Your search keyword '"CEPHALOPODA"' showing total 5,269 results

1. Evolutionary history influences the microbiomes of a female symbiotic reproductive organ in cephalopods.

Author

Vijayan, Nidhi, McAnulty, Sarah, Sanchez, Gustavo, Jolly, Jeffrey, Ikeda, Yuzuru, Nishiguchi, Michele, Réveillac, Elodie, Gestal, Camino, Spady, Blake, Li, Diana, Burford, Benjamin, Kerwin, Allison, and Nyholm, Spencer

Subjects

Alphaproteobacteria, Verrucomicrobia, accessory nidamental gland, cephalopod, microbial communities, microbiomes, phylosymbiosis, symbiosis, Humans, Animals, Female, Cephalopoda, Phylogeny, RNA, Ribosomal, 16S, Microbiota, Decapodiformes, Genitalia, Bacteria, Symbiosis

Abstract

Many female squids and cuttlefishes have a symbiotic reproductive organ called the accessory nidamental gland (ANG) that hosts a bacterial consortium involved with egg defense against pathogens and fouling organisms. While the ANG is found in multiple cephalopod families, little is known about the global microbial diversity of these ANG bacterial symbionts. We used 16S rRNA gene community analysis to characterize the ANG microbiome from different cephalopod species and assess the relationship between host and symbiont phylogenies. The ANG microbiome of 11 species of cephalopods from four families (superorder: Decapodiformes) that span seven geographic locations was characterized. Bacteria of class Alphaproteobacteria, Gammaproteobacteria, and Flavobacteriia were found in all species, yet analysis of amplicon sequence variants by multiple distance metrics revealed a significant difference between ANG microbiomes of cephalopod families (weighted/unweighted UniFrac, Bray-Curtis, P = 0.001). Despite being collected from widely disparate geographic locations, members of the family Sepiolidae (bobtail squid) shared many bacterial taxa including (~50%) Opitutae (Verrucomicrobia) and Ruegeria (Alphaproteobacteria) species. Furthermore, we tested for phylosymbiosis and found a positive correlation between host phylogenetic distance and bacterial community dissimilarity (Mantel test r = 0.7). These data suggest that closely related sepiolids select for distinct symbionts from similar bacterial taxa. Overall, the ANGs of different cephalopod species harbor distinct microbiomes and thus offer a diverse symbiont community to explore antimicrobial activity and other functional roles in host fitness.IMPORTANCEMany aquatic organisms recruit microbial symbionts from the environment that provide a variety of functions, including defense from pathogens. Some female cephalopods (squids, bobtail squids, and cuttlefish) have a reproductive organ called the accessory nidamental gland (ANG) that contains a bacterial consortium that protects eggs from pathogens. Despite the wide distribution of these cephalopods, whether they share similar microbiomes is unknown. Here, we studied the microbial diversity of the ANG in 11 species of cephalopods distributed over a broad geographic range and representing 15-120 million years of host divergence. The ANG microbiomes shared some bacterial taxa, but each cephalopod species had unique symbiotic members. Additionally, analysis of host-symbiont phylogenies suggests that the evolutionary histories of the partners have been important in shaping the ANG microbiome. This study advances our knowledge of cephalopod-bacteria relationships and provides a foundation to explore defensive symbionts in other systems.

Published

2024

2. Developmental gene expression in the eyes of the pygmy squid Xipholeptos notoides.

Author

Koller, David, Kocot, Kevin M., Degnan, Bernard M., and Wollesen, Tim

Subjects

GENE expression, IN situ hybridization, BIVALVES, CEPHALOPODA, CUTTLEFISH

Abstract

The eyes of squids, octopuses, and cuttlefish are a textbook example for evolutionary convergence, due to their striking similarity to those of vertebrates. For this reason, studies on cephalopod photoreception and vision are of importance for a broader audience. Previous studies showed that genes such as pax6, or certain opsin‐encoding genes, are evolutionarily highly conserved and play similar roles during ontogenesis in remotely related bilaterians. In this study, genes that encode photosensitive proteins and Reflectins are identified and characterized. The expression patterns of rhodopsin, xenopsin, retinochrome, and two reflectin genes have been visualized in developing embryos of the pygmy squid Xipholeptos notoides by in situ hybridization experiments. Rhodopsin is not only expressed in the retina of X. notoides but also in the olfactory organ and the dorsal parolfactory vesicles, the latter a cephalopod apomorphy. Both reflectin genes are expressed in the eyes and in the olfactory organ. These findings corroborate previous studies that found opsin genes in the transcriptomes of the eyes and several extraocular tissues of various cephalopods. Expression of rhodopsin, xenopsin, retinochrome, and the two reflectin genes in the olfactory organ is a finding that has not been described so far. In other organisms, it has been shown that Retinochrome and Rhodopsin proteins are obligatorily associated with each other as both molecules rely on each other for Retinal isomerisation. In addition, we demonstrate that retinochrome is expressed in the retina of X. notoides and in the olfactory organ. This study shows numerous new expression patterns for Opsin‐encoding genes in organs that have not been associated with photoreception before, suggesting that either Opsins may not only be involved in photoreception or organs such as the olfactory organ are involved in photoreception. Research Highlights: R‐opsin, retinochrome, xenopsin, and reflectin genes are expressed in the olfactory organs of the pygmy squid Xipholeptos notoides.Xenopsin is expressed in the brain.Potential roles of Reflectins during the ontogeny of eyes and olfactory organs. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ovarian and testicular ripening process, reproductive season and size at maturity in <italic>Octopus hubbsorum</italic> (Cephalopoda: Octopodidae)

Author

Domínguez-Contreras, José F., Arellano-Martínez, Marcial, Rosas, Carlos, and Ceballos-Vázquez, Bertha P.

Subjects

*OCTOPUSES, *CEPHALOPODA, *OOGENESIS, *SEX ratio, *OVUM

Abstract

This paper contributes to the knowledge of the reproductive biology of Octopus hubbsorum Berry 1953. Its reproductive season in Bahía Magdalena, Baja California Sur ranges from May to October. The increase of gonadosomatic index in females coupled with the decline in Guerra’s index and the increase in oocyte diameter in May and September were indicative of spawning. The total sex ratio was 1:1; males were larger than females. Females reach sexual maturity at 119.7 mm of dorsal mantle length and 628.6 g of total weight. This paper also addressed different aspects on reproductive studies, allowing the identification of the type of gonadal development as a group-synchronous type and the transition from physiological to functional maturity, in both qualitative and quantitative terms (proportion of oocyte stages). Detailed descriptions of the oogenesis/folliculogenesis stages of O. hubbsorum are presented with detailed photographs (in Supplemental online material). [ABSTRACT FROM AUTHOR]

Published

2024

4. Cephalopods' Skin‐Inspired Design of Nanoscale Electronic Transport Layers for Adaptive Electrochromic Tuning.

Author

Yu, Yilin, Zhu, Xinyi, Jiang, Shiqi, Wu, Shuangshuang, Zhao, Yu, Zhang, Lingli, Song, Liping, and Huang, Youju

Subjects

*BIOMIMETICS, *HUMAN skin color, *CHARGE exchange, *OXIDATION-reduction reaction, *CEPHALOPODA

Abstract

Cephalopods can change their skin color by using high‐speed electron transduction among receptors, neural networks, and pigmentary effectors. However, it remains challenging to realize a neuroelectrical transmission system like that found in cephalopods, where electrons/ions transmit on nanoscale, which is crucial for fast adaptive electrochromic tuning. Inspired by that, hereby an ideal, rapidly responsive, and multicolor electrochromic biomimetic skin is introduced. Specifically, the biomimetic skin comprises W18O49 nanowires (NWs) that are either colorless or blue, Au nanoparticles@polyaniline (Au NPs@PANI) ranging from green to pink, and a flexible conductive substrate. As the applied voltage changes from 0.4 V to ‐0.7 V and back to 0 V, the color of the biomimetic skin transforms from green to blue and ultimately to pink. This color change is attributed to the electrically induced redox reaction of Au NPs@PANI and W18O49 NWs, triggered by the transfer of electrons and ions. Furthermore, the high versatility and adaptability of electrical stimulus enable the creation of a highly interactive electrochromic biomimetic skin system through the integration of sensitive acoustic sensors, providing a perfect environment‐responsive platform. This work provides a biomimetic multicolor electrochromic skin that depends on electron/ion transfer on nanoscale, expands potential uses for camouflage skin. [ABSTRACT FROM AUTHOR]

Published

2024

5. Screening of sex-special genes in common long-arm octopus Octopus minor based on gonadal transcriptome sequencing.

Author

Jiabei He, He Wang, Chao Liu, Siqing Chen, Qiang Zhao, Jianlong Ge, and Yongsheng Liu

Subjects

*OCTOPUSES, *AQUACULTURE, *CEPHALOPODA, *TRANSCRIPTION factor Sp1, *GONAD development

