Registered users receive a variety of benefits including the ability to customize email alerts, create favorite journals list, and save searches.
Please note that a BioOne web account does not automatically grant access to full-text content. An institutional or society member subscription is required to view non-Open Access content.
Contact helpdesk@bioone.org with any questions.
Anguillid eels generally exhibit catadromous migration between oceanic spawning grounds and freshwater growth habitats, but some individuals remain in coastal or estuarine saline waters for growth. This migratory plasticity had been considered to be a conditional strategy based on individual energetic status during the glass eel stage. Several studies have examined whether salinity-based habitat selection is linked to individual body conditions, but while frozen specimens of European eels showed this relationship, anesthetized samples of American eels did not. Here, we report that freezing preservation under different salinity levels influences body-condition evaluation in Japanese eels. Behavioral tests of Japanese eels did not reveal significant differences in anesthetized body conditions between those choosing saltwater and those choosing freshwater. In conclusion, the body conditions of glass-eel-stage Japanese eels are unlikely to be associated with their salinity-choice propensity.
Mediterranean freshwaters undergo extreme seasonal variation in water flow, which, exacerbated by water withdrawal for agriculture or hydroelectric purposes, may affect fish communities and thus prey availability for semi-aquatic predators, such as Eurasian otter Lutra lutra. To investigate the role played by food availability on the ongoing recovery of an otter population at the southernmost limit of its Italian range, we assessed otter diet by the analysis of 357 spraints collected from 2014 to 2017 on eight rivers, and both fish and amphibian availability by, respectively, electrofishing and visual encounter surveys. Fish and amphibians formed the bulk of otter diet, the latter resource contributing as much as fish to otter diet in spring. Use by otters of both fish and amphibians depended only fish availability, suggesting that amphibians constituted an alternative resource to be exploited in conditions of fish shortage. Accordingly, electrofishing showed that fish biomass may barely be sufficient to sustain the current otter population. ATR-FT-IR spectroscopy allowed to point out for the first time the occurrence of amphibian eggs in otter spraints, although the co-occurrence of anuran bones did not allow to discriminate between direct and passive predation. Overall results indicate that the expansion or even survival of this small otter population may depend on the effective management of water resources and reinforcement of fish assemblages.
Sea anemones belonging to the genera Adamsia and Stylobates have a remarkable symbiotic relationship with hermit crabs. These symbiotic sea anemones produce a shell-like structure, called a “carcinoecium,” that covers and extends over the gastropod shell of the host hermit crab as hermit crabs grow. This structure has been described as “chitinous carcinoecium” or “chitinous coating.” A previous study investigated carcinoecia of Stylobates aeneus, the results of which indicated that it contained at least 1.7% chitin, while the remaining components were unidentified. Moreover, the microscopic structure of a carcinoecium still remains to be detailed. We, therefore, conducted detailed observations using a stereoscopic microscope and scanning electron microscope (SEM) and the analyses of the chemical composition of carcinoecia produced by Stylobates sp. (apparently conspecific with Isadamsia sp. “J” reported in Uchida and Soyama, 2001) associated with a pagurid hermit crab Pagurodofleinia doederleini collected in the south of the Shima Peninsula, Mie, Honshu Island, Japan at a depth of 294–306 m. Our results indicate that carcinoecia of Stylobates sp. contain HCl-soluble components (13%), NaOH-soluble components (38%), chitin (11%) and unidentified remnants (39%). Additionally, our observations show that Stylobates sp. incorporates dark- and white-colored particles that could be sand and/or mud into the carcinoecium.
In the present study, we estimated the genetic diversity and relationships, as well as the propagation routes, of Madagascan goats using mtDNA control region and SRY gene sequences. The mtDNA sequences of 40 Madagascan goats revealed 10 haplotypes and a quite low nucleotide diversity (0.0014), suggesting a founder and/or bottleneck effect resulting from goat migration to Madagascar island. The analysis of sequences identical to Madagascan haplotypes indicated close genetic relationships between goats from Madagascar and Africa. Sequence analysis of the SRY gene in 40 male Madagascan goats revealed two haplotypes: Y1A (45%) and Y2A (55%). The paternal result indicated genetic influences from Africa, South Asia, and the Near East proximal to Madagascar. The analyses of the mtDNA control region and SRY gene sequences suggested a genetic relationship between Africa and Madagascar. Moreover, SRY sequences indicated influences from South Asia and the Near East. These phylogenetic results provide important genetic information for elucidating the propagation routes of Madagascan goats.
