Your search keyword '"Chiton"' showing total 585 results

1. Chermesins I-N: Bioactive spiromeroterpenoids from the marine-sourced fungus Penicillium chermesinum AS-400

Author

Liu, Yi-Wei, Hu, Xue-Yi, Chen, Xiao-Dan, Li, Xiao-Ming, Yang, Sui-Qun, Li, Hong-Lei, and Wang, Bin-Gui

Published

2025

2. Armed on the back: Hidden biomineralized scales in the ventral girdle of chiton Acanthopleura loochooana.

Author

Liu, Haipeng and Liu, Chuang

Subjects

CARBONATE minerals, ANIMAL welfare, FISH skin, NATURE conservation, ELASTIC modulus

Abstract

Flexible protective armors are found in large animals such as fish skins, snake skins, and pangolin scales. For small-sized invertebrates, such armors are paid less attention and overlooked. Chitons, a type of marine mollusk, possess mineralized armors covering the whole dorsal body. The dorsal scales in the girdle tissue are well known, in this study, we reported hidden mineralized scales in the ventral side of chiton Acanthopleura loochooana girdles for the first time. The ventral surface is covered with scales with ca. 40 μm in length, forming continuous but overlapped scales. Additionally, scales are formed from aragonitic spicule-like and square-like scales, embedded in the cuticle layer. Nanoindentation testing results showed that the hardness and elastic modulus of ventral scales were ∼20 % higher compared to those in the dorsal scales, exhibiting good hardness and wear resistance. The combination of the ventral scales and cuticle, along with the regular arrangement of ventral scales, may allow chitons to simultaneously address complex and variable attachment interfaces while also providing wear-resistant protection. This study provides insights for designing protective structures that balance flexibility and durability. Biomineralization is universal in nature and provides protection and support for animals. However, mineralization of dermal skin is not commonly seen. Herein, for the first time, we reported hidden minerals covering the whole ventral side of skin in a small marine animal, chitons. Calcium carbonate minerals are arranged regularly and manifest different morphology in different regions. Additionally, these minerals are embedded in a continuous cuticle layer covering the whole animal. The material also indicates a higher wear-resistant property. This study extends our understanding of the diverse functionality of biominerals and provides a prototype for designing wear-resistant materials. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

3. Complete mitochondrial genome of Acanthochitona defilippii (Polyplacophora: Chitonida) from South Korea

Author

I Hyang Kim, Cho Rong Shin, Gyeongmin Kim, Bia Park, Ki Beom Kim, Eun Hwa Choi, and Ui Wook Hwang

Subjects

Acanthochitona defilippii, Acanthochitonidae, chiton, mitochondrial genome, phylogeny, Genetics, QH426-470

Abstract

The chiton (Polyplacophora) occupies a significant position in molluscan evolutionary history as one of the most primitive groups within the phylum Mollusca. Acanthochitona defilippii (Tapparone-Canefri 1874) (Chitonida: Acanthochitonidae) is a commonly found intertidal chiton species in South Korea. In this study, we characterized the complete mitochondrial genome of A. defilippii (14,999 bp long), comprising 13 protein-coding genes (PCGs), 22 transfer RNA genes, two ribosomal RNA genes, and an A + T rich region (166 bp). The base composition is as follows: 31.82% for A, 11.63% for C, 16.69% for G, and 39.86% for T. We reconstructed a maximum likelihood (ML) tree to elucidate phylogenetic relationships among the eight chitonid families using the nucleotide sequences of all PCGs. The ML tree revealed that A. defilippii clustered with Acanthochitona avicula (BP 100) within the family Acanthochitonidae. Acanthochitonidae formed a sister group with Mopaliidae. The results could provide a valuable understanding the phylogenetic relationships of chitonid species.

Published

2024

4. The Multiphasic Teeth of Chiton Articulatus, an Abrasion‐Resistant and Self‐Sharpening Tool for Hard Algae Collection.

Author

Montroni, Devis, Sarmiento, Ezra, Zhao, Ruoheng, Dasika, Phani Saketh, Connolly, John Michael, Wuhrer, Richard, Zhang, Yugang, Zhernenkov, Mikhail, Wang, Taifeng, Ramirez‐Santana, Brenda Paola, Sheppard, Leigh, Avila‐Poveda, Omar Hernando, Arakaki, Atsushi, Nemoto, Michiko, Zavattieri, Pablo, and Kisailus, David

Subjects

*ORGANIC wastes, *SOLID waste, *MAGNETITE, *BIOMINERALIZATION, *TEETH, *GOETHITE

Abstract

Chiton articulatus is a species of mollusk living in the tropical Pacific intertidal rocky shores of Mexico. This species feeds on solid waste organic sources, including hard crustose algae that grow on rocky substrates, by grazing on them with its radula, a flexible chitinous membrane lined with mineralized major lateral teeth. In this study, the composition, morphology, and resulting mechanics of the mature teeth of this species, which have yet to be examined, are revealed. The results show the presence of multiphasic mature teeth, each consisting of aligned hard magnetite nanoparticles on the leading edge of the tooth underneath which are magnetite lamellae, followed by goethite, lepidocrocite, and eventually hydroxyapatite near the trailing edge. This multiregional structure demonstrates a gradation in hardness as well as different microstructural features integrated with tough interfaces. The combination of these microstructural and phase arrangements results in an abrasion‐resistant tough structure with a self‐sharpening ability. The results of this work will help contribute to developing new bioinspired designs while also helping to understand the evolution and feeding habits of these intriguing invertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

5. Complete mitochondrial genome of Acanthochitona defilippii (Polyplacophora: Chitonida) from South Korea.

Author

Kim, I Hyang, Shin, Cho Rong, Kim, Gyeongmin, Park, Bia, Kim, Ki Beom, Choi, Eun Hwa, and Hwang, Ui Wook

Subjects

MITOCHONDRIAL DNA, TRANSFER RNA, RIBOSOMAL RNA, PHYLOGENY, GENETIC transformation

Abstract

The chiton (Polyplacophora) occupies a significant position in molluscan evolutionary history as one of the most primitive groups within the phylum Mollusca. Acanthochitona defilippii (Tapparone-Canefri 1874) (Chitonida: Acanthochitonidae) is a commonly found intertidal chiton species in South Korea. In this study, we characterized the complete mitochondrial genome of A. defilippii (14,999 bp long), comprising 13 protein-coding genes (PCGs), 22 transfer RNA genes, two ribosomal RNA genes, and an A + T rich region (166 bp). The base composition is as follows: 31.82% for A, 11.63% for C, 16.69% for G, and 39.86% for T. We reconstructed a maximum likelihood (ML) tree to elucidate phylogenetic relationships among the eight chitonid families using the nucleotide sequences of all PCGs. The ML tree revealed that A. defilippii clustered with Acanthochitona avicula (BP 100) within the family Acanthochitonidae. Acanthochitonidae formed a sister group with Mopaliidae. The results could provide a valuable understanding the phylogenetic relationships of chitonid species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Polyplacophora (mollusca): composition, abundance and occurrence with cohabitants on the west coast of Ceará, Brazil

Author

Patricia Albuquerque da Silva, Davi José Araújo de Lima, Elisângela Carmo dos Santos, Rafaela Camargo Maia, and Jaime Alberto Jardim

Subjects

Beachrocks, Callistoplacidae, Chiton, Ischnochitonidae, Social Sciences, Science, Medicine, Agriculture, Technology

Abstract

Poliplacóforos, conhecidos popularmente por quítons, são moluscos marinhos que apresentam ocorrência em todas as partes do mundo. As estruturas morfológicas externas destes indivíduos contribui para sua adesão em regiões irregulares do substrato consolidado. O objetivo do presente estudo foi caracterizar a assembleia de quítons quanto a sua composição, abundância e ocorrência com coabitantes em substratos duros em praias no litoral oeste do Ceará, nordeste do Brasil. O estudo foi realizado na Praia da Pedra Rachada localizada na cidade de Paracuru e na Praia do Farol localizada em Camocim. As praias rochosas de Camocim e Paracuru foram representadas por três espécies de Polyplacophora: Acanthochitona sp., Ischnochiton striolatus e Ischnoplax pectinata. Foram encontrados 697 organismos, destes, 56% eram da espécie I. striolatus, seguidos de I. pectinata com 33%, Acanthochitona sp. com 11%. Quando comparadas as duas áreas amostradas, Paracuru apresentou uma abundância de 488 indivíduos, e Camocim, apresentou uma abundância de 209 indivíduos. Os organismos apresentaram abundância diferente entre os tipos de substratos e coabitantes. Um total de 30 indivíduos ocorreram somente em substrato liso composto por seixos, sendo as espécies I. pectinata, Achantochitona sp., I. striolatus; e 26 ocorreram em arenito, sendo das espécies I. pectinada e I. striolatus. Foram observados quitons coabitando substratos com algas, gastrópodes, ostras, esponjas, poliquetas, coral, cracas, ascidías e em associações. As espécies I. striolatus e I. pectinata são comumente abundantes nas regiões estudadas e são necessários novos estudos para a compreensão das relações ecológicas dos quítons com os substratos consolidado de regiões costeiras.

