Your search keyword '"Polychaeta physiology"' showing total 19 results

1. Hydromechanical properties of metachronal swimming in polychaetes.

Author

Gemmell BJ, Colin SP, and Costello JH

Subjects

Animals, Biomechanical Phenomena, Rheology, Swimming physiology, Polychaeta physiology, Hydrodynamics

Abstract

Free-swimming polychaetes are common in marine habitats and exhibit a unique form of swimming whereby a metachronal wave occurs simultaneously with a bending body wave. This body wave is unusual among swimming animals because it travels in the same direction as the animal's swimming direction. However, we currently lack a mechanistic understanding of this unusual form of locomotion. In this study we use a combination of high-speed, high-resolution video and particle image velocimetry (PIV) to quantify kinematics and fluid dynamics for three species of swimming polychaetes, spanning two orders of magnitude in size. We find that in all species, flows generated by metachronal waves of parapodia dominate while typical flows associated with body bending is absent. However, the parapodia are less flexible than propulsive structures in other metachronal swimmers. This creates a localized, but substantial upstream flow during the recovery stroke. Using body bending, the recovery stroke can occur mostly beneath the bulk flow from the power strokes, resulting in minimal inference while the subsequent power stroke can benefit from the pressure field generated during recovery. These results may have implications for future vehicle designs that incorporate metachronal locomotion., (© 2024. The Author(s).)

Published

2024

2. A new genus and species of nudibranch-mimicking Syllidae (Annelida, Polychaeta).

Author

Jimi N, Britayev TA, Sako M, Woo SP, and Martin D

Subjects

Animals, Vietnam, Biological Mimicry physiology, Japan, Biological Evolution, Polychaeta classification, Polychaeta anatomy & histology, Polychaeta physiology

Abstract

Nudibranch mollusks, which are well-known for their vivid warning coloration and effective defenses, are mimicked by diverse invertebrates to deter predation through both Müllerian and Batesian strategies. Despite extensive documentation across different taxa, mimickers have not been detected among annelids, including polychaetes, until now. This study described a new genus and species of polychaete living on Dendronephthya octocorals in Vietnam and Japan. Belonging to Syllidae, it exhibits unique morphological adaptations such as a low number of body segments, simple chaetae concealed within the parapodia and large and fusiform antennae and cirri. Moreover, these appendages are vividly colored, featuring an internal dark red area with numerous terminal white spots and bright yellow tips, effectively contributing to mimicking the appearance of a nudibranch. This discovery not only documents the first known instance of such mimicry among annelids, but also expands our understanding of evolutionary adaptation and ecological strategies in marine invertebrates., (© 2024. The Author(s).)

Published

2024

3. Environmental optima for an ecosystem engineer: a multidisciplinary trait-based approach.

Author

Curd A, Boyé A, Cordier C, Pernet F, Firth LB, Bush LE, Davies AJ, Lima FP, Meneghesso C, Quéré C, Seabra R, Vasquez M, and Dubois SF

Subjects

Animals, Fertility, Phenotype, Adaptation, Physiological, Biodiversity, Climate Change, Ecosystem, Ovum physiology, Polychaeta physiology, Reproduction

Abstract

A complex interplay of biotic and abiotic factors underpins the distribution of species and operates across different levels of biological organization and life history stages. Understanding ecosystem engineer reproductive traits is critical for comprehending and managing the biodiversity-rich habitats they create. Little is known about how the reproduction of the reef-forming worm, Sabellaria alveolata, varies across environmental gradients. By integrating broad-scale environmental data with in-situ physiological data in the form of biochemical traits, we identified and ranked the drivers of intraspecific reproductive trait variability (ITV). ITV was highest in locations with variable environmental conditions, subjected to fluctuating temperature and hydrodynamic conditions. Our trait selection pointed to poleward sites being the most physiologically stressful, with low numbers of irregularly shaped eggs suggesting potentially reduced reproductive success. Centre-range individuals allocated the most energy to reproduction, with the highest number of intermediate-sized eggs, whilst equatorward sites were the least physiologically stressful, thus confirming the warm-adapted nature of our model organism. Variation in total egg diameter and relative fecundity were influenced by a combination of environmental conditions, which changed depending on the trait and sampling period. An integrated approach involving biochemical and reproductive traits is essential for understanding macro-scale patterns in the face of anthropogenic-induced climate change across environmental and latitudinal gradients., (© 2021. The Author(s).)

