower Cambrian Kuanchuanpu Formation (ca. 535 Ma) in Xixiang County, Shaanxi Province, China. These involve two co-occurring structures: (1) long, unbranched cylindrical filaments, which are comparable to phosphatic casts of microborings constructed by euendolithic cyanobacteria (Endoconchia lata) in morphology and preservation pathway; and (2) meandering micro-tubes or grooves on fossil moulds (and steinkerns) of a wide range of sizes and morphological diversities, perceived as ambient inclusion trails (AITs). Herein, we also report a new occurrence of organic carbon spherules as AIT-propelled material, which is rare in comparable fossils. From direct comparison of endolith fossils and AITs, we propose a mechanism to account for their notably different preservation, and further attempt to offer an explanation for their co-occurrence. Their differential preservation suggests a chronological, taphonomic sequence of their formation. We interpret that E. lata microborings formed prior to phosphate sedimentation, whereas AITs are likely generated in a later phase of (or after) phosphorite precipitation but before calcareous re-cementation. Dissecting the sequence of formation of these structures, in conjunction with detailed morphological observations, assists in distinguishing true biologically produced endoliths from otherwise abiogenically produced microstructures.

Published

2017

36. A prolonged granitoid formation in Saglek Block, Labrador: Zonal growth and crustal reworking of continental crust in the Eoarchean

Author

Kazumasa Aoki, Kenshi Maki, Kenneth D. Collerson, Masanori Shimojo, Akira Ishikawa, Tsuyoshi Komiya, Shinji Yamamoto, Yusuke Sawaki, Takaomi D. Yokoyama, Keiko Koshida, Shuhei Sakata, Takafumi Hirata, and Shogo Aoki

Subjects

010504 meteorology & atmospheric sciences, Iqaluk Gneiss, Lithology, Archean, Continental crust, Geochronology, Uivak Gneiss, lcsh:QE1-996.5, Geochemistry, Metamorphism, Earth and Planetary Sciences(all), 010502 geochemistry & geophysics, 01 natural sciences, lcsh:Geology, Continental recycling, General Earth and Planetary Sciences, Eoarchean, Mafic, The oldest rocks, Protolith, Geology, 0105 earth and related environmental sciences, Gneiss

Abstract

The Archean continental crusts account for ca. 20% of the present volume, but the thermal history of the Earths' mantle suggests much more continental crusts were formed in the early Archean. Because the Archean continental crust underwent severe metamorphism, it is important to avoid influence by the later thermal events. We carried out a comprehensive geochronological work of Cathodoluminescence (CL) observation and U-Pb dating of zircons from orthogneisses and supracrustal rocks over the Saglek Block to obtain their protolith ages. The zircons were classified into three domains of core, mantle and rims, and the cores were further classified into three groups of inherited, altered and zoned cores based on the zonation on the CL images. We estimated the protolith ages from Pb-Pb ages of the zoned-cores of zircons with low U contents. We made a detailed sketch of a small outcrop in St. John's Harbour South (SJHS) area, and classified the orthogneisses and mafic enclaves into seven generations based on the geologic occurrence. The first and second generations comprise mafic rocks and lack magmatic zircons. We conducted CL imaging and U-Pb dating of zircons from the third, sixth and seventh generation of the orthogneisses to estimate the protolith ages at 3902 ± 25, 3892 ± 33 and 3897 ± 33 Ma for each, supporting the presence of the over 3.9 Ga Iqaluk Gneiss. The geological occurrence that the mafic rocks occur as enclaves within the 3.9 Ga Iqaluk Gneiss indicates that they are the oldest supracrustal rocks in the world. Our geochronological and geological studies show the Uivak Gneiss is quite varied in lithology and age from 3.6 to >3.9 Ga, and tentatively classified into six groups based on their ages. The oldest Uivak Gneiss components including the Iqaluk Gneiss are present around the SJHS area, and the orthogneisses become young as it is away. The lines of evidence of overprinting of younger granitoid on older granitoid in small outcrops and geological-map scale as well as presence of inherited zircons even in the oldest suite suggests that crustal reworking played an important role on erasing the ancient crusts.