Published

2024

7. Investigating Ecological Factors in Temporal and Spatial Changes of Acanthopleura Vaillantii Species in The Middle Shores of Makoran Sea, Sistan and Baluchistan Province

Author

Mostafa Bahrebar, Mohammad Mansour Tootooni, and Mehran Loghmani

Subjects

makoran, chabahar, chiton, acanthopleura vaillantii, biometry, Environmental sciences, GE1-350

Abstract

Introduction: Chitons are marine molluscs, mostly grazers, resistant to tidal conditions and often living in crevices of rocks. The Oman Sea is located in the southeast of Iran and the northwest of the Indian Ocean and is heavily influenced by the monsoon winds of the Indian Ocean. Due to the occurrence of the monsoon process, the Makoran Sea has a rich variety of marine species, including molluscs. The aim of the present research was to investigate the density and distribution of Acanthopleura vaillantii in the beaches of Pozm, Konarak, Tis, Kolbe Ghawasi, Darya Bozorg and Ramin in winter 2018 and summer 2019.Materials and Methods: In this study, the density and distribution of A. vaillantii was investigated in transects perpendicular to the sea and in the tidal zone, using a quadrat (1*1 m2). in the tidal zone of six stations on the coasts of Pozm, Konarak, Tis, Kolbe Ghavasi, Darya Bozorg and Ramin. A number of samples in each station were taken to the laboratory to measure biological parameters such as length, total wet weight, soft tissue moisture content, tissue moisture percentage and dry weight percentage. In each station, physical and chemical factors of water (temperature-salinity and acidity) were measured and recorded by WTW device. Results: Investigations showed that the highest average density in the winter of 2018 was in Ramin station and was equal to 11.27 ± 1.46 m2. In total, Ramin station had the highest average density in winter and summer with a value of 19.15 ± 2.67 m2. Also, the lowest average density was related to the diving hut station in summer and the first transect of the lower part of the tide, which was not recorded due to the presence of a sandy bed. In total, the average density for two seasons was 0.85 ± 0.26 m2 at the Kolbeh ghavasi station. Also, the statistical test showed a significant difference between the stations (P

Published

2024

8. New records of teratology in Chiton cumingsii and Chiton granosus (Mollusca: Polyplacophora) from the Peruvian coast

Author

Luz Cardich-Becerra, Alejandro Mendivil, and Franz Cardoso

Subjects

Hypomerism, Splitting, Coalescence, Chiton, Zoology, QL1-991

Abstract

Abstract This paper presents the first teratological records for Peruvian waters of Chiton cumingsii Frembly, 1827 and Chiton granosus Frembly, 1827, both species very common in the Southeast Pacific. We found five abnormal individuals in C. cumingsii, and two in C. granosus, including the first recorded splitting abnormalities for these species. An individual of C. cumingsii with a new insertion plate in the tail valve was also observed. We observed that splitting abnormalities in Polyplacophora can be classified as perfect or imperfect, depending on whether the splitted valves are clearly recognized as individual fragments or not. Coalescence between the splitted valves seems to be a common phenomenon, and this coalescence can be homogeneous or heterogeneous. As both species show a combination of hypomerism, coalescence and splitting, we suggest that they are probably interrelated and represent an attempt of the developmental mechanisms of chitons to overcome a valve malformation.

Published

2023

9. The complete mitochondrial genome and phylogenetic analysis of Lepidozona coreanica (Reeve, 1847)

Author

Donghui Sun, Zhongyu Lin, Xindong Teng, Li Xu, Lijia Qian, Xinyue Yu, Huafang Wu, Ziyi Wang, Liming Jin, Xiumei Liu, Lijun Wang, Jiangyong Qu, Xumin Wang, and Zhikai Xing

Subjects

chiton, lepidozona coreanica, mitochondrial genome, phylogenetic analysis, Genetics, QH426-470

Abstract

In the present study, the complete mitochondrial genome of Lepidozona coreanica was sequenced and described. The complete mitogenome sequence of L. coreanica is 16,572 bp long and contains 13 protein-coding genes (PCGs), 22 transfer RNA (tRNA) genes, and two ribosomal RNA (rRNA) genes. The base composition was AT biased (70.1%). The 13 PCGs of L. coreanica and the other 15 species of Polyplacophora were used for phylogenetic analysis using maximum-likelihood methods. The results showed that L. coreanica, Ischnochiton hakodadensis, and Chaetopleura apiculata are sister groups of the three lineages.

Published

2023

10. Representations of Men in Palmyra

Author

Heyn, Maura K. and Raja, Rubina, book editor

Published

2024

11. A New Genus and Species of Chiton from the Aleutian Islands.

Author

Clark, Roger N.

Abstract

An unusual new genus and species of chiton, Boreacanthus griphus n. g. &n. sp. isdescribed from the shallow subtidal depths of the central Aleutian Islands, and is tentatively placed in the family Mopaliidae Dall, 1889. The tail valve of the new taxon has a caudal sinus typical of the family Mopaliidae, but differs from all other known members of Mopaliidae in possessing pustulose tegmental sculpture and spike-like, calcareous girdle elements. [ABSTRACT FROM AUTHOR]

Published

2023

12. The complete mitochondrial genome and phylogenetic analysis of Lepidozona coreanica (Reeve, 1847).

Author

Sun, Donghui, Lin, Zhongyu, Teng, Xindong, Xu, Li, Qian, Lijia, Yu, Xinyue, Wu, Huafang, Wang, Ziyi, Jin, Liming, Liu, Xiumei, Wang, Lijun, Qu, Jiangyong, Wang, Xumin, and Xing, Zhikai

Subjects

MITOCHONDRIAL DNA, RIBOSOMAL RNA, TRANSFER RNA, GENOMES

Abstract

In the present study, the complete mitochondrial genome of Lepidozona coreanica was sequenced and described. The complete mitogenome sequence of L. coreanica is 16,572 bp long and contains 13 protein-coding genes (PCGs), 22 transfer RNA (tRNA) genes, and two ribosomal RNA (rRNA) genes. The base composition was AT biased (70.1%). The 13 PCGs of L. coreanica and the other 15 species of Polyplacophora were used for phylogenetic analysis using maximum-likelihood methods. The results showed that L. coreanica, Ischnochiton hakodadensis, and Chaetopleura apiculata are sister groups of the three lineages. [ABSTRACT FROM AUTHOR]

Published

2023

13. Fibrous anisotropy and mineral gradients within the radula stylus of chiton: Controlled stiffness and damage tolerance in a flexible biological composite.

Author

Lee, Jung-Eun, Connolly, John, Yang, Wen, Freychet, Guillaume, Wang, Taifeng, Herrera, Steven A, Murata, Satoshi, Dasika, Phani Saketh, Montroni, Devis, Pohl, Anna, Zhu, Chenhui, Zhernenkov, Mikhail, Wuhrer, Richard, Sheppard, Leigh, Nemoto, Michiko, Arakaki, Atsushi, Zavattieri, Pablo, and Kisailus, David

Subjects

*BIOCOMPATIBILITY, *MINERALS, *ANISOTROPY, *ENGINEERING design, *SOFT robotics, *FIBER orientation

Abstract

Over hundreds of millions of years, organisms have evolved architected structures via precise control over hierarchically assembled components, including the integration of dissimilar materials. One such example is found in the radula system of chitons, intertidal mollusks that feed on algae growing on the rock. Their radula consists of multiple rows of ultrahard teeth, each integrated with a foldable belt-like substrate via a stiff, yet flexible stylus, which is essential for efficient rasping during the feeding process. Here, we investigate the nano and micro-scale components and architectures as well as regional mechanical properties of the stylus, and their subsequent role during the rasping of Cryptochiton stelleri. Three important factors were determined to contribute to the regio-specific stiffness of the stylus: the presence of mineral components, highly oriented chitinous fibers, and a chemically cross-linked protein matrix. All these factors are varied throughout the stylus. There is a high mineral content on the trailing edge close to the tooth and a cross-linked matrix on the leading edge, both with orientational specific oriented chitin fibers that provide force transduction to the tooth. Conversely, there is a significant lack of mineral or cross-linked matrix in the proximal end as well as a low degree of fiber orientation, resulting in a flexible region that can accommodate torsion and flexure during rasping. Understanding the graded composite structure of the stylus and applying this unique design to various engineering fields such as soft robotics, biotechnology, and the medical industry, can inspire the production of high-performance materials. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2023

14. Chiton-Inspired Composites Synergizing Strength and Toughness Through Sinusoidal Interlocking Interfaces for Protective Applications.

Author

Peng X, Guo D, Ding H, Mu Z, Li B, Niu S, Han Z, and Ren L

Abstract

Introducing biological structures into materials design is expected to develop strong and tough structural materials. However, multiple interfaces are introduced simultaneously. They are always the weakest part of load transfer, becoming a critical vulnerability and failure-prone area. Here, it is the first found that the chiton achieves superior mechanical properties just by incorporating a unique sinusoidal interlocking interface into cross-lamellar architecture. These special interlocking interfaces make the chiton shell achieve damage delocalization and increase the resistance to crack initiation and propagation. Meanwhile, this "pre-engineered" path significantly increases the travel path of the cracks and balances the strength and toughness under quasi-static and impact loading. Inspired by this, a novel chiton-inspired composite is proposed. Through coupling the cross-lamellar structures and sinusoidal interlocking interfaces, its strength and toughness are increased by 88% and 107% under quasi-static loading, as well as by 17.8% and 52.4% under impact loading, respectively. These unusual interfaces make up the weak point of cross-lamellar structures and provide insights into the longer evolution of structural materials., (© 2024 Wiley‐VCH GmbH.)

Published

2024

15. Multiscale analysis of the unusually complex muscle fibers for the chiton radulae

Author

Dawei Sun, Chuang Liu, Zhenglu Wang, and Jingliang Huang

Subjects

radula, muscle, chiton, micro-CT, hard-soft tissue interfaces, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Chiton teeth in the radula are one of the hardest biomaterials in nature. Chiton uses radula to scrape algae on hard surfaces. The ultrastructure and composition of teeth are well known while how they move is less clear. This study used an array of material characterizations including soft-tissue micro-computed tomography (micro-CT), histology, scanning electron microscopy, and proteomics to investigate the tissue that may control the movement of the radula of Acanthopleura loochooana. Surprisingly, unusually complex muscle fibers were found around the radula. 54 muscle fibers with diameters of around 130 µm were anchored to the second and third shell plates. These muscle fibers are in close contact with the radula and cartilage beneath the radula. Proteomics using a recently published chiton genome as a reference confirmed the proteins related to energy metabolism, calcium metabolism, as well as a cartilage oligomeric matrix protein in the muscle. qPCR found that the above proteins were highly expressed in the radula muscle compared to the foot. Taken together, this study provides insights into the complex tissue structures that control the movement of the radula, which may inspire robotics design relating to hard-soft tissue interfaces.

