Genotoxic damage in polychaetes: a study of species and cell-type sensitivities

The marine environment is becoming increasingly contaminated by environmental pollutants with the potential to damage DNA, with marine sediments acting as a sink for many of these contaminants. Understanding genotoxic responses in sediment-dwelling marine organisms, such as polychaetes, is therefore of increasing importance. This study is an exploration of species-specific and cell-specific differences in cell sensitivities to DNA-damaging agents in polychaete worms, aimed at increasing fundamental knowledge of their responses to genotoxic damage. The sensitivities of coelomocytes from three polychaetes species of high ecological relevance, i.e. the lugworm Arenicola marina, the harbour ragworm Nereis diversicolor and the king ragworm Nereis virens to genotoxic damage are compared, and differences in sensitivities of their different coelomic cell types determined by use of the comet assay. A. marina was found to be the most sensitive to genotoxic damage induced by the direct-acting mutagen methyl methanesulfonate (MMS), and showed dose-dependent responses to MMS and the polycyclic aromatic hydrocarbon benzo(a)pyrene. Significant differences in sensitivity were also measured for the different types of coelomocyte. Eleocytes were more sensitive to induction of DNA damage than amoebocytes in both N. virens and N. diversicolor. Spermatozoa from A. marina showed significant DNA damage following in vitro exposure to MMS, but were less sensitive to DNA damage than coelomocytes. This investigation has clearly demonstrated that different cell types within the same species and different species within the polychaetes show significantly different responses to genotoxic insult. These findings are discussed in terms of the relationship between cell function and sensitivity and their implications for the use of polychaetes in environmental genotoxicity studies.     

Does seasonal reproduction occur at the optimal time for fertilization in the polychaetes Arenicola marina L. and Nereis virens Sars?

Summary

Many marine invertebrates exhibit highly seasonal and synchronised reproduction, with offspring production often being confined to just two or three days each year. Several models have been proposed to explain the fitness benefits of this reproductive pattern, many of which assume enhanced offspring survival due to temperature constraints placed on fertilization and development at other times of the year. In this investigation the temperature limits and optimum for fertilization were determined for two polychaete species, Arenicola marina and Nereis virens. These two polychaete species are exposed to the same environmental conditions throughout the year, yet breed at very different times. Other seasonal impacts on fertilization, i.e., reduced salinity due to rainfall and the effect of sub-zero temperatures on sperm of A. marina, were also investigated. In both A. marina and N. virens fertilization success was significantly influenced by temperature, with the maximum success recorded at 15–18°C. The ambient seawater temperature at the time of natural spawning for both worms is around 10°C, which means that both species are spawning right at the lower limit for maximum fertilization. Salinity and exposure of A. marina sperm to sub-zero temperatures were also found to influence fertilization success, but only at levels that would not be experienced by these polychaetes under natural conditions at the time of spawning. These results suggest there must be additional selective pressures acting on the fitness of these two polychaetes causing A. marina to breed later than, and N. virens to breed earlier than, the optimum time for fertilization. A. marina apparently waits as late as possible to maximise adult fecundity and survival. N. virens breeds as soon as it can achieve high fertilization to maximise larval and juvenile competitiveness.     

The role of chemical signals in the spawning induction of polychaete worms and other marine invertebrates