Published

2017

37. ACloudina-like fossil with evidence of asexual reproduction from the lowest Cambrian, South China

Author

Xiaoguang Yang, James D. Schiffbauer, Tsuyoshi Komiya, Hong Hua, Yaoping Cai, Xing Wang, Kentaro Uesugi, Jie Sun, and Jian Han

Subjects

010506 paleontology, Sinotubulites, biology, Geology, Asexual reproduction, Manica, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Paleontology, Monophyly, Taxon, Benthic zone, Paleoecology, Period (geology), 0105 earth and related environmental sciences

Abstract

The earliest fossil record of animal biomineralization occurs in the latest Ediacaran Period (c. 550 Ma).CloudinaandSinotubulitesare two important tubular taxa among these earliest skeletal fossils. The evolutionary fate ofCloudina-type fossils across the Ediacaran–Cambrian transition, however, remains poorly understood. Here we report a multi-layered tubular microfossilFeiyanella manicagen. et sp. nov. from a phosphorite interval of the lowest Cambrian Kuanchuanpu Formation, southern Shaanxi Province, South China. This newly discovered fossil is a conical tube with a ‘funnel-in-funnel’ construction, showing profound morphological similarities toCloudinaandConotubus. On the other hand, the outer few layers, and particularly the outermost layer, ofFeiyanellatubes are regularly to irregularly corrugated, a feature strikingly similar to the variably folded/wrinkled tube walls ofSinotubulites. TheFeiyanellatubes additionally exhibit two orders of dichotomous branching, similar to branching structures reported occasionally inCloudinaand possibly indicative of asexual reproduction. Owing to broad similarities in tube morphology, tube wall construction and features presumably indicative of asexual reproduction,Cloudina, Conotubus, Sinotubulitesand the here describedFeiyanellamay thus constitute a monophyletic group traversing the Ediacaran–Cambrian boundary. The tube construction and palaeoecological strategy ofFeiyanellaputatively indicate evolutionary continuity in morphology and palaeoecology of benthic metazoan communities across the Ediacaran–Cambrian transition.

Published

2017

38. Studying microscale distributions of aliphatic C-H bonds in Neoproterozoic prokaryotic fossils using SR micro-FTIR

Author

Motoko Igisu, Hiroki Uehara, Tsuyoshi Komiya, Yechuan Geng, and Yuka Ikemoto

Subjects

Crystallography, Geophysics, Materials science, Geochemistry and Petrology, Thin section, 010401 analytical chemistry, Fourier transform infrared spectroscopy, 010502 geochemistry & geophysics, 01 natural sciences, Microscale chemistry, 0104 chemical sciences, 0105 earth and related environmental sciences

Published

2017

39. Origin of ecdysis: fossil evidence from 535-million-year-old scalidophoran worms

Author

Kentaro Uesugi, Isabell Schumann, Xiaoguang Yang, Deng Wang, Jean Vannier, Tsuyoshi Komiya, Jian Han, Jie Sun, and Xing Wang

Subjects

Zoology, Molting, 010502 geochemistry & geophysics, Fossil evidence, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Animals, Panarthropoda, Nematoida, 030304 developmental biology, 0105 earth and related environmental sciences, General Environmental Science, Cuticle (hair), 0303 health sciences, General Immunology and Microbiology, biology, Fossils, General Medicine, biology.organism_classification, Biological Evolution, Invertebrates, Scalidophora, Palaeobiology, Ecdysis, General Agricultural and Biological Sciences, Moulting, Ecdysozoa

Abstract

With millions of extant species, ecdysozoans (Scalidophora, Nematoida and Panarthropoda) constitute a major portion of present-day biodiversity. All ecdysozoans secrete an exoskeletal cuticle which must be moulted periodically and replaced by a larger one. Although moulting (ecdysis) has been recognized in early Palaeozoic panarthropods such as trilobites and basal groups such as anomalocaridids and lobopodians, the fossil record lacks clear evidence of ecdysis in early scalidophorans, largely because of difficulties in recognizing true exuviae. Here, we describe two types of exuviae in microscopic scalidophoran worms from the lowermost Cambrian Kuanchuanpu Formation (ca535 Ma) of China and reconstruct their moulting process. These basal scalidophorans moulted in a manner similar to that of extant priapulid worms, extricating themselves smoothly from their old tubular cuticle or turning their exuviae inside out like the finger of a glove. This is the oldest record of moulting in ecdysozoans. We also discuss the origin of ecdysis in the light of recent molecular analyses and the significance of moulting in the early evolution of animals.

