Your search keyword '"Balanidae"' showing total 262 results

1. Semibalanus balanoides (L.) and Balanus crenatus Bruguière (Balanidae) Are Intermediate Hosts of Fimbriarioides intermedia (Fuhrmann, 1913) and Two Species of the Genus Microsomacanthus (Cestoda: Hymenolepidae), Parasites of Sea Ducks from the Atlantic Sector of the Arctic and Northern Pacific

Author

Regel, K. V.

Subjects

*MYTILUS edulis, *DUCKS, *MUSSELS, *PARASITES, *VALVES, *BARNACLES

Abstract

Metacestode infestation of Semibalanus balanoides (L., 1767) and Balanus crenatus Bruguiеre, 1789, collected in the Barents and White Seas and in the northern part of the Sea of Okhotsk in 2020 and 2021, respectively, was studied. A total of 313 S. balanoides from Mogilnaya Bay of Kildin Island (Barents Sea) and isolated mature wrinkled barnacles B. crenatus, two and four specimens from the Pechora Sea and Kandalaksha Bay of the White Sea, respectively, were examined in 2020. Metacestodes Fimbriarioides intermedia (Fuhrmann, 1913) (Cyclophyllidea, Hymenolepididae) were found in 1.0 ± 0.6% of S. balanoides in the Barents Sea with an invasion intensity (I. I.) of 2–5 specimens, and in one of two B. crenatus from the Pechora Sea (I. I. 15 specimens). For the first time, in both B. crenatus from the Pechora Sea, taken from the valves of the mussel Mytilus edulis, metacestodes Microsomacanthus sp. I (I. I. 13 and 20 specimens) with proboscis hooks 38–41 (39.4 ± 0.1) µm long and blades of 9.5–11 (10.7 ± 0.1) µm were obtained. One of four B. crenatus from the Kandalaksha Bay was infected with another Microsomacanthus sp. II (I. I. 19 specimens) with proboscis hooks 44.0–49.5 (45.7 ± 0.5) µm long and blades 14.0–16.0 (14.8 ± 0.07) µm long. A total of 362 S. balanoides were collected and dissected in Gizhiginskaya Bay of the northern part of the Sea of Okhotsk in 2021, of which 8.0 ± 1.4% were infected with F. intermedia metacestodes (I. I. 1–19 specimens). Study results of the infestation of S. balanoides on the Koni-Pyagin coast of the Sea of Okhotsk (according to the collections of 2006–2007) were supplemented and clarified. Description of metacestodes and the taxonomic affiliation of cysticercoids Microsomacanthus spp. are given. [ABSTRACT FROM AUTHOR]

Published

2024

2. Complete mitochondrial genome of the European common barnacle Perforatus perforatus Bruguière, 1789 (balanomorpha: balanidae)

Author

Jun Seong Jeong, Hyun Kyong Kim, Jeong Sun Park, Hee-Seung Hwang, and Iksoo Kim

Subjects

Mitochondrial genome, balanidae, concavinae, Perforatus perforatus, gene inversion, Genetics, QH426-470

Abstract

This study is the first to sequence the complete mitochondrial genome (mitogenome) of Perforatus perforatus Bruguière, 1789 (Balanomorpha: Balanidae). The 15,536-bp long P. perforatus mitogenome contained a typical set of animal mitochondrial genes, along with one control region. The P. perforatus mitogenome had an inverted gene block (trnP-ND4L-ND4-trnH-ND5-trnF) between trnS(gct) and trnT. This inverted gene block had been detected six species in three subfamilies of the Balanidae family (Balaninae, Acastinae and Megabalaninae), but our results show that it is also present in Concavinae, in which P. perforatus is included. The phylogenetic tree based on the concatenated sequences of the 13 protein-coding genes and two rRNA genes showed that P. perforatus is closely associated with Acasta sulcate and Balanus trigonus within Balanidae.

Published

2024

3. Complete mitochondrial genome of the European common barnacle Perforatus perforatus Bruguière, 1789 (balanomorpha: balanidae).

Author

Jeong, Jun Seong, Kim, Hyun Kyong, Park, Jeong Sun, Hwang, Hee-Seung, and Kim, Iksoo

Subjects

MITOCHONDRIAL DNA, WHOLE genome sequencing, BARNACLES, GENOMES

Abstract

This study is the first to sequence the complete mitochondrial genome (mitogenome) of Perforatus perforatus Bruguière, 1789 (Balanomorpha: Balanidae). The 15,536-bp long P. perforatus mitogenome contained a typical set of animal mitochondrial genes, along with one control region. The P. perforatus mitogenome had an inverted gene block (trnP-ND4L-ND4-trnH-ND5-trnF) between trnS(gct) and trnT. This inverted gene block had been detected six species in three subfamilies of the Balanidae family (Balaninae, Acastinae and Megabalaninae), but our results show that it is also present in Concavinae, in which P. perforatus is included. The phylogenetic tree based on the concatenated sequences of the 13 protein-coding genes and two rRNA genes showed that P. perforatus is closely associated with Acasta sulcate and Balanus trigonus within Balanidae. [ABSTRACT FROM AUTHOR]

Published

2024

4. Cirripedia. A Strange Story: from Ducks to Barnacles

Author

Forli, Maurizio, Guerrini, Andrea, Forli, Maurizio, and Guerrini, Andrea

Published

2022

5. The complete mitochondrial genome of Balanus trigonus (Thecostraca, Balanomorpha, Balanidae) from South Korea

Author

Seongjun Bae, Philjae Kim, and Chang-Ho Yi

Subjects

balanidae, mitogenome, balanus trigonus, phylogeny, Genetics, QH426-470

Abstract

The complete sequence of the mitochondrial genome of Balanus trigonus Darwin, 1854 was examined using next-generation sequencing analysis. The complete mitogenome of B. trigonus has 15,336 bp in length and comprises 37 genes, namely, 13 protein-coding genes (PCGs), 22 tRNAs, and two rRNAs. Both the gene order and characteristics are consistent with those of other species within the family Balanidae. Phylogenetic analysis based on complete mitogenomes revealed taxonomic relationships among members of the family Balanidae.

Published

2021

6. A Monograph of the Sub-Class Cirripedia by Charles Darwin - Delphi Classics (Illustrated)

Author

Charles Darwin, Delphi Classics, Charles Darwin, and Delphi Classics

Subjects

Cirripedia, Balanidae, Lepadidae

Abstract

This eBook features the unabridged text of ‘A Monograph of the Sub-Class Cirripedia by Charles Darwin - Delphi Classics (Illustrated)'from the bestselling edition of ‘The Complete Works of Charles Darwin'. Having established their name as the leading publisher of classic literature and art, Delphi Classics produce publications that are individually crafted with superior formatting, while introducing many rare texts for the first time in digital print. The Delphi Classics edition of Darwin includes original annotations and illustrations relating to the life and works of the author, as well as individual tables of contents, allowing you to navigate eBooks quickly and easily.eBook features: • The complete unabridged text of ‘A Monograph of the Sub-Class Cirripedia by Charles Darwin - Delphi Classics (Illustrated)'• Beautifully illustrated with images related to Darwin's works • Individual contents table, allowing easy navigation around the eBook • Excellent formatting of the text Please visit www.delphiclassics.com to learn more about our wide range of titles

Published

2017

7. The Works of Charles Darwin: Vol 12: A Monograph on the Sub-Class Cirripedia (1854), Vol II, Part 1

Author

Paul H Barrett and Paul H Barrett

Subjects

Balanidae

Abstract

The twelfth volume in a 29-volume set which contain all Charles Darwin's published works. Darwin was one of the most influential figures of the 19th century. His work remains a central subject of study in the history of ideas, the history of science, zoology, botany, geology and evolution.

Published

2016

8. The Works of Charles Darwin: Vol 13: A Monograph on the Sub-Class Cirripedia (1854), Vol II, Part 2

Author

Paul H Barrett and Paul H Barrett

Subjects

Evolution, Balanidae

Abstract

The thirteenth volume in a 29-volume set which contain all Charles Darwin's published works. Darwin was one of the most influential figures of the 19th century. His work remains a central subject of study in the history of ideas, the history of science, zoology, botany, geology and evolution.

Published

2016

9. Estudio descriptivo comparado de los estados larvarios tempranos y cypris de balanomorfos chilenos

Author

Daniel López Stefoni and Gustavo Toledo Contreras

Subjects

Crustacea, Cirripedia, Thoracica, Balanidae, Balanus, ciclo de vida, Ecology, QH540-549.5, Zoology, QL1-991

Abstract

Se describen las primeras fases de nauplios de especies chilenas; Balanus (Megabalanus) psittacus (Molina, 1782), Balanus (Austrobalanus) flosculus Darwin, 1854, y Elmintus kingi Gray, 1831 (Cirripedia, Balanidae). Sobre la base de una prueba de laboratorio, iniciada con especímenes adultos recolectados en Estero Chope (11°48?S; 73°05?O), y en el estuario del río Contaco (40°34?S; 73°37?O), la estructura general del cuerpo, las apófisis caudal y abdominal, el cono bucal y los apéndices, la setación se describen comparativamente en términos de número, disposición y tipo de setas, de manera de obtener los caracteres diferenciadores intra e interespecíficos. También se establecen características morfológicas que aseguran una rápida identificación de todas las fases a nivel de grupo. Se incluye una descripción del cypris de Balanus psittacus, detallando la estructura del cirro, las antenas adhesivas, etc.