Published

2023

16. Phylogenomic analyses shed light on the relationships of chiton superfamilies and shell-eye evolution

Author

Liu, Xu, Sigwart, Julia D., and Sun, Jin

Published

2023

17. Stirring the Deep, Disentangling the Complexity: Report on the Third Species of Thermochiton (Mollusca: Polyplacophora) From Haima Cold Seeps

Author

Hao Wang, Huijie Liu, Xiaowei Wang, Junlong Zhang, Boris I. Sirenko, Chuanyu Liu, Dong Dong, and Xinzheng Li

Subjects

chiton, Thermochiton, Ischnochitonidae, Haima cold seeps, South China Sea, deep-sea, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

This study documents a new deep-sea chiton from the Haima cold seeps. Thermochiton xui. nov. is the third species of the genus Thermochiton and the first occurrence of this genus in the South China Sea. This species is identified by its morphological characteristics and the molecular sequence of a Thermochiton species is reported for the first time. The placement of the new species is determined in the phylogenetic tree of Ischnochitonidae by Maximum Likelihood (ML) and Bayesian inference (BI) methods, based on the sequences of the mitochondrial cytochrome c oxidase subunit I (COI), 16S ribosomal DNA (16S), and nuclear 28S ribosomal DNA (28S) gene regions. Bayesian evolutionary analysis with an uncorrelated relaxed clock approach indicated that this new species is estimated to have diverged from its most closely related shallow-water ischnochitonid taxa 5.10–10.07 million years ago in the Late Miocene. A regional ocean general circulation model was used to estimate the potential dispersal ability of the three species of Thermochiton. Because it is highly unlikely for one species to have spread between the northwest and southwest Pacific to the localities in which this genus has been found to date, we propose that ‘stepping-stone’ habitats and/or ‘bridge species’ were involved in the dispersal and evolution of these cold-seep endemic chitons.The ZooBank Life Science Identifier (LSID) for this publication is: urn:lsid:zoobank.org:pub:AD93E4BC-2977-405E-B681-D956C5C66D83. And the ISID for Thermochiton xui sp. nov. is: urn:lsid:zoobank.org:act:0C75D2E3-F30E-4970-9BC2-3363B397720C.

Published

2022

18. Optimized Sensory Units Integrated in the Chiton Shell.

Author

Liu, Chuang, Liu, Haipeng, Huang, Jingliang, and Ji, Xin

Abstract

The first step for animals to interact with external environment is to sense. Unlike vertebrate animals with flexibility, it is challenging for ancient animals that are less flexible especially for mollusca with heavy shells. Chiton, as an example, has eight overlapping shells covering almost the whole body, is known to incorporate sensory units called aesthetes inside the shell. We used micro-computed tomography combined with quantitative image analysis to reveal the optimized shell geometry to resist force and the aesthetes' global distribution at the whole animal levels to facilitate sense from diverse directions both in the seawater and air. Additionally, shell proteomics combined with transcriptome reveals shell matrix proteins responsible for shell construction and potentially sensory function, highlighting unique cadherin-related proteins among mollusca. Together, this multi-level evidence of sensory units in the chiton shell may shed light on the formation of chiton shells and inspire the design of hard armor with sensory function. [ABSTRACT FROM AUTHOR]

Published

2022

19. Concordant phylogeographic responses to large‐scale coastal disturbance in intertidal macroalgae and their epibiota.

Author

Parvizi, Elahe, Dutoit, Ludovic, Fraser, Ceridwen I., Craw, Dave, and Waters, Jonathan M.

Subjects

*SINGLE nucleotide polymorphisms, *ECOLOGICAL disturbances, *ALGAL communities, *MARINE algae, *CERAMIALES, *INTERTIDAL zonation, *GENETIC variation

Abstract

Major ecological disturbance events can provide opportunities to assess multispecies responses to upheaval. In particular, catastrophic disturbances that regionally extirpate habitat‐forming species can potentially influence the genetic diversity of large numbers of codistributed taxa. However, due to the rarity of such disturbance events over ecological timeframes, the genetic dynamics of multispecies recolonization processes have remained little understood. Here, we use single nucleotide polymorphism (SNP) data from multiple coastal species to track the dynamics of cocolonization events in response to ancient earthquake disturbance in southern New Zealand. Specifically, we use a comparative phylogeographic approach to understand the extent to which epifauna (with varying ecological associations with their macroalgal hosts) share comparable spatial and temporal recolonization patterns. Our study reveals concordant disturbance‐related phylogeographic breaks in two intertidal macroalgal species along with two associated epibiotic species (a chiton and an isopod). By contrast, two codistributed species, one of which is an epibiotic amphipod and the other a subtidal macroalga, show few, if any, genetic effects of palaeoseismic coastal uplift. Phylogeographic model selection reveals similar post‐uplift recolonization routes for the epibiotic chiton and isopod and their macroalgal hosts. Additionally, codemographic analyses support synchronous population expansions of these four phylogeographically similar taxa. Our findings indicate that coastal paleoseismic activity has driven concordant impacts on multiple codistributed species, with concerted recolonization events probably facilitated by macroalgal rafting. These results highlight that high‐resolution comparative genomic data can help reconstruct concerted multispecies responses to recent ecological disturbance. [ABSTRACT FROM AUTHOR]

Published

2022

20. Growth patterns and population dynamics of Chiton articulatus (Mollusca: Polyplacophora): A multi-decade study.

Author

Valencia-Cayetano, Carlos, López-Martínez, Juana, Padilla-Serrato, Jesús Guadalupe, Flores-Garza, Rafael, García-Ibáñez, Sergio, and Méndez-Bahena, Alfredo

Subjects

*POPULATION dynamics, *MOLLUSKS, *SOWING, *BARNACLES, EL Nino, LA Nina

Abstract

The edible chiton C hiton articulatus is a commercially important mollusk found in the rocky intertidal zones of the Mexican tropical Pacific. Despite the intense harvesting in Acapulco Bay, Mexico, knowledge of its growth patterns is limited, hindering the development of effective management strategies. This study investigated the growth dynamics of C. articulatus using a multi-model inference approach based on size structure data collected in four sampling periods covering four decades. Results revealed continuous recruitment throughout the year, contributing to population resilience. The species exhibited growth plasticity, highlighting its adaptive potential. We found complex temporal patterns influenced mainly by climatic events. The El Niño event sowed higher growth rates and lower asymptotic length, while La Niña events showed the opposite pattern. This research provides insights into the growth dynamics of C. articulatus , highlighting the need for holistic management strategies for this commercially important species in the face of environmental change. [Display omitted] • Continuous recruitment of Chiton articulatus contributes to population resilience. • C. articulatus shows growth plasticity under varying environmental conditions. • El Niño: faster growth, lower asymptotic lengths in C. articulatus. • La Niña: slower growth, higher maximum lengths in C. articulatus. • Holistic approach vital for C. articulatus growth dynamics and management. [ABSTRACT FROM AUTHOR]

Published

2024

21. TEM Study of the Radular Teeth of the Chiton Acanthopleura japonica

Author

Kakei, Mitsuo, Yoshikawa, Masayoshi, Mishima, Hiroyuki, Endo, Kazuyoshi, editor, Kogure, Toshihiro, editor, and Nagasawa, Hiromichi, editor

Published

2018

22. Persistent polyamorphism in the chiton tooth: From a new biomineral to inks for additive manufacturing.

Author

Stegbauer, Linus, Smeets, Paul J. M., Free, Robert, Wallace, Shay G., Hersam, Mark C., Alp, Esen E., and Joester, Derk

Subjects

*TEETH, *BLOOD coagulation factor VIII, *X-ray absorption, *X-ray spectroscopy, *PHASE transitions

Abstract

Engineering structures that bridge between elements with disparate mechanical properties are a significant challenge. Organisms reap synergy by creating complex shapes that are intricately graded. For instance, the wear-resistant cusp of the chiton radula tooth works in concert with progressively softer microarchitectural units as the mollusk grazes on and erodes rock. Herein, we focus on the stylus that connects the ultrahard and stiff tooth head to the flexible radula membrane. Using techniques that are especially suited to probe the rich chemistry of iron at high spatial resolution, in particular synchrotron Mössbauer and X-ray absorption spectroscopy, we find that the upper stylus of Cryptochiton stelleri is in fact a mineralized tissue. Remarkably, the inorganic phase is nano disperse santabarbaraite, an amorphous ferric hydroxyphosphate that has not been observed as a biomineral. The presence of two persistent polyamorphic phases, amorphous ferric phosphate and santabarbaraite, in close proximity, is a unique aspect that demonstrates the level of control over phase transformations in C. stelleri dentition. The stylus is a highly graded material in that its mineral content and mechanical properties vary by a factor of 3 to 8 over distances of a few hundred micrometers, seamlessly bridging between the soft radula and the hard tooth head. The use of amorphous phases that are low in iron and high in water content may be key to increasing the specific strength of the stylus. Finally, we show that we can distill these insights into design criteria for inks for additive manufacturing of highly tunable chitosan-based composites. [ABSTRACT FROM AUTHOR]

Published

2021

23. Problems with Greek clothing terminology.

Author

Richard, Quentin

Subjects

FIGURINES, TERMS & phrases, NINETEENTH century

Abstract

The Greek vocabulary of clothing and textile production is rich and varied. It contains hundreds of words that have survived in literary texts or in epigraphic resources. Ancient lexicographers attempted to compile these terms but the meaning of many of them has disappeared, only a few can be identified with certainty in visual representations. The clothing nomenclature used today was mainly established by German academics in the 19th century and has become widely adopted. However, modern studies show that some of these interpretations could be questioned. In this situation, what words should be used to designate Greek garments represented on artworks? There are different propositions: continue to use Greek terms conventionally or try to establish alternative nomenclature. In this paper it is argued that the use of modern generic terms could minimise problems of interpretation in the study of Greek clothing [ABSTRACT FROM AUTHOR]

Published

2021

24. Monster or multiplacophoran: A teratological specimen of the chiton Acanthopleura granulata (Mollusca: Polyplacophora) with a valve split into independent and symmetrical halves.