Published

2019

40. Fourier transform infrared microspectroscopic characterization of Neoproterozoic organic microfossils from the Fifteenmile Group in Yukon, Canada

Author

Hiroki Uehara, Motoko Igisu, Tsuyoshi Komiya, Ken Takai, Stanley M. Awramik, Yechuan Geng, and Yuka Ikemoto

Subjects

symbols.namesake, Fourier transform, Infrared, Micro raman, Group (stratigraphy), Geochemistry, symbols, Geology

Published

2019

41. Petrology and geochemistry of mafic rocks in the Acasta Gneiss Complex: Implications for the oldest mafic rocks and their origin

Author

Tsuyoshi Komiya, Hikaru Iwamori, Keiko Koshida, and Akira Ishikawa

Subjects

Acasta Gneiss, Basalt, Felsic, 010504 meteorology & atmospheric sciences, Geochemistry, Geology, 010502 geochemistry & geophysics, Anatexis, 01 natural sciences, Geochemistry and Petrology, Mafic, Primitive mantle, Petrology, 0105 earth and related environmental sciences, Petrogenesis, Gneiss

Abstract

The Acasta Gneiss Complex, located in the western part of the Slave Province, Canada, is widely recognized as the oldest Eoarchean terrane. In addition to felsic gneisses with the ages of 3.6–4.0 Ga, minor mafic rocks occur as rounded to elliptical enclaves and inclusions within the felsic gneisses. Despite serving as potential sources of geochemical information on the Hadean mantle, the mafic rocks have received less attention in previous studies. Thus, we conducted a comprehensive geological petrological and geochemical investigation on the Acasta mafic rocks to constrain their petrogenesis and geodynamic setting. The mafic rocks comprise massive to weakly foliated amphibolite, garnet amphibolite and hornblendite, with variable abundances of hornblende, plagioclase, chlorite and quartz and subordinate clinopyroxene, garnet and cummingtonite. They commonly underwent high-grade metamorphic recrystallization under amphibolite to upper-amphibolite facies conditions. The observed variations in mineral assemblages, abundances and compositions reflect large differences in whole-rock compositions, likely caused by crustal anatexis during the Eoarchean thermal events responsible for the generation of the surrounding felsic gneisses. Infiltration or extraction of felsic melts formed due to partial melting of precursor rocks can account for an overall negative correlation between Al 2 O 3 and MgO contents and variable enrichments in the incompatible elements. Despite the widespread influence of anatexis on the geochemistry of Acasta mafic rocks, we identified the precursor compositions of the least-modified amphibolites as basaltic magmas. They are characterized by intermediate Al 2 O 3 and MgO contents on the observed array and by near chondritic patterns for incompatible trace elements, except for slightly negative Nb and Ta anomalies. We considered two scenarios to explain the origin of Eoarchean basaltic rocks with Nb–Ta anomalies: (1) generation of Nb–Ta deficient basaltic magma in a suprasubduction setting, analogous to modern arcs-derived magmas, and (2) generation of Nb–Ta deficient basaltic magma from the melting of a Nb–Ta deficient primitive mantle, possible if the core contains significant proportions of the Earth’s Nb and Ta budget. Although the operation of plate tectonics and the presence of subduction zones at the end of Hadean may be an attractive explanation for the observed Nb–Ta depletions, the chondritic relative proportions of other immobile trace elements for Acasta mafic rocks leave open the possibility of their formation from an Nb–Ta deficient primitive mantle.

Published

2016

42. A high-resolution chemostratigraphy of post-Marinoan Cap Carbonate using drill core samples in the Three Gorges area, South China

Author

Yong Li, Yusuke Sawaki, Degan Shu, Hisatoshi Sato, Naohiro Yoshida, Tsuyoshi Komiya, Miyuki Tahata, Shigenori Maruyama, and Jian Han

Subjects

Total organic carbon, 010504 meteorology & atmospheric sciences, Carbon isotope chemostratigraphy, lcsh:QE1-996.5, Geochemistry, Earth and Planetary Sciences(all), 010502 geochemistry & geophysics, 01 natural sciences, Cap carbonate, Doushantuo Formation, Cap Carbonate, Diamictite, lcsh:Geology, Paleontology, Ediacaran, Chemostratigraphy, General Earth and Planetary Sciences, Snowball Earth, Methane hydrate, Glacial period, Deposition (chemistry), Geology, Marinoan Snowball Earth, 0105 earth and related environmental sciences