Published

2020

10. The complete mitochondrial genome of Balanus trigonus (Thecostraca, Balanomorpha, Balanidae) from South Korea.

Author

Bae, Seongjun, Kim, Philjae, and Yi, Chang-Ho

Subjects

NUCLEOTIDE sequencing, GENOMES, MITOCHONDRIA, SEQUENCE analysis

Abstract

The complete sequence of the mitochondrial genome of Balanus trigonus Darwin, 1854 was examined using next-generation sequencing analysis. The complete mitogenome of B. trigonus has 15,336 bp in length and comprises 37 genes, namely, 13 protein-coding genes (PCGs), 22 tRNAs, and two rRNAs. Both the gene order and characteristics are consistent with those of other species within the family Balanidae. Phylogenetic analysis based on complete mitogenomes revealed taxonomic relationships among members of the family Balanidae. [ABSTRACT FROM AUTHOR]

Published

2021

11. Gene rearrangement and sequence analysis of mitogenomes suggest polyphyly of Archaeobalanid and Balanid barnacles (Cirripedia: Balanomorpha).

Author

Tsang, Ling Ming, Shen, Xin, Cheang, Chi Chiu, Chu, Ka Hou, and Chan, Benny Kwok Kan

Subjects

*ARCHAEOBALANIDAE, *BALANIDAE, *GENE rearrangement, *NUCLEOTIDE sequence, *CIRRIPEDIA, *ACORN barnacles

Abstract

The acorn barnacles (Cirripedia, Thoracica, Balanomorpha) are a diverse group of crustaceans found in virtually all marine and estuarine habitats. Barnacles are important model species in various biological researches, including evolution, intertidal ecology, larval biology and antifouling. However, there remains a lack of a thorough understanding of the phylogeny for this group of animals, particularly at higher taxonomic levels. In this study, we attempt to determine the phylogenetic relationships among balanomorphan families based on analysis of complete mitochondrial genome from various barnacle families and investigate the evolution of mitogenome in barnacles. Whole mitogenomes of six barnacles were newly sequenced, including Acasta sulcata (Archaeobalanidae), Armatobalanus allium (Archaeobalanidae), Chelonibia testudinaria (Chelonibiidae), Octomeris sp. (Chthamalidae), Savignium biporata (Pyrgomatidae) and Tetraclitella divisa (Tetraclitidae), which exhibit five different gene arrangements. Phylogenetic analysis on 15 complete mitochondrial genome sequences from major barnacle families supported Chthamalidae, Pyrgomatidae and Tetraclitidae formed monophyletic units, but suggested polyphyly of both Archaeobalanidae and Balanidae. Chthamalidae was the earliest diverged lineage in Balanomorpha. Chelonibiidae + Tetraclitidae formed the sister taxon to the monophyletic superfamily Balanoidea (Archaeobalanidae + Balanidae + Pyrgomatidae). The members of Archaeobalanidae and Balanidae intermingled in the inferred topology with the monophyletic Pyrgomatidae deeply nested within. Two Megabalanus species from the family Balanidae and A. sulcata from the family Archaeobalanidae share the same six-gene-cluster inversion as compared to the other ten balanomorphan barnacles, providing further evidence for the non-monophyly for the two families. We showed here that the informativeness of the complete mitogenome sequence and rare genomic events in resolving various questions concerning Balanomorpha relationships. The non-monophyletic status of Archaeobalanidae and Balanidae falsified many previous hypotheses concerning the complex evolution of Balanomorpha and call for further investigations and careful revision on the taxonomy of the group. Future study focusing on the enigmatic and tentatively basal lineages, for example, Chionelasmatoidea Pachylasmatoidea and Catophragmidae, would be most helpful in fully resolving the phylogeny and mitogenome evolutionary history of acorn barnacles. [ABSTRACT FROM AUTHOR]

Published

2017

12. Early life-history processes and their implications for the invasion of the barnacle Balanus glandula.

Author

Robinson, Tamara B., Pope, Haley R., and Alexander, Mhairi E.

Subjects

*BALANUS glandula, *RESEARCH methodology, *BALANIDAE, *BALANUS, *LIFE history theory

Abstract

As invasions become increasingly prevalent, it is important to understand how spread may be moderated by environmental conditions. This study considered the effect of location and changing substratum temperature on the early life-history processes of the alien barnacleBalanus glandulaand its native comparator,Chthamalus dentatus, along the South African coast. Using settlement plates of different colours, temperature was manipulated to assess settlement, mortality, recruitment and growth of the two species. These variables were tracked over 10 weeks using repeat photography. Unexpectedly, there was no evidence of an effect of temperature on early life-history processes of either species. Settlement by the two barnacles was spatially segregated, withB. glandulaoccurring only on the West Coast where it is the dominant intertidal barnacle, whileC. dentatussettled only on the South Coast, which has only recently been invaded by the alien. Despite this, it was notable that the relative settlement ofB. glandulaon rock was higher than that ofC. dentatus. However, the lack of mortality of the native resulted in comparable levels of recruitment among the species. Nonetheless, the propensity ofB. glandulato settle sporadically, coupled with fast growth, suggests that the invader may still possess the ability to become dominant along the newly invaded South Coast. This study highlights that measurements of early life-history parameters may not adequately predict the future range and impacts of alien species unless interpreted within the broader context of the nature of the recipient region and species-specific traits of the invader. [ABSTRACT FROM AUTHOR]

Published

2017

13. D-lactate production in the acorn barnacleBalanus glandula(Darwin, 1854) (Cirripedia: Balanidae) under emersion stress

Author

Gordon T. Ober, Sarah E. Gilman, and Xenia L Rangaswami

Subjects

0106 biological sciences, 0301 basic medicine, 010604 marine biology & hydrobiology, Zoology, Aquatic Science, Biology, Balanus glandula, biology.organism_classification, Acorn, 01 natural sciences, 03 medical and health sciences, Barnacle, 030104 developmental biology, Darwin (ADL), D lactate, Balanidae

Abstract

Anaerobic metabolism is an important response to stress in many organisms. Intertidal species often face heat stress during low tide. Balanus glandula (Darwin, 1854) is a high-shore intertidal barnacle common to the Pacific that experiences prolonged low-tide air exposure. It is not known whether B. glandula uses anaerobic metabolism during emersion, or if its use varies by latitude. We measured low tide D-lactate production in two US west coast populations of B. glandula separated by 14 degrees of latitude. We exposed barnacles to seven low-tide air temperatures (10, 15, 20, 25, 30, 35, and 38 °C) for which aerobic respiration has been previously measured. Our northern population of B. glandula increased D-lactate production at high air temperatures where aerobic metabolic depression is known to occur, indicating sublethal stress. In contrast, our southern population showed little increase in D-lactate over the same temperature range, coincident with high aerobic respiration across those temperatures. In a second experiment, we quantified D-lactate at 1, 2, and 6 hours post-emersion for northern B. glandula exposed to either a 10 or 38 °C low tide, to measure their potential lactate usage. While D-lactate was elevated at 38 °C compared to the 10 °C control immediately following low tide exposure, it dropped to control levels, and was likely excreted, within 1 hour of re-immersion. Our results suggest that the low latitude population of B. glandula may be more resilient to climate change than its high latitude counterpart in the absence of adaptation, which has strong implications for species distribution.

Published

2020

14. The first mitochondrial genome of Balanus trigonus Darwin, 1854 (Sessilia: Balanidae) and molecular phylogeny within Cirripedia

Author

Tian Ge, Sheng Mao, Xue Kong, Nanjing Ji, Yuefeng Cai, Shishi Liu, and Xin Shen

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Sessilia, phylogeny, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Phylogenetics, Megabalanus, Balanus trigonus Darwin, Genetics, Molecular Biology, Mitogenome Announcement, biology, Phylogenetic tree, biology.organism_classification, gene arrangement, 030104 developmental biology, Balanus balanus, Evolutionary biology, mitochondrial genome, Molecular phylogenetics, Balanidae, Research Article

Abstract

The triangle barnacle Balanus trigonus Darwin, 1854, a cosmopolitan inhabitant of tropical and warm temperate seas, is a member of robust system for the study of evolutionary processes in the intertidal zone. The first mitochondrial genome of B. trigonus is presented. The complete mitochondrial genome of B. trigonus is a circular molecule of 15,560 bp, which encodes 13 protein-coding genes (PCGs), 2 rRNA genes, and 22 tRNA genes. In comparison within Sessilia, the arrangement of the mitochondrial genome of B. trigonus is more similar to Megabalanus spp. than the congener Balanus balanus, which share a same inversion of a large gene block (P-nd4L-nd4-H-nd5-F). Phylogenetic analysis based on mitochondrial PCGs reveals that B. trigonus clusters with Acasta Sulcata (BP = 100), then grouped with Megabalanus volcano and Megabalanus ajax with high support (BP = 90). In further, more data and research are needed to reveal the phylogeny within Cirripedia.

Published

2021

15. Effects of pharmacological compounds on the barnacle larval development, metabolism and settlement.

Author

Al-Aidaroos, Ali M., Satheesh, S., and Devassy, Reny P.