Abstract

The common long-arm octopus (Octopus minor) is a commercially important aquaculture species in East Asia, and the male octopus grows faster than the female ones, while the information about sex-regulating mechanisms in octopuses is limited. Therefore, gonadal transcriptome sequencing was performed in O. minor to reveal the molecular mechanisms of sex regulation in cephalopods. Based on the sexuality and gonad development stage, 4 groups of 12 gonad tissues were sampled, and 11 libraries were retained for bioinformatics analysis. A total of 263,749,727 clean reads were obtained. The percentage of clean reads mapped to the O. minor reference genome ranged from 77.20% to 90.59%. A total of 3936 differentially expressed genes (DEGs) were obtained between ovarian and testicular libraries by Venn diagram analysis, including 855 ovarian up-regulated and 3081 testicular up-regulated genes. Four unigenes (transcription factor Sox-8, fermentation-1, forkhead box protein L2, and ribosomal protein large 24) and one pathway (ECM-receptor interaction) were screened to be candidate molecular markers for sex determination. The reliability and accuracy of our analysis were validated via quantitative real-time PCR in 10 randomly selected DEGs. The results of our study enhanced our understanding of the molecular mechanism underlying sex determination and potentially helped to screen the bio-markers for O. minor in different sexes. [ABSTRACT FROM AUTHOR]

Published

2024

6. The association of argonauts with gelatinous plankton and other substrates.

Author

Villanueva, Roger, Fernández‐Álvarez, Fernando Ángel, and Gili, Josep‐Maria

Subjects

*SCIENTIFIC knowledge, *ONLINE social networks, *NATURAL history, *FISH larvae, *ANIMAL migration, *AMPHIPODA

Abstract

This article discusses the association between argonauts, a group of octopods, and various substrates in the ocean. The study used images shared by recreational divers on social media to quantify the diversity of substrates used by argonauts for movement. The images showed that argonauts were attached to plastic waste, vegetal debris, and pelagic animals, with gelatinous plankton being the most abundant substrate. The study also observed accompanying fauna sharing the same substrate with the argonauts. The findings highlight the value of citizen science and the use of high-quality images obtained during blackwater dives for studying the behavior and interactions of oceanic pelagic organisms. [Extracted from the article]

Published

2024

7. Feeding habits of splendid alfonsino Beryx splendens in the vicinity of Kuroshio, the south of Japan.

Author

Kodama, Taketoshi, Ishii, Koichi, Horii, Sachiko, Gonda, Natsuki, Yonezawa, Junji, Ando, Kazuto, and Takahashi, Kazutaka

Subjects

*NITROGEN isotopes, *SPRING, *AUTUMN, *CEPHALOPODA, KUROSHIO

Abstract

Gut contents and nitrogen isotope ratio (δ15N) analyses were conducted on splendid alfonsino Beryx splendens collected in the vicinity of Kuroshio from May 2015 to November 2016 (n = 708) to identify their feeding habits in the Western North Pacific. Micronektonic fish, shrimp, and squid were the dominant prey species, with the Decapoda Acanthephyra quadrispinosa, Prehensilosergia prehensilis, Cephalopoda Enoploteuthis chunii, Chiroteuthis calyx, Teleostei Sigmops gracilis, and Gonostoma elongatum. These micronektons are common in the Kuroshio Current; thus, B. splendens is a possible opportunistic feeder. Gut content weight (GCW), occurrence (%O) of fish and squid, and δ15N were significantly increased with the fork length (FL) of B. splendens. Only the %O of shrimp does not show a significant relationship with the FL of B. splendens. These indicated the ontogenetic shift of dominant prey from shrimp to fish. Fattened specimens could also prey on a greater number of fish. The seasonality of GCW and %O values was high in spring and autumn and low in summer and winter. This seasonality indicated that the feeding habits of B. splendens are controlled by primary productivity in the surface layer and/or by maturity. When the Kuroshio flowed in the north of Hachijojima Island, the GCW was significantly increased, and some organisms, including C. calyx, G. elongatum, and S. gracilis, were preyed on more. While the offshore area of the Kuroshio has low productivity, B. splendens can actively prey in this area, indicating that it is an important feeding ground for this species. [ABSTRACT FROM AUTHOR]

Published

2024

8. First Evidence of Reproductive Strategies in Cephalopods Preserved in Phosphate and Siderite Nodules from the Devonian of Uruguay.

Author

Piñeiro, Graciela, Rodao, Magela, and Núñez Demarco, Pablo

Subjects

PHOSPHATE coating, CONGLOMERATE corporations, CEPHALOPODA, DEVONIAN extinctions

Abstract

Uruguayan ammonoids are preserved in phosphate and siderite nodules found at the basalmost tillite-like conglomerates of the San Gregorio Formation. This lithostratigraphic unit was deposited under glacial conditions and its age (as well as that of the nodules) has been highly debated because glaciations were intermittent in Gondwana during the Late Paleozoic. Reef-builder organisms (e.g., Rugosa and Tabulata), goniatite and orthoceratid cephalopods, brachiopods, sponges, actinopterygians and other indeterminate gnatostomes, as well as fragmentary stems and roots of cf. Lycopsida are the most frequent fossils in the nodules. According to new biostratigraphic and paleoclimatic evidence, these taxa are representative of a reefal environment of a preliminary Devonian age including species that are common in the underlying Early Devonian (Emsian) Durazno Group. Among the ammonoid remains, more than 40 clusters of hatchling goniatites were found in the nodules. Each cluster contains a variable number of shells similar in shape to some of the adults also preserved within the nodules, representing a single species preserved at the same developmental stage (3 mm on size average). The strongly packed shells are enveloped by a substance with a different chemical composition and microstructure with respect to that of the nodule matrix, possibly indicating the presence of a gelatinous-like substance reminiscent of that secreted by the females of some extant cuttlefish and octopuses at the time of the egg spawn. Differing from previously described ammonoid accumulations, our clusters are unique in containing individuals of just a single species preserved in the same ontogenetic stage. That allows us to suggest that they represent a mode of reproduction in which hatchlings were morphologically similar to their parents and occupied the same habitat. Our results are thus one of the oldest known records of reproductive strategies in Paleozoic ammonoids and the phosphate and siderite nodules from the San Gregorio Formation are here classified as a new Konservat-Lagerstätte, which is the oldest known for South America. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cephalopod-omics: Emerging Fields and Technologies in Cephalopod Biology.

Author

Baden, Tom, Briseño, John, Coffing, Gabrielle, Cohen-Bodénès, Sophie, Courtney, Amy, Dickerson, Dominick, Dölen, Gül, Fiorito, Graziano, Gestal, Camino, Gustafson, Taryn, Heath-Heckman, Elizabeth, Hua, Qiaz, Imperadore, Pamela, Kimbara, Ryosuke, Król, Mirela, Lajbner, Zdeněk, Lichilín, Nicolás, Macchi, Filippo, McCoy, Matthew, Nishiguchi, Michele, Nyholm, Spencer, Otjacques, Eve, Pérez-Ferrer, Pedro, Ponte, Giovanna, Pungor, Judit, Rogers, Thea, Rosenthal, Joshua, Rouressol, Lisa, Rubas, Noelle, Sanchez, Gustavo, Santos, Catarina, Schultz, Darrin, Seuntjens, Eve, Songco-Casey, Jeremea, Stewart, Ian, Styfhals, Ruth, Tuanapaya, Surangkana, Vijayan, Nidhi, Weissenbacher, Anton, Zifcakova, Lucia, Schulz, Grace, Weertman, Willem, Simakov, Oleg, and Albertin, Caroline

Subjects

Animals, Cephalopoda, Genomics, Genome, Gene Expression Profiling, Brain

Abstract

Few animal groups can claim the level of wonder that cephalopods instill in the minds of researchers and the general public. Much of cephalopod biology, however, remains unexplored: the largest invertebrate brain, difficult husbandry conditions, and complex (meta-)genomes, among many other things, have hindered progress in addressing key questions. However, recent technological advancements in sequencing, imaging, and genetic manipulation have opened new avenues for exploring the biology of these extraordinary animals. The cephalopod molecular biology community is thus experiencing a large influx of researchers, emerging from different fields, accelerating the pace of research in this clade. In the first post-pandemic event at the Cephalopod International Advisory Council (CIAC) conference in April 2022, over 40 participants from all over the world met and discussed key challenges and perspectives for current cephalopod molecular biology and evolution. Our particular focus was on the fields of comparative and regulatory genomics, gene manipulation, single-cell transcriptomics, metagenomics, and microbial interactions. This article is a result of this joint effort, summarizing the latest insights from these emerging fields, their bottlenecks, and potential solutions. The article highlights the interdisciplinary nature of the cephalopod-omics community and provides an emphasis on continuous consolidation of efforts and collaboration in this rapidly evolving field.

Published

2023

10. Hettangian, Early Jurassic coleoids from West Somerset, SW England—filling a gap in the coleoid record of NW Europe

Author

DAVID H. EVANS, CHRISTIAN KLUG, ANDREW H. KING, and KEVIN N. PAGE

Subjects

cephalopoda, coleoidea, diplobelida, early jurassic, hettangian, blue lias formation, somerset, united kingdom, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

The semi-articulated remains of two specimens of the putative diplobelid coleoid species of Clarkeiteuthis and a coleoid of uncertain affinity (possibly a phragmoteuthid) are described from a single bed in the Blue Lias Formation (early Hettangian, Planorbis Subchronozone) of the Somerset coast (United Kingdom). Remains of Hettangian, (Early Jurassic) coleoids are generally rare worldwide and consist largely of disassociated hard parts. Previously, the oldest recorded putative diplobelids (Clarkeiteuthis) were known from the Sinemurian of Dorset. The Somerset specimens extend their range into the earliest Jurassic, shortly after the end Triassic mass extinction. Combined with the coleoid of uncertain affinity and a previously described belemnitid, this assemblage is significant in the light of the Mesozoic radiation of coleoids. Several isolated coleoid ink sacs are also known from the same bed, suggesting that this unit may have some of the properties of a Lagerstätte. The relatively frequent occurrence of coleoids in this bed combined with a record of an ichthyosaur stomach containing numerous arm hooks attributable to Clarkeiteuthis (Planorbis Chronozone of Dorset) suggest that coleoids may have been relatively abundant and diverse during the earliest Jurassic.