Abstract

Cap Carbonates overlie the Marinoan Snowball Earth-related glacial diamictite, and possibly record the drastic surface environmental change and biological evolution after the Snowball Earth. We conducted on-land drilling from the Liantuo Formation, through the Nantuo, to the lower Doushantuo Formation in the Three Gorges area of South China to collect fresh, continuous samples in the Three Gorges area. We obtained high-resolution chemostratigraphies of δ 13 C and δ 18 O values of carbonates from the topmost part of the Nantuo Formation to the Cap Carbonate, in order to decode the detailed surface environmental change in the shallow marine setting. The δ 13 C chemostratigraphy possesses some unique characteristics: (1) stable δ 13 C values as a whole, but ubiquitous low δ 13 C anomalies through the Cap Carbonate, (2) increase of the δ 13 C values from −3 to +5‰ across the C2/C3 boundary, (3) no δ 13 C anomaly between the C1 and C2 boundary, and (4) presence of an anomalous high δ 13 C value (+2.3‰) and a faint positive correlation between δ 13 C and δ 18 O values in the C1 unit. Evidence of quite low δ 13 C anomalies (with a nadir of −41‰), ubiquitous negative δ 13 C anomalies through the Cap Carbonate, and a high δ 13 C anomaly accompanied with a faint positive correlation between δ 13 C and δ 18 O values in the C1 unit supports decomposition and formation of methane hydrate during Cap Carbonate formation. The drastic increase of δ 13 C values from the upper C2 to C3 units indicates enhancement of primary productivity and organic carbon burial, possibly due to high continental fluxes after the Snowball Earth event, evidenced by high Sr isotope values. The increase is restricted to the proximal side of the inner shelf in South China, and the timing of the increase of δ 13 C values of carbonates is earlier at Three Gorges area than any other area, suggesting that the enhancement of primary productivity started in the proximal environment because of higher continental influxes. The increase in oxygen contents of seawater due to the enhanced primary productivity possibly resulted in the emergence of multicellular animals soon after Cap Carbonate deposition.

Published

2016

43. Occurrence and geochronology of the Eoarchean, ~3.9 Ga, Iqaluk Gneiss in the Saglek Block, northern Labrador, Canada: Evidence for the oldest supracrustal rocks in the world

Author

Tsuyoshi Komiya, Takaomi D. Yokoyama, Kazumasa Aoki, Kenshi Maki, Shuhei Sakata, Keiko Koshida, Takayuki Tashiro, Takafumi Hirata, Akira Ishikawa, Shinji Yamamoto, Shogo Aoki, Yusuke Sawaki, Masanori Shimojo, and Kenneth D. Collerson

Subjects

geography, Felsic, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Lithology, Hadean, Geochemistry, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Craton, Geochemistry and Petrology, Geochronology, Mafic, Protolith, 0105 earth and related environmental sciences, Gneiss