Author

Kingston, Alexandra C. N., Sigwart, Julia D., Chappell, Daniel R., and Speiser, Daniel I.

Subjects

*VALVES, *FOSSILS, *SEASHELLS

Abstract

Teratological specimens deviate from the conserved form of their species. In doing so, they serve as natural experiments that refine our knowledge of developmental mechanisms and the natural limits of phenotypes. Here, we describe a specimen of the West Indian Fuzzy Chiton Acanthopleura granulata (Gmelin, 1791) with a fifth valve split into two halves. Using micro‐CT to non‐invasively visualize the external and internal morphology of this specimen, we find that the half valves are symmetrical and independent from each other and from any of the other valves. The presence of girdle‐like tissue between the split valves suggests that this shell abnormality arose in early development and was not the product of damage to the adult animal. While the present specimen of A. granulata is clearly abnormal for its species, its split valve may provide some insights into the developmental pathways that would underlie macroevolutionary transitions to multi‐plated chiton forms known from the fossil record. [ABSTRACT FROM AUTHOR]

Published

2020

25. Quantum Magnetic Imaging of Iron Biomineralization in Teeth of the Chiton Acanthopleura hirtosa.

Author

McCoey, Julia M., Matsuoka, Mirai, Gille, Robert W., Hall, Liam T., Shaw, Jeremy A., Tetienne, Jean‐Philippe, Kisailus, David, Hollenberg, Lloyd C. L., and Simpson, David A.

Subjects

*BIOMINERALIZATION, *MAGNETITE, *LIFE sciences, *IRON oxides, *FERRIC oxide, *NANOSTRUCTURED materials, *PHYSICAL sciences

Abstract

Iron is critical for life. Nature capitalizes on the physical attributes of iron biominerals for functional, structural, and sensory applications. Iron biomineralization is well exemplified by the magnetite‐bearing radula of chitons, the hardest known biomineral of any animal. Although magnetism is an integral property of iron biominerals, limited information exists on the magnetic state, structure, and orientation of these nanoscale materials during mineralization. The advent of quantum‐based magnetic microscopy provides a new avenue to probe these biological systems directly, providing detailed magnetic information of the iron oxide structures. Here two complementary quantum magnetic microscopy methods are applied, based on nitrogen‐vacancy centers in diamond, to spatially map the mineral phases ferrihydrite and magnetite in the developing teeth of the chiton Acanthopleura hirtosa. The images reveal previously undiscovered long‐range magnetic order, established at the onset of magnetite mineralization. This is in contrast to electron microscopy studies that show no strong common crystallographic orientation. The implications of these results are important, not just for the insights gained in biomineralization of the target organism, but also for the study of a broad range of iron minerals in the physical and biological sciences. [ABSTRACT FROM AUTHOR]

Published

2020

26. Chiton

Author

Kipfer, Barbara Ann

Published

2021

27. Similar construction of spicules and shell plates: Implications for the origin of chiton biomineralization.

Author

Liu, Haipeng, Liu, Chuang, Zhang, Wenjing, Yuan, Yang, Wang, Zhenglu, and Huang, Jingliang

Subjects

*BIOMINERALIZATION, *EXTRACELLULAR matrix proteins, *VON Willebrand factor, *SEASHELLS, *CRYSTAL growth, *MICROPHTHALMIA-associated transcription factor

Abstract

The hard shells of mollusks are products of biomineralization, a distinctive feature of the Cambrian explosion. Despite our understanding of shell structure and mechanical properties, their origin remains mysterious. In addition to their shell plates, most chitons have calcium deposits on their girdles. However, the similarity of these two mineralized structures still needs to be determined, limiting our comprehension of their origins. In our study, we analyzed the matrix proteins in the spicules of chiton (Acanthopleura loochooana) and compared them with the matrix proteins in the shells of the same species. Proteomics identified 96 unique matrix proteins in spicules. Comparison of biomineralization-related matrix proteins in shell plates and spicules revealed shared proteins, including carbonic anhydrases, tyrosinase-hemocyanin, von Willebrand factor type A, cadherin, and glycine-rich unknown proteins. Based on similarities in key matrix proteins, we propose that spicules and shell plates originated from a common mineralization system in their ancestral lineage, suggesting the existence of a common core or toolkit of matrix proteins among calcifying organisms. In this study, we try to understand the types and diversity of matrix proteins in the biomineralization of chiton shell plates and spicules. Through a comparative analysis, we seek insights into the core biomineralization toolkit of ancestral mollusks. To achieve this, we conducted LC-MS/MS and RT-qPCR analyses to identify the types and relative expression levels of matrix proteins in both shell plates and spicules. The analysis revealed 96 matrix proteins in the spicules. A comparison of biomineralization-related matrix proteins in shell plates and spicules from the same species revealed shared proteins including many unknown proteins unique to chitons. Blast searching reveals a universal conservation of these proteins among other chitons. Hence, we propose that spicules and shell plates originated from a common mineralization system in their ancestral lineage. Our work provides a molecular basis for studying biomineralization in polyplacophoran mollusks and understanding biomineralization evolution. In addition, it identifies potential matrix proteins that could be applied to control crystal growth. [Display omitted] • 96 distinct matrix proteins were identified in chiton (Acanthopleura loochooana) spicules. • Spicules and shell plates may originate from a common mineralization system in their ancestral lineage. • A shared origin for spicules and shell plates implies a universal matrix protein toolkit among mollusca. [ABSTRACT FROM AUTHOR]

Published

2024

28. Proteomic analysis of shell matrix proteins from the chiton Acanthopleura loochooana.

Author

Liu, Chuang, Yuan, Yang, Zhang, Wenjing, and Huang, Jingliang

Subjects

PROTEOMICS, BIOMINERALIZATION, BIVALVES, CADHERINS, SEQUENCE alignment

Abstract

Most molluscs have mineralized shells to protect themselves. Although the remarkable mechanical properties of shells have been well-studied, the origin of shells is still elusive. Chitons are unique in molluscs because they are shelly Aculifera which diverged from Conchifera (comprising all the shell-bearing classes of molluscs) in the early pre-Cambrian. We developed a method to extract shell proteins from chiton shell plates (removing embedded soft tissues) and then compared the shell proteome to that of Conchifera groups. Sixteen shell matrix proteins from Acanthopleura loochooana were identified by proteomics, in which Nacrein-like, Pif-like proteins, and protocadherin were found. Additional evidences from shell proteome in another species Chiton densiliratus and comparative sequence alignment in five chitons supported a conserved biomineralization toolkit in chitons. Our findings shed light on the evolution of mineralization in chitons and pose a hypothesis that ancestral molluscs have already evolved biomineralization toolkits, which may facilitate the formation of mineralized shells. [Display omitted] • Sixteen shell matrix proteins from chiton Acanthopleura loochooana were identified by proteomics. • Nacrein-like, Pif-like proteins, and protocadherin were found to be conserved in chitons. • The formation mechanism of chiton shell biomineralization is deduced based on proteomics. [ABSTRACT FROM AUTHOR]

Published

2024

29. A new species of Placiphorella (Polyplacophora: Mopaliidae) from the North American Pacific coast.

Author

Clark, Roger N.

Subjects

*CHITONS, *MOPALIIDAE, *NEOLORICATA, *SPICULE (Anatomy)

Abstract

A new deep-sea chiton of the genus Placiphorella Dall, 1879, Placiporella laurae n. sp. is described from the Pacific coast of North America. It is compared with its congener Placiphorella pacifica Berry, 1919, from which it differs primarily by having granular valves, lacking false beaks, a papillose girdle, and the characteristics of its girdle spicules. [ABSTRACT FROM AUTHOR]

Published

2019

30. Assessment of heavy metals concentration Cu, Ni and Zn in Acanthopleura vaillantii in the coast of Chabahar Bay

Author

Parvin Sadeghi and Mohammad Darbazi

Subjects

chiton, heavy metals, acanthopleura vaillantii, Ecology, QH540-549.5

Abstract

According to importance of Chabahar Bay as one of the marine strategic areas and need to learn about pollution of this area, in this study, Cu, Ni and Zn concentration was investigated in the soft tissue of chiton Acanthopleura vaillantii from 5 stations in the coast of Chabahar Bay at autumn of 1394. For this purpose, samples were collected and transferred to the laboratory, then after preparation and chemical digestion process, concentration of heavy metal was measured in soft tissue of Chiton by Atomic Absorption spectrophotometer. The results showed that the mean of concentration of heavy metals in soft tissue of Chiton had a pattern just Zn> Ni> Cu. Statistical analysis showed that all stations had significant differences (P

Published

2016

31. Development and characterization of 135 SNP markers in chiton Acanthochitona rubrolineatus

Author

Zhikai Xing, Yunqi Song, Jirui zhang, Lijun Wang, Donghui Sun, Sen Wu, Jiangyong Qu, Yan Ni, Shukui Zhang, Chenghong Wang, Xumin Wang, Ying Qu, and Zilin Jiang

Subjects

biology, Evolutionary biology, Snp markers, Genetics, Acanthochitona, Chiton, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Acanthochitona rubrolineatus (Lischke, 1873) (Polyplacophora, Neoloricata, Cryptoplacidae) is an important species widely distributed in the middle and low tide zone of coastal intertidal zone along the China Sea coast. In recent years, the serious pollution of seawater has caused a sharp decline in the number of wild populations of A. rubrolineatus. Lacking of effective molecular markers limits the effective protection and management of this species. Studies for the isolation and characterization of 135 A. rubrolineatus SNPs markers were carried out. The frequency of minor allele ranges from 0.0125 to 0.5000. The observed heterozygosity and expected heterozygosity are 0.0000-0.9750, 0.0731-0.6696, respectively. The inbreeding value varies from -0.2902 to 0.9966. Among them, there are 27 sites markablely differently from Hardy-Weinberg equilibrium (P < 0.05). The study of the polymorphic SNPs will provide a therotical basis for further analysis of population genetic analysis on A. rubrolineatus.