Published

2024

11. Octopus diet during the settlement period using DNA metabarcoding.

Author

Escolar, Oscar, Fernández-Álvarez, Fernando Á., and Villanueva, Roger

Abstract

The settlement phase is a challenging period for meropelagic octopus, as they adapt to their new life in the sea bottom after a planktonic period. Their ecology and trophic interactions with the surrounding fauna in the wild are practically unknown. To understand their predatory role in the littoral zone, the diet of recently settled Octopus vulgaris from a Mediterranean sandy bottom was studied through molecular methods. Amphipods were present in all the analysed stomach contents, with a total of 20 amphipod taxa recorded as prey. Jassa slatteryi and Microprotopus maculatus were the most commonly found amphipod species. Hydrozoans, decapod crustaceans, cephalopods and bivalves followed amphipods in importance. Niche breadth index assigned to small recently settled octopus the role of a specialised predator, increasing the diversity of prey as they grow. Larger juveniles displayed a higher number of prey taxa suggesting a decreasing predatory specialisation with octopus size and an ontogenetic shift in trophic ecology from diet mainly based on amphipods to a richer diet. The considerable arm elongation and the strong muscular arm crown development after settlement probably allow the juvenile benthic octopus to develop ambush predation and speculative hunting, increasing the range of potential benthic prey species along its adaptation to the benthos. [ABSTRACT FROM AUTHOR]

Published

2024

12. Insights on long-term ecosystem changes from stable isotopes in historical squid beaks

Author

Alexey V. Golikov, José C. Xavier, Filipe R. Ceia, José P. Queirós, Paco Bustamante, Bram Couperus, Gaël Guillou, Anna M. Larionova, Rushan M. Sabirov, Christopher J. Somes, and Henk-Jan Hoving

Subjects

Climate change, Food web, Arctic, North atlantic, Cephalopoda, Predator, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background Assessing the historical dynamics of key food web components is crucial to understand how climate change impacts the structure of Arctic marine ecosystems. Most retrospective stable isotopic studies to date assessed potential ecosystem shifts in the Arctic using vertebrate top predators and filter-feeding invertebrates as proxies. However, due to long life histories and specific ecologies, ecosystem shifts are not always detectable when using these taxa. Moreover, there are currently no retrospective stable isotopic studies on various other ecological and taxonomic groups of Arctic biota. To test whether climate-driven shifts in marine ecosystems are reflected in the ecology of short-living mesopredators, ontogenetic changes in stable isotope signatures in chitinous hard body structures were analysed in two abundant squids (Gonatus fabricii and Todarodes sagittatus) from the low latitude Arctic and adjacent waters, collected between 1844 and 2023. Results We detected a temporal increase in diet and habitat-use generalism (= opportunistic choice rather than specialization), trophic position and niche width in G. fabricii from the low latitude Arctic waters. These shifts in trophic ecology matched with the Atlantification of the Arctic ecosystems, which includes increased generalization of food webs and higher primary production, and the influx of boreal species from the North Atlantic as a result of climate change. The Atlantification is especially marked since the late 1990s/early 2000s. The temporal patterns we found in G. fabricii’s trophic ecology were largely unreported in previous Arctic retrospective isotopic ecology studies. Accordingly, T. sagittatus that occur nowadays in the high latitude North Atlantic have a more generalist diet than in the XIXth century. Conclusions Our results suggest that abundant opportunistic mesopredators with short life cycles (such as squids) are good candidates for retrospective ecology studies in the marine ecosystems, and to identify ecosystem shifts driven by climate change. Enhanced generalization of Arctic food webs is reflected in increased diet generalism and niche width in squids, while increased abundance of boreal piscivorous fishes is reflected in squids’ increased trophic position. These findings support opportunism and adaptability in squids, which renders them as potential winners of short-term shifts in Arctic ecosystems.

Published

2024

13. Observational evidence of egg guarding in wild European squid.

Author

Hernández‐Urcera, Jorge, González, Ángel F., Escolano, Felipe, and Cabanellas‐Reboredo, Miguel

Subjects

*SQUIDS, *CEPHALOPODA, *EGGS, *OCEAN bottom, *MALES

Abstract

It is accepted that loliginids, like other squid, deposit their eggs in crevices on the seabed and then abandon them. In this work, we present observational evidence of egg guarding behavior in wild European squid, Loligo vulgaris. While monitoring a squid spawning crevice at night in Spain, a large mass of squid eggs was located and filmed 17 times during 42 days, until hatching. A male and a female of L. vulgaris were filmed in front of the crevice. The same male was filmed guarding the eggs on consecutive days. In the presence of the divers, male and female alternated their approaches to the crevice repeatedly touching and flushing the egg clusters. This guarding behavior differs from the reproductive habits assumed for the European squid and could represent the first evidence of egg guarding by a male in cephalopods. [ABSTRACT FROM AUTHOR]

Published

2024

14. A Theoretical Comparison of Alternative Male Mating Strategies in Cephalopods and Fishes.

Author

Landsittel, Joseph A., Ermentrout, G. Bard, and Stiefel, Klaus M.

Abstract

We used computer simulations of growth, mating and death of cephalopods and fishes to explore the effect of different life-history strategies on the relative prevalence of alternative male mating strategies. Specifically, we investigated the consequences of single or multiple matings per lifetime, mating strategy switching, cannibalism, resource stochasticity, and altruism towards relatives. We found that a combination of single (semelparous) matings, cannibalism and an absence of mating strategy changes in one lifetime led to a more strictly partitioned parameter space, with a reduced region where the two mating strategies co-exist in similar numbers. Explicitly including Hamilton’s rule in simulations of the social system of a Cichlid led to an increase of dominant males, at the expense of both sneakers and dwarf males (“super-sneakers”). Our predictions provide general bounds on the viable ratios of alternative male mating strategies with different life-histories, and under possibly rapidly changing ecological situations. [ABSTRACT FROM AUTHOR]

Published

2024

15. Inferring Consciousness in Phylogenetically Distant Organisms.

Author

Godfrey-Smith, Peter

Subjects

*CONSCIOUSNESS, *NERVOUS system, *COGNITION, *CEPHALOPODA

Abstract

The neural dynamics of subjectivity (NDS) approach to the biological explanation of consciousness is outlined and applied to the problem of inferring consciousness in animals phylogenetically distant from ourselves. The NDS approach holds that consciousness or felt experience is characteristic of systems whose nervous systems have been shaped to realize subjectivity through a combination of network interactions and large-scale dynamic patterns. Features of the vertebrate brain architecture that figure in other accounts of the biology of consciousness are viewed as inessential. Deep phylogenetic branchings in the animal kingdom occurred before the evolution of complex behavior, cognition, and sensing. These capacities arose independently in brain architectures that differ widely across arthropods, vertebrates, and cephalopods, but with conservation of large-scale dynamic patterns of a kind that have an apparent link to felt experience in humans. An evolutionary perspective also motivates a strongly gradualist view of consciousness; a simple distinction between conscious and nonconscious animals will probably be replaced with a view that admits differences of degree, perhaps on many dimensions. [ABSTRACT FROM AUTHOR]

Published

2024

16. Seasonal-Spatial Distribution Variations and Predictions of Loliolus beka and Loliolus uyii in the East China Sea Region: Implications from Climate Change Scenarios.