Abstract

Understanding Earth’s early evolution requires decoding the cryptic geological record that is preserved in a few extremely rare terrains on Earth. The Saglek–Hebron Block in the North Atlantic Craton is one of the oldest terrains in the world. To better understand the Eoarchean history of the Saglek–Hebron Block, we undertook a comprehensive geological and geochronological investigation of this terrain. The Saglek–Hebron locality contains orthogneisses and supracrustal rocks, which are classified into two groups of the Eoarchean and Mesoarchean suites based on field associations defined by intrusion of the Mesoarchean mafic Saglek dykes. The Eoarchean suites contain the Nulliak supracrustal rocks and Uivak Gneisses. In this paper, we report cathodoluminescence (CL) observations and U–Pb ages of zircons from the Eoarchean orthogneisses to constrain the evolution of the Saglek–Hebron Block. We made detailed sketch maps (1:20) of critical outcrops to establish relative chronological relationships between lithologies. At least seven generations of mafic and felsic units were recognized in an outcrop of the St John’s Harbour South area. The first and second generations are mafic supracrustal rocks whereas the third to seventh generations are tonalitic gneisses, which are intruded into the supracrustal units. We study CL observation, geochemistry and U–Pb dating of zircons from the oldest and youngest tonalitic gneisses. The CL observation of internal structures of the zircons showed they typically comprise three domains of core, mantle and rim. The cores have clear oscillatory zoning, whereas the mantles lack oscillatory zoning and exhibit dark CL emission and structureless CL images. The obvious correlation between the ages and chemical compositions of U contents and Th/U ratios indicates that the cores with low U contents and high Th/U ratios preserve the protolith age. The cores with clear oscillatory zoning, low U contents and high Th/U ratios of zircons from the oldest suite plot on a concordia line with ages ranging from 3953 to 3797 Ma. The oldest and average ages of the six oldest spots on the concordia line are 3953 ± 54 and 3920 ± 49 Ma, respectively. On the other hand, the average age of the four old spots of zircons from a younger generation of orthogneiss is 3869 ± 63 Ma. The geological and geochronological relationships between the third and seventh generation orthogneisses are consistent with each other, confirming an Eoarchean age of ca. 3.9 Ga for the oldest suite of the Uivak Gneisses. We name this oldest suite the Iqaluk Gneiss. As the protolith of the Iqaluk Gneiss was clearly intruded into the Nulliak supracrustal rocks, the Nulliak supracrustals must have a minimum age of ca. 3.9 Ga, indicating that they are the oldest supracrustal rocks on Earth. But, further studies should be necessary to obtain more precise age of the Iqaluk Gneiss and Nulliak supracrustal rocks.

Published

2016

44. Dendroid multicellular thallophytes preserved in a Neoproterozoic black phosphorite in southern China

Author

Xun Lian Wang, Wei Du, Tsuyoshi Komiya, Yue Wang, and Ran Zhao

Subjects

010506 paleontology, Conceptacle, biology, Paleontology, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Oogamy, Thallophyte, Thallus, Multicellular organism, Southern china, Phosphorite, Botany, Dendroid, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences

Abstract

Du, W., Wang, X.L., Komiya, T., Zhao, R. & Wang, Y., April 2016. Dendroid multicellular thallophytes preserved in a Neoproterozoic black phosphorite in southern China. Alcheringa 40, xxx–xxx. ISSN 0311-5518.A new form of dendroid multicellular thallophyte is documented in the Ediacaran Doushantuo phosphorite at Weng’an, Guizhou Province, southern China. The dendroid thallophytes have variable forms, possibly owing to heteromorphic variation. Many lateral branches extend from the upper portions of the main axes; the lateral branches bear terminal vegetative vesicles, reproductive vesicles, monosporangium-like discoidal vesicles and urn-shaped pseudoparenchymatous structures. The vegetative vesicles give rise to clavate pseudoparenchymatous structures, characterized by differentiation of the thallus medulla/cortex, which might represent an early stage of thallus development. An oogamous conceptacle arising from one carpogonial vesicle forms a highly specialized goblet-shaped conceptacle. The discovery of th...

Published

2016

45. PIXE and microthermometric analyses of fluid inclusions in hydrothermal quartz from the 2.2 Ga Ongeluk Formation, South Africa: Implications for ancient seawater salinity

Author

Takazo Shibuya, Masanori Kurosawa, Tsuyoshi Komiya, Saito Takuya, Shigenori Maruyama, Yuichiro Ueno, Shinji Yamamoto, Manabu Nishizawa, and Kouki Kitajima

Subjects

Basalt, geography, geography.geographical_feature_category, Pillow lava, 010504 meteorology & atmospheric sciences, biology, Andesites, Geochemistry, Mineralogy, Geology, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Hydrothermal circulation, Volcanic rock, Geochemistry and Petrology, Fluid inclusions, Inclusion (mineral), Quartz, 0105 earth and related environmental sciences