Extracts of gonad, body fluid and spawning water (into which gametes have been released by the process of spawning) were tested for the presence of spawning-inducing activity (SIA) on both sexes of the polychaetes Nereis succinea (Frey and Leuckhart) and Platynereis dumerilii (Audouin and Milne-Edwards). Gonadal and body fluid extracts from Asterias rubens (L.) and Echinus esculentus (L.) (echinoderms), Arenicola marina (L.) (polychaete), Clupea harengus (L.) (teleost) and body fluid and spawning water of Nereis virens (Sars) (polychaete) all exhibit SIA on male N. succinea. C. harengus extract from male gonads also had SIA on male P. dumerilii. Phytoplankton monoculture extracts were also tested. The cryptomonad (Rhodomonas baltica) (Karsten) had SIA on male P. dumerilii, and the diatom Phaeodactylum tricornutum (Bohlin) had some activity on Mytilus edulis (L.). The active fraction of R. baltica is chromatographically similar to uric acid (the natural sperm-release pheromone produced by females of P. dumerilii) [Nature 382 (1996) 214], but has a different retention time and UV absorbance spectra on reverse phase HPLC. Conspecific extracts of spawning water and gonadal material did not have SIA on the same and opposite sex in A. marina and N. virens. The role of chemical signals in marine invertebrates is discussed in relation to their mode of spawning.     

Comparison of diet and feeding activity of two polychaetes, Nephtys caeca (Fabricius) and Nereis virens (Sars), in an estuarine intertidal environment in Québec, Canada

It is crucial to study how food resources are allocated in order to understand how invertebrate species of soft-bottomed benthic communities can live in the same environment, especially when belonging to the same trophic level. On the southern shore of the Lower St. Lawrence Estuary, the polychaetes Nereis virens (Nereidae) and Nephtys caeca (Nephtyidae) represent the main infaunal predators and are known to regulate (by predation) other populations within their community. For these animal populations, there is a high degree of spatial overlap in the horizontal dimension as well as vertically in the sediment column. The purpose of this study was to describe and compare the feeding activity of N. virens and N. caeca in relation to several environmental factors. The feeding activity of N. caeca was further studied under natural and experimental conditions and a feeding experiment was carried out to evaluate how the food resource is subdivided in conditions of high spatial overlap. Finally, the prospecting activity of N. virens was described under natural conditions. N. virens and N. caeca exhibited a high degree of dietary overlap, particularly at the adult stage. This food resource overlap can easily influence the regulation of these species, even though they display different feeding responses to environmental stimuli. Tides and storm events can also influence the feeding behaviour. We conclude that different behavioural feeding responses likely favour the occurrence of these two species in the same trophic environment.     

Experimental study on the influence of bioturbation performed by Nephtys caeca (Fabricius) and Nereis virens (Sars) annelidae on the distribution of dinoflagellate cysts in the sediment

Dinoflagellates include noxious microalgae responsible for the formation of toxic red tides and the poisoning of molluscs and crustaceans, resulting in important economic losses. As a consequence, the life cycle of these algae has been extensively studied, but the dormancy phase (cyst) in the sediment record is little known. In the intertidal zone, bioturbation, an important biological process resulting from the activities of benthic fauna, significantly influences the movement of particles in the sediments. Laboratory experiments have allowed comparing and quantifying the movements of fluorescent microspheres resulting from the activity of two polychaetes annelidae, Nereis virens and Nephtys caeca. The particles, which simulate 45 µm diameter dinoflagellate cysts, are deposited in flat aquaria at the surface or deep in the sediment. Photographs of the aquaria were taken at regular intervals, to observe, in a non-destructive manner, the movement of the particles and to calculate, using adapted software, the optical reworking coefficient (ORC) over time. A difference appears between the movements of the particles generated by both species of polychaetes. Nereis virens create “permanent” galleries that carry the microspheres deeply in the sediment during the digging, bioirrigation and feeding, and Nephtys caeca homogenize the particles in the first centimetres of sediment during its erratic movements. The study shows that the bioturbation generated by these organisms can modify the distribution of the 45 µm diameter dinoflagellate cysts in the sedimentary column, burying them or raising them back to the water-sediment interface.     