Subjects

*PHARMACOLOGY, *BARNACLES, *BALANIDAE, *LARVAL physiology, *CALCIUM antagonists, *DEVELOPMENTAL biology

Abstract

Effects of select pharmacological compounds, with known mode of action in vertebrates, were evaluated on the development, metabolism and settlement of larvae of the common fouling barnacle, Amphibalanus amphitrite . Atrovastatin, a lipid-regulating compound, cetrizine hydrochloride, an anti-histamine, atenolol, a β-blocker, and amlodipine, a calcium-channel blocker were the compounds studied. Nauplii treated with these compounds took more days to reach the cypris stage when compared with the control. These compounds also inhibited the settlement of cyprids on Petri dishes. While exposure to these compounds led to a decrease in the metabolic activity of stage III nauplii, it increased the respiratory rate of cyprids. The results emphasize the role of neurotransmitters and lipids in the development and settlement of barnacle larvae on hard surfaces. [ABSTRACT FROM AUTHOR]

Published

2017

16. Five hundred million years to mobility: directed locomotion and its ecological function in a turtle barnacle

Author

Jens T. Høeg, Benny K. K. Chan, Yue Him Wong, Sing-Pei Yu, John D. Zardus, Jr-Chi Lin, Nathan J. Robinson, Niklas Dreyer, and I-Jiung Cheng

Subjects

Chelonibia testudinaria, BALANIDAE, ADHESION, Biology, General Biochemistry, Genetics and Molecular Biology, Optimal foraging theory, law.invention, MOVEMENT, Barnacle, law, Animals, Turtle (robot), sea turtle, Research Articles, General Environmental Science, Invertebrate, REATTACHMENT, adhesive locomotion, Functional ecology, Ecology, General Immunology and Microbiology, Reproduction, Thoracica, General Medicine, biology.organism_classification, EVOLUTION, CHELONIBIA-TESTUDINARIA, behaviour, Turtles, Sea turtle, CEMENT PROTEINS, movement ecology, optimal foraging, General Agricultural and Biological Sciences, Locomotion

Abstract

Movement is a fundamental characteristic of life, yet some invertebrate taxa, such as barnacles, permanently affix to a substratum as adults. Adult barnacles became ‘sessile’ over 500 Ma; however, we confirm that the epizoic sea turtle barnacle, Chelonibia testudinaria , has evolved the capacity for self-directed locomotion as adults. We also assess how these movements are affected by water currents and the distance between conspecifics. Finally, we microscopically examine the barnacle cement. Chelonibia testudinaria moved distances up to 78.6 mm yr −1 on loggerhead and green sea turtle hosts. Movements on live hosts and on acrylic panels occasionally involved abrupt course alterations of up to 90°. Our findings showed that barnacles tended to move directly against water flow and independent of nearby conspecifics. This suggests that these movements are not passively driven by external forces and instead are behaviourally directed. In addition, it indicates that these movements function primarily to facilitate feeding, not reproduction. While the mechanism enabling movement remained elusive, we observed that trails of cement bore signs of multi-layered, episodic secretion. We speculate that proximal causes of movement involve one or a combination of rapid shell growth, cement secretion coordinated with basal membrane lifting, and directed contraction of basal perimeter muscles.

Published

2021

17. Five hundred million years to mobility:directed locomotion and its ecological function in a turtle barnacle

Author

Chan, Benny K. K., Wong, Yue Him, Robinson, Nathan J., Lin, Jr-Chi, Yu, Sing-Pei, Dreyer, Niklas, Cheng, I-Jiung, Høeg, Jens T., Zardus, John D., Chan, Benny K. K., Wong, Yue Him, Robinson, Nathan J., Lin, Jr-Chi, Yu, Sing-Pei, Dreyer, Niklas, Cheng, I-Jiung, Høeg, Jens T., and Zardus, John D.

Abstract

Movement is a fundamental characteristic of life, yet some invertebrate taxa, such as barnacles, permanently affix to a substratum as adults. Adult barnacles became 'sessile' over 500 Ma; however, we confirm that the epizoic sea turtle barnacle, Chelonibia testudinaria, has evolved the capacity for self-directed locomotion as adults. We also assess how these movements are affected by water currents and the distance between conspecifics. Finally, we microscopically examine the barnacle cement. Chelonibia testudinaria moved distances up to 78.6 mm yr(-1) on loggerhead and green sea turtle hosts. Movements on live hosts and on acrylic panels occasionally involved abrupt course alterations of up to 90 degrees. Our findings showed that barnacles tended to move directly against water flow and independent of nearby conspecifics. This suggests that these movements are not passively driven by external forces and instead are behaviourally directed. In addition, it indicates that these movements function primarily to facilitate feeding, not reproduction. While the mechanism enabling movement remained elusive, we observed that trails of cement bore signs of multi-layered, episodic secretion. We speculate that proximal causes of movement involve one or a combination of rapid shell growth, cement secretion coordinated with basal membrane lifting, and directed contraction of basal perimeter muscles.

Published

2021

18. New Species and New Records of Sponge-Inhabiting Barnacles (Cirripedia, Balanidae, Acastinae) from Australia

Author

Jane Fromont, Andrew Hosie, Kylie Munyard, and Diana S. Jones

Subjects

0106 biological sciences, 0301 basic medicine, commensalism, Subfamily, QH301-705.5, Archaeobalanidae, Biodiversity, Zoology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Thoracica, Crustacea, host specificity, Biology (General), Nature and Landscape Conservation, biodiversity, Ecology, biology, Ecological Modeling, biology.organism_classification, Commensalism, barcodes, Agricultural and Biological Sciences (miscellaneous), Crustacean, symbiosis, Porifera, Sponge, 030104 developmental biology, Balanidae

Abstract

The subfamily Acastinae contains a diverse group of barnacles that are obligate symbionts of sponges and alcyonacean and antipatharian corals. Integrating morphological and genetic (COI) data to compare against known species, this paper reports on nine species of sponge-inhabiting barnacles of the subfamily Acastinae, including three undescribed species (Acasta caveata sp. nov., Euacasta acutaflava sp. nov., and E. excoriatrix sp. nov.) and three species previously not recorded in Australian waters (A. sandwichi, Pectinoacasta cancellorum, and P. sculpturata). The new species are distinguished from similar species by a suite of morphological characters as well as genetic distances. A lectotype for Pectinoacasta cancellorum is designated. Sponge hosts were identified for all specimens where possible and are represented by 19 species from eight families and five orders.

Published

2021

19. The Story of a Hitchhiker: Population Genetic Patterns in the Invasive Barnacle Balanus(Amphibalanus) improvisus Darwin 1854.

Author

Wrange, Anna-Lisa, Charrier, Gregory, Thonig, Anne, Alm Rosenblad, Magnus, Blomberg, Anders, Havenhand, Jonathan N., Jonsson, Per R., and André, Carl

Subjects

*BALANUS improvisus, *BALANIDAE, *POPULATION genetics, *INTRODUCED species, *PHYLOGEOGRAPHY, *MICROSATELLITE repeats

Abstract

Understanding the ecological and evolutionary forces that determine the genetic structure and spread of invasive species is a key component of invasion biology. The bay barnacle, Balanus improvisus (= Amphibalanus improvisus), is one of the most successful aquatic invaders worldwide, and is characterised by broad environmental tolerance. Although the species can spread through natural larval dispersal, human-mediated transport through (primarily) shipping has almost certainly contributed to the current global distribution of this species. Despite its worldwide distribution, little is known about the phylogeography of this species. Here, we characterize the population genetic structure and model dispersal dynamics of the barnacle B. improvisus, and describe how human-mediated spreading via shipping as well as natural larval dispersal may have contributed to observed genetic variation. We used both mitochondrial DNA (cytochrome c oxidase subunit I: COI) and nuclear microsatellites to characterize the genetic structure in 14 populations of B. improvisus on a global and regional scale (Baltic Sea). Genetic diversity was high in most populations, and many haplotypes were shared among populations on a global scale, indicating that long-distance dispersal (presumably through shipping and other anthropogenic activities) has played an important role in shaping the population genetic structure of this cosmopolitan species. We could not clearly confirm prior claims that B. improvisus originates from the western margins of the Atlantic coasts; although there were indications that Argentina could be part of a native region. In addition to dispersal via shipping, we show that natural larval dispersal may play an important role for further colonisation following initial introduction. [ABSTRACT FROM AUTHOR]

Published

2016

20. Temperature and salinity effects on cadmium toxicity on lethal and sublethal responses of Amphibalanus amphitrite nauplii.

Author

Piazza, Veronica, Gambardella, Chiara, Canepa, Sara, Costa, Elisa, Faimali, Marco, and Garaventa, Francesca

Subjects

SALINITY, CADMIUM poisoning, PHYSIOLOGICAL effects of temperature, BALANIDAE, POLLUTION, WATER quality, BIOLOGICAL assay

Abstract

The official protocol of an ecotoxicological assay employing larvae of the crustacean Amphibalanus amphitrite as a model organism has recently been published by the Italian regulatory authority UNICHIM. Such assay is now one of the applicable tests for water quality assessment under Italian law. While specific temperature and salinity values are recommended by ecotoxicology bioassay protocols for test set up, little information is available on response changes in case of parameter variations. In particular, information is totally lacking for this innovative model organism. Under the standard test protocol, 20 °C and 37‰ temperature and salinity, respectively, are required to be set in A. amphitrite bioassay. In order to evaluate the environmental relevance of the test, laboratory experiments simulating the effect on larval responses due to variations of temperature and salinity expected in field collected samples were carried out. The effect of temperature and salinity changes on different end-points, involving increasing sensitivity levels, has been investigated, with and without the presence of cadmium nitrate, Cd(NO 3 ) 2 , as a reference toxicant, to determine the possible interactions between pollutants and environmental parameters fluctuations. Three end-points – mortality, immobilization, and swimming speed alteration – were measured in order to evaluate the impact of a wide range of temperature (5, 10, 15, 20, 25, 30, 35, 40 °C) and salinity values (10, 20, 30, 37, 40, 50, 60, 70‰) on response variation after 24 and 48 h of exposure. For each parameter, a Non-Effect Range (NER) – namely the limit values within which no effect related to environmental parameter changes is observed – has been defined. For both parameters, NER resulted to be wider for the less sensitive end-points – such as mortality and immobilization – and for shorter exposure time (24 h). Later, the same end-points have been evaluated by exposing the same organisms to a reference toxic compound, Cd(NO 3 ) 2 (0, 0.2, 0.4, 0.8, 1.6, 3.2 mg/L), within the detected NER both for temperature and salinity. LC 50 and EC 50 values have been calculated for each end-point after 24 and 48 h. Cadmium toxicity was shown to decrease at higher salinity values and increase at higher temperatures. Obtained results offer a better bioassay characterization, and the possibility of a more realistic estimation of ecotoxicological assessments performed on field collected samples. Further studies are needed, especially to investigate the effects of simultaneous salinity and temperature changes on end-points. [ABSTRACT FROM AUTHOR]