Published

2022

32. Chiton virgulatus Sowerby 1840

Author

Reyes-Gómez, Adriana, Vargas-Ponce, Ofelia, Galván-Villa, Cristian, Salgado-Barragán, José, Esqueda-González, Ma. Del Carmen, and Ríos-Jara, Eduardo

Subjects

Polyplacophora, Chiton virgulatus, Mollusca, Animalia, Chitonida, Biodiversity, Taxonomy, Chitonidae, Chiton

Abstract

Chiton virgulatus Sowerby, 1840 (Figures 3D, 7L) Chiton virgulatus Sowerby, 1840: 824. Chresonymy and synonymy in Bullock (1988). Type material. According to Bullock (1988), the holotype is held in BMNH but Bullock mentioned that it was not found. Type locality. According to Bullock (1988) at Bahía Kino, Sonora, México. Material examined. Sixty– two specimens, BL 3.9–47.8 mm. Habitat. In the intertidal, on large rocks with brown and red crusty algae patches. The rocks were found in shallow waters in an exposed, semi–dry rocky area; the chitons were collected on the rocks buried in the wet sand. Remarks. Chiton virgulatus has radial, bifurcated, narrow ribs (Fig. 3D) on the head and tail valves and the lateral areas of the intermediate valves. Radula with unicuspid major lateral teeth, minor lateral tooth of about the same length as the central tooth (Fig. 7L). Thorpe (1971) and Abbott (1974) agreed that Chiton stokesii and C. virgulatus are sympatric in the southern Mexican Tropical Pacific (MTP). Bullock (1985) and Reyes–Gómez (2016) rectified this assumption based on their expeditions in this region and the study of additional material. They found that C. virgulatus is restricted to the Gulf of California and C. stokesii to Central America. Chiton virgulatus is endemic to the Gulf of California and, contrary to other species of the genus Chiton present in the Mexican Pacific, it is characterized by a longitudinal and bifurcated tegmental sculpture., Published as part of Reyes-Gómez, Adriana, Vargas-Ponce, Ofelia, Galván-Villa, Cristian, Salgado-Barragán, José, Esqueda-González, Ma. Del Carmen & Ríos-Jara, Eduardo, 2023, Inventory of chiton species (Polyplacophora) from the rocky intertidal of the Northern Gulf of California, with an illustrated taxonomic key, pp. 147-178 in Zootaxa 5296 (2) on pages 165-166, DOI: 10.11646/zootaxa.5296.2.2, http://zenodo.org/record/7973065, {"references":["Bullock, R. C. (1988) The genus Chiton in the new world (Polyplacophora: Chitonidae). The Veliger, 31, 141 - 191.","Thorpe, S. R. (1971) Class Polyplacophora. In: Keen, A. M., Seashells of Tropical West America, Marine Mollusks from Baja California to Peru. 2 nd Edition. Stanford University Press, pp. 861 - 882","Abbott, R. T. (1974) American seashells. The marine Mollusca of the Atlantic and Pacific coasts of North America. Van Nostrand Reinhold, New York, New York, 663 pp.","Bullock, R. C. (1985) The Stenoplax limaciformis (Sowerby, 1832) species complex in the New World (Mollusca: Polyplacophora: Ischnochitonidae). The Veliger, 27 (3), 291 - 307."]}

Published

2023

33. Chiton Linnaeus 1758

Author

Reyes-Gómez, Adriana, Vargas-Ponce, Ofelia, Galván-Villa, Cristian, Salgado-Barragán, José, Esqueda-González, Ma. Del Carmen, and Ríos-Jara, Eduardo

Subjects

Polyplacophora, Mollusca, Animalia, Chitonida, Biodiversity, Taxonomy, Chitonidae, Chiton

Abstract

Chiton Linnaeus, 1758 Type material and locality. Chiton tuberculatus Linnaeus, 1758 (type by subsequent designation), Chiton tuberculatus Linnaeus, 1758: 667. Central America., Published as part of Reyes-Gómez, Adriana, Vargas-Ponce, Ofelia, Galván-Villa, Cristian, Salgado-Barragán, José, Esqueda-González, Ma. Del Carmen & Ríos-Jara, Eduardo, 2023, Inventory of chiton species (Polyplacophora) from the rocky intertidal of the Northern Gulf of California, with an illustrated taxonomic key, pp. 147-178 in Zootaxa 5296 (2) on page 165, DOI: 10.11646/zootaxa.5296.2.2, http://zenodo.org/record/7973065, {"references":["Linnaeus, C. (1758) Systema Naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Vol. 1. Editio Decima, reformata [10 th Revised Edition]. Impensis Direct. Laurentii Salvii, Holmiae, 824 pp. https: // doi. org / 10.5962 / bhl. title. 542"]}

Published

2023

34. Life history, patchy distribution, and patchy taxonomy in a shallow-water invertebrate (Mollusca: Polyplacophora: Lepidopleurida).

Author

Sigwart, Julia D. and Chen, Chong

Abstract

Things without names are difficult to rationalise, and so species that go without names are difficult to conserve or protect. This is a case study in resolving conflicts in historical taxonomy and ‘real’ species (identifiable and evolutionarily relevant groupings) using an approach including population genetics, natural history, and pragmatism. We report the observation that populations of a shallow-water chiton species from Washington and British Columbia demonstrate extremely high site fidelity and patchy distribution. Their limited dispersal potential and isolation could be explained by a brooding life history. This stands in direct contrast with the supposedly wide distribution of this “species”, Leptochiton rugatus (Carpenter in Pilsbry, 1892) sensu lato, from the Sea of Japan to Baja California. But this lineage has previously been suggested to comprise several cryptic species. Indeed, a haplotype network analysis using 61 individual sequences of the cytochrome oxidase c subunit I gene for L. rugatus s.l. revealed four discrete clusters which correspond to different parts of the geographic range. We infer these to represent four distinct species, at least two of which are likely novel. Leptochiton rugatus sensu stricto is herein reinterpreted as restricted to California and Baja California, and the new name L. cascadiensis sp. nov. is established for the lineage with a distribution in the Cascadia coastal bioregion from the panhandle of Alaska to Oregon. There are minor morphological differences among these species in the L. rugatus species complex, but genetic data or morphological observations alone would not have been sufficient to definitively recognise these groups as species-level lineages. The observation that different species within the complex may have different life history strategies provides important support for interpreting different populations as genuinely separate species. [ABSTRACT FROM AUTHOR]

Published

2018

35. Report of a chiton in the genus Leptochiton (Lepidopleurida: Lepidopleurina: Leptochitonidae) from the Yap Trench in the West Pacific Ocean.

Author

Wang, Chunsheng, Zhou, Yadong, Jiang, Dan, and Han, Jie

Abstract

Two chiton specimens were collected from sedimentary habitat by China’s manned Jiaolong submersible diving to a depth of 6 754 m in the north of the Yap Trench. This is a new locality record for chiton. Both morphological and molecular data support that the two specimens are the same species belonging to the genus Leptochiton. Morphologically, this species strongly resembles L. vanbellei and L. deforgesi. Phylogenetically, it has a close evolutionary relationship with L. vanbellei, L. deforgesi and L. boucheti. This is the third deepest record for deepsea chitons so far. [ABSTRACT FROM AUTHOR]

Published

2018

36. Mollusk freaks: new teratological cases on marine mollusks from the South Pacific Ocean.

Author

Torres, Felipe I., Ibáñez, Christian M., Sanhueza, Víctor E., and Pardo-Gandarillas, M. Cecilia

Subjects

*MOLLUSKS, *TERATOLOGY, *WATER pollution, *LIMPETS

Abstract

The present study provides new documented cases of abnormalities on chitons (hypomerism and coalescence of shell plates), in addition to four new cases on keyhole limpets (closed apical opening), and one new teratologic case on internal organs in octopuses (missing gill). We assess the frequency of these abnormalities and discuss about its possible environmental, mechanic and genetic causes. Several of these findings represent the first of these cases reported in South Pacific Ocean. [ABSTRACT FROM AUTHOR]

Published

2018

37. Unveiling commonalities in understudied habitats of boulder-reefs: life-history traits of the widespread invertebrate and algal inhabitants.

Author

Liversage, K. and Kotta, J.