Published

2021

4. Behavioral traits and territoriality in the symbiotic scaleworm Ophthalmonoe pettiboneae.

Author

Britayev TA and Martin D

Subjects

Animals, Vietnam, Behavior, Animal, Polychaeta physiology, Symbiosis, Territoriality

Abstract

Among marine invertebrates, polychaete worms form symbiotic associations showing a wide variety of host use patterns. Most commonly, they live solitary on hosts, likely resulting from territorial behavior, yet little is known of the precise nature of the involved interactions. Based on field and laboratory observations, we described the symbiotic association between Ophthalmonoe pettibonae and Chaetopterus cf. appendiculatus from Nhatrang Bay (Vietnam). Then, by experimentally manipulating the competitor-to-resource ratio, we analyzed symbiont behavior and we assessed whether the 1:1 uniform distribution observed in nature could be driven by agonistic territorial behavior. Hosts and symbiont populations had low densities, lacked size relationships and showed higher prevalence when denser. Symbiont behavior included territoriality, expressed through conspecific recognition and intraspecific aggressive interactions (pursuit and escaping, hiding, choosing position, aggressive fighting, and targeting a specific bite zone). Our experiments proved that territoriality led to host monopolization by a single symbiont, provided the first empirical evidence that symbiont body injuries were caused during territorial contests, and allowed us to first suggest that a marine symbiotic invertebrate may control a territory extending beyond its host, even including neighboring hosts. Overall, this is the first report of such a complex symbiotic behavior for an annelid polychaete.

Published

2021

5. Morphological convergence and adaptation in cave and pelagic scale worms (Polynoidae, Annelida).

Author

Gonzalez BC, Martínez A, Worsaae K, and Osborn KJ

Subjects

Animals, Biological Evolution, Genome, Mitochondrial, Genomics methods, Phenotype, Phylogeny, Polychaeta classification, Adaptation, Biological, Caves, Polychaeta anatomy & histology, Polychaeta physiology

Abstract

Across Annelida, accessing the water column drives morphological and lifestyle modifications-yet in the primarily "benthic" scale worms, the ecological significance of swimming has largely been ignored. We investigated genetic, morphological and behavioural adaptations associated with swimming across Polynoidae, using mitogenomics and comparative methods. Mitochondrial genomes from cave and pelagic polynoids were highly similar, with non-significant rearrangements only present in cave Gesiella. Gene orders of the new mitogenomes were highly similar to shallow water species, suggestive of an underlying polynoid ground pattern. Being the first phylogenetic analyses to include the holopelagic Drieschia, we recovered this species nested among shallow water terminals, suggesting a shallow water ancestry. Based on these results, our phylogenetic reconstructions showed that swimming evolved independently three times in Polynoidae, involving convergent adaptations in morphology and motility patterns across the deep sea (Branchipolynoe), midwater (Drieschia) and anchialine caves (Pelagomacellicephala and Gesiella). Phylogenetic generalized least-squares (PGLS) analyses showed that holopelagic and anchialine cave species exhibit hypertrophy of the dorsal cirri, yet, these morphological modifications are achieved along different evolutionary pathways, i.e., elongation of the cirrophore versus style. Together, these findings suggest that a water column lifestyle elicits similar morphological adaptations, favouring bodies designed for drifting and sensing.