Author

Xu, Min, Feng, Wangjue, Liu, Zunlei, Li, Zhiguo, Song, Xiaojing, Zhang, Hui, Zhang, Chongliang, and Yang, Linlin

Subjects

*FISH conservation, *FISHERY management, *GLOBAL warming, *AUTUMN, *SPECIES distribution

Abstract

Simple Summary: Loliolus spp., such as Loliolus beka (Sasaki, 1929) and Loliolus uyii (Wakiya and Ishikawa, 1921), represent a dominant fishing bycatch in the East China Sea. However, their seasonal–spatial distribution characteristics are unclear. Here, the generalized linear mixed-effects model sdmTMB was used to evaluate ways of handling merged distribution data for L. beka and L. uyii to predict the variation in their spatial distributions under different climate change scenarios. Model predictions were validated using cross-validation, while model performance was assessed using T-tests. We speculated that the range and density of both species will vary over time, with some areas in the mid-East China Sea becoming potential habitats. In addition, we assumed that individuals of both species in the northern survey area might migrate to the northern Yellow Sea and Bohai Sea to spawn, whereas those in the central and southern Yellow Sea might migrate to coastal areas. During autumn, newborn larvae in the northern survey area would migrate to the southern Yellow Sea, whereas those in the central and southern areas would gradually migrate to offshore areas, resulting in a distribution ranging from coastal sea areas to the central survey area. Thus, this study provides novel insights into modeling habitat distributions for data-limited species and theoretical support for adapting fisheries resource management to climate change. Global climate change profoundly impacts the East China Sea ecosystem and poses a major challenge to fishery management in this region. In addition, closely related species with low catches are often not distinguished in fishery production and relevant data are commonly merged in statistics and fishing logbooks, making it challenging to accurately predict their habitat distribution range. Here, merged fisheries-independent data of the closely related squid Loliolus beka (Sasaki, 1929) and Loliolus uyii (Wakiya and Ishikawa, 1921) were used to explore the construction and prediction performance of species distribution models. Data in 2018 to 2019 from the southern Yellow and East China Seas were used to identify the seasonal–spatial distribution characteristics of both species, revealing a boundary line at 29.00° N for L. uyii during the autumn, with the highest average individual weight occurring during the summer, with both larvae and juveniles occurring during the autumn. Thus, the life history of L. uyii can be divided into winter–spring nursery and summer–autumn spawning periods. L. beka showed a preference for inshore areas (15–60 m) during the summer and offshore areas (32.00–78.00 m) during the winter. High-value areas of both species included inshore areas of the southern Yellow and mid-East China Seas during the autumn, enlarging during the spring to include central areas of the survey region, before significantly decreasing during the summer. Therefore, this study provides both a novel perspective for modeling biological habitat distribution with limited data and a scientific basis for the adjustment of fishery resource management and conservation measures in the context of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

17. Hettangian, Early Jurassic coleoids from West Somerset, SW England--filling a gap in the coleoid record of NW Europe.

Author

EVANS, DAVID H., KLUG, CHRISTIAN, KING, ANDREW H., and PAGE, KEVIN N.

Subjects

*MASS extinctions, *CEPHALOPODA, *MESOZOIC Era, *STOMACH, *SPECIES

Abstract

The semi-articulated remains of two specimens of the putative diplobelid coleoid species of Clarkeiteuthis and a coleoid of uncertain affinity (possibly a phragmoteuthid) are described from a single bed in the Blue Lias Formation (early Hettangian, Planorbis Subchronozone) of the Somerset coast (United Kingdom). Remains of Hettangian, (Early Jurassic) coleoids are generally rare worldwide and consist largely of disassociated hard parts. Previously, the oldest recorded putative diplobelids (Clarkeiteuthis) were known from the Sinemurian of Dorset. The Somerset specimens extend their range into the earliest Jurassic, shortly after the end Triassic mass extinction. Combined with the coleoid of uncertain affinity and a previously described belemnitid, this assemblage is significant in the light of the Mesozoic radiation of coleoids. Several isolated coleoid ink sacs are also known from the same bed, suggesting that this unit may have some of the properties of a Lagerstätte. The relatively frequent occurrence of coleoids in this bed combined with a record of an ichthyosaur stomach containing numerous arm hooks attributable to Clarkeiteuthis (Planorbis Chronozone of Dorset) suggest that coleoids may have been relatively abundant and diverse during the earliest Jurassic. [ABSTRACT FROM AUTHOR]

Published

2024

18. Ontogenetic, Spatial and Inter-Annual Variability in the Diet of European Hake Merluccius merluccius Linnaeus, 1758, in the North Aegean Sea.

Author

Evangelopoulos, Athanasios, Geropoulos, Antonios, Kamidis, Nikolaos, and Koutrakis, Emmanouil

Subjects

*GASTROINTESTINAL contents, *CONTENT analysis, *ACQUISITION of data, *CEPHALOPODA, *DIET

Abstract

This study contributes to filling knowledge gaps regarding recent information on the diet of the European hake, Merluccius merluccius Linnaeus, 1758, in the Greek seas, particularly its ontogenetic shifts and its spatiotemporal variability. The trophic preferences of M. merluccius were investigated in the North Aegean Sea during the summers of 2019 to 2023 with visual stomach content analysis to assess its composition, diversity, and variability across body-size classes, years, and subareas. The identified prey are functionally diverse and in many cases also primary targets for local fisheries. The ontogenetic trophic niche of hake was characterized by two distinct shifts, delineated by 10 and 50 cm body-size thresholds. Cephalopods were a prevalent dietary component for large hake individuals. The intermediate body-size classes demonstrated greater trophic niche breadth concerning prey diversity and absolute prey-size ranges. A feeding strategy characterized by the specialization of individuals was also revealed. The effect of the temporal and spatial context on the hake diet was occasionally correlated with spatiotemporal variations in the sizes of their populations. In conclusion, ontogenetic and spatiotemporal variability in the hake diet were found to be significant and should be considered in the data collection design and analyses of the trophic interactions of the species. [ABSTRACT FROM AUTHOR]

Published

2024

19. Giant eggs in a deep‐sea squid.

Author

Hoving, Henk‐Jan T., Haddock, Steven H. D., Robison, Bruce H., and Seibel, Brad A.

Subjects

*SQUIDS, *SPAWNING, *LIFE history theory, *SEXUAL cycle, *EGGS, *GONADS, *LIFE cycles (Biology), *MARINE biology

Abstract

This document provides information on the discovery of a female squid in the deep sea carrying large eggs. The squid was found in the Gulf of California at a depth of 2566m and is believed to be from the Gonatidae family. The size of the eggs is larger than what is typically found in other squid species. The document also discusses the reproductive strategies of squids and the potential advantages of producing large eggs. Overall, this research offers valuable insights into the reproductive biology of deep-sea cephalopods. Additionally, the document explores the development and characteristics of deep-sea cephalopod eggs, with a focus on giant gonatid squid eggs. The stable and predictable environmental conditions in the deep water column allow for fewer, larger eggs and advanced hatchlings. However, the cold waters of the deep sea result in long development times for these eggs. The document also highlights the limited knowledge about the development of large cephalopod eggs at low temperatures and the possibility of extensive multiyear brooding of giant eggs when predation pressure is low. The authors suggest that further exploration of the deep water column is necessary to gain a better understanding of the biology of these mysterious oceanic creatures. [Extracted from the article]

Published

2024

20. Progress of the studies on parasites in Cephalopods.

Author

FANG Zhou and SHU Yue

Subjects

*LIFE cycles (Biology), *PARASITE life cycles, *PARASITIC diseases, *ALIMENTARY canal, *CEPHALOPODA

Abstract

Cephalopods are widely distributed in the world's oceans and are among the most important species in the marine ecosystem due to their short life cycle, fast growth rate and extremely rich biomass. Like other marine organisms, cephalopods are at risk of being infected by parasites, often acting as either intermediate or final hosts for different species of parasites. Due to the unique life cycle of parasites, their life cycle can run through the entire or partial life cycle of the host, greatly affecting the growth and survival of cephalopods. Currently, research on parasites in cephalopods mainly focuses on species composition, life history, infection status, and other aspects. This article summarizes the current research status of parasitic infections in cephalopod marine animals. The results show that the main parasites infecting cephalopods are Dicyemida, Cestoda and Nematoda. Dicyemida parasitize cephalopods characteristically, with maturation and reproduction taking place exclusively in the kidneys of cephalopods. Available statistics show that there are 149 species of Dicyemida infecting cephalopods, mainly found within the Sea of Japan, with fewer species found at lower latitudes. Cephalopods, as intermediate hosts, are also susceptible to infection by Cestoda larvae and have a high infection rate. Cestoda mainly parasitize the digestive tract of cephalopods. Due to the large size, stretching, and mobility of Cestoda larvae, they are prone to cause mechanical damage to the host. Nematodes are another common parasites infecting cephalopods, and are primarily ingested as third-stage larvae of Nematodes, which mostly parasitize the stomach and cecum. Nematodes are among the most abundant and common species of cephalopod parasitic infections, and can have significant pathological effects on the host. Other types of parasites can also affect the physiological characteristics of cephalopods to a certain extent. Research on parasites in cephalopods is still in its early stages. Therefore, future research should focus on accelerating the establishment of an open database of parasites in cephalopods, expanding and sharing information on parasite species. It is also important to deeply explore the life processes of parasitic species in cephalopods to further understand their impact on host growth. Additionally, using parasites in cephalopods to divide population composition can provide new ideas for the sustainable development and utilization of cephalopod fisheries. [ABSTRACT FROM AUTHOR]

Published

2024

21. Ommastrephes caroli (Cephalopoda: Ommastrephidae) from the Adriatic Sea: Morphometry, Age, and Genetic Characterization.