Abstract

The Ongeluk Formation mainly consists of submarine volcanics (pillow lavas and sheet flows) composed of basaltic andesites that are between underlying and overlying glaciogenic deposits (i.e., the Makganyene diamictite and a dropstone layer at the base of the Hotazel Formation, respectively). The stratigraphic position of the Ongeluk Formation indicates that the Ongeluk volcanism occurred during a period of global glaciation. The Ongeluk volcanic rocks are host to subseafloor hydrothermal quartz deposits as drainage cavities and interpillow voids. The hydrothermal quartz contains many primary (Type 1) and secondary (Type 2) liquid–vapor fluid inclusions, as well as inclusions that are randomly distributed without a trace of secondary healed cracks (Type 3). All these fluid inclusions types were individually analyzed with microthermometry and particle-induced X-ray emission (PIXE) methods. The results show that Type 1 fluid inclusions are highly saline, whereas Type 2 fluid inclusions are relatively less saline. Type 3 fluid inclusions have bimodal peaks of salinity corresponding to those of Type 1 and Type 2 fluid inclusions and thus appear to represent mixtures between latter two inclusion types. Among the various fluid inclusion salinities of fluid inclusions, a wide range in Na/Ca values was identified in the high-salinity fluid inclusions (i.e., Type 1 and a subset of Type 3) which are thought to represent subseafloor fluids circulated by the Ongeluk submarine volcanism. The wide range in Na/Ca values can be explained by a mixing process between Na-rich and Ca-rich fluids associated with albitization of the host basaltic andesites. In the albitization process, Na is removed from the fluids and fixed by the host rocks; by contrast Ca is released from the host rocks into the fluids. PIXE analysis also showed two distinct trends (i.e., vertical and horizontal) on variation diagram of Ca/Cl versus Cu/Cl and positive correlations between Mn/Cl, Cu/Cl, Zn/Cl and Pb/Cl. These data are best explained by the presence of other mixing processes between; (1) a Na-rich, Ca- and Cu-poor fluid, (2) a Ca-rich, Na- and Cu-poor fluid, and (3) a Na- and Cu-rich, Ca-poor fluid. The Cu-, Mn-, Zn- and Pb-rich fluid likely represents a high-temperature hydrothermal fluid from a deep reaction zone in the Ongeluk subseafloor hydrothermal system. By contrast, the (1) Na- (and K-) rich, Ca- and Cu-poor endmember for the high-salinity primary inclusions is considered to represent the composition of 2.2 Ga Ongeluk seawater. We propose the estimation of 2.2 Ga Ongeluk seawater composition is >∼2237 mmol/kg of Na, 200–1000 mmol/kg of K

Published

2016

46. Recognizing OIB and MORB in accretionary complexes: A new approach based on ocean plate stratigraphy, petrology and geochemistry

Author

S. Maruyama, Satoru Kojima, S. K. Krivonogov, Inna Safonova, Tsuyoshi Komiya, and Keiko Koshida

Subjects

Basalt, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geochemistry, Geology, Oceanic plateau, 010502 geochemistry & geophysics, Ophiolite, 01 natural sciences, Volcanic rock, Oceanic crust, Phenocryst, Kaersutite, Petrology, 0105 earth and related environmental sciences, Petrogenesis

Abstract

We present a new approach for recognizing the origin of accreted basaltic rocks based on ocean plate stratigraphy (OPS), and on the petrology and geochemistry of basalts from mid-oceanic ridges (MORB) and oceanic islands (OIB) using examples from four accretionary complexes (AC) in SW Japan: Akiyoshi, Mino–Tamba, Chichibu and Shimanto. The key to the problem is the model of OPS, which includes an association of igneous and sedimentary rocks that form on an oceanic plate during its travel from a mid-oceanic ridge to a subduction zone. We propose the reconstruction of the tectonic settings of basalts according to their relationships with associated OPS sediments, their petrogenesis and their geochemical features. Five types of OPS are recognized in the accretionary complexes of SW Japan: (1) sandstone/shale; (2) sandstone/shale and chert; (3) sandstone/shale, chert and MORB; (4) sandstone/shale, chert, MORB and gabbro (± peridotite); (5) seamount OPS including OIB, cap carbonates, slope clastics and basal shale/chert. The alkaline, tholeiitic or calc-alkaline composition of basaltic melts, which are typical of oceanic islands, mid-oceanic ridges and island-arcs, respectively, can be identified by the sequence in crystallization of their major phenocrysts, i.e. olivine (ol), clinopyroxene (cpx) and plagioclase (pl), and by their compositions. Alkaline and calc-alkaline mafic lavas are characterized by an ol → cpx → pl succession, whereas tholeiitic melts by their ol → pl ± cpx succession. Titanium-rich minerals, e.g., Ti–augite, kaersutite, Ti–biotite, are typical of alkaline lavas. The application of geochemistry-based tectonic discrimination diagrams is also a powerful tool, if not supported by geological and petrological data, may result in confusion due to magma contamination, post-magmatic alteration, and secular change of mantle thermal conditions. We propose that a direct comparison of normalized multi-element patterns and key binary plots from older volcanic rocks with their modern analogues provides a more viable and reliable method of basalt discrimination. Our OPS–petrology–geochemistry method allows us to confirm the above conclusions that the lavas of the Akiyoshi, Mino–Tamba and Southern Chichibu AC formed in oceanic islands, because they are associated with seamount OPS sediments, crystallized from ol to cpx and pl, contain Ti–augite and kaersutite and are enriched in TiO2, LREE and Nb. In this paper we present geochemical data from the Inuyama basalts of the Mino–Tamba AC and from the Toba complex in the huge Mikabu greenstone belt of the Chichibu AC. The Inuyama basalts are in contact with Jurassic pelagic cherts, but their geochemical features are confusing; they contain phenocrysts of ol, Ti–augite and kaersutite and therefore probably formed in seamounts. The Toba volcanic rocks are a part of the huge ophiolite belt; they have flat to slightly LREE-enriched REE patterns, are characterized by an ol → cpx succession of phenocrysts and they plot in the OIB field in binary plots suggesting they formed in an oceanic plateau.