Subjects

*BIODIVERSITY, *HABITATS, *INVERTEBRATE behavior, *INVERTEBRATES, *SEA urchins

Abstract

Compared to stable reef habitats, dynamic boulder-reefs (commonly called boulder-fields when intertidal) host many habitat specialist species. Most occur underneath boulders where they are largely hidden from view; only limited research has assessed their life-histories despite their widespread importance for biological diversity. But some abundant under-boulder species likely structuring this system are habitat generalists widely researched elsewhere. Here we review this research, focusing on three widespread under-boulder sessile taxa: spirorbids, serpulids (tubeworms) and nongeniculate coralline algae, and three mobile taxa: sea urchins, chitons and crabs. Spirorbids have extensive reproductive/colonization capabilities but are readily out-competed. We thus characterize spirorbids as mostly early-successional, while serpulids often have greater competitiveness. Nongeniculate corallines occur underneath boulders where light reaches, although they can withstand low levels of that and most other resources. Such traits characterize nongeniculate corallines as late-successional. Thus, succession underneath boulders may shift deterministically from early tubeworms to late nongeniculate corallines. Habitat generalist sea urchin and chiton species often have strong inter-specific interactions in exposed habitats. Future experiments may find that under-boulder aggregations of these taxa, and also crabs, are impacting algal and invertebrate assemblages. These experiments will be required if dynamic boulder-reefs are to be as thoroughly understood as other benthic systems. [ABSTRACT FROM AUTHOR]

Published

2018

38. Characterization of Chiton <italic>Ischnochiton hakodadensis</italic> Foot Based on Transcriptome Sequencing.

Author

Dou, Huaiqian, Miao, Yan, Li, Yuli, Li, Yangping, Dai, Xiaoting, Zhang, Xiaokang, Liang, Pengyu, Liu, Weizhi, Wang, Shi, and Bao, Zhenmin

Abstract

Chiton (Ischnochiton hakodadensis) is one of marine mollusks well known for its eight separate shell plates. I. hakodadensis is important, which plays a vital role in the ecosystems it inhabits. So far, the genetic studies on the chiton are scarce due in part to insufficient genomic resources available for this species. In this study, we investigated the transcriptome of the chiton foot using Illumina sequencing technology. The reads were assembled and clustered into 256461 unigenes, of which 42247 were divided into diverse functional categories by Gene Ontology (GO) annotation terms, and 17256 mapped onto 365 pathways by KEGG pathway mapping. Meanwhile, a set of differentially expressed genes (DEGs) between distal and proximal muscles were identified as the foot adhesive locomotion associated, thus were useful for our future studies. Moreover, up to 679384 high-quality single nucleotide polymorphisms (SNPs) and 19814 simple sequence repeats (SSRs) were identified in this study, which are valuable for subsequent studies on genetic diversity and variation. The transcriptomic resource obtained in this study should aid to future genetic and genomic studies of chiton. [ABSTRACT FROM AUTHOR]

Published

2018

39. Grazer commensalism varies across the species range edge: host chiton size influences epibiont limpet incidence and spatial segregation

Author

Moisés A. Aguilera, Javiera Bravo, Sergio A. Carrasco, Mauricio J. Carter, and Christian M. Ibáñez

Subjects

Ecology, biology, Host (biology), Limpet, Species distribution, Zoology, Aquatic Science, Intertidal ecology, biology.organism_classification, Commensalism, Scurria parasitica, Chiton, Epibiont, Ecology, Evolution, Behavior and Systematics

Abstract

Biotic interactions can determine species distributions and range limits, but little theoretical background exists regarding variation in commensalistic associations across latitudes. We estimated the geographic variation of the epibiont limpet Scurria parasitica’s association with its obligate host chiton species Enoplochiton niger across their distribution from Peru to northern Chile (12-30°S), to test the influence of host size variation on epibiont occurrence, individual spatial distribution, and body size. We analyzed the contribution of chiton body size to the pattern of abundance and distribution of occupancy of the epibiont limpet. We also examined the relationship between limpet shell size, coverage, and incidence probability function and chiton body size across latitudes. For some localities across the range edge of the host grazer’s distribution (i.e. 28-30°S), incidence and densities of the epibiont limpet were higher on larger chitons. Unoccupied host chiton proportions decreased at the poleward edge of the host-epibiont species range compared with sites located to the north. Increased variation in the epibiont limpet distribution on the host chiton plates suggests that limpets’ spatial segregation may have a role in lessening intraspecific interference competition with the host species at southern latitudes. Therefore, local and large-scale processes seem to contribute to modify the host-epibiont association pattern. Further studies are necessary to determine if this association shifts from commensalistic to antagonistic across the distributional range of both species.

Published

2021

40. Cytological Bases of Regulatory Development in Echinoderms and Determination in Mollusks

Author

A. L. Drozdov

Subjects

animal structures, Zygote, biology, Embryogenesis, Polyembryony, Embryo, biology.organism_classification, Blastula, General Biochemistry, Genetics and Molecular Biology, Cell biology, biology.animal, embryonic structures, Coelom, Chiton, General Agricultural and Biological Sciences, Sea urchin

Abstract

Protostomia and Deuterostomia as coelomic animals have a deterministic (mosaic) and regulatory development. The embryogenesis of Protostomia has no tendency toward regulation, which, however, is well developed in Deuterostomia. In our works, the ability to regulate the development of echinoderms, including the effect of gravitational fields on embryos, has been investigated. After centrifugation of sea urchin zygotes, in some cases the blastula is split in half and identical twins develop. The frequency of twins correlates with the cortex rigidity, which is determined by the organization of the cortical cytoskeleton of eggs and embryos. Twins do not form after centrifugation of zygotes in chiton and bivalve mollusks, but in some cases polyembryonic elements develop. Unlike sea urchins, the cortical cytoskeleton in mollusks is finally formed in ovogenesis and is not rearranged during fertilization. The morphogenetic role of the cortex of eggs and embryos in the regulatory development of Deuterostomia and the deterministic (mosaic) development of Protostomia is discussed.

Published

2021

41. Chiton albolineatus Broderip and G. B. Sowerby I 1829

Author

Reyes-Gómez, Adriana, Flores-Garza, Rafael, Galeana-Rebolledo, Lizeth, Hernández-Vera, Gerardo, Galván-Villa, Cristian M., Torreblanca-Ramírez, Carmina, Flores-Rodríguez, Pedro, García-Ibañez, Sergio, and Ríos-Jara, Eduardo

Subjects

Polyplacophora, Chiton albolineatus, Mollusca, Animalia, Chitonida, Biodiversity, Taxonomy, Chitonidae, Chiton

Abstract

Chiton albolineatus Broderip and G.B. Sowerby I, 1829 Figures 2M, 10K–M, 11A–E Distribution. From Mazatlán, Sinaloa to Bahías de Huatulco, Oaxaca, México (Reyes-Gómez 2016). Type specimens. According to Bullock (1988), holotype in BMNH? but not found. Type Locality. Mazatlán, Sinaloa (Bullock 1988). Material examined. 152 specimens, maximum size of 40.7 mm long, 22.5 mm wide. L (n=7); U (n=5); M (n=7); P (n=9); B (n=6); K (n=13); Q (n=5); U (n=3); D (n=7); H (n=10); E (n=12), F (n=4); C (n=16); N (n=4); I (n=12); S (n=7); J (n=8), A (n=5). Habitat. Mostly found at shallow subtidal depths in areas of low wave energy, usually congregated in high numbers on medium-sized to large rocks and buried in sand. Juvenile specimens were mostly collected between 3–6 m depth on smaller rocks and shells. Adult specimens were found in the subtidal with S. limaciformis, T. forbesii, and C. lurida. Remarks. The jugal area of intermediate valves II and III usually had darker tones of green. However, in many individuals the valves are completely dark green or black. Color variability was observed in the lateral areas: usually they show continuous, regular white radial bands o but in some specimens the bands are discontinuous and consist of numerous dots. Chiton albolineatus is important in local fisheries in the southern Mexican Pacific (Oaxaca and Guerrero) due to its use as bait. It has also been used for human consumption in the local gastronomy, in a dish made mainly of the foot of C. articulatus (“sea cockroach”) but it has become increasingly difficult to find this species and has been replaced by the meat of C. albolineatus, Published as part of Reyes-Gómez, Adriana, Flores-Garza, Rafael, Galeana-Rebolledo, Lizeth, Hernández-Vera, Gerardo, Galván-Villa, Cristian M., Torreblanca-Ramírez, Carmina, Flores-Rodríguez, Pedro, García-Ibañez, Sergio & Ríos-Jara, Eduardo, 2022, Intertidal chitons (Mollusca: Polyplacophora) from the rocky coastline of Guerrero, México, with the description of a new species, pp. 451-492 in Zootaxa 5155 (4) on page 471, DOI: 10.11646/zootaxa.5155.4.1, http://zenodo.org/record/6691172, {"references":["Reyes-Gomez, A. (2016) The Polyplacophora from the Mexican Pacific. Supplement to The Festivus, 48, 1 - 150.","Bullock, R. C. (1988) The genus Chiton in the New World (Polyplacophora: Chitonidae. The Veliger, 31 (3 / 4), 141 - 191."]}

Published

2022

42. Chiton articulatus G. B. Sowerby I 1832

Author

Reyes-Gómez, Adriana, Flores-Garza, Rafael, Galeana-Rebolledo, Lizeth, Hernández-Vera, Gerardo, Galván-Villa, Cristian M., Torreblanca-Ramírez, Carmina, Flores-Rodríguez, Pedro, García-Ibañez, Sergio, and Ríos-Jara, Eduardo

Subjects

Polyplacophora, Mollusca, Animalia, Chitonida, Biodiversity, Chiton articulatus, Taxonomy, Chitonidae, Chiton