Author

Petrić, Mirela, Dadić, Marija, Roje, Damir, Udovičić, David, Stanić, Rino, and Trumbić, Željka

Subjects

BIOMASS estimation, RIBOSOMAL RNA, CEPHALOPODA, SQUIDS, POPULATION aging

Abstract

This study gives the first data on the body and beak morphometric characteristics, age, and genetic structure of neon flying squid, a rarely caught cephalopod in the Adriatic Sea. We identified specimens as recently resurrected Ommastrephes caroli species using two mitochondrial markers, 16S ribosomal RNA gene and cytochrome c oxidase subunit I gene. Overall, 23 juveniles (3 females, 3 males, and 17 unsexed), with a dorsal mantle range of 65–152 mm, were caught in September 2020 in the waters of the Korčula Channel, island of Palagruža, and island of Jabuka, thus providing the most abundant sample of this species in the Mediterranean waters. The length–weight relationship showed an isometric growth. The results of the beak/length regressions suggest hood length is a useful characteristic for biomass estimation studies, as it showed a good linear fit to the dorsal mantle length. Statolith growth increments were easily visible and statolith microstructure analysis was successfully used to determine the age of 22 individuals. The estimated age ranged from 36 to 64 days (mean = 48 days). The back-calculation analysis showed that the squid hatched during July and August 2020, indicating that O. caroli spawns during the warmer, summertime period. Considering the size and age of the caught individuals, the Adriatic Sea could represent a potential feeding ground for this species. The genetic structure analyses indicate the existence of separate Atlantic and Mediterranean/Adriatic subclusters; however, this warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

22. Embryonic development of a centralised brain in coleoid cephalopods.

Author

Elagoz, Ali M., Van Dijck, Marie, Lassnig, Mark, and Seuntjens, Eve

Subjects

*EMBRYOLOGY, *NEURAL development, *CEPHALOPODA, *LIFE cycles (Biology), *CENTRAL nervous system, *MOLECULAR pathology

Abstract

The last common ancestor of cephalopods and vertebrates lived about 580 million years ago, yet coleoid cephalopods, comprising squid, cuttlefish and octopus, have evolved an extraordinary behavioural repertoire that includes learned behaviour and tool utilization. These animals also developed innovative advanced defence mechanisms such as camouflage and ink release. They have evolved unique life cycles and possess the largest invertebrate nervous systems. Thus, studying coleoid cephalopods provides a unique opportunity to gain insights into the evolution and development of large centralised nervous systems. As non-model species, molecular and genetic tools are still limited. However, significant insights have already been gained to deconvolve embryonic brain development. Even though coleoid cephalopods possess a typical molluscan circumesophageal bauplan for their central nervous system, aspects of its development are reminiscent of processes observed in vertebrates as well, such as long-distance neuronal migration. This review provides an overview of embryonic coleoid cephalopod research focusing on the cellular and molecular aspects of neurogenesis, migration and patterning. Additionally, we summarize recent work on neural cell type diversity in embryonic and hatchling cephalopod brains. We conclude by highlighting gaps in our knowledge and routes for future research. [ABSTRACT FROM AUTHOR]

Published

2024

23. Transcriptome profiling of the posterior salivary glands of the cuttlefish Sepia officinalis from the Portuguese West coast.

Author

Gonçalves, Cátia, Cabral, Inês Moutinho, Alves de Matos, António P., Grosso, Ana R., and Costa, Pedro M.

Subjects

CUTTLEFISH, SALIVARY glands, VENOM glands, CONUS, TRANSCRIPTOMES, BIOACTIVE compounds, VENOM, MOLLUSKS

Abstract

Cephalopods like octopuses and cuttlefishes are known to secrete a ‘toxic saliva’ to inject into their prey, especially crustaceans since the XIX century. However, only in the mid-XX century were the first coleoid-specific toxins successfully isolated. Motivated by the growing interest on the global ocean as an almost inexhaustible source of novel bioactive compounds, we used RNA-Seq – based transcriptomics and de novo assembly of transcriptomes to screen the posterior salivary glands of Sepia officinalis (the common cuttlefish) from the Portuguese West coast for toxins and other bioactive proteins and peptides. Supported by microanatomical analyses, the posterior salivary glands constitute indeed the ‘venom gland’ whereas the more elusive anterior salivary glands (embedded in the buccal mass) are responsible for the production of mucin-rich saliva that is effectively the vehicle that transports the toxins as the venom is injected into the prey. Indeed, the transcriptomic profiling suggests that the cuttlefish venom is complex mixture of bioactive proteins, among which neurotoxins are major players, together with enzymes whose function is to digest the extracellular matrix to facilitate diffusion of the toxins. Nonetheless, by comparing with previous RNA-Seq data obtained from S. officinalis collected from other biogeographical areas, it may be suggested that significant inter-populational variation in venom composition can occur, which may potentially increase the span of bioactives secreted by these animals. We isolated and validated the full coding sequences for three important toxins, a cysteine-rich venom protein (CRVP), a venom insulin (VIns) and a cephalotoxin (CTX). The toxins seem to be relatively conserved among coleoids but diverging from other venomous mollusks such as cone snails. Their properties as potent modulators of glucose (in the case of VIns) and as potential neurotoxins (like CRVP and CTX) can render them primer targets for drug development. [ABSTRACT FROM AUTHOR]

Published

2024

24. Long-term annual trawl data show shifts in cephalopod community in the western Barents sea during 18 years.

Author

Golikov, Alexey V., Jørgensen, Lis L., Sabirov, Rushan M., Zakharov, Denis V., and Henk-Jan Hoving

Subjects

PREDATION, DREDGING (Fisheries), GROUNDFISHES, TUNDRAS, MARINE ecology, CLIMATE change, CEPHALOPODA

Abstract

Climate change is threatening marine ecosystems on a global scale but particularly so in the Arctic. As a result of warming, species are shifting their distributions, altering marine communities and predator-prey interactions. This is known as the Atlantification of the Arctic. Warming may favor short-lived, opportunistic species such as cephalopods, marine mollusks that previously have been hypothesized to be winners in an ocean of change. To detect temporal regional trends in biodiversity, long-term annual surveys in hotspots of climate change are an unparalleled source of data. Here, we use 18 years of annual bottom trawl data (2005-2022) to analyse cephalopods in the western Barents Sea. More specifically, our research goals are to assess temporal trends in cephalopod fauna composition, abundance and biomass, and to relate these trends to climate change in the western Barents Sea. Main changes in cephalopod diversity and distribution occurred in mid-2000s and early 2010s, which corresponds with a period of warming in the Arctic since the late 1990s/early 2000s. Repeated increased occurrence of the boreal-subtropical cephalopods was recorded from 2005-2013 to 2014-2022. Moreover, the abundance of cephalopods in the area (in general and for most taxa) increased from 2005-2013 to 2014-2022. These observations suggest that the cephalopod community of the Barents Sea is subjected to Atlantification since the 2005-2013 period. This corresponds with previously reported evidence of the Atlantification in fishes and benthic invertebrates in the Barents Sea and benthic invertebrates. 'Typical' Arctic cephalopod species such as Bathypolypus spp., Gonatus fabricii and Rossia spp., however, are still much more abundant in the western Barents Sea compared to the deep-sea and the boreal-subtropical species. We also found indirect indications for body-size reduction in Bathypolypus spp. from 2005-2013 to 2014-2022. Overall, the temporal trends in the Barents Sea cephalopod fauna provide evidence for changing marine communities in the Arctic. [ABSTRACT FROM AUTHOR]

Published

2024

25. Species Delimitation of Argonauta Paralarvae Reveals an Extensive Morphological Variability in the Northern Humboldt Current System.

Author

Orosco, Ximena, Ayón, Patricia, Sotil, Giovanna, and Ramirez, Jorge L.

Subjects

*GENETIC barcoding, *SPECIES, *CHROMATOPHORES, *CEPHALOPODA, *EGGS, PERU Current

Abstract

Argonauts or paper nautiluses are pelagic octopod cephalopods with a cosmopolitan distribution in tropical and subtropical waters around the world. Unlike other species of octopus, these are characterized by the fact that the female has a shell that serves as the breeding chamber for the eggs. Over time, this structure has been used as a taxonomic diagnostic character, causing problems in the systematics of this genus, with around 50 synonymies reported. Only two species, Argonauta argo and A. nouryi, have been reported in the Northern Humboldt Current System; however, there is taxonomic uncertainty regarding these species, which is reflected in the paralarvae (the first stage of life after hatching). In the paralarvae, the chromatophore patterns are considered to be conservative and reliable taxonomic characteristics. The objective of this study is to demonstrate the extensive variability in the chromatophore arrangement of Argonauta paralarvae in the Northern Humboldt Current using DNA barcoding and five species delimitation models. Our results include up to 11 different paralarvae morphotypes according to the pattern of chromatophores (number and arrangement) and 2 shell morphotypes. Species delimitation methods divided the 13 Argonauta morphotypes into two consensus molecular taxonomic units (MOTUs), A. argo and A. nouryi. Additionally, the results revealed an extensive morphological variability in the paralarvae and female shells of A. nouryi, demonstrating the importance of molecular data in studies involving species with different life stages, especially when this extensive morphological variability obscures conventional analyses. [ABSTRACT FROM AUTHOR]

Published

2024

26. Whales and cephalopods in a deep‐sea arms race.

Author

Hoving, Henk‐Jan and Visser, Fleur

Subjects

*CEPHALOPODA, *ARMS race, *WHALES, *BEAKED whales, *TOOTHED whales, *PREDATORY aquatic animals, *SEXUAL cycle, *MYOGLOBIN

Abstract

This article examines the interactions between deep-sea cephalopods and toothed whales, focusing on the strategies cephalopods use to avoid predation and the echolocation abilities of toothed whales. The authors propose four hypotheses to further investigate these interactions and emphasize the need for direct observation to better understand the dynamics of deep-sea predator-prey systems. The article provides valuable insights into the unique selective pressures and adaptations in the deep-sea environment and calls for further research in this area. [Extracted from the article]