The effects of the polychaete Nereis diversicolor on the distribution and transplanting success of Zostera noltii

Loss of saltmarsh vegetation in south-east England is a significant problem for conservation and coastal defence. The losses of vegetation began in the 1930s with the loss of intertidal Zostera marina and have continued more recently. Some preliminary trials at re-establishing Zostera in some estuaries of Essex have not been successful. This paper addresses the hypothesis that the infauna, particularly the polychaete Nereis diversicolor, may restrict natural colonisation by Zostera and reduce the success of transplanting trials. In field experiments, Z. noltii were transplanted into areas where Nereis were common, close to an established seagrass bed and into two other estuaries. The transplants protected from the effects of the polychaetes by netting had a higher survival rate, lower index of root damage and greater biomass at the end of the experiments than those that were unprotected. In laboratory experiments, Nereis reduced the survival of Z. noltii. They were observed grasping the leaves and pulling them into their burrows. These results indicate that herbivory and disturbance by N. diversicolor is responsible, at least in part, for the restriction of the distribution of Z. noltii and may have been important in limiting the success of previous transplanting experiments. A hypothesis is proposed which states that there are two stable states on the upper mud-flats. One state is dominated by plants, including Zostera spp., which prevent colonisation by burrowing infauna, and the other is dominated by infauna which prevent colonisation by plants. Managing these two states could be the key to re-establishing the early successional stages of saltmarsh development. Received: 15 June 1999 / Received in revised form: 6 July 1999 / Accepted: 8 July 1999     

The Fate of [3H]Ecdysone in Three Species of Annelids

Summary

The metabolism of [³H]ecdysone was examined in 3 species of annelids: the bloodworm, Tubifex vulgaris (a freshwater oligochaete), the earthworm, Lumbricus terrestris (a terrestrial oligochaete) and the ragworm, Nereis divtrsicolor (a marine polychaete). One of these species, N. diversicolor, metabolised injected [³H]ecdysone into compounds which co-chromatographed on both reversed-phase and adsorption HPLC with authentic 20-hydroxyecdysone, 26-hydroxyecdysone and 20,26-dihydroxyecdysone, thus demonstrating the occurrence of 20-hydroxylation and 26-hydroxylation capability in the Annelida. Furthermore, [³H]ecdysonoic acid was also formed and excreted by N. diversicolor, suggesting that 26-oic acid formation is involved in ecdysteroid inactivation in this species. Other, as yet unidentified, radioactive metabolites were also excreted by N. diversicolor. Several metabolites of [³H]ecdysone were also detected in the other 2 species examined, T. vulgaris and L. terrestris.     

Tidal,Daily, and Lunar‐Day Activity Cycles in the Marine Polychaete Nereis virens

The burrow emergence activity of the wild caught ragworm Nereis virens Sars associated with food prospecting was investigated under various photoperiodic (LD) and simulated tidal cycles (STC) using a laboratory based actograph. Just over half (57%) of the animals under LD with STC displayed significant tidal (～12.4 h) and/or lunar‐day (～24.8 h) activity patterns. Under constant light (LL) plus a STC, 25% of all animals were tidal, while one animal responded with a circadian (24.2 h) activity rhythm suggestive of cross‐modal entrainment where the environmental stimulus of one period entrains rhythmic behavior of a different period. All peaks of activity under a STC, apart from that of the individual cross‐modal entrainment case, coincided with the period of tank flooding. Under only LD without a STC, 49% of the animals showed nocturnal (～24 h) activity. When animals were maintained under free‐running LL conditions, 15% displayed significant rhythmicity with circatidal and circadian/circalunidian periodicities. Although activity cycles in N. virens at the population level are robust, at the individual level they are particularly labile, suggesting complex biological clock‐control with multiple clock output pathways.     