Abstract

Chiton articulatus G. B. Sowerby I, 1832 Figures 11F–K, 12A–C Distribution. From Mazatlán, Sinaloa to La Ventosa, Oaxaca, including Isla Socorro, Revillagigedo, México (Reyes-Gómez 2016). Type specimens. According to Bullock (1988) and Kaas et al. (2006) holotype in BMNH? but not found. Type Locality. Guaymas, Sonora, Gulf of California; Bullock (1988) mentioned that the record from Guaymas is doubtful. To date there are no reports of C. articulatus at Guaymas. According to the first author of this study (Reyes-Gómez) and based on her explorations at Bahía Navachiste, Sinaloa (northern Mazatlán), Puerto de Guaymas, Bahía San Carlos and Bahía Kino, Sonora there is no evidence that this species ranges up north of Mazatlán. Material examined. 153 specimens, maximum size of 65.9 mm 32.8 mm wide. N (n=9); K (n=12); R (n=7); T (n=11); P (n=6); M (n=16); C (n=4); B (n=9); D (n=13); U (n=6); S (n=7); H (n=5); E (n=10); L (n=5); N (n=4); J (n=6); I (n=3); Q (n=14); F (n=2); A (n=4). Habitat. This species was found abundant in all of our surveys. It was mostly found in the intertidal during low tides, between rocks and crevices and occasionally in tide pools, and in high energy wave areas. Juvenile specimens were found at 3–5 m depth on small rocks buried in sand. Remarks. Examination of specimens from Oaxaca (Puerto Ángel, Estacahuite, Salina Cruz), Guerrero (Costa Chica, Acapulco, Costa Grande) and Mazatlán (Playa Norte, Playa Faro, Isla Venados) revealed an unique color pattern for specimens from each region. We identified that the specimens from Oaxaca display a mostly light to dark olive-green tegmentum, while tegmentum color of specimens from Guerrero showed a variety of, vary from red to brown, and from dark to lighter green. Specimens from Sayulita, Nayarit (e.g., CNMO 40012) are mostly olivegreen with irregular dark lines (6–9), arranged longitudinally along the diagonal ridge and on the posterior margin of intermediate valves which show a “zebra” like pattern (Figs. 20N). Specimens from Mazatlán exhibit radial bands (to the valve apex) of purple or dark red color, which turn brown post mortem. These bands are exclusive of chitons from this region (Figs. 20A–C). Chiton articulatus is the most studied chiton species from México (Avila-Poveda & Abadia-Chanona 2013; García-Ibáñez et al. 2013; Ramírez-Álvarez et al. 2013; Abadia-Chanona et al. 2016). These works have contributed greatly to the knowledge of its reproductive cycle. It is important for local fisheries. These studies also emphasized the negative effects of its human consumption and how this has contributed to the decrease in abundance and density of the natural populations year after year. Other studies (Holguín-Quiñones & Michel-Morfín 2002; HolguínQuiñones 2006; Ríos-Jara et al. 2006; Flores-Campaña et al. 2007; García-Ibáñez et al. 2013; Flores-Rodríguez et al. 2014) have focused on the rocky intertidal community composition including this species, and its importance within this habitat from Mazatlán, Jalisco, Michoacán, Colima, Guerrero and Oaxaca. García-Ibáñez et al. (2014) have addressed the decline of C. articulatus populations and how it has negatively modified the population´s structure and assemblage of other species like the gastropod Plicopurpura pansa (Gould, 1853), which feeds on this species. Álvarez-Cerrillo et al. (2017) reported a variety of epibionts (Arthropoda, Bryozoa, Annelida, Chordata, and Mollusca) inhabiting the valves of a single specimen of C. articulatus., Published as part of Reyes-Gómez, Adriana, Flores-Garza, Rafael, Galeana-Rebolledo, Lizeth, Hernández-Vera, Gerardo, Galván-Villa, Cristian M., Torreblanca-Ramírez, Carmina, Flores-Rodríguez, Pedro, García-Ibañez, Sergio & Ríos-Jara, Eduardo, 2022, Intertidal chitons (Mollusca: Polyplacophora) from the rocky coastline of Guerrero, México, with the description of a new species, pp. 451-492 in Zootaxa 5155 (4) on pages 471-472, DOI: 10.11646/zootaxa.5155.4.1, http://zenodo.org/record/6691172, {"references":["Reyes-Gomez, A. (2016) The Polyplacophora from the Mexican Pacific. Supplement to The Festivus, 48, 1 - 150.","Bullock, R. C. (1988) The genus Chiton in the New World (Polyplacophora: Chitonidae. The Veliger, 31 (3 / 4), 141 - 191.","Kaas, P., Van Belle, R. & Strack, H. L. (2006) Monograph of Living Chitons (Mollusca: Polyplacophora). 6. Suborder Ischnochitonina (concluded): Schizochitonidae & Ischnochitonidae. Additions to Vols. 1 - 5. E. J. Brill, Leiden, New York and Koln, 463 pp. https: // doi. org / 10.1163 / 9789047418375","Avila-Poveda, O. H. & Abadia-Chanona, Y. Q. (2013) Emergence, Development, and Maturity of the Gonad of Two Species of Chitons \" Sea Cockroach \" (Mollusca: Polyplacophora) through the Early Life Stages. Plos One, 8 (8), e 69785. https: // doi. org / 10.1371 / journal. pone. 0069785","Garcia-Ibanez, S., Flores-Garza, R., Flores-Rodriguez, P., Valdes-Gonzalez, A. & Olea-de la Cruz, F. (2013) Diagnostico pesquero de Chiton articulatus (Mollusca: Polyplacophora) en Acapulco, Mexico. Revista de Biologia Marina y Oceanografia, 48 (2), 293 - 302. https: // doi. org / 10.4067 / S 0718 - 19572013000200009","Ramirez-Alvarez, C., Velez-Arellano, N., Garcia-Dominguez, F. A., Garcia-Ibanez, S. & Ituarte, C. (2013) Hermaphroditism in two populations of Chiton articulatus (Mollusca: Polyplacophora) from the eastern tropical coast of Mexico. Invertebrate Reproduction and Development, 58 (1), 49 - 52. https: // doi. org / 10.1080 / 07924259.2013.808709","Abadia-Chanona, Q. Y., Avila-Poveda, O. H., Arellano-Martinez, M. & Ceballos-Vazquez, B. P. (2016) Observation and establishment of gonad development stages in polyplacophorans (Mollusca): Chiton (Chiton) articulatus a case study. Acta Zoologica, 97, 506 - 521. https: // doi. org / 10.1111 / azo. 12165","Holguin-Quinones, O. E. & Michel-Morfin, J. E. (2002) Distribution, density and length-weight relationship of Chiton articulatus Sowerby, 1832 (Mollusca-Polyplacophora) on Isla Socorro, Revillagigedo Archipelago, Mexico. Journal of Shellfish Research, 21, 239 - 241.","Rios-Jara, E., Perez-Pena, M., Lopez-Uriarte, E. & Juarez-Carrillo, E. (2006) Biodiversidad de moluscos marinos de Jalisco y Colima, con anotaciones sobre su aprovechamiento en la region. In: Jimenez-Quiroz, M. C. & Espino-Barr, E. (Eds.), Los recursos pesqueros y acuicolas de Jalisco, Colima y Michoacan. Centro Regional de Investigacion Pesquera (CRIP) de Manzanillo, Colima, Instituto Nacional de la Pesca, Manzanillo, pp. 103 - 120.","Flores-Campana, L. M., Gonzalez-Montoya, M. A., Ortiz-Arellano, M. A. & Arzola-Gonzalez, J. F. (2007) Estructura poblacional de Chiton articulatus en las islas Pajaros y Venados de la Bahia de Mazatlan, Sinaloa, Mexico. Revista Mexicana de Biodiversidad, 78, 23 - 31. https: // doi. org / 10.22201 / ib. 20078706 e. 2007.002.299","Flores-Rodriguez, P., Flores-Garza, R., Garcia-Ibanez, S., Torreblanca-Ramirez, C., Galeana-Rebolledo, L. & Santiago-Cortes, E. (2014) Mollusks of the Rocky Intertidal Zone at Three Sites in Oaxaca, Mexico. Open Journal of Marine Science, 4 (4), 326 - 337. https: // doi. org / 10.4236 / ojms. 2014.44029","Garcia-Ibanez, S., Flores-Rodriguez, P., Nieto-Navarro, J. T., Flores-Garza, R. & Bernabe-Moreno, I. E. (2014) Respuesta del carnivoro Plicopurpura pansa (Mollusca: Gastropoda) y el herbivoro Chiton articulatus (Mollusca: Polyplacophora) a factores ambientales en Acapulco, Mexico. Ciencia UAT, 8 (2), 11 - 21. https: // doi. org / 10.29059 / cienciauat. v 8 i 2.294","Gould, A. A. (1853) Descriptions of shells from the Gulf of California and the Pacific coasts of Mexico and California. Boston Journal of Natural History, 6, 374 - 407.","Alvarez-Cerrillo, L. R., Valentich-Scott, P. & Newman A. W. (2017) A remarkable infestation of epibionts and endobionts of an edible chiton (Polyplacophora: Chitonidae) from the Mexican Tropical Pacific. The Nautilus, 131 (1), 87 - 96."]}

Published

2022

43. Radula and Shell Microstructure Variations are Congruent with a Molecular Estimate of Shallow-Water Japanese Chitons.

Author

Owada M

Subjects

Animals, Phylogeny, Water, Animal Shells, Tooth, Polyplacophora genetics, Animal Structures anatomy & histology

Abstract

Variations of the radula and shell microstructures in 33 species of Japanese chiton were investigated along with molecular phylogenetic trees. The molecular phylogenetic trees indicated that Chitonida was composed of four clades, of which two clades formed Acanthochitonina and corresponded to Mopalioidea and Cryptoplacoidea, respectively, and the other clades formed Chitonina. In the radula, the shapes of the central and centro-lateral teeth and the petaloid process varied greatly among species or genera and were useful for the identification of particular species or genera. The presence of accessory and petaloid processes and the cusp shape were relatively conserved and useful for recognizing particular genera or even suborders. In the valves, four to six shell layers were found at the section, but the ventral mesostracum was not observed in Acanthochitonina. The shell microstructures in the ventral sublayer of the tegmentum varied at suborder, but those in the other layers were almost constant. The megalaesthete chamber type varied at superfamily and was helpful to identify particular families or superfamilies. The characteristics of the shell layers and shell microstructures appear to be a synapomorphy shared by the members of Acanthochitonina. The classification within Chitonina needs to be reexamined because the variations of the cusp shape and megalaesthete chamber type were relatively large and did not correspond to the current classification. Callochiton formed a sister group with Chitonida and would be equally closely related to Chitonina and Acanthochitonina because of possessing a mosaic of characteristics from both.