Published

2016

21. Transcriptome and proteome dynamics in larvae of the barnacle Balanus Amphitrite from the Red Sea.

Author

Chandramouli, Kondethimmanahalli H., Al-Aqeel, Sarah, Taewoo Ryu, Huoming Zhang, Seridi, Loqmane, Ghosheh, Yanal, Pei-Yuan Qian, and Ravasi, Timothy

Subjects

*BALANUS amphitrite, *PROTEOMICS, *CRUSTACEAN genetics, *BALANIDAE, *GENE expression, *OPEN reading frames (Genetics)

Abstract

Background: The barnacle Balanus amphitrite is widely distributed in marine shallow and tidal waters, and has significant economic and ecological importance. Nauplii, the first larval stage of most crustaceans, are extremely abundant in the marine zooplankton. However, a lack of genome information has hindered elucidation of the molecular mechanisms of development, settlement and survival strategies in extreme marine environments. We sequenced and constructed the genome dataset for nauplii to obtain comprehensive larval genetic information. We also investigated iTRAQ-based protein expression patterns to reveal the molecular basis of nauplii development, and to gain information on larval survival strategies in the Red Sea marine environment. Results: A nauplii larval transcript dataset, containing 92,117 predicted open reading frames (ORFs), was constructed and used as a reference for the proteome analysis. Genes related to translation, oxidative phosphorylation and cytoskeletal development were highly abundant. We observed remarkable plasticity in the proteome of Red Sea larvae. The proteins associated with development, stress responses and osmoregulation showed the most significant differences between the two larval populations studied. The synergistic overexpression of heat shock and osmoregulatory proteins may facilitate larval survival in intertidal habitats or in extreme environments. Conclusions: We presented, for the first time, comprehensive transcriptome and proteome datasets for Red Sea nauplii. The datasets provide a foundation for future investigations focused on the survival mechanisms of other crustaceans in extreme marine environments. [ABSTRACT FROM AUTHOR]

Published

2015

22. Diversity of intertidal, epibiotic, and fouling barnacles (Cirripedia, Thoracica) from Gujarat, northwest India

Author

Mahima Doshi, Krupal Patel, Jigneshkumar Trivedi, and Benny K. K. Chan

Subjects

0106 biological sciences, Asia, Biogeography, 010607 zoology, Chthamalidae, Intertidal zone, 010603 evolutionary biology, 01 natural sciences, provinces, Tetraclitidae, Lepas anatifera, Barnacle, Rocky shore, Ecoregion, Thoracica, Biodiversity & Conservation, Animalia, Chthamalus barnesi, ecoregions, Sessilia, Ecology, Evolution, Behavior and Systematics, biogeography, Balanidae, Chelonibiidae, biology, Ecology, Arabian Sea, new records, Archaeobalanidae, biology.organism_classification, Geography, QL1-991, Cirripedia, Animal Science and Zoology, Lepadidae, Zoology, Pedunculata, Research Article

Abstract

The present work studied the diversity of intertidal, epibiotic, and fouling barnacles in the state of Gujarat, northwest India. In total, eleven species belonging to eight genera and five families were recorded in the present study. The Arabian intertidal species Tetraclita ehsani Shahdadi, Chan & Sari, 2011 and Chthamalus barnesi Achituv & Safriel, 1980 are common in the high- and mid-intertidal rocky shores of Gujarat suggesting that the Gujarat barnacle assemblages are similar to the assemblages in the Gulf of Oman Ecoregion. The biogeographical boundary between the Gulf of Oman and Western Indian ecoregions for barnacles should probably extend southward towards the waters adjacent to Mumbai, where Indo-Pacific species of intertidal barnacles dominate. This study provides the first reports of the common widely distributed balanomorph barnacles Striatobalanus tenuis (Hoek, 1883), Tetraclitella karandei Ross, 1971, Amphibalanus reticulatus (Utinomi, 1967), and lepadid barnacle Lepas anatifera Linnaeus, 1758 in Gujarat, as well as of the chthamalid barnacle Chthamalus barnesi in India.

Published

2021

23. Amphibalaninae PITOMBO 2004

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and H��eg, Jens T.

Subjects

Balanidae, Arthropoda, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY AMPHIBALANINAE PITOMBO, 2004 Amphibalanus Pitombo, 2004 (22 species) Fistulobalanus Zullo, 1984 (12 species) Tetrabalanus Cornwall, 1941 (one species), Published as part of Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A. & H��eg, Jens T., 2021, The evolutionary diversity of barnacles, with an updated classification of fossil and living forms, pp. 789-846 in Zoological Journal of the Linnean Society 193 on page 836, DOI: 10.1093/zoolinnean/zlaa160, http://zenodo.org/record/5637275, {"references":["Pitombo FB. 2004. Phylogenetic analysis of the Balanidae"]}

Published

2021

24. Archaeobalaninae NEWMAN & ROSS 1976

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, Pérez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and Høeg, Jens T.

Subjects

Balanidae, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY ARCHAEOBALANINAE NEWMAN & ROSS, 1976 †† Actinobalanus Moroni, 1967 (Miocene-Pleistocene) (four species) †† Archaeobalanus Menesini, 1971 (Eocene – Oligocene) (one species) † Armatobalanus Hoek, 1913 (Oligocene–Recent) (12 species) Bathybalanus Hoek, 1913 (one species) † Chirona Gray, 1835 (Eocene–Recent) (six species) † Conopea Gray, 1825 (Miocene-Recent) (21 species) † Hesperibalanus Pilsbry, 1916 (Miocene–Recent) (ten species) †† Kathpalmeria Ross, 1965 (Eocene) (two species) † Membranobalanus Hoek, 1913 (Pliocene–Recent) (11 species) † Notobalanus Newman & Ross, 1976 (Oligocene– Recent) (two species) † Palaeobalanus Buckeridge, 1983 (Eocene – Oligocene) (three species) † Solidobalanus Hoek, 1913 (Eocene–Recent) (18 species) † Striatobalanus Hoek, 1913 (Eocene–Recent) (nine species) †† Zullobalanus Buckeridge, 1989 (Oligocene to Pliocene) (five species)

Published

2021

25. Balaninae

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, Pérez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and Høeg, Jens T.

Subjects

Balanidae, Arthropoda, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY BALANINAE † Balanus Costa, 1778 (Oligocene–Recent) (55 species) †† Tamiosoma Conrad, 1857 (Miocene–Pliocene) (two species) †† Zulloa Ross & Newman, 1996 (Miocene) (one species)

Published

2021

26. Balanidae LEACH 1817

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, Pérez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and Høeg, Jens T.

Subjects

Balanidae, Arthropoda, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

FAMILY BALANIDAE LEACH, 1817 Diagnosis: Monophyletic by molecular analysis. Wall of six or four plates; parietes tubiferous or solid; tubiferous shell, with tubes basically in a single uniform row formed between inner and outer laminate, although supplementary tubes may form basally; interlaminate figures complex, arborescent; radii either solid or tubiferous; basis commonly calcareous and tubiferous or membranous. Comments: There are no clear morphologically based apomorphies for this family compared with the Pyrgomatidae. The genus Wanella is sister group to all remaining species as yet analysed by molecules, and this could argue for a separation within two subfamilies. Many genera are polyphyletic, and more low-level taxonomic revision is therefore needed., Published as part of Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A. & H��eg, Jens T., 2021, The evolutionary diversity of barnacles, with an updated classification of fossil and living forms, pp. 789-846 in Zoological Journal of the Linnean Society 193 on page 836, DOI: 10.1093/zoolinnean/zlaa160, http://zenodo.org/record/5637275

Published

2021

27. Wanellinae Chan & Dreyer & Gale & Glenner & Ewers-Saucedo & P��rez-Losada & Kolbasov & Crandall & H��eg 2021, SUBFAM. NOV

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and H��eg, Jens T.

Subjects

Balanidae, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY WANELLINAE SUBFAM. NOV. Z o o b a n k r e g i s t r a t i o n: l s i d: u r n: l s i d: z o o b a n k. org:act: 8EEDFA1B-8E36-4217-8C78-92231F1C84CA Diagnosis: Shell complete, one-plated, depressed; orifice and shell oval shaped; only inhabit fire corals (Millepora spp.). Comment: From molecular analyses (Malay & Michonneau, 2014; Tsang et al., 2014), Wanella formed a separate clade, outside the pyrgomatid clade and inside the balanid clade. This argues for a subfamilylevel classification under Balanidae. Wanella Anderson, 1993 (type genus) (three species), Published as part of Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A. & H��eg, Jens T., 2021, The evolutionary diversity of barnacles, with an updated classification of fossil and living forms, pp. 789-846 in Zoological Journal of the Linnean Society 193 on page 836, DOI: 10.1093/zoolinnean/zlaa160, http://zenodo.org/record/5637275, {"references":["Malay MCD, Michonneau F. 2014. Phylogenetics and morphological evolution of coral-dwelling barnacles (Balanomorpha: Pyrgomatidae). Biological Journal of the Linnean Society 113: 162 - 179.","Tsang LM, Chu KH, Nozawa Y, Chan BKK. 2014. Morphological and host specificity evolution in coral symbiont barnacles (Balanomorpha: Pyrgomatidae) inferred from a multi-locus phylogeny. Molecular Phylogenetics and Evolution 77: 11 - 22."]}

Published

2021

28. Concavinae Zullo 1992

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, Pérez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and Høeg, Jens T.