Cellular immunity in an annelid (Nereis diversicolor,Polychaeta): production of melanin by a subpopulation of granulocytes

Summary We attempted to identify the nature and origin of the pigment produced by the marine worm Nereis diversicolor in order to isolate, in inert brown capsules, foreign objects introduced into its body cavity. This brown pigment, characterized by cytochemical techniques, could be a melanin. The activity of the enzyme phenoloxidase responsible for melanin biosynthesis was detected by enzyme cytochemistry techniques in vacuoles and the Golgi apparatus of coelomocytes activated by the presence of foreign bodies. Morphological techniques combined with a monoclonal immunological probe enabled us to establish that the G₂ granulocytes contain both the precursor of the pigment in dense bodies and the capacity for phenoloxidase synthesis when activated to encapsulate foreign bodies. The G₂ granulocyte may therefore be compared to a melanocyte in which melanin is not stored as in mammals, but immediately extruded following synthesis in the form of a thick fluid.Abbreviations ACTH adrenocorticotropic hormone - Dopa L-3,4 dihydroxyphenylalanine - FITC fluorescein isothiocyanate - G ₁, G ₂, G ₃ granulocyte of types 1, 2, 3 - MSH melanocyte-stimulating hormone - proPo prophenoloxidase     

CUTICULAR METALS: QUANTIFICATION AND MAPPING BY COMPLEMENTARY TECHNIQUES

Metal-replete cuticle was characterised by back-scattered electron imaging, secondary ion mass spectrometry, proton induced X-ray emission and SEM-X-ray microanalysis. Each technique was found to have singular advantages and limitations for localising and quantifying metal content. Manganese and zinc were found coincident at the mandibular cutting edge of the leaf-cutting ant Atta sexdens; these two metals were found in different zones within jaws of the ragworm, Nereis virens; while only manganese was found in the jaws of the termite C. cumulans.     

Lugworm exclusion experiment: Responses by deposit feeding worms to biogenic habitat transformations

On six 400 m² plots over 3 years, we excluded the sessile subduction and conveyer-belt feeding polychaete Arenicola marina which generates a pit-and-mound topography at the sediment surface from intertidal sands near the island of Sylt, Germany. This experiment was used to test whether other abundant deposit feeding polychaetes (the discretely motile and surface feeding ragworm Nereis diversicolor and the subsurface-feeding, motile orbiniid polychaete Scoloplos cf. armiger) benefit from competitive release. Ragworms took advantage from the absence of lugworms. Presumably they responded to a more stable and nutritious surface layer at lugworm exclusion plots (relief from inhibitive bioturbation). Contrary to this, S. cf. armiger was negatively affected by the exclusion of A. marina. It may have suffered from higher sulfide concentrations in the less irrigated and less permeable sediment where lugworms were absent. For adult worms of both species these results were consistent in 2 out of 3 years examined. Recruitment by N. diversicolor was highly variable between years and occurred either irrespective of experimental treatments or the response was inconsistent. Juveniles of S. cf. armiger benefited from the presence of A. marina and aggregated near lugworm tail shafts where inflow of oxygen rich water was high and sulfide concentrations were low. Biogenic habitat mediated effects of lugworms on both deposit feeders were in the same order of magnitude as abundance variation in space and time. Thus, A. marina was one of the key factors structuring the deposit feeding community. It is suggested that arenicolids modify the composition of the associated polychaete assemblage primarily through habitat transformation.     

Ooplasmic segregation and axis formation in the polychaeteNereis virens embryo

Ooplasmic segregation is of great importance in the development of Annelida. The mechanisms of this process are very diverse in different groups of polychaetes, oligochaetes, and leeches (Fernandezet al., 1998). Ooplasmic segregation inNereis virens is connected with the first meiotic spindle formation and animal-vegetative axis appearance. Spherical polyaxial symmetry of the oocyte transforms into radial stratified symmetry in the course of ooplasmic segregation. There are two main steps of ooplasmic segregation inNereis virens. The first step begins after the cortical reaction when the central clear cytoplasm reaches the surface of the oocyte. The movement of the cytoplasm is sensitive to nocodazole, colchicine, and cytochalasin B and appears to be mediated by microtubules and, partly, by microfilaments. The second step is not sensitive to the microtubule inhibitors and is mediated mainly by actin filaments. Ooplasmic segregation inNereis virens may be considered as a primitive form of ooplasmic segregation in Annelida.     