Published

2021

6. Egg-trading worms start reciprocation with caution, respond with confidence and care about partners' quality.

Author

Lorenzi MC, Schleicherová D, Robles-Guerrero FG, Dumas M, and Araguas A

Subjects

Animals, Cooperative Behavior, Female, Male, Reproduction, Ovum physiology, Polychaeta physiology

Abstract

Conditional reciprocity (help someone who helped you before) explains the evolution of cooperation among unrelated individuals who take turns helping each other. Reciprocity is vulnerable to exploitations, and players are expected to identify uncooperative partners who do not return the help they received. We tested this prediction in the simultaneously hermaphroditic worm, Ophryotrocha diadema, which engages in mutual egg donations by alternating sexual roles (one worm releases' eggs and the other fertilizes them). We set up dyads with different cooperativeness expectations; partners were either the same or a different body size (body size predicts clutch size). Large worms offered larger clutches and did so sooner when paired with large rather than small partners. They also released smaller egg clutches when they started egg donations than when they responded to a partners' donation, fulfilling the prediction that a players' first move will be prudent. Finally, behavioral bodily interactions were more frequent between more size-dissimilar worms, suggesting that worms engaged in low-cost behavioral exchanges before investing in such costly moves as egg donations. These results support the hypothesis that simultaneously hermaphroditic worms follow a conditional reciprocity paradigm and solve the conflict over sexual roles by sharing the costs of reproduction via the male and the female functions.

Published

2021

7. Ocean acidification affects microbial community and invertebrate settlement on biofilms.

Author

Nelson KS, Baltar F, Lamare MD, and Morales SE

Subjects

Animals, Biomass, Carbon Dioxide, Climate Change, Ecosystem, Hydrogen-Ion Concentration, Invertebrates physiology, Larva physiology, Polychaeta physiology, RNA, Ribosomal, 16S, Temperature, Biofilms, Microbiota, Oceans and Seas, Seawater chemistry

Abstract

Increased atmospheric CO 2 is driving ocean acidification (OA), and potential changes in marine ecosystems. Research shows that both planktonic and benthic communities are affected, but how these changes are linked remains unresolved. Here we show experimentally that decreasing seawater pH (from pH 8.1 to 7.8 and 7.4) leads to reduced biofilm formation and lower primary producer biomass within biofilms. These changes occurred concurrently with a re-arrangement of the biofilm microbial communities. Changes suggest a potential shift from autotrophic to heterotrophic dominated biofilms in response to reduced pH. In a complimentary experiment, biofilms reared under reduced pH resulted in altered larval settlement for a model species (Galeolaria hystrix). These findings show that there is a potential cascade of impacts arising from OA effects on biofilms that may drive important community shifts through altered settlement patterns of benthic species.

Published

2020

8. Transcriptional changes in the Japanese scallop (Mizuhopecten yessoensis) shellinfested by Polydora provide insights into the molecular mechanism of shell formation and immunomodulation.

Author

Mao J, Zhang W, Zhang X, Tian Y, Wang X, Hao Z, and Chang Y

Subjects

Animal Shells immunology, Animal Shells metabolism, Animals, Gene Expression Regulation, Host-Parasite Interactions, Immunity, Japan, Pectinidae immunology, Polychaeta immunology, Animal Shells parasitology, Pectinidae genetics, Pectinidae parasitology, Polychaeta physiology, Transcriptome

Abstract

The Japanese scallop (Mizuhopecten yessoensis) is one of the most important aquaculture species in Asian countries; however, it has suffered severe infection by Polydora in northern China in recent years, causing great economic losses. The Polydora parasitizes the shell of scallops, badly destroying the shell's structure. To investigate the molecular response mechanism of M. yessoensis to Polydora infestion, a comprehensive and niche-targeted cDNA sequence database for diseased scallops was constructed. Additionally, the transcriptional changes in the edge mantle, central mantle and hemocytes, tissues directly related to the disease, were first described in this study. The results showed that genes involved in shell formation and immunomodulation were significantly differentially expressed due to the infestation. Different transcriptional changes existed between the two mantle regions, indicating the different molecular functions likely responsible for the formation of different shell layers. The differential expression of genes for immune recognition, signal transduction and pathogen elimination presented an integrated immune response process in scallops. Moreover, neuromodulation and glycometabolism involved in the regulation process with relevant function significantly enriched. The study provides valuable information for mechanism study of shell formation and immunomodulation in scallops.