Published

2016

47. Compositional heterogeneity of Archean mantle estimated from Sr and Nd isotopic systematics of basaltic rocks from North Pole, Australia, and the Isua supracrustal belt, Greenland

Author

Hikaru Iwamori, Saya Kagami, Tetsuya Yokoyama, Tsuyoshi Komiya, Ayane Sano, Hitomi Nakamura, and Akira Ishikawa

Subjects

Isochron, Basalt, 010504 meteorology & atmospheric sciences, Pilbara Craton, Archean, Geochemistry, Trace element, Metamorphism, Geology, Ocean island basalt, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Geochemistry and Petrology, 0105 earth and related environmental sciences

Abstract

Compositional variability found in modern mid-ocean ridge basalt (MORB) and ocean island basalt (OIB) reflects differentiation processes associated with material recycling in the mantle-crust system. To investigate the timing at which this recycling system was established and how it transformed into the present-day system, we present geochemical analyses of the Archean basalts from North Pole (NP) in the East Pilbara Craton, Western Australia, and the Isua supracrustal belt (ISB), southern West Greenland. These rocks represent Archean accretionary complexes with ages of ~3.5 Ga and 3.7–3.8 Ga, respectively. We analyzed the trace element contents including rare earth elements (REEs), and Sr and Nd isotopic compositions of the basalts, which may represent MORBs and OIBs, from NP and ISB. Their trace-element compositions are broadly similar, but show distinct geochemical characteristics particularly with respect to REEs that probably reflect differences in both the source mantle and degree of melting. Such differences are also evident in their initial Nd isotopic compositions, which were estimated based on equilibrium partitioning of REEs and well-defined isochron ages. In contrast, the Sr isotopic compositions of the NP and ISB basalts are highly variable and their isochron ages are inconsistent with previous studies. Furthermore, the partitioning of Rb and Sr in the NP basalts indicates disequilibrium, suggesting that the Rb-Sr system has been disturbed by post-igneous alteration and metamorphism. Based on these observations, we propose the following model to explain the temporal variations in the geochemical composition of the Archean mantle: (i) ~3800 Ma: recycling of plate material and melting occurred quite readily and, therefore, MORBs and OIBs were produced from differentiated mantle sources; (ii) 3460 Ma to ~3800 Ma: mantle-crust mixing occurred as the result of an extreme event, such as mantle overturning, reducing the compositional variation of the mantle; and (iii) after ~3460 Ma: mantle heterogeneity gradually developed in the material-recycling system, re-establishing the compositional differences between MORBs and OIBs. This model requires an extreme event to drive the homogenization during stage (ii), which may provide new insights into the evolution of the crust-mantle system.