Effect of bioturbation on denitrification in a marine sediment from the West Mediterranean littoral

Thein vitro effect ofNereis diversicolor on denitrification has been studied in PVC tubes filled with a coastal marine sediment defaunated by sieving. The first aim of the experiment was to determine the effect of sediment defaunation on denitrification (denitrifying population and Denitrifying Enzyme Assays). Sieving induced a loss of 70% of the initial DEA. The number of denitrifying bacteria was 10 times lower than inin situ sediment. In the top two centimetres, the DEA rose by 75% of its initial value, after 82 days. Polychaetes were only added after a return to near pre-disturbance levels to ensure that our data on the effects of their addition would not be disturbed by changes in the sediment. Introduction of Polychaetes increased the denitrifying population and DEA in the first layer (0–2 cm) of the sediment after 15 days. After 45 days, the surface of the polychaete burrows in sediment was 1.3 to 1.5 times higher than after 15 days, resulting in an increase in solute exchange between seawater and the top layer of sediment. An inhibitory effect of oxygen on denitrification was detected in the uppermost layer only.     

Food supply impacts sediment reworking by <Emphasis Type="Italic">Nereis diversicolor</Emphasis>

This study assessed the effects of food supply on sediment reworking by Nereis diversicolor. We hypothesized that food supply would enhance sediment reworking and that the frequency of food supply would affect the intensity of bioturbation. Mesocosm experiments consisted of four treatments: (1) without worms (control cores), (2) with worms and no food supply, (3) with worms and daily food supply, (4) with worms and weekly food supply. Fluorescent particles, used as tracers, were spread over the sediment surface. Sediment reworking was quantified after 28 days based on the tracer distribution profiles. Results showed that sediment reworking by N. diversicolor was exclusively due to non-local transport processes. Food supply greatly increased non-local transport coefficients (more than 3 times) in comparison with those measured in the absence of a food supply. However, the intensity of sediment bioturbation by these worms was unaffected by the frequency of food supply. This study showed that environmental conditions affecting the quantity of food supply at the water-sediment interface could strongly influence bioturbation process. Handling editor: P. Viaroli     

Impact of grazing and bioturbation of marine benthic deposit feeders on dinoflagellate cysts

The impact of benthic deposit feeders on marine dinoflagellate cysts was studied by adding a concentrated natural Swedish cyst assemblage to sediment with different deposit feeders in replicate 4-l aquaria. The deposit feeders used were the bivalve Abra nitida, the echinoderm Amphiura filiformis, and the polychaetes Melinna cristata and Nereis diversicolor. These species occur naturally near the Swedish west coast and were selected to represent different ways of feeding. The results showed a significant relative decrease of unfossilizable cyst species; whereas, the common fossilizable species Lingulodinium polyedrum significantly increased in the cyst assemblage after grazing. This work suggests that differences in dinoflagellate cyst compositions can in part be caused by different animal grazing behaviors.     

Effects of copper and other metals on fertilization,embryo development,larval survival and settlement of the polychaete Nereis (Neanthes) virens

Summary

Nectochaete larvae of the ecologically and economically important ragworm, Nereis virens, were exposed to cadmium, chromium, copper, lead and zinc dissolved in seawater to nominal concentrations ranging from 0 to 5000 μg l^?1. Copper was the most toxic (mean LC50 of 76.5 μg l^?1 ± 95% CI 73.8–79.2 after 96 h exposure) and so was used for subsequent experiments. Exposure of gametes to greater than 500 μg l^?1 copper for 2 or 4 h at 10°C prior to fertilization, or a 10 min exposure during fertilization, significantly reduced embryo developmental success. The effect of copper on larval settlement was also assessed using sediment spiked to a range of concentrations (0, 50, 250, 500, 1000 mg kg!1 dry weight). Significantly fewer larvae were found in sediment of $250 mg kg!1 in comparison to the control or the 50 mg kg!1 treatment. Assessment of living larvae also confirmed a significant reduction in settlement, but in all treatments compared to the control, although the number of dead larvae also increased as the concentrations increased. These effects may have important implications for reproductive success and recruitment of N. virens to polluted sediments.     