Published

2018

9. The influence of salinity on the effects of Multi-walled carbon nanotubes on polychaetes.

Author

De Marchi L, Neto V, Pretti C, Figueira E, Chiellini F, Morelli A, Soares AMVM, and Freitas R

Subjects

Animals, Antioxidants metabolism, Energy Metabolism drug effects, Lipid Peroxidation drug effects, Oxidation-Reduction drug effects, Oxidative Stress drug effects, Polychaeta drug effects, Polychaeta metabolism, Water Pollutants, Chemical toxicity, Environmental Monitoring methods, Nanotubes, Carbon chemistry, Polychaeta physiology, Salinity, Seawater chemistry

Abstract

Salinity shifts in estuarine and coastal areas are becoming a topic of concern and are one of the main factors influencing nanoparticles behaviour in the environment. For this reason, the impacts of multi-walled carbon nanotubes (MWCNTs) under different seawater salinity conditions were evaluated on the common ragworm Hediste diversicolor, a polychaete species widely used as bioindicator of estuarine environmental quality. An innovative method to assess the presence of MWCNT aggregates in the sediments was used for the first time. Biomarkers approach was used to evaluate the metabolic capacity, oxidative status and neurotoxicity of polychaetes after long-term exposure. The results revealed an alteration of energy-related responses in contaminated polychaetes under both salinity conditions, resulting in an increase of metabolism and expenditure of their energy reserves (lower glycogen and protein contents). Moreover, a concentration-dependent toxicity (higher lipid peroxidation, lower ratio between reduced and oxidized glutathione and activation of antioxidant defences and biotransformation mechanisms) was observed in H. diversicolor, especially when exposed to low salinity. Additionally, neurotoxicity was observed by inhibition of Cholinesterases activity in organisms exposed to MWCNTs at both salinities.

Published

2018

10. Explorations on the ecological role of toxin secretion and delivery in jawless predatory Polychaeta.

Author

Cuevas N, Martins M, Rodrigo AP, Martins C, and Costa PM

Subjects

Animals, Ecology, Feeding Behavior, Mucus chemistry, Polychaeta metabolism, Biological Evolution, Bivalvia drug effects, Mucus metabolism, Polychaeta physiology, Predatory Behavior drug effects, Toxins, Biological pharmacology

Abstract

Motivated by biotechnological prospects, there is increasing evidence that we may just be scraping the tip of the iceberg of poisonous marine invertebrates, among which the Polychaeta are promising candidates for bioprospecting. Here we show that an inconspicuous phyllodocid uses toxins in its uncanny feeding strategy. The worm, a jawless active predator characterised by its bright green colour, preys on larger invertebrates (including conspecifics) by extracting tissue portions with its powerful proboscis through suction. The animal is even able to penetrate through the valves and plates of live molluscs and barnacles. Observations in situ and a series of experiments demonstrated that the worm compensates its simple anatomy with secretion of a novel toxin, or mixture of toxins, referred to by us as "phyllotoxins". These are carried by mucus and delivered via repeated contact with the tip of the proboscis until the prey is relaxed or immobilised (reversibly). Proteolytic action permeabilises material to toxins and softens tissue to enable extraction by suction. The findings show that toxins are a major ecological trait and therefore play a key role in evolutionary success and diversification of Polychaeta, demonstrating also that understanding adaptative features may become the best showcase for novel animal toxins.

Published

2018

11. The evolution of phenotypic plasticity under global change.

Author

Gibbin EM, Massamba N'Siala G, Chakravarti LJ, Jarrold MD, and Calosi P

Subjects

Animals, Hydrogen-Ion Concentration, Seawater chemistry, Adaptation, Physiological, Biological Evolution, Climate Change, Polychaeta physiology

Abstract

Marine ecosystems are currently in a state of flux, with ocean warming and acidification occurring at unprecedented rates. Phenotypic plasticity underpins acclimatory responses by shifting the mean phenotype in a population, which may buffer the negative effects of global change. However, little is known about how phenotypic plasticity evolves across multiple generations. We tested this by reciprocally-transplanting the polychaete Ophryotrocha labronica between control and global change scenarios (ocean warming and acidification in isolation and combined) over five generations. By comparing the reaction norms of four life-history traits across generations, we show that juvenile developmental rate in the combined scenario was the only trait that changed its plastic response across generations when transplanted back to control conditions, and that adaptive plasticity was conserved in most traits, despite significant levels of selection and strong declines in individual fitness in the multi-generational exposure. We suggest the change in level of plasticity in the combined scenario is caused by differential allocation of energy between the mean and the plasticity of the trait along the multigenerational exposure. The ability to maintain within-generational levels of plasticity under global change scenarios has important eco-evolutionary and conservation implications, which are examined under the framework of assisted evolution programs.