Subjects

Balanidae, Arthropoda, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY CONCAVINAE ������ Alessandriella Carriol & Cahuzac, 2001 (Miocene) (one species) ��� Arossia Newman, 1982 (Miocene���Recent) (nine species) ������ Chesaconcavus Zullo, 1992 (Oligocene���Pliocene) (eight species) ������ Concavus Newman, 1982 (Oligocene���Pleistocene) (two species) ��� Menesiniella Newman, 1982 (Miocene���Recent) (three species) ��� Paraconcavus Zullo, 1992 (Miocene���Recent) (six species) Perforatus Pitombo, 2004 (one species) ������ Zulloconcavus Carriol, 2000 (Miocene) (one species), Published as part of Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, P��rez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A. & H��eg, Jens T., 2021, The evolutionary diversity of barnacles, with an updated classification of fossil and living forms, pp. 789-846 in Zoological Journal of the Linnean Society 193 on page 837, DOI: 10.1093/zoolinnean/zlaa160, http://zenodo.org/record/5637275, {"references":["Pitombo FB. 2004. Phylogenetic analysis of the Balanidae"]}

Published

2021

29. Hexacreusiinae ZULLO & NEWMAN 1996

Author

Chan, Benny K. K., Dreyer, Niklas, Gale, Andy S., Glenner, Henrik, Ewers-Saucedo, Christine, Pérez-Losada, Marcos, Kolbasov, Gregory A., Crandall, Keith A., and Høeg, Jens T.

Subjects

Balanidae, Animalia, Biodiversity, Maxillopoda, Sessilia, Taxonomy

Abstract

SUBFAMILY HEXACREUSIINAE ZULLO & NEWMAN, 1996 Hexacreusia Zullo, 1961 (two species) Zulloana Pitombo & Ross, 2002 (one species)

Published

2021

30. The evolutionary diversity of barnacles, with an updated classification of fossil and living forms

Author

Gregory A. Kolbasov, Marcos Pérez-Losada, Niklas Dreyer, Christine Ewers-Saucedo, Keith A. Crandall, Benny K. K. Chan, Jens T. Høeg, Andrew S. Gale, and Henrik Glenner

Subjects

0106 biological sciences, Brachylepadomorpha, Parthenopeidae, Pirusaccidae, Verrucomorpha, Chthamalidae, 01 natural sciences, Archaeolepadidae, Idioiblidae, Chordata, Laurida, Eolepadidae, Phylogeny, media_common, Praelepadidae, Balanidae, 0303 health sciences, Ecology, Neolepadidae, Akentrogonida, Dendrogastrida, Pachylasmatidae, Lithoglyptida, Pedunculata, Duplorbidae, Eoverrucidae, Rhizocephala, Peltogastridae, Chionelasmatidae, media_common.quotation_subject, Cryptophialida, Mycetomorphidae, Synagogidae, Clistosaccidae, Lithotryidae, Scalpellidae, Coronulidae, Neoverrucidae, Tetraclitidae, 03 medical and health sciences, Dendrogastridae, Pollicipedidae, Apygophora, Malacolepadidae, Calanticidae, Heteralepadidae, Sessilia, Ecology, Evolution, Behavior and Systematics, Triangulidae, Chelonibiidae, Metazoa, Myolepadidae, Poecilasmatidae, Petrarcidae, Cretiscalpellidae, Scalpellomorpha, Titanolepadidae, Calanticomorpha, Pachydiadematidae, Animal Science and Zoology, Stramentidae, Ascothoracidae, Diversity (politics), Bathylasmatidae, Insecta, Thompsoniidae, Hexanauplia, Proverrucidae, Thecostraca, Ascothoracida, Crustacea, Zeugmatolepadidae, Pyrgomatidae, Peltogasterellidae, Verrucidae, Iblomorpha, Ibliformes, Catophragmidae, Eolepadomorpha, Austrobalanidae, Biodiversity, Classification, Archaeobalanidae, Archaeolepadomorpha, Lithoglyptidae, Cryptophialidae, Sacculinidae, Iblidae, Scalpelliformes, Arthropoda, Ctenosculidae, Biology, Rhizolepadidae, 010603 evolutionary biology, Waikalasmatidae, Elminidae, Animalia, 030304 developmental biology, Taxonomy, Lauridae, Balanomorpha, Actinopterygii, Thoracica, Pygophora, Polysaccidae, Brachylepadidae, Polyascidae, Pollicipomorpha, Chthamalophilidae, Kentrogonida, Neobrachylepadidae, Maxillopoda, Lepadidae, Trypetesidae

Abstract

We present a comprehensive revision and synthesis of the higher-level classification of the barnacles (Crustacea: Thecostraca) to the genus level and including both extant and fossils forms. We provide estimates of the number of species in each group. Our classification scheme has been updated based on insights from recent phylogenetic studies and attempts to adjust the higher-level classifications to represent evolutionary lineages better, while documenting the evolutionary diversity of the barnacles. Except where specifically noted, recognized taxa down to family are argued to be monophyletic from molecular analysis and/or morphological data. Our resulting classification divides the Thecostraca into the subclasses Facetotecta, Ascothoracida and Cirripedia. The whole class now contains 14 orders, 65 families and 367 genera. We estimate that barnacles consist of 2116 species. The taxonomy is accompanied by a discussion of major morphological events in barnacle evolution and justifications for the various rearrangements we propose.

Published

2021

31. Surveying keratose sponges (Porifera, demospongiae, Dictyoceratida) reveals hidden diversity of host specialist barnacles (Crustacea, Cirripedia, Balanidae)

Author

Jane Fromont, Andrew M. Hosie, Kylie Munyard, Nerida G. Wilson, and Diana S. Jones

Subjects

0106 biological sciences, 0301 basic medicine, Paraphyly, Zoology, 010603 evolutionary biology, 01 natural sciences, Host Specificity, 03 medical and health sciences, Barnacle, Monophyly, Phylogenetics, Polyphyly, Genetics, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, biology, Host (biology), Thoracica, Western Australia, biology.organism_classification, Porifera, 030104 developmental biology, Dictyoceratida, Balanidae

Abstract

Sponges represent one of the most species-rich hosts for commensal barnacles yet host utilisation and diversity have not been thoroughly examined. This study investigated the diversity and phylogenetic relationships of sponge-inhabiting barnacles within a single, targeted host group, primarily from Western Australian waters. Specimens of the sponge order Dictyoceratida were surveyed and a total of 64 host morphospecies, representing four families, were identified as barnacle hosts during the study. Utilising molecular (COI, 12S) and morphological methods 42 molecular operational taxonomic units (MOTUs) of barnacles, representing Acasta, Archiacasta, Euacasta and Neoacasta were identified. Comparing inter- and intra-MOTU genetic distances showed a barcode gap between 2.5% and 5% for COI, but between 1% and 1.5% in the 12S dataset, thus demonstrating COI as a more reliable barcoding region. These sponge-inhabiting barnacles were demonstrated to show high levels of host specificity with the majority being found in a single sponge species (74%), a single genus (83%) or a single host family (93%). Phylogenetic relationships among the barnacles were reconstructed using mitochondrial (12S, COI) and nuclear (H3, 28S) markers. None of the barnacle genera were recovered as monophyletic. Euacasta was paraphyletic in relation to the remaining Acastinae genera, which were polyphyletic. Six well-supported clades of molecular operational taxonomic units, herein considered to represent species complexes, were recovered, but relationships between them were not well supported. These complexes showed differing patterns of host usage, though most were phylogenetically conserved with sister lineages typically occupying related hosts within the same genus or family of sponge. The results show that host specialists are predominant, and the dynamics of host usage have played a significant role in the evolutionary history of the Acastinae.