Published

2024

27. Amphiatlantic Dolphins' Prey: Indicators of Speciation, Trophic Competition and Global Warming? A Review.

Author

Olaya-Ponzone, Liliana, Ruíz, Rocío Espada, Domínguez, Daniel Patón, and García-Gómez, José Carlos

Subjects

GLOBAL warming, INTERNATIONAL competition, GENETIC speciation, BOTTLENOSE dolphin, CRUSTACEA, FORAGE fishes, DOLPHINS, CEPHALOPODA

Abstract

A review of the prey of three amphiatlantic dolphin species, Tursiops truncatus, Stenella coeruleoalba and Delphinus delphis, is carried out. The main objective of this work is to review the feeding of these species in the Atlantic in order to assess the degrees of trophic competition and speciation pressure. A total of 103 fish families, 22 cephalopod families and 19 crustacean families have been counted, from which the species identified to the genus level only included seventy-one fish, twenty cephalopods and five crustaceans, and the total species identified included three-hundred-one fish, fifty cephalopods and twenty-six crustaceans. The most consumed prey were fish, followed by cephalopods and crustaceans. The exclusive prey consumed by each of the three dolphin species, as well as those shared by all or at least two of them, have also been counted. T. truncatus is the most general; however, the western Atlantic populations exhibit high dietary specialization compared to the eastern Atlantic populations, reflecting strong speciation pressure on both sides of the Atlantic. D. delphis and S. coeruleoalba, despite their amphiatlantism, have hardly been studied in the western Atlantic, except for a few references in the southern hemisphere, so the fundamental differences between the two species and their comparison with T. truncatus have been established with records from the eastern Atlantic. All three dolphin species have been observed to be expanding, especially D. delphis. This northward expansion and that of their prey is discussed. [ABSTRACT FROM AUTHOR]

Published

2024

28. New record of a female violet blanket octopus (Tremoctopus violaceus, delle Chiaje, 1830) in the Strait of Messina, southern Italy.

Author

Famulari, Sergio, Savoca, Serena, Panarello, Giuseppe, Iaria, Carmelo, Spanò, Nunziacarla, and Capillo, Gioele

Subjects

OCTOPUSES, STRAITS, TERRITORIAL waters, CEPHALOPODA

Abstract

In the present note an adult female of Tremoctopus violaceus delle Chiaje, 1830, is recorded from the Strait of Messina. Species of the family Tremoctopodidae are widely distributed in tropical oceans, but rare in coastal waters. The morphological characteristics coincide with those described by other authors. Necroscopic examination performed did not reveal any peculiar pathology. Morphometrical characteristics, photos and general information are given, expanding the knowledge about these rare cephalopods in Mediterranean basin. [ABSTRACT FROM AUTHOR]

Published

2024

29. THE FIRST CENOZOIC OCTOPOD: A LOWER EOCENE RECORD FROM BOLCA, NORTHEASTERN ITALY

Author

ALEKSANDR MIRONENKO, LUCA GIUSBERTI, GIOVANNI SERAFINI, ROBERTO ZORZIN, and ALEXANDRE F. BANNIKOV

Subjects

Cephalopoda, Coleoidea, Octopoda, Taxonomy, Paleogene, Bolca Konservat-Lagerstätte., Geology, QE1-996.5, Paleontology, QE701-760

Abstract

To date, soft-tissue remains of extinct incirrate octopods have been described exclusively from Upper Cretaceous deposits. Here, three specimens of an incirrate octopodid with well-preserved soft tissue imprints are described for the first time from Paleogene strata. This material originates from the upper Ypresian (lower Eocene) fish-bearing levels of the Bolca Konservat-Lagerstätte in the Pesciara of Bolca in north-eastern Italy. Previously, these specimens had tentatively been interpreted as teuthids. Based on a detailed study of their anatomical structure, a new genus and species of octopodid, Bolcaoctopus pesciaraensis, belonging to the extant family Octopodidae, are here erected. Bolcaoctopus gen. nov. may be distinguished from the Late Cretaceous genus Styletoctopus by the presence of long and thin arms and an elongated body shape with a narrowed apical end and covered by longitudinal wrinkles. Although finds of fossil octopuses in the Bolca Konservat-Lagerstätte remain extremely rare, it is worth noting that Cenozoic marine vertebrate localities constitute an important potential source of additional finds of coleoid cephalopods, the study of which may shed light on a poorly understood period in the evolutionary history of these molluscs.

Published

2024

30. Anatomy and size of Megateuthis, the largest belemnite

Author

Christian Klug, Günter Schweigert, René Hoffmann, Dirk Fuchs, Alexander Pohle, Robert Weis, and Kenneth De Baets

Subjects

Cephalopoda, Belemnitida, Bajocian, Anatomy, Gigantism, Taphonomy, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

Abstract Belemnite rostra are very abundant in Mesozoic marine deposits in many regions. Despite this abundance, soft-tissue specimens of belemnites informing about anatomy and proportions of these coleoid cephalopods are extremely rare and limited to a few moderately large genera like Passaloteuthis and Hibolithes. For all other genera, we can make inferences on their body proportions and body as well as mantle length by extrapolating from complete material. We collected data of the proportions of the hard parts of some Jurassic belemnites in order to learn about shared characteristics in their gross anatomy. This knowledge is then applied to the Bajocian genus Megateuthis, which is the largest known belemnite genus worldwide. Our results provide simple ratios that can be used to estimate belemnite body size, where only the rostrum is known.

Published

2024

31. Orthoceratoid and coleoid cephalopods from the Middle Triassic of Switzerland with an updated taxonomic framework for Triassic Orthoceratoidea

Author

Alexander Pohle and Christian Klug

Subjects

Monte San Giorgio, Anisian, Cephalopoda, Nautiloids, Orthocone, Pseudorthocerida, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

Abstract Orthoconic cephalopods are subordinate, but persistent, widespread and regionally abundant components of Triassic marine ecosystems. Here, we describe unpublished specimens from the Anisian (Middle Triassic) Besano Formation at Monte San Giorgio, Switzerland. They can be assigned to two major but unrelated lineages, the Coleoidea and the Orthoceratoidea. The orthoceratoids belong to Trematoceras elegans (Münster, 1841) and occur regularly within the Besano Formation, are uniform in size, and have few available morphological characters. In contrast, coleoids are more diverse and appear to be restricted to shorter intervals. A new coleoid is described as Ticinoteuthis chuchichaeschtli gen. et sp. nov. To better put the orthoceratoids of the Besano Formation into perspective, we also synthesise the current taxonomy of Triassic orthoceratoids on a global scale. The currently used scheme is largely outdated, with very little taxonomic progress in the past 100 years. Despite previous research showing the distinctness of Triassic orthoceratoids from Palaeozoic taxa, they are still commonly labelled as “Orthoceras” or “Michelinoceras”, which are confined to the Palaeozoic. We show that Triassic orthoceratoids probably belong to a single lineage, the Trematoceratidae, which can be assigned to the Pseudorthocerida based on the embryonic shell and endosiphuncular deposits. Many Triassic species can probably be assigned to Trematoceras, but there are at least two additional Triassic orthoceratoid genera, Paratrematoceras and Pseudotemperoceras. Finally, we review the palaeobiogeographic and stratigraphic distribution of the group and outline possible future research directions.

Published

2024

32. Anatomy and size of Megateuthis, the largest belemnite.

Author

Klug, Christian, Schweigert, Günter, Hoffmann, René, Fuchs, Dirk, Pohle, Alexander, Weis, Robert, and De Baets, Kenneth

Subjects

*ANATOMY, *MARINE sediments, *CEPHALOPODA, *ROSTRUM (Anatomy), *TAPHONOMY

Abstract

Belemnite rostra are very abundant in Mesozoic marine deposits in many regions. Despite this abundance, soft-tissue specimens of belemnites informing about anatomy and proportions of these coleoid cephalopods are extremely rare and limited to a few moderately large genera like Passaloteuthis and Hibolithes. For all other genera, we can make inferences on their body proportions and body as well as mantle length by extrapolating from complete material. We collected data of the proportions of the hard parts of some Jurassic belemnites in order to learn about shared characteristics in their gross anatomy. This knowledge is then applied to the Bajocian genus Megateuthis, which is the largest known belemnite genus worldwide. Our results provide simple ratios that can be used to estimate belemnite body size, where only the rostrum is known. [ABSTRACT FROM AUTHOR]

Published

2024

33. Morphology, taxonomy and trophic interactions of rostrum-less coleoids from the Late Triassic Polzberg Konservat-Lagerstätte (Lower Austria).