Published

2017

12. Innervation of the lophophore suggests that the phoronid Phoronis ovalis is a link between phoronids and bryozoans.

Author

Temereva EN

Subjects

Animals, Bryozoa, Invertebrates physiology, Musculoskeletal Physiological Phenomena, Nerve Tissue, Nervous System, Nervous System Physiological Phenomena, Phylogeny, Polychaeta anatomy & histology, Polychaeta physiology

Abstract

The validity of the Lophophorata as a monophyletic group remains controversial. New data on the innervation of the lophophore, which is a unique feature of the lophophorates, may help clarify the status of the Lophophorata and provide new information on the early evolution of the group. In this paper, the organization of the nervous system of the lophophore is described in adults of the minute phoronid Phoronis ovalis. The lophophore nervous system includes a dorsal ganglion, a tentacular nerve ring, an inner ganglion, an inner nerve ring, and six nerves in each tentacle. The inner ganglion and inner nerve ring, which is associated with sensory cells, are described for the first time in adult phoronids. The general plan of the nervous system of the lophophore and tentacles is similar in P. ovalis and bryozoans. These new results suggest the presence of two nerve centers and two nerve rings in the last common ancestor of phoronids and bryozoans. During evolution, bryozoans may have lost the outer nerve center and outer nerve ring, whereas phoronids may have lost the inner nerve center and inner nerve ring. These morphological results evidence the lophophorates are monophyletic.

Published

2017

13. A big data approach to macrofaunal baseline assessment, monitoring and sustainable exploitation of the seabed.

Author

Cooper KM and Barry J

Subjects

Animals, Aquatic Organisms classification, Bryozoa classification, Bryozoa physiology, Crustacea classification, Crustacea physiology, Datasets as Topic, Ecosystem, Humans, Mollusca classification, Mollusca physiology, Oceans and Seas, Polychaeta classification, Polychaeta physiology, United Kingdom, Urochordata classification, Urochordata physiology, Aquatic Organisms physiology, Big Data, Environmental Monitoring methods, Geologic Sediments

Abstract

In this study we produce a standardised dataset for benthic macrofauna and sediments through integration of data (33,198 samples) from 777 grab surveys. The resulting dataset is used to identify spatial and temporal patterns in faunal distribution around the UK, and the role of sediment composition and other explanatory variables in determining such patterns. We show how insight into natural variability afforded by the dataset can be used to improve the sustainability of activities which affect sediment composition, by identifying conditions which should remain favourable for faunal recolonisation. Other big data applications and uses of the dataset are discussed.

Published

2017

14. Lipid remodelling in the reef-building honeycomb worm, Sabellaria alveolata, reflects acclimation and local adaptation to temperature.

Author

Muir AP, Nunes FL, Dubois SF, and Pernet F

Subjects

Animals, Temperature, Acclimatization, Lipid Metabolism, Membrane Lipids analysis, Polychaeta physiology, Polychaeta radiation effects

Abstract

Acclimation and adaptation, which are key to species survival in a changing climate, can be observed in terms of membrane lipid composition. Remodelling membrane lipids, via homeoviscous adaptation (HVA), counteracts membrane dysfunction due to temperature in poikilotherms. In order to assess the potential for acclimation and adaptation in the honeycomb worm, Sabellaria alveolata, a reef-building polychaete that supports high biodiversity, we carried out common-garden experiments using individuals from along its latitudinal range. Individuals were exposed to a stepwise temperature increase from 15 °C to 25 °C and membrane lipid composition assessed. Our results suggest that S. alveolata was able to acclimate to higher temperatures, as observed by a decrease in unsaturation index and 20:5n-3. However, over the long-term at 25 °C, lipid composition patterns are not consistent with HVA expectations and suggest a stress response. Furthermore, unsaturation index of individuals from the two coldest sites were higher than those from the two warmest sites, with individuals from the thermally intermediate site being in-between, likely reflecting local adaptation to temperature. Therefore, lipid remodelling appears limited at the highest temperatures in S. alveolata, suggesting that individuals inhabiting warm environments may be close to their upper thermal tolerance limits and at risk in a changing climate.