Published

2021

32. Expansion of the barnacle Austrominius modestus (Darwin, 1854) (cirripedia, Thoracica, Balanidae) into Scandinavian waters based on collection data and niche distribution modeling

Author

Christoph Noever, Jørgen Lützen, Henrik Glenner, and Laura Pacheco-Riaño

Subjects

Niche, Zoology, Aquatic Science, Biology, biology.organism_classification, Skagerrak, Wadden Sea, Austrominius modestus, Barnacle, Darwin (ADL), Thoracica, SDG 14 - Life Below Water, Balanidae, Kattegat, Limfjord, Marine invasive species, Species distribution, Water Science and Technology

Abstract

The barnacle Austrominius modestus, native of New Zealand and Australia was introduced to the South of England around 1943 and has since spread to most coastal waters in Western Europe, including the southern North Sea. Apart from an ephemeral incursion into the Danish Wadden Sea in 1978, since 2010 it has established permanent populations capable of reproduction along the North Sea coast of the Jutland peninsula, the Limfjord, the north-western Kattegat, and the Skagerrak. It has probably invaded Danish waters by pelagic larvae originating in the German Wadden Sea. The species has since spread to other Danish localities, likely following the prevailing currents, but other means, as for instance transport by vessels, are possible. The barnacle inhabits stones, stone-reefs, mollusk shells, and live shore crabs in shallow waters. Based on hydrographical data from its native and recently invaded areas, we predict its future distribution to extend to most coasts of continental Europe except for brackish waters (< 20 PSU), and the Arctic seas. The northernmost distribution limit may include the Lofoten Islands of Norway publishedVersion

Published

2021

33. An annotated checklist and integrative biodiversity discovery of barnacles (Crustacea, Cirripedia) from the Moluccas, East Indonesia

Author

Luis M. Valente, Kristina von Rintelen, Thomas von Rintelen, Pipit Pitriana, Romanus Edy Prabowo, and Diana S. Jones

Subjects

0106 biological sciences, 0301 basic medicine, Biodiversity, Chthamalidae, 01 natural sciences, Coral Triangle, Crustacea, lcsh:Zoology, Bilateria, lcsh:QL1-991, Phylogeny, Molecular systematics, Balanidae, Acorn barnacle coral triangle Indonesian biodiversity new records stalked barnacles taxonomy, biology, Indonesian biodiversity, new records, Cephalornis, Species Inventories, Checklist, Geography, Cirripedia, Molecular phylogenetics, Pachylasmatidae, Taxonomy (biology), stalked barnacles, Coelenterata, Species complex, Scalpelliformes, Asia, Nephrozoa, Zoology, Intertidal zone, Protostomia, Moluccan Islands, Acorn barnacle, 010603 evolutionary biology, Circumscriptional names of the taxon under, Tetraclitidae, 03 medical and health sciences, Pollicipedidae, Systematics, Lepadiformes, Animalia, coral triangle, Heteralepadidae, Sessilia, Ecology, Evolution, Behavior and Systematics, Taxonomy, Sulawesi, 500 Naturwissenschaften und Mathematik::570 Biowissenschaften, Biologie::570 Biowissenschaften, Biologie, biology.organism_classification, Crustacean, 030104 developmental biology, Indonesia, Notchia, Ecdysozoa, Animal Science and Zoology, Catalogues and Checklists, Lepadidae, Global biodiversity

Abstract

To contribute to the taxonomic knowledge of barnacles in this understudied area, the first checklist of barnacles from the Moluccas is presented, including additional information on morphology, distribution, and substrate as well as molecular data. The species of barnacles from the Moluccas have been determined using morphological analysis and DNA sequences. During 19 field trips conducted between January 2016 and September 2017, 1,513 specimens of 24 species of intertidal and one species of deep-sea barnacles were collected from 51 localities from the islands. Morphological and molecular analysis of the collected material detected members of three families of stalked barnacles and four families of acorn barnacles. In addition to sampling in the field, we also surveyed the literature on barnacles from the Moluccas. In total, our checklist comprises 97 species from the Moluccas including 23 new records, two of them yet to be described species. Results suggest that the Moluccas have a much higher diversity of barnacles than previously known, for example, from the reports ofChallengerandSibogaexpeditions. For further work, routine application of molecular systematics could aid the detection of cryptic species, while increased sampling of more islands and a taxonomic revision of several groups would likely lead to an even higher number of species than currently known.

Published

2020

34. The first mitochondrial genome of Megabalanus tintinnabulum (Sessilia: Balanidae) from China: phylogeny within Cirripedia based on mitochondrial genes

Author

Kaida Xu, Feng Meiping, Sun Dong, Yadong Zhou, Bi Yuanxin, Shiquan Lin, and Chunsheng Wang

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Sessilia, phylogeny, 010603 evolutionary biology, 01 natural sciences, Genome, 03 medical and health sciences, Barnacle, Megabalanus tintinnabulum, Phylogenetics, Genetics, Molecular Biology, Gene, Mitogenome Announcement, biology, biology.organism_classification, 030104 developmental biology, Evolutionary biology, mitochondrial genome, Cirripedia, barnacle, Balanidae, Research Article

Abstract

Here we present the complete mitochondrial genome of Megabalanus tintinnabulum. The genome is 15,107 bp in length with a 67.35% AT content. It contains 13 protein-coding genes (PCGs), 2 rRNAs genes, and 22 tRNAs. Both rRNAs are encoded on the light strand, as in the other crustacean and barnacle mitochondrial genomes. Besides five tRNAs are encoded on the light strand (nad1, trnV, trnL1, trnC, trnQ, and trnK). Only one PCG is encoded on the light strand (nad1), whereas the other 12 PCGs are located on the heavy strand, which is consistent with M. ajax. Phylogenetic analysis based on mitochondrial PCGs shows that M. tintinnabulum is clustered with M. ajax into a branch (BP = 100), and the group with M. volcano with high support. This study contributes to further phylogenetic analysis within Cirripedia.

Published

2019

35. New alien barnacles in the Azores and some remarks on the invasive potential of Balanidae.

Author

Torres, Paulo, Costa, Ana, and Dionísio, Maria

Subjects

*ASYMPTOTIC homogenization, *COASTAL organisms, *INTRODUCED species, *BIODIVERSITY, *BARNACLES, *BALANIDAE

Abstract

Global homogenization of biota is underway through worldwide introduction and establishment of non-indigenous (exotic) species. Organisms fouling ship hulls are continually in transit and can affect communities through biodiversity loss and serious damage to economy and public health. In the Azores, for the first time, underwater alien species prospection was conducted in marinas and recreational harbours, at São Miguel Island. Populations of three locally previously unknown barnacle species were found: Amphibalanus amphitrite, Amphibalanus eburneus and Perforatus perforatus. These species account for the more than 50% of alien barnacles worldwide that belong to Balanidae family. Hence, some considerations about morphology and life cycle of this family are advanced, discussed and related to their invasive potential. [ABSTRACT FROM AUTHOR]

Published

2012

36. Impacts of ocean warming and acidification on the larval development of the barnacle Amphibalanus improvisus

Author

Pansch, Christian, Nasrolahi, Ali, Appelhans, Yasmin Shirin, and Wahl, Martin

Subjects

*BARNACLES, *BALANIDAE, *OCEAN acidification, *MARINE pollution, *MARINE ecology, *SALINITY, *HYDROGEN-ion concentration

Abstract

Abstract: The world''s oceans are warming and becoming more acidic. Both stressors, singly or in combination, impact marine species, and ensuing effects might be particularly serious for early life stages. To date most studies have focused on ocean acidification (OA) effects in fully marine environments, while little attention has been devoted to more variable coastal ecosystems, such as the Western Baltic Sea. Since natural spatial and temporal variability of environmental conditions such as salinity, temperature or pCO2 impose more complex stresses upon organisms inhabiting these habitats, species can be expected to be more tolerant to OA (or warming) than fully marine taxa. We present data on the variability of salinity, temperature and pH within the Kiel Fjord and on the responses of the barnacle Amphibalanus improvisus from this habitat to simulated warming and OA during its early development. Nauplii and cyprids were exposed to different temperature (12, 20 and 27°C) and pCO2 (nominally 400, 1250 and 3250μatm) treatments for 8 and 4weeks, respectively. Survival, larval duration and settlement success were monitored. Warming affected larval responses more strongly than OA. Increased temperatures favored survival and development of nauplii but decreased survival of cyprids. OA had no effect upon survival of nauplii but enhanced their development at low (12°C) and high (27°C) temperatures. In contrast, at the intermediate temperature (20°C), nauplii were not affected even by 3250μatm pCO2. None of the treatments significantly affected settlement success of cyprids. These experiments show a remarkable tolerance of A. improvisus larvae to 1250μatm pCO2, the level of OA predicted for the end of the century. [Copyright &y& Elsevier]

Published

2012

37. Effects of crowding and wave exposure on penis morphology of the acorn barnacle, Semibalanus balanoides.

Author

Hoch, J. Matthew

Subjects

*BALANIDAE, *CROWDING stress in animals, *PENIS, *ANIMAL morphology, *ANIMAL population density

Abstract

Wave action and low population density can strongly reduce the ability of sessile acorn barnacles to find mates and copulate. For Semibalanus balanoides, penis morphology varies with wave exposure and with characteristics of the mating neighborhood. Field experiments were conducted at five intertidal sites on Long Island, New York, USA from July to December 2005 to determine how wave exposure and aggregation structure influence the length, diameter, mass, and number of annulated folds of the penis. Sparsely crowded barnacles had more annulations in the penis and are inferred to have greater ability to stretch. At higher wave exposure, the diameter of the penis was greater, but the mass was not. This study identifies density of crowding as the most important cue that barnacles respond to when perceiving their mating group and details how penis morphology varies in response to wave exposure. [ABSTRACT FROM AUTHOR]

Published

2010

38. Population structure and phylogeography of an acorn barnacle with induced defense and its gastropod predator in the Gulf of California.