Author

Lukeneder, Petra, Fuchs, Dirk, and Lukeneder, Alexander

Subjects

*CEPHALOPODA, *MORPHOLOGY, *TAXONOMY, *TAPHONOMY

Abstract

Coleoid cephalopods are widespread from the Mesozoic till today. The extinct group of the Phragmoteuthida is thought to represent either stem-neocoleoids, stem-decabrachians, or stem-octobrachians. The well-known, almost complete specimens of Phragmoteuthis bisinuata from the Carnian Polzberg Konservat-Lagerstätte near Lunz am See (Lower Austria, Northern Calcareous Alps) and Cave del Predil (Northern Italy, Julian Alps) come from historical collections. These specimens do not reflect the entire coleoid assemblage within this environment. In order to obtain a more complete picture of the Carnian coleoid fauna, 430 coleoid specimens from the Polzberg locality and 60 specimens from contemporaneous localities around Cave del Predil were studied in detail. All available elements (phragmocones, proostraca, cartilages, hooks, beaks, ink sacs) attributed to the coleoid fauna were recorded, measured and evaluated taxonomically and taphonomically. Reviews of historical collection material permitted comparisons with recently collected material. The notation of co-occurrences of other faunal elements yielded insights into the palaeoecological context of this Upper Triassic environment within the Polzberg Basin. The new material from Polzberg does not support the previous assumption of a monospecific composition of the Polzberg coleoid fauna. Instead, we report the occurrence of the new phragmoteuthid Phragmoteuthis polzbergensis nov. sp. and a newly excavated specimen of Phragmoteuthis indicates the presence of ten arms within the group of the Phragmoteuthida for the first time. Phragmocones with small opening angles combined with cylindrical (roundly closed) body chambers, and arm hook types which are unusual for phragmoteuthids indicate the presence of the basal coleoid group comprising the rostrum-less genus Mojsisovicsteuthis. [ABSTRACT FROM AUTHOR]

Published

2024

34. The zoogeographic regionalization for cephalopoda linked to the canary current upwelling system.

Author

Luna, Amanda, Ramos, Ana, and Rocha, Francisco

Subjects

*CEPHALOPODA, *CANARIES, *GEOGRAPHIC boundaries, *BODIES of water, *ZOOGEOGRAPHY

Abstract

Quantitative data on cephalopods collected in ten multidisciplinary surveys (20–2000 m) between 2004 and 2012, together with original oceanographic and satellite data, were analyzed using multivariate techniques. Statistical analyses were based on presence–absence matrices by species and hydrological variable indices. The results show that cephalopods are distributed in two main zoogeographical groups separated by latitude: "Temperate water" and "Tropical water" clusters. They extended by temperate and tropical regions, separated by a geographical boundary, Cape Blanc, particularly strong in the case of coastal species between these groups. For the total fauna, we have identified a third particular cephalopods' cluster, the "Upwelling" cluster (22°–17°N), characterized by a higher diversity and dominance of oceanic cephalopods. This is proposed as a new zoogeographical region that would coincide with the area of greatest productivity, intensity and permanence throughout the year of the canary current upwelling, confined between the north of Cape Blanc and the south of Mauritania. The results confirm the strong relationship between the three zoogeographical regions (temperate, tropical, and upwelling) and certain water bodies that characterize the regional hydrology. This paper deepens into the zoogeography of the cephalopods from Northwest Africa (Central-Eastern Atlantic), providing a new, more detailed insight into the region and its boundaries in relation to the oceanography. [ABSTRACT FROM AUTHOR]

Published

2024

35. In vitro Screening of Cytotoxic Activity of the Ink and Nidamental Gland Extracts from the Egyptian Cuttlefish Sepia officinalis (Cephalopoda: Sepioidea) on Cancer Cell Lines.

Author

El-Saidy, Salwa A., El-Sayed, Hadeer M., El‑Khodary, Gihan M., and Samak, Noha M.

Subjects

*CELL lines, *CANCER cells, *CUTTLEFISH, *LUNGS, *CEPHALOPODA, *MEDICAL screening

Abstract

New cancer treatments are desperately needed since the available convetntional cancer drugs have numerous negative consequences. Therefore, the current work attempted to evaluate the cytotoxic properties of the ink extract (IE) and nidamental gland extract (NGE) from the Egyptian cuttlefish Sepia officinalis on four cancer cell lines: lung carcinoma (A-549), epidermoid carcinoma (A-431), colorectal carcinoma (HCT-116), and prostatic adenocarcinoma (PC-3). Both extracts were characterized through biochemical composition screening via gas chromatography-mass spectrometry (GC-MS) and investigating the levels of proximate composition, phytochemicals, and total antioxidant capacity (TAC). IE and NGE exhibited cytotoxic effects by decreasing viable cancer cells number with dosedependent, with median inhibitory concentrations (IC50) of 517.52 and 427.45µg/ ml against A-549; 511.03 & 262.83µg/ ml against A-431; 480.06 and 220.04µg/ ml against HCT-116 in addition to 372.21 & 242.22µg/ ml against PC-3, respectively. The NGE showed more toxicity toward all tested cancer cell lines than the IE due to higher concentrations of bioactive substances in NGE relative to IE. Moreover, all proximal compositions, phytochemicals, and TAC in NGE were higher than those detected in IE. Hence, the NGE of S. officinalis may be considered a promising cytotoxic agent against cancer cell lines, but more studies are required to explore the action's mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

36. Removing the uncertainty of chitin structure in chitons (Mollusca: Polyplacophora: Chitonida).

Author

Koc-Bilican, Behlul and Çakmak, Emel

Subjects

CHITIN, INFRARED spectroscopy, THERMOGRAVIMETRY, GASTROPODA, CEPHALOPODA, MOLLUSKS

Abstract

Chitons, also known as "living fossils", have been proposed as one of the earliest differentiated groups of molluscs. Although Polyplacophora is an ancient group of molluscs, very few studies have been conducted on the chitin of these organisms compared tobivalves, gastropods and cephalopods. The few available studies have provided contradictory results regarding the present chitin types, depending on the examined body parts. Herein, to solve this controversy, we studied the chitin from valve, girdle and radula of a chiton species by protecting the 3D structure of the body parts. Results obtained using infrared spectroscopy and Thermogravimetric analysis clearly showed chitons contain β-chitin in the girdle and valve; however, the signal detected for the type of chitin contained in the chiton radula appears to be α-chitin. In addition, chitin content of the whole chiton body on dry basis was recorded as 22.78%. [ABSTRACT FROM AUTHOR]

Published

2024

37. Evolutionary neurogenomics: Lengthy resolutions for complex brains.

Author

Moroz, Leonid L.

Subjects

*CEPHALOPODA, *GENES, *VERTEBRATES, *MACHINERY

Abstract

Genomic blueprints underlying unique neuronal organization are enigmatic. A new study reveals the recruitment of ancient, larger genes for synaptic machinery, providing evolutionary constraints and flexibility, with increasing gene sizes being found in animal lineages that led to cephalopods and vertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

38. Orthoceratoid and coleoid cephalopods from the Middle Triassic of Switzerland with an updated taxonomic framework for Triassic Orthoceratoidea.

Author

Pohle, Alexander and Klug, Christian

Subjects

*CEPHALOPODA, *TRIASSIC Period, *MARINE ecology, *STRATIGRAPHIC geology

Abstract

Orthoconic cephalopods are subordinate, but persistent, widespread and regionally abundant components of Triassic marine ecosystems. Here, we describe unpublished specimens from the Anisian (Middle Triassic) Besano Formation at Monte San Giorgio, Switzerland. They can be assigned to two major but unrelated lineages, the Coleoidea and the Orthoceratoidea. The orthoceratoids belong to Trematoceras elegans (Münster, 1841) and occur regularly within the Besano Formation, are uniform in size, and have few available morphological characters. In contrast, coleoids are more diverse and appear to be restricted to shorter intervals. A new coleoid is described as Ticinoteuthis chuchichaeschtli gen. et sp. nov. To better put the orthoceratoids of the Besano Formation into perspective, we also synthesise the current taxonomy of Triassic orthoceratoids on a global scale. The currently used scheme is largely outdated, with very little taxonomic progress in the past 100 years. Despite previous research showing the distinctness of Triassic orthoceratoids from Palaeozoic taxa, they are still commonly labelled as "Orthoceras" or "Michelinoceras", which are confined to the Palaeozoic. We show that Triassic orthoceratoids probably belong to a single lineage, the Trematoceratidae, which can be assigned to the Pseudorthocerida based on the embryonic shell and endosiphuncular deposits. Many Triassic species can probably be assigned to Trematoceras, but there are at least two additional Triassic orthoceratoid genera, Paratrematoceras and Pseudotemperoceras. Finally, we review the palaeobiogeographic and stratigraphic distribution of the group and outline possible future research directions. [ABSTRACT FROM AUTHOR]

Published

2024

39. The vicariant role of Caribbean formation in driving speciation in American loliginid squids: the case of Doryteuthis pealeii (Lesueur 1821)

Author

Sales, João Bráullio Luna, Anderson, Frank E., Paiva, Bianca Lima, Cunha, Yasmim T. C., Rodrigues, Alan Érik Souza, Ferreira, Yrlene, Rodrigues-Filho, Luis Fernando S., Shaw, Paul W., Haimovici, Manuel, Markaida, Unai, Ready, Jonathan S., and Sampaio, Iracilda

Abstract

Speciation processes in the marine environment are often directly associated with vicariant events. In the case of loliginid squids (Cephalopoda: Loliginidae), these processes have been increasingly elucidated in recent years with the development of molecular technologies and increased sampling in poorly studied geographical regions, revealing a high incidence of cryptic speciation. Doryteuthis pealeii is a commercially important squid species for North Atlantic fisheries and has the second broadest geographic distribution in this genus. This study aimed to investigate the evolutionary history of this species and which biogeographic events may have influenced its diversification by assessing mitochondrial and nuclear markers. Our findings indicate that two previously detected lineages diverged from one another ~ 8 million years, compatible with the formation of the Caribbean and the establishment of the Amazon plume. Furthermore, separation between a North Atlantic and a Gulf of Mexico lineage during the Pleistocene period was noted. The inadequate classification of this cryptic diversity may have negative implications for the development of effective conservation and fisheries measures. [ABSTRACT FROM AUTHOR]

Published

2024

40. Age and growth analysis of Loliginidae squid paralarvae in the NW Spanish coast using statolith increment counts.

Author

García-Mayoral, Elsa, Roura, Álvaro, Pierce, Graham J., and González, Ángel F.