The species composition and genetic diversity of the subgenus Mus in Myanmar are not yet fully understood. In this study, mice were trapped in rural areas near the Ayeyarwady River basin, spanning five Myanmar cities from north to south: Mandalay, Bagan, Magway, Pyay, and Yangon. Mitochondrial cytochrome b (Cytb) and nuclear melanocortin 1 receptor (Mc1r) gene sequences were determined for mice sampled and revealed a widespread occurrence of Mus nitidulus in central Myanmar in addition to its previously known occurrence in the Yangon district of southern Myanmar. Analyses of Cytb revealed two haplogroups with a genetic distance of 2.0%, suggestive of divergence several hundred thousand years ago. Mus caroli and M. musculus were confined to Yangon and Mandalay/Bagan/Magway, respectively. Mice collected from a locality on the eastern side of the Ayeyarwady River in Pyay were identified using Cytb and Mc1r sequences as M. fragilicauda, which was previously identified only in Laos and Thailand. The species M. booduga and M. cervicolor previously predicted to be common in the study area were not found. These findings elucidate the species and genetic diversity of the subgenus Mus in the Indo–Malayan Region.
The Japanese serow, Capricornis crispus, is an indigenous bovid species exclusively inhabiting mountain regions in the main Japanese islands, excepting Hokkaido. It had decreased in abundance to its lowest level due to overhunting and deforestation, with its distribution severely fragmented from the middle of the 20th century, many populations of C. crispus currently facing the risk of extinction. The Kii Mountain Range (KM) on Honshu is one such location that has seen a drastic population decline of C. crispus. In this study, we examined genetic characteristics of C. crispus in KM and neighboring regions of the Chubu district, using mtDNA and microsatellite markers, in order to devise strategies for its conservation. Results for mtDNA were characterized by low nucleotide diversity with five endemic and two dominant haplotypes shared by individuals in neighboring regions. A Bayesian skyline plot indicated a gradual increase after the last glacial maximum. For microsatellites, the genetic diversity of C. crispus in KM was comparable to Shizuoka and higher than Shikoku. Recent genetic bottlenecks were strongly suggested in C. crispus in KM. Bayesian clustering showed a genetic cline between KM and neighboring regions, where multivariate analysis suggested three local populations. A Mantel test indicated male-biased dispersal. These results indicate that C. crispus in KM and neighboring regions constitute multiple local populations, connected through restricted gene flow. For the conservation of C. crispus, it is important to define small-scale conservation units, among which genetic connectivity should be facilitated to prevent further loss of genetic diversity.
Sphingomyelin (SM) is a membrane phospholipid that is widely distributed in Metazoa; it is the major constituent of myelin sheaths in vertebrates. In mammals, two genes (SMS1 and SMS2) are responsible for its synthesis. No SM-producing genes have been clearly identified in insects and crustaceans (Ecdysozoa) despite the presence of a myelin sheath-like structure in shrimps. Since the rapid transmission of electrical signals requires the use of an insulating material in the nerve, it is possible that the convergent evolution of enzymes to synthesize the insulating compounds for the nervous system also occurred in animals other than vertebrates. Our exhaustive phylogenetic search for metazoan SM synthase identified an Ecdysozoa-specific SM synthase candidate, SMSe, which is absent in Drosophila and Lophotrochozoa. All Ecdysozoa lack the homolog of myelin basic- and proteolipid proteins present in mammals. We propose an evolutionary path of SM synthase and discuss the origin of the myelin structure in Metazoa.
Luca Vecchioni, Federico Marrone, Alan Deidun, Béatrice Adepo-Gourene, Carlo Froglia, Arnold Sciberras, Michel Bariche, Ali Çiçek Burak, Maria Foka-Corsini, Marco Arculeo
The distribution area of the tufted ghost crab Ocypode cursor includes two widely separate sub-areas, i.e. the tropical and subtropical Atlantic coasts of Africa and Macaronesia, and the central-eastern Mediterranean basin. The current disjunct distribution of the species is possibly the remnant of a previous wider and continuous distribution area that was fragmented during the Pleistocene, with the disappearance of the species from the temperate Atlantic Ocean and the western Mediterranean basin, and its survival in the warmer areas of the eastern Atlantic and the Mediterranean Sea. Such disjunction is thus compatible with an ancient isolation between the Mediterranean and Atlantic populations of the species, which could in fact constitute two well-characterized independent evolutionary lineages, or even two cryptic species. Unexpectedly, the sequencing of a fragment of the mtDNA COI gene from Mediterranean and Atlantic Ocypode cursor allopatric populations showed the cohesion of the species throughout its distribution range, and the nesting of Mediterranean populations within the single Atlantic population studied. This pattern is hereby tentatively ascribed to an incomplete lineage sorting due to the large population sizes of both the Atlantic and Mediterranean subpopulations of the species. The current westward expansion of the species in the Mediterranean Sea originating from the Levantine basin, due to ongoing regional sea warming, follows a typical phalanx dispersal mode.