Published

2023

44. Continuous and Regular Expansion of a Distributed Visual System in the Eyed Chiton Tonicia lebruni

Author

Lauren Sumner-Rooney and Julia D. Sigwart

Subjects

Dorsum, Dense array, Armature (computer animation), Shell (structure), Geometry, Chiton, Biology, General Agricultural and Biological Sciences, biology.organism_classification

Abstract

Chitons have a distinctive armature of eight articulating dorsal shells. In all living species, the shell valves are covered by a dense array of sensory pores called aesthetes; but in some taxa, a subset of these are elaborated into lensed eyes, which are capable of spatial vision. We collected a complete ontogenetic series of the eyed chiton Tonicia lebruni de Rochebrune, 1884 to examine the growth of this visual network and found that it expands continuously as eyes are added at the margin during shell growth. Our dataset ranged from a 2.58-mm juvenile with only 16 eyes to adults of 25–31 mm with up to 557 eyes each. This allowed us to investigate the organization (and potential constraints therein) of these sensory structures and their development. Chiton eyes are constrained to a narrowly defined region of the shell, and data from T. lebruni indicate that they are arranged roughly bilaterally symmetrically. We found deviations from symmetry of up to 10%, similar to irregularity reported in some other animals with multiplied eyes. Distances separating successive eyes indicate that, while shell growth slows during the life of an individual chiton, eyes are generated at regular time intervals. Although we could not identify a specific eye-producing tissue or organ, we propose that the generation of new eyes is controlled by a clock-like mechanism with a stable periodicity. The apparent regularity and organization of the chiton visual system are far greater than previously appreciated. This does not imply the integration of shell eyes to form composite images, but symmetry and regular organization could be equally beneficial to a highly duplicated system by ensuring even and comprehensive sampling of the total field of view.

Published

2021

45. First confirmed record of an caribbean striate glass-hair chiton (mollusca: polyplacophora: acanthochitonidae) from the central Venezuelan coast, Southern Caribbean / Primeiro registro confirmado de um quíton caribenho de espículas estriadas vidrosas (mollusca: polyplacophora: acanthochitonidae) para a costa central Venezuelana, Sul do Caribe

Author

Gabriela Carias Tucker and Aisur Ignacio Agudo-Padrón

Subjects

Polyplacophora, Geography, biology, General Earth and Planetary Sciences, Acanthochitonidae, Zoology, Chiton, biology.organism_classification, Mollusca, General Environmental Science

Published

2021

46. Microplastic ingestion and feeding ecology in three intertidal mollusk species from Lima, Peru

Author

Luis Santillán, Diego Marcelo Apaza-Vargas, and Gabriel E. De-la-Torre

Subjects

0106 biological sciences, Microplastics, biology, 010604 marine biology & hydrobiology, Microplastic, plastic debris, Zoology, Intertidal zone, mollusk, Aquatic Science, Oceanography, biology.organism_classification, 01 natural sciences, Feeding behavior, Peru, Tegula atra, Ingestion, Chiton, Feeding ecology, Semimytilus algosus

Abstract

Microplastics (< 5 mm) are ubiquitous contaminants in the marine environment. The aims of the present study were to report the incidence of microplastic pollution in three mollusk species from the coast of Lima and to investigate the relationship between microplastic ingestion and feeding ecology. Specimens of three mollusk species Semimytilus algosus, Tegula atra and Chiton granosus were sampled from the intertidal rocky zone. For microplastic isolation, soft tissues were digested in 10% KOH, vacuum filtrated and analyzed under a microscope. Rigorous contamination prevention measures were taken into account. C. granosus was the most contaminated mollusk (6.92 ± 2.13 particles g-1). Red fibers were the overall most abundant microplastic. The feeding behavior of T. atra promotes microplastic exposure to C. granosus. More research is needed to fully understand the microplastic effects on mollusk species.

Published

2020

47. The shallow water chiton fauna of the Salish Sea

Author

Roger Clark

Subjects

Waves and shallow water, Oceanography, biology, Fauna, Chiton, biology.organism_classification, Geology

Abstract

The Salish Sea, encompassing the inland waters of Washington State, and southern British Columbia, Canada, has one of the richest chiton faunas in the world, with nearly 40 species to be found in the intertidal and shallow subtidal depths, with a few only found on the outer fringe of Salish Sea, not in the inland waters

Published

2020

48. World’s largest chiton (Cryptochiton stelleri) is an inefficient thermoregulator

Author

Paul E. Bourdeau and Lily C. McIntire

Subjects

0106 biological sciences, Ecology, biology, 010604 marine biology & hydrobiology, Zoology, Chiton, Cryptochiton, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Temperature stress, Ecology, Evolution, Behavior and Systematics

Abstract

Rocky intertidal zones are some of the most thermally stressful environments on earth, where ectotherms deal with tidally driven fluctuations in air and water temperatures that can exceed their maximum thermal tolerance. However, not all intertidal ectotherms face the same exposure risk. In northern regions of the eastern Pacific, summertime low tides occur during midday, exposing ectotherms to potentially stressful temperatures, whereas cooler pre-dawn low tides in southern regions buffer ectotherms from thermal stress. Gumboot chitonsCryptochiton stelleriare thermally sensitive intertidal grazers that range from southern California to Alaska, exposing them to a mosaic of thermal stresses. We quantified chiton thermal performance limits in the laboratory by testing the effects of elevated air and water temperatures on grazing. We also compared the thermoregulation efficiency of chitons from thermally benign northern California sites with those from thermally stressful San Juan Island, Washington sites, using 3 components: (1) biomimetic thermal models deployed intertidally, (2) chiton body temperatures in the field, and (3) chiton thermal preference in a laboratory-based thermal gradient. We found that chiton grazing performance was greatly reduced at 18°C in water, and they reached their grazing performance limit after exposure to 20°C in air, confirming previous work documenting thermal limits on chiton respiration. Chitons preferred body temperatures within 3°C of their thermal performance limits, but they rarely achieved body temperatures that would maximize grazing in the field. This suggests that chitons are not thermoregulating efficiently with respect to maximizing grazing performance, but instead are minimizing exposure to temperatures that would be detrimental to their performance.

Published

2020

49. Phylogenetic position and morphological descriptions of Chiton species from the south-eastern Pacific

Author

Julia D. Sigwart, M. Cecilia Pardo-Gandarillas, Marco A. Méndez, Christian M. Ibáñez, Javier Sellanes, and Boris I. Sirenko

Subjects

0106 biological sciences, 0301 basic medicine, biology, Phylogenetic tree, Chitonida, Biodiversity, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Chitonidae, Polyplacophora, 03 medical and health sciences, Position (obstetrics), 030104 developmental biology, Mollusca, Evolutionary biology, Animalia, Animal Science and Zoology, Chiton, Ecology, Evolution, Behavior and Systematics, South eastern, Taxonomy

Abstract

In the south-eastern Pacific Ocean (SEP), six species of the genus Chiton have been recorded. However, the taxonomic status and geographic distribution of some of these species is controversial. In this study, we compare and describe Chiton species in the SEP. More than 3000 specimens of six species from 49 localities were analysed for morphological features. Among these, 27 specimens of the six species from the SEP were sequenced for the mitochondrial barcode region (COI) and ribosomal 16S and 18S to infer phylogenetic relationships. Phylogenetic reconstruction indicates that the genus Chiton in the SEP represents a polyphyletic group and confirms the placement of C. barnesii in Chiton and not in Radsia, as previously suggested. Among Chiton s.s., C. cumingsii is the sister-species of C. magnificus, while C. granosus is a sister-species of C. barnesii. This analysis also indicates that C. bowenii is a junior synonym of C. magnificus. Our results improved the knowledge of systematics and distribution of Chiton species in the SEP, suggesting the presence of five valid species of the genus. In this study, we designate a lectotype for C. cumingsii and a neotype for C. granosus.

Published

2020

50. Hitchhiking consequences for genetic and morphological patterns: the influence of kelp-rafting on a brooding chiton

Author

P M Salloum, Anna W. Santure, Shane Lavery, Jonathan M. Waters, P. de Villemereuil, University of Auckland [Auckland], Institut de Systématique, Evolution, Biodiversité (ISYEB ), Muséum national d'Histoire naturelle (MNHN)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA), Department of Zoology [Dunedin], and University of Otago [Dunedin, Nouvelle-Zélande]

Subjects

0106 biological sciences, 0303 health sciences, biology, Ecology, Kelp, [SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics, Phylogenetics and taxonomy, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Chiton, 14. Life underwater, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

Onithochiton neglectus is a morphologically variable, brooding chiton inhabiting coastal reefs throughout New Zealand and its Sub-Antarctic Islands. Southern O. neglectus populations are typically associated with buoyant kelp (Durvillaea spp.) and are potentially connected via kelp-rafting. Northern O. neglectus populations are less likely to raft, due to lower numbers of Durvillaea in northern New Zealand. To test for the impact of kelp-rafting on the spatial distribution of variation in O. neglectus, we undertook a combined analysis of morphological and genetic variation across the range of the species. Geometric morphometrics were used to assess shell shape. We detected a northern vs. southern split in shell shape, corresponding to the frequency of the O. neglectus/Durvillaea spp. association. To assess O. neglectus genetic patterns across New Zealand, we estimated phylogenetic trees with nuclear (ITS) and mitochondrial (COI and 16S) markers, which revealed distinct northern and southern lineages, and an additional lineage in central New Zealand. Neither the morphological nor genetic groups match existing O. neglectus subspecies, but are concordant with the patterns of association of O. neglectus with Durvillaea. We suggest that shell shape may be linked to O. neglectus’ regionally variable ecological association with kelp holdfasts.

Published

2020