Published

2016

15. Proteomic Changes Associated with Successive Reproductive Periods in Male Polychaetous Neanthes arenaceodentata.

Author

Chandramouli KH, Reish D, Zhang H, Qian PY, and Ravasi T

Subjects

Animals, Gene Expression Regulation physiology, Larva, Male, Sex Factors, Adaptation, Physiological physiology, Polychaeta physiology, Proteome metabolism, Reproduction physiology

Abstract

The polychaetous annelid Neanthes acuminata complex has a widespread distribution, with the California population referred to as N. arenaceodentata. The reproductive pattern in this complex is unique, in that the female reproduces once and then dies, whereas the male can reproduce up to nine times. The male incubates the embryos until the larvae leave the male's tube 21-28 days later and commences feeding. Reproductive success and protein expression patterns were measured over the nine reproductive periods. The percent success of the male in producing juveniles increased during the first three reproductive periods and then decreased, but the number of juveniles produced was similar through all nine periods. iTRAQ based quantitative proteomics were used to analyze the dynamics of protein expression patterns. The expression patterns of several proteins were found to be altered. The abundant expression of muscular and contractile proteins may have affected body weight and reproductive success. Sperm have never been observed; fertilization occurs within the parent's tube. Proteins associated with sperm maturation and fertilization were identified, including ATPase, clathrin, peroxiredoxins and enolase, which may provide clues to the molecular mechanisms enabling males to reproduce multiple times.

Published

2015

16. Evolutionary biology: light on ancient photoreceptors.

Author

Lacalli T

Subjects

Animals, Eye anatomy & histology, Eye ultrastructure, Ocular Physiological Phenomena, Photoreceptor Cells, Invertebrate ultrastructure, Polychaeta anatomy & histology, Polychaeta ultrastructure, Biological Evolution, Photoreceptor Cells, Invertebrate physiology, Polychaeta physiology

Published

2004

17. Worms start the reef-building process.

Author

Chisholm JR and Kelley R

Subjects

Animals, Marine Biology, Video Recording, Cnidaria physiology, Polychaeta physiology

Published

2001

18. Photonic engineering. Aphrodite's iridescence.

Author

Parker AR, McPhedran RC, McKenzie DR, Botten LC, and Nicorovici NA

Subjects

Animals, Luminescent Measurements, Optics and Photonics, Polychaeta ultrastructure, Polychaeta physiology

Abstract

The most intense colours displayed in nature result from either multilayer reflectors or linear diffraction gratings. Here we investigate the spectacular iridescence of a spine (notoseta) from the sea mouse Aphrodita sp. (Polychaeta: Aphroditidae). The spine normally appears to be deep red in colour, but when light is incident perpendicular to the axis of the spine, different colours are seen as stripes running parallel to the axis of the spine; over a range of smaller incident angles, the complete visible spectrum is reflected with a reflectivity of 100% to the human eye. The simple structure responsible for this effect is a remarkable example of photonic engineering by a living organism.

Published

2001

19. Calcium phosphate granules in muscle cells of Nephtys (Annelida, Polychaeta)--a novel skeleton?

Author

Gibbs PE and Bryan GW

Subjects

Animals, Calcium metabolism, Muscles metabolism, Phosphates metabolism, Polychaeta ultrastructure, Muscles ultrastructure, Polychaeta physiology

Abstract

Analyses of various marine polychaete worms (phylum Annelida) reveal that members of the family Nephtyidae are exceptional in containing very high concentrations of calcium and phosphorus. We report here that in the genus Nephtys, the two elements form rounded granules packing the sarcoplasmic core of obliquely striated muscle cells. Intracellular calcium granules rich in phosphorus are found throughout the animal kingdom and occur in a wide range of tissues. Although some examples of granules in muscle tissue have been recorded (as in Syllis proventriculus), as far as we are aware, none appears in the abundance found in Nephtys.

Published

1984