Predation on soft-shell clams (Mya arenaria) by the nemertean Cerebratulus lacteus in Atlantic Canada: implications for control measures

The nemertean, Cerebratulus lacteus Verrill (Nemertinea: Heteronemertini), has been identified as an important threat to soft-shell clam (Mya arenariaL.) populations in Atlantic Canada. The biology of this species, however, is still largely unknown. Field and laboratory studies were undertaken in 1998 and 1999 in Prince Edward Island, Canada, to test certain control measures to reduce predation on soft-shell clam populations and to better describe the relationship between C. lacteus and M. arenaria. Field abundance of C. lacteus, M. arenaria and Nereis virens Sars were evaluated in relation to particular habitat modifications that were used as control measures. Sediment manipulations tested were: (1) addition of shells and (2) use of a hydraulic rake. No difference was observed on the abundance of C. lacteus, M. arenaria and N. virens after treatments were applied. In the laboratory, C. lacteus was shown to be an efficient predator of M. arenaria. Clam mortalities reached 100% in the presence of C. lacteus while 0% mortality was observed in its absence. A complementary set of experiments was carried out to see if the sympatric polychaetes N. virens and Glycera dibranchiata Ehlers had any impact on the relationship between C. lacteus and M. arenaria. N. virens showed no impact on C. lacteus predation on clams. The presence of G. dibranchiata significantly reduced the nemertean predation rate. Analysis of clam size selection revealed no significant preference by C. lacteus. Other experimental studies revealed that high predator densities did not impede predation on clams and that C. lacteus preferred soft-shell clams among other commercial bivalve species presented (Mercenaria mercenariaL., Crassostrea virginica Gmelin and Mytilus edulisL.). This study should provide a better understanding of the relationship between C. lacteus and M. arenaria and lead to the development of improved nemertean control measures.     

Flamingomyces and Parvulago, new genera of marine smut fungi (Ustilaginomycotina)

Teliospore walls, teliospore germinations, hyphal septations, cellular interactions, and nucleotide sequences from the D1/D2 region of the nuLSU rRNA gene of the marine smut fungi Melanotaenium ruppiae and Ustilago marina were examined and compared with findings in other Ustilaginomycotina. The data show that Melanotaenium ruppiae belongs to the Urocystaceae and Ustilago marina to the Ustilaginaceae. Within the Urocystaceae, Melanotaenium ruppiae is morphologically similar to Melanustilospora and Vankya. However, according to the molecular results Melanotaenium ruppiae can neither be ascribed to Melanustilospora nor to Vankya. Therefore, the new genus Flamingomyces is proposed for Melanotaenium ruppiae. Ustilago marina differs from the other Ustilaginaceae in the mode of sporulation, which exclusively occurs at the base of the host plant culms. Accordingly, the new genus Parvulago is proposed for Ustilago marina.     

Ultrastructural observations on membrane changes associated with cryopreserved spermatozoa of two polychaete species and subsequent mobility induced by quinacine

Summary

A wide range of cryoprotectants and cooling rates have been tested on the spermatozoa of two polychaete species Arenicola marina and Nereis virens. The techniques were more successful with N. virens; with this species active sperm were recovered after immersion in liquid nitrogen following a variety of cooling protocols. Structural damage to the sperm of both species, however, was observed following freezing, and this was more severe in the case of A. marina. Structural damage of the flagellum plasma membrane was most commonly observed. Biologically important changes in the sperm can be induced by the freezing procedures; for example acrosome eversion may be induced in N. virens sperm. Dissociation of the sperm of A. marina can be induced after freezing by the sperm activator quinacrine, but these sperm do not acquire forward motility probably due to flagellum damage.