Many sea urchin species excavate pits in sedimentary rock, transforming primary rocky substrates into sea urchins' pits. These pits are not only used as their home but seem to harbor a distinct assemblage of organisms. We investigated small-scale spatial variation in community of macroinvertebrates by comparing community composition of epilithic macroinvertebrates between those found on unmodified rocky substrate, inside pits occupied by rock-boring sea urchin Stomopneustes variolaris (Lamarck, 1816), and unoccupied pits, on an intertidal rocky shore in southern Thailand. Size structures of macroinvertebrates were compared between pits and analyses were performed to investigate whether the use of habitat depends on availability of space, or biological interactions between sea urchins and other macroinvertebrates. Size structure of the most abundant mobile fauna, top shells Trochus radiatus Gmelin, 1791, were also analyzed to assess whether they exhibit ontogenetic changes in habitat use. Although a few species were found in all habitat types, community compositions were different. Chitons and limpets were found exclusively on unmodified substrate; whereas relatively large-sized gastropods inhabited unoccupied pits, and occupied pits harbored small-sized crustacean and gastropod species. Generally, in occupied pits, small-sized faunas were more abundant than larger faunas, suggesting that sea urchin's body may function as a biogenic structure providing refugia for small-sized individuals. In unoccupied pits volume of all macroinvertebrates increased as available space increased. This was not observed in occupied pits, where disturbances due to sea urchin's activities may be more important in determining habitat use.
Gonadotropin-releasing hormone (GnRH) is an important regulator of reproductive function in various vertebrates and invertebrates. In the present study, we have identified the GnRH-like peptide cDNA and peptide from the cerebral ganglion (CG) of the Pacific abalone, Haliotis discus hannai. Pacific abalone GnRH-like peptide (hdhGnRH-like peptide) cDNA encodes precursor, which possesses the typical organization of the known mollusk GnRH-like peptide precursors, including a hydrophobic signal peptide, GnRH-like peptide, and a cleavage site followed by a GAP-like peptide region. Three hdhGnRH-like peptides, pQNYHFSNGWHAamide (hdhGnRH-11amide), pQNYHFSNGWHA (hdhGnRH-11OH), and pQNYHFSNGWHAG (hdhGnRH-12OH), were determined from the acid/acetone extract of the CG by mass spectrometry (LC-MS/MS) analysis. The hdhGnRH-like peptide mRNA expression was detected not only in the CG but also in gonads, and hdhGnRH-11amide was also detected in the extract of gonads. The mRNA expression of hdhGnRH-like peptide in the CG was lower in spawned males than in non-spawned animals, while no change in hdhGnRH-like peptide mRNA expression was shown in both ovulated and non-ovulated abalone. The hdhGnRH-11amide induces spawning and ovulation of both mature males and females in a concentration-dependent fashion following intramuscular injection. These results indicate that three hdhGnRH-like peptides are yielded from a single hdhGnRH-like peptide precursor, and that at least hdhGnRH-11amide is involved in the control of reproduction of the Pacific abalone.
The valenciniid heteronemertean Baseodiscus delineatus (Delle Chiaje, 1825) was originally described from Naples, Italy, and shows a circumglobal distribution from tropical to temperate seas in both hemispheres. To investigate its reproductive biology, we performed intermittent year-round sampling from 2014 to 2018 in Misaki on the Pacific coast of Honshu, Japan. Of the 40 specimens obtained, 11 were males, while 29 were immature. No female specimen was confirmed during the sampling period. We additionally observed that B. delineatus is fissiparous. A male individual in captivity reproduced asexually by spontaneous posterior fragmentation, an ability that is described here for the first time among Valenciniidae. Autotomy occurred every 2–10 days, with each of the tail fragments having undergone anterior regeneration, which took about 24–36 days before completion of internal organs, such as ocelli, cerebral organs, brain, alimentary canal, rhynchocoel, and proboscis. A review of the literature suggests that the species was absent in the Misaki region 120 years ago. We assume a recent settlement of a male founder, which has putatively reproduced asexually to yield a clonal, unisexual population in Misaki.
This article is only available to subscribers. It is not available for individual sale.
Access to the requested content is limited to institutions that have
purchased or subscribe to this BioOne eBook Collection. You are receiving
this notice because your organization may not have this eBook access.*
*Shibboleth/Open Athens users-please
sign in
to access your institution's subscriptions.
Additional information about institution subscriptions can be foundhere