Published

2020

48. Ar–Ar dating for hydrothermal quartz from the 2.4 Ga Ongeluk Formation, South Africa: implications for seafloor hydrothermal circulation

Author

Takazo Shibuya, Shigenori Maruyama, Hua-Ning Qiu, Saito Takuya, Yibing Li, Tsuyoshi Komiya, Shinji Yamamoto, Kouki Kitajima, and Hisahiro Ueda

Subjects

Multidisciplinary, 010504 meteorology & atmospheric sciences, fluid inclusion, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Seafloor spreading, Hydrothermal circulation, South Africa, Ongeluk Formation, lcsh:Q, Fluid inclusions, Seawater, Earth Science, Ar–Ar dating, hydrothermal quartz, lcsh:Science, hydrothermal alteration, Quartz, Geology, 0105 earth and related environmental sciences, Research Article

Abstract

Fluid inclusions in hydrothermal quartz in the 2.4 Ga Ongeluk Formation, South Africa, are expected to partially retain a component of the ancient seawater. To constrain the origin of the fluid and the quartz precipitation age, we conducted Ar–Ar dating for the quartz via a stepwise crushing method. The obtained argon isotopes show two or three endmembers with one or two binary mixing lines as the crushing proceeds, suggesting that the isotopic compositions of these endmembers correspond to fluid inclusions of each generation, earlier generated smaller 40 Ar- and K-rich inclusions, moderate 40 Ar- and 38 Ar Cl (neutron-induced 38 Ar from Cl)-rich inclusions and later generated larger atmospheric-rich inclusions. The K-rich inclusions show significantly different 40 Ar/ 38 Ar Cl values compared to the 38 Ar Cl -rich inclusions, indicating that it is difficult to constrain the quartz formation age using only fluid inclusions containing excess 40 Ar. The highest obtained 40 Ar/ 36 Ar value from the fluid inclusions is consistent with an expected value of the Ongeluk plume source, suggesting that the quartz precipitation was driven by Ongeluk volcanism. Considering the fluid inclusion generations and their compositions, the hydrothermal system was composed of crustal fluid and magmatic fluid without seawater before the beginning of a small amount of seawater input to the hydrothermal system.

Published

2018

49. Precambrian Geochemistry

Author

Tsuyoshi Komiya

Published

2018

50. Geology of the Eoarchean, > 3.95 Ga, Nulliak supracrustal rocks in the Saglek Block, northern Labrador, Canada: The oldest geological evidence for plate tectonics

Author

Yusuke Sawaki, Shinji Yamamoto, Kazumasa Aoki, Akira Ishikawa, Keiko Koshida, Takayuki Tashiro, Masanori Shimojo, Tsuyoshi Komiya, Kenneth D. Collerson, and Shogo Aoki

Subjects

Plate tectonics, Supracrustal rock, Geophysics, Ultramafic rock, Hadean, Continental crust, Geochemistry, Ophiolite, Early Earth, Geology, Earth-Surface Processes, Gneiss

Abstract

The Earth is a unique planet, which has been highly evolved, diversified and complicated through geologic time, and underwent many key events, including giant impact, magma ocean, core formation, large-scale mantle differentiation and late heavy bombardment, especially in its dawn. But, our knowledge of early Earth is limited due to the lack of the Hadean supracrustal rocks. The supracrustal rocks with the Eoarchean ages provide key evidence for the Earth's early evolution, but few supracrustal rocks have been comprehensively investigated. Therefore, we mapped in seven areas of the Saglek Block, northern Labrador, where ancient supracrustal sequences are interleaved with a diverse assemblage of orthogneisses. Early studies suggested that some of them have the Mesoarchean ages because of the lack of the Mesoarchean Saglek dyke, but we found the Saglek dykes in the areas to recognize the Eoarchean Nulliak supracrustal rocks and Uivak Gneiss in all the areas. Recent reassessment of U–Pb dating and cathodoluminescence observation of zircons from the oldest suites of the Uivak Gneiss showed that the Uivak Gneiss has the Eoarchean age, > 3.95 Ga, and forms the Iqaluk–Uivak Gneiss series. Because our geological survey clearly showed that the Iqaluk–Uivak Gneisses were intruded into the Nulliak supracrustal belts, the Nulliak supracrustal rocks are the oldest supracrustal rock in the world. The supracrustal belts consist of piles of fault-bounded blocks, which are composed of the ultramafic rocks, mafic rocks and sedimentary rocks in ascending order, similar to modern ocean plate stratigraphy (OPS). In addition, small-scale duplex structures are found over the areas. The presence of duplex structure and OPS indicates that the > 3.95 Ga Nulliak supracrustal belts originate from an accretionary complex. The presence of the accretionary complex, ophiolite and granitic continental crust provides the oldest evidence for the plate tectonics on the early Earth.

Published

2015