Author

Qiming Deng and Hazel, Wade

Subjects

*CYTOCHROME oxidase, *PHYLOGEOGRAPHY, *INTERTIDAL organisms, *BALANIDAE, *CHTHAMALUS, *PREDATORS of fishes, *PHENOTYPIC plasticity, *POPULATION

Abstract

Using sequence variation in the mitochondrial cytochrome oxidase I locus, we estimated the population structure and phylogeography of the intertidal acorn barnacle, Chthamalus anisopoma, and its gastropod predator, Mexacanthina lugubris angelica. Both are endemic to the Gulf of California, being derived from taxa on the Pacific coast of the Baja peninsula, and both exhibit phenotypic plasticity for traits affecting their coevolutionary interactions. Consistent with expectations based on differences in dispersal, C . anisopoma populations generally lack geographic structure, while those of M. l. angelica are more strongly structured. However, the variable degree of differentiation in both species suggests that the extent of reciprocal selection and local adaptation in the species will vary geographically, a result consistent with the concept of a geographic mosaic of coevolution. The pattern of variation in C. anisopoma shows clear evidence of recent spatial expansion, possibly due to increased habitat availability following the last glacial maximum. Phylogeographic analyses suggest that M. l. angelica diversified into three distinct clades after the colonization of the Gulf. Overall, our results illustrate how dispersal potential, geological and climatic events, and recent population growth have impacted the pattern of sequence variation in the two species. [ABSTRACT FROM AUTHOR]

Published

2010

39. Larval development, sensory mechanisms and physiological adaptations in acorn barnacles with special reference to Balanus amphitrite

Author

Anil, Arga Chandrashekar, Khandeparker, Lidita, Desai, Dattesh V., Baragi, Lalita V., and Gaonkar, Chetan A.

Subjects

*BALANIDAE, *BALANUS amphitrite, *BARNACLES, *FOULING, *DEVELOPMENTAL biology, *METAMORPHOSIS, *CLIMATE change, *SPECIES distribution, *HABITATS, *LARVAE, *PHYSIOLOGY

Abstract

Abstract: Barnacles have drawn the attention of many naturalists and often dominate fouling communities. Balanus amphitrite, is a shallow water acorn barnacle capable of inhabiting expanses from supralittoral to subtidal levels, and as an epibiont. Its potential to survive and successfully establish local population is endorsed by various physiological adaptations and larval sensory perceptions. The larval life cycle of this species has both planktrotrophic naupliar and non-feeding cyprid stages. The naupliar energetics has a bearing on the capabilities of cypris larvae to explore surfaces for settlement and also the recruitment success of juveniles. The most complete nervous system in the barnacles is established in the cypris larva. Although there has been considerable research with reference to their settlement and metamorphosis, not much is known about the olfactory, photo and auditory sensory mechanisms with respect to settlement and metamorphosis, which need further attention. Understanding the response of most sensitive life stages of barnacles to environmental changes in intertidal habitats can also serve as important models for understanding the effect of climate change on species distribution. [ABSTRACT FROM AUTHOR]

Published

2010

40. Some biological consequences of environmental change: A study using barnacles (Cirripedia: Balanomorpha) and gum trees (Angiospermae: Myrtaceae).

Author

BUCKERIDGE, John S.

Subjects

*CLIMATE change, *BARNACLES, *MYRTACEAE, *BALANIDAE, *EUCALYPTUS, *PLANT adaptation, *PALEOGENE paleoclimatology

Abstract

Uniformitarianism permits understanding of the past on the basis of the present, and modeling the future through consideration of the fossil record. The present paper addresses the impact environmental (climatic) change has had on acorn barnacles and eucalyptus trees. Acorn barnacles (Balanomorpha) are first recorded after the K/T mass-extinction event. In the Paleogene, rapid radiation resulted in their occupying most marine environments. That balanomorphs survived both the Paleocene–Eocene thermal maximum and the Pleistocene glaciation is testament to their ability to adapt to opportunities; they are known from the littoral ( Chamaesipho) to depths of 3600 m ( Tetrachaelasma) and within this from diverse substrates: rock, wood and miscellaneous flotsam, plus in symbiosis or commensalism with most larger marine organisms. Darwin's (1854) view of the late Tertiary as the age of barnacles is reflected in their diversity, distribution and biomass. Barnacles are contrasted with the Australian Myrtaceae: plants ranging from woody shrubs to tall trees. The most significant is Eucalyptus sensu lato, which typifies Australia's flora, and is characterized by aromatic leaves that produce eucalyptol. Eucalyptus has evolved strategies that result in its domination of Australian open woodlands: these include production of highly flammable eucalyptol oil (with a flashpoint of 49 °C) and an unprecedented ability to regenerate following forest fires. Gum trees and barnacles first appear in the Paleogene, their earliest records are Australasian, and they both demonstrate extraordinary resilience when environmental conditions are optimal. [ABSTRACT FROM AUTHOR]

Published

2010

41. Physiological stress and the fitness effects of Mpi genotypes in the acorn barnacle Semibalan us balanoides.

Author

Flight, Patrick A., Schoepfer, Shane D., and Rand, David M.

Subjects

GENETIC polymorphism research, BALANIDAE, ISOMERASES, PHYSIOLOGICAL effects of temperature, SALINITY, AQUATIC animal behavior, SURVIVAL behavior (Animals), ANIMAL mortality, ECOLOGICAL genetics

Abstract

The article presents a study which examines the physiological effects of mannose-6-phospate isomerase (Mpi) and glocuse-6-phospate isomerase (Gpi) polymorphisms in the acorn barnacle Semibalanus balanoides from Narrangansett Bay, Rhode Island. It found that mortality from thermal stress was enhanced under low salinity. It observed that across all low salinity treatments was non-significant trend of decreased fitness associated with the Mpi-SS genotype. It also determined that cirral length variation was correlated with Mpi genotypes in a pattern consistent with survivorship data.

Published

2010

42. The model barnacle Balanus balanus Linnaeus, 1758 (Crustacea: Maxillopoda: Sessilia) mitochondrial genome and gene rearrangements within the family Balanidae.

Author

Shen, Xin, Tsoi, Kwok-Ho, and Cheang, Chi-Chiu

Subjects

*BALANIDAE, *NUCLEOTIDE sequencing, *MITOCHONDRIAL DNA, *AQUATIC animal genetics, *RIBOSOMAL RNA

Abstract

Balanus balanusLinnaeus, 1758, the model organism in the order Sessilia (Crustacea: Maxillopoda) is a cold water acorn barnacle in the family Balanidae distributing over the entire northern hemisphere. We present complete mitochondrial genome of this barnacle and analyze mitochondrial genomic characters of the family Balanidae. The length of mitochondrial genome is 15,955 bp, which is larger than those of the other barnacles in the same family. An inversion of a six-gene block (trnPro-nad4L-nad4-trnHis-nad5-trnPhe) is found betweenB. balanusand twoMegabalanus(M. ajaxandM. volcano). Three types of mitochondrial gene arrangements revealed in Balanidae have indicated the non-conserved gene orders even at intrafamilial level. Compared to pancrustacean ground pattern, large-scale gene rearrangements are found inB. balanus. Translocations of at least six tRNAs (trnAla, trnGlu/trnSer(AGY), trnPro/trnThr, trnLys, trnGlnandtrnCys) are identified and translocation and inversion occurred simultaneously in one tRNAs (trnTyr). [ABSTRACT FROM PUBLISHER]

Published

2016

43. Marine fouling on floating installations west of Dongsha Islands, the northern South China Sea

Author

Yan, T., Yan, W.X., Dong, Y., Wang, H.J., Yan, Y., and Liang, G.H.

Subjects

*MARINE fouling organisms, *BARNACLES, *OFFSHORE structures, *OYSTERS, *BIOMASS, *BALANIDAE

Abstract

Abstract: Marine fouling on floating installations west of Dongsha Islands, the northern South China Sea, was investigated from August 1987 to October 1990. Two buoy stations were deployed at approximately 110 km and 115 km west of Dongshadao, Dongsha Islands, anchored in water at 325 and 345 m depths, and exposed for 8 and 12 months. The experimental panels were fixed on iron structure frames which were connected to the buoy and its mooring system immersed in water at different depths, and retrieved after 4, 8 and 12 months of exposure. Fouling organisms colonizing the buoys and their mooring systems were sampled after 8 and 12 months of deployment. A total of 86 species was collected and identified at these two stations and the fouling community showed a typical oceanic characteristics. Most of the species were mainly found in the top 50 m depth and a striking vertical zonation of species was also observed with depth. The distance from offshore is a major factor in determining the fouling community composition. In terms of biomass, the fouling community was dominated by pedunculate barnacles, hydroids, and algae, followed by common oysters, pearl oysters and acorn barnacles. Biomass of hard fouling organisms increased over time. Under the influence of hydrological currents propagules of communities around the Dongsha Islands may also affect the development of the fouling communities in the offshore waters. [Copyright &y& Elsevier]

Published

2009

44. ADAPTIVE PLASTICITY OF THE PENIS IN A SIMULTANEOUS HERMAPHRODITE.

Author

Hoch, J. Matthew

Subjects

*BALANIDAE, *ORGANISMS, *SEX allocation, *ANIMAL morphology, *MATERIAL plasticity

Abstract

Acorn barnacles are important model organisms for the study of sex allocation. They are sessile, nonselfing hermaphrodites that copulate with penises that have been suggested to be phenotypically plastic. On wave-exposed shores, Semibalanus balanoides develop penises with relatively greater diameter whereas in wave-protected sites they are thinner. A reciprocal transplant experiment between wave-exposed and protected sites tested whether these exposure-specific morphologies have adaptive value. Mating success was compared over a range of distances to compare the ability of barnacles to reach mates. Barnacles that grew in the wave-protected site and mated in the wave-protected site fertilized more broods at increasing distances than those transplanted to the wave-exposed site. For barnacles that developed in the wave-exposed site, there was no difference in the ability to fertilize neighbors between sites of differing exposure. This study demonstrates the adaptive value of plasticity in penis morphology. The results suggest a trade-off between development of a penis adapted to wave exposure and the ability to fertilize distant mates. Barnacles in different physical environments are limited by different factors, which may limit numbers of potential mates, constrain optimal sex allocation strategies and alter reproductive behavior. [ABSTRACT FROM AUTHOR]

Published

2009

45. Antifeedant and antifouling briaranes from the South China Sea gorgonian Junceella juncea.

Author

Qi, S., Zhang, S., Qian, P., and Xu, H.

Subjects

*SPODOPTERA littoralis, *DITERPENES, *FORSKOLIN, *BALANUS, *BALANIDAE

Abstract

A new briarane diterpene, juncin ZII ( 1), along with three known briaranes ( 2–4), was isolated from the EtOH/CH2Cl2 extracts of the South China Sea gorgonian Junceella juncea. The structure of 1 was established by extensive spectroscopic analysis, including 1D and 2D NMR data. For compounds 1–4 and eight other briaranes ( 5–12) isolated from J. juncea previously, the antifeedant activity against second-instar larvae of Spodoptera litura and cytotoxicity against S. litura cells were investigated, and it was observed that they all exhibit medium antifeedant activity. Compounds 1, 8, 9, and 12 also showed potent antifouling activity against the larval settlement of barnacle Balanus amphitrite at nontoxic concentrations with EC50 values of 0.004, 0.005, 2.82, and 0.447 μg/mL, respectively, while all compounds did not show obvious cytotoxicity against tumor cell lines K562, A549, Hela, and Hep-2. Their structure-activity relationship was discussed. [ABSTRACT FROM AUTHOR]

Published

2009

46. Genetic differentiation, hybridization and adaptive divergence in two subspecies of the acorn barnacle Tetraclita japonica in the northwestern Pacific.

Author

LING MING TSANG, CHAN, BENNY K. K., KA YAN MA, and KA HOU CHU

Subjects

*BARNACLES, *BALANIDAE, *GENETIC polymorphisms, *POPULATION genetics, *SPECIES hybridization, *BREEDING, *BIOLOGICAL divergence, *BIODIVERSITY, *MOLECULAR ecology, *MOLECULAR biology

Abstract

Two acorn barnacles, Tetraclita japonica japonica and Tetraclita japonica formosana, have been recently reclassified as two subspecies, because they are morphologically similar and genetically indistinguishable in mitochondrial DNA sequences. The two barnacles are distinguishable by parietes colour and exhibit parapatric distributions, coexisting in Japan, where T. j. formosana is very low in abundance. Here we investigated the genetic differentiation between the subspecies using 209 polymorphic amplified fragment length polymorphism markers and 341 individuals from 12 locations. The subspecies are genetically highly differentiated (ΦCT = 0.267). Bayesian analysis and principal component analysis indicate the presence of hybrids in T. j. formosana samples from Japan. Strong differentiation between the northern and southern populations of T. j. japonica was revealed, and a break between Taiwan and Okinawa was also found in T. j. formosana. The differentiation between the two taxa at individual loci does not deviate from neutral expectation, suggesting that the oceanographic pattern which restricts larval dispersal is a more important factor than divergent selection in maintaining genetic and phenotypic differentiation. The T. j. formosana in Japan are probably recent migrants from Okinawa, and their presence in Japan may represent a poleward range shift driven by global warming. This promotes hybridization and might lead to a breakdown of the boundary between the subspecies. However, both local adaptation and larval dispersal are crucial in determining the population structure within each subspecies. Our study provides new insights into the interplay of local adaptation and dispersal in determining the distribution and genetic structure of intertidal biota and the biogeography of the northwestern Pacific. [ABSTRACT FROM AUTHOR]

Published

2008

47. Barnacle growth rate on artificial substrate in the Salton Sea, California.

Author

Geraci, J., Amrhein, C., and Goodson, C.

Subjects

*BARNACLES, *BALANIDAE, *GROWTH rate, *PHOSPHORUS, *NITROGEN, *WATER quality management, *WATER pollution, *CALCIUM carbonate

Abstract

The Salton Sea is one of the few saline, inland lakes in the world with a population of barnacles, Balanus amphitrite. It is also one of California’s most impaired water bodies due to excessive nutrient loading which leads to phytoplankton blooms and low dissolved oxygen. Currently, B. amphitrite growth is limited due to lack of hard substrate in and around the Sea. We have hypothesized that artificial substrate could support the growth of B. amphitrite and their filter-feeding would lead to improved water quality. Periodic harvesting of the barnacles would result in the permanent removal of nitrogen and phosphorus from the Sea. A 44-day in-situ experiment was carried out in the Salton Sea to assess the rate of barnacle growth and phosphorus and nitrogen sequestration on burlap sheets suspended vertically from a floating line. Burlap panels were collected weekly and the barnacles analyzed for Ca, total-P, inorganic-P, total-N, total-C, CaCO3, and organic matter content. After 44 days of growth, the barnacle mats weighed 7.4 kg m−2 on a dry weight basis, with 80% of the mass as shell material. The nutrient sequestration was 9.4 g P m−2 and 100 g N m−2. Approximately half of the P was inorganic and appears to be coprecipitated with the calcium carbonate shell material. Results indicate that harvesting barnacles grown on artificial substrate in the Salton Sea would not be an effective method for removing N or P from the lake because of the relative proportions of shell material and organic material. [ABSTRACT FROM AUTHOR]

Published

2008

48. Variation in penis morphology and mating ability in the acorn barnacle, Semibalanus balanoides

Author

Hoch, J. Matthew

Subjects

*BALANIDAE, *SHELLFISH, *ANIMAL morphology, *WAVES (Physics)

Abstract

Abstract: I examined variation in penis morphology of the acorn barnacle, Semibalanus balanoides, at different aggregation densities and at different levels of wave exposure. Barnacles in sparse, un-crowded aggregations had significantly longer penises than those from densely crowded groups, suggesting a response to increase the chance of reaching distant mating partners. Barnacles exposed to oceanic waves had penises with significantly greater basal diameter, possibly to strengthen the penis and retain function in turbulent conditions. I compared the percentage of individual barnacles with fertilized broods over a range of distances to their nearest possible mate in sites exposed to or protected from waves. As neighbor distance increased, the proportion of individuals with fertilized egg masses decreased in both wave–exposed and protected sites. However, at greater mate distances in the wave exposed sites, the proportion of individuals with fertilized eggs was significantly lower than the proportion in protected sites, indicating that exposure to waves hinders mating with neighbors at increasing distances. These results suggest that the intensity of mate competition may differ for barnacles between environments with different levels of wave exposure. These differences in male ability are predicted to alter relative sex allocation to male and female function. [Copyright &y& Elsevier]

Published

2008

49. Precisely proportioned: intertidal barnacles alter penis form to suit coastal wave action.

Author

Christopher J. Neufeld and A. Richard Palmer

Subjects

*BARNACLES, *PENIS, *BALANIDAE, *SEX (Biology)

Abstract

For their size, barnacles possess the longest penis of any animal (up to eight times their body length). However, as one of few sessile animals to copulate, they face a trade-off between reaching more mates and controlling ever-longer penises in turbulent flow. We observed that penises of an intertidal barnacle (Balanus glandula) from wave-exposed shores were shorter than, stouter than, and more than twice as massive for their length as, those from nearby protected bays. In addition, penis shape variation was tightly correlated with maximum velocity of breaking waves, and, on all shores, larger barnacles had disproportionately stouter penises. Finally, field experiments confirmed that most of this variation was due to phenotypic plasticity: barnacles transplanted to a wave-exposed outer coast produced dramatically shorter and wider penises than counterparts moved to a protected harbour. Owing to the probable trade-off between penis length and ability to function in flow, and owing to the ever-changing wave conditions on rocky shores, intertidal barnacles appear to have acquired the capacity to change the size and shape of their penises to suit local hydrodynamic conditions. This dramatic plasticity in genital form is a valuable reminder that factors other than the usual drivers of genital diversification—female choice, sexual conflict and male–male competition—can influence genital form. [ABSTRACT FROM AUTHOR]

Published

2008

50. Temporal changes in the strength of density-dependent mortality and growth in intertidal barnacles.

Author

Jenkins, Stuart R., Murua, Jefferson, and Burrows, Michael T

Subjects

*BENTHIC animals, *ANIMAL mortality, *TEMPORAL databases, *INVERTEBRATES, *LARVAE, *BALANIDAE, *ANIMAL populations, *GEOGRAPHICAL distribution of larvae, *BARNACLES

Abstract

1. In demographically open marine systems, the extent to which density-dependent processes in the benthic adult phase are required for population persistence is unclear. At one extreme, represented by the recruitment limitation hypothesis, larval supply may be insufficient for the total population size to reach a carrying capacity and density-independent mortality predominates. At the opposite extreme, populations are saturated and density-dependent mortality is sufficiently strong to reshape patterns established at settlement. 2. We examined temporal variation in the way density-independent and density-dependent mortality interact in a typical sessile marine benthic invertebrate, the acorn barnacle Semibalanus balanoides (L.), over a 2-year period. 3. Recruitment was manipulated at two high recruitment sites in north Wales, UK to produce recruit densities covering the range naturally found in this species. Following manipulation, fixed quadrats were monitored using digital photography and temporal changes in mortality and growth rate were examined. 4. Over a 2-year period there was a clear, spatially consistent, over-compensatory relationship between the density of recruits and adult abundance indicating strong density-dependent mortality. The strength of density dependence intensified with increasing recruitment. 5. Density-dependent mortality did not operate consistently over the study period. It only operated in the early part of the benthic phase, but the pattern of adult abundance generated was maintained throughout the whole 2-year period. Thus, early life-history processes dictated adult population abundance and dynamics. 6. Examination of the natural recruitment regime in the area of study indicated that both positive and negative effects of recruitment will occur over scales varying from kilometres to metres. [ABSTRACT FROM AUTHOR]

Published

2008