Subjects

*AUTUMN, *SPRING, *CALANOIDA, *PARAMETRIC modeling, *SQUIDS, *CEPHALOPODA, *AGE, *COASTS

Abstract

Knowledge of recruitment to a fishery is particularly important in short-lived species, like most cephalopods, in which there is a complete turnover of individual every 1 or 2 years. In this study, age, body length, statolith length and growth rates of loliginid paralarvae (Alloteuthis media, A. subulata and Loligo vulgaris) were determined to evaluate the form of the growth curve and differences between species and hatching seasons. A total of 222 paralarvae collected in zooplankton samples along the Galician coast (NW Spain) were used to determine relationships between dorsal mantle length (DML), statolith length (SL) and the number of increments (NI)) deposited in the statolith. The paralarvae of L. vulgaris were between 1 and 35 days old, while both Alloteuthis species ranged in age from 1 to 54 days. Generalised additive models (GAMs) revealed non-linear growth in DML, with L. vulgaris exhibiting higher DML-at-age than Alloteuthis species. The best parametric model fit for these data was obtained using exponential regressions. The SL–NI relationship also differed between species, with L. vulgaris having larger statolith length at age. The paralarvae of L. vulgaris and A. media had two well-differentiated hatching peaks, one in late spring-early summer (beginning of the upwelling season) and another peak in late autumn (end of the upwelling season). Alloteuthis subulata had an earlier hatching peak in spring than in the other two loliginid species—and the second peak in autumn was barely visible, possibly because this species occurs further north in areas not sampled in autumn. [ABSTRACT FROM AUTHOR]

Published

2024

41. Reference Section of the Campanian Stage of the Southwestern Crimea: Problems of Substage Subdivision and Global Correlation.

Author

Baraboshkin, E. Yu., Guzhikov, A. Yu., Aleksandrova, G. N., Akinin, V. V., Ryabov, I. P., Ustinova, M. A., Rtischev, N. A., and Vishnevskaya, V. S.

Subjects

*URANIUM-lead dating, *TRACE fossils, *DINOFLAGELLATE cysts, *FORAMINIFERA, *CEPHALOPODA, *BENTONITE

Abstract

Stratigraphy of Campanian deposits in the stratotype of the Kudrinskaya Formation in the Southwestern Crimea is revised. For the first time, integrated sedimentological, biostratigraphic (ichnofossils, cephalopods, inoceramids, foraminifers, dinocysts, nannoplankton, gilianelles), isotope-geochemical, paleo- and petromagnetic characteristics of the section were obtained. The boundary of the lower and upper Campanian is substantiated and confirmed by U–Pb dating of zircons from the well-known bentonite (kil) clay bed in the interval of 77–80 Ma. It is proposed to accept the Campanian Substage boundary of the General Stratigraphic Chart (for bipartite stage subdivision) at the top of the Chron C33r, located near the δ13C isotopic excursion "MCaE" – Mid-Campanian Event, near the first occurrence of the benthic foraminifer Brotzenella monterelensis and a number of other traditional biomarkers. [ABSTRACT FROM AUTHOR]

Published

2024

42. Ordovician integrative stratigraphy, biotas, and paleogeographical evolution of the Qinghai-Tibetan Plateau and its surrounding areas.

Author

Fang, Xiang, Zhen, Yong Yi, Wang, Guangxu, Wei, Xin, Chen, Zhongyang, Liang, Yan, Wu, Xuejin, Li, Wenjie, Li, Chao, Zhan, Renbin, and Zhang, Yuandong

Subjects

*HISTORY of geology, *BIOTIC communities, *BIOSTRATIGRAPHY, *MIDDLE age, *EDIACARAN fossils, *CEPHALOPODA, *ORDOVICIAN Period

Abstract

The Ordovician rocks on the Qinghai-Tibetan Plateau represent the oldest non-metamorphic strata, and are critical to understanding the history of regional geology and biotic evolution of the entire plateau. Strata of Floian, Darriwilian, Sandbian, Katian and Hirnantian are represented in the plateau with a hiatus of variable duration occurring underneath the basal Ordovician across the area. Five stratigraphical regions, including the Himalaya, Gangdise-Zayu, Qiangtang-Qamdo, Songpan-Garze, and Karakoram-Kunlun-Altun, are differentiated for the Ordovician strata, which are correlated with their equivalents in the Sibumasu, Indochina, Qaidam-Qilian, Tarim-Tianshan, and the Yangtze (western margin) stratigraphical regions. On the Qinghai-Tibetan Plateau, graptolites, conodonts, and cephalopods are the most common and useful fossils for the Ordovician biostratigraphy. The Ordovician biotas of the Qinghai-Tibetan Plateau bear some distinguishable palaeobiogeographical signatures, among which the cephalopods are characterized by the flourishing actinocerids of North China affinity in the Early-Middle Ordovician, and by the thriving lituitids and orthocerids of South China affinity in the Middle-Late Ordovician. Fossil occurrences and their palaeobiogeographical evolution provide critical evidence bearing on the reconstruction of the geological history of the Qinghai-Tibetan Plateau and surrounding terranes in northeastern peri-Gondwana. The stratigraphical successions of the Cambrian-Ordovician transition in the Himalaya and Lhasa and nearby Sibumasu terranes were significantly affected by the Kurgiakh Orogeny, which resulted in the extensive unconformity between the Ordovician and the underlying rocks in most areas of the Qinghai-Tibetan Plateau. In southern Xizang, a warm-water biota of Middle Ordovician age was recovered from oolitic limestones, suggesting a likely palaeogeographical location in low-latitudes near the equator. In the Himalaya and Sibumasu regions, the Upper Ordovician was typified by the occurrence of red carbonates with distinctive reticulate structures, which are correlative to their equivalents in the Yangtze region of South China, and might be deposited under similar geological conditions. The global end-Ordovician glaciation and sea-level drop likely caused the wide absence of late Katian strata in western Yunnan of China and the Shan State of Myanma, and may have also affected deposition in the Xainza and Nyalam areas of the Qinghai-Tibetan Plateau during this time interval. [ABSTRACT FROM AUTHOR]

Published

2024

43. FISH PREY OF THE PERUVIAN TERN STERNULA LORATA ALONG THE NORTHERN COAST OF CHILE.

Author

VILINA, YERKO A., PASTENES, LUIS, MUNIZAGA, BEATRIZ, TORO, FREDERICK, NEIRA-SOTO, ÁLVARO, and MOLINA-BURGOS, BLANCA E.

Subjects

*FORAGE fishes, *COLONIAL birds, *SIZE of fishes, *TERNS, *HABITATS, *CEPHALOPODA

Abstract

Scarce information is available on the trophic ecology and feeding habitats of the Peruvian Tern Sternula lorata. We searched 15 Peruvian Tern colonies along the coast of northern Chile during the breeding seasons of 2008 to 2018 to evaluate the tern's main food source. We collected samples of prey remains found near nests as well as prey items regurgitated by chicks and adults during our visits. We found that the Peruvian Tern is mainly piscivorous, secondarily feeding on some cephalopods and euphausiids. Pacific Saury Scomberesox saurus and Paloma Pompano Trachinotus paitensis were the main prey found near nests, but regurgitated prey was dominated by the Peruvian Anchoveta Engraulis ringens. Fish prey sizes ranged from 36 to 192 mm. These findings expand existing knowledge of the feeding ecology of this endangered seabird during its breeding season. [ABSTRACT FROM AUTHOR]

Published

2024

44. FELASA Working Group report: Capture and transport of live cephalopods – recommendations for scientific purposes.

Author

Sykes, Antonio V, Galligioni, Viola, Estefanell, Juan, Hetherington, Stuart, Brocca, Marco, Correia, Joao, Ferreira, André, Pieroni, Eleonora M., and Fiorito, Graziano

Subjects

*CEPHALOPODA, *REQUIREMENTS engineering, *ANIMAL health, *SCIENTIFIC literature, *SUPPLY chains

Abstract

On 1 January 2013, research using cephalopod molluscs, from hatchlings to adults, became regulated within Directive 2010/63/EU. There are significant difficulties in captive breeding in the great majority of currently utilised species. Thus, scientific research relies upon the use of wild-caught animals. Furthermore, live cephalopods are shared and transported between different stakeholders and laboratories across Europe and other continents. Despite existing European and national legislation, codes, guidelines and reports from independent organisations, a set of recommendations specifically addressing the requirements for the capture and transport of animals belonging to this taxon are missing. In addition, although training and development of competence for all people involved in the supply chain are essential and aim to ensure that animals do not suffer from pain, distress or lasting harm, the requirements for those capturing and transporting wild cephalopods have not been considered. This Working Group reviewed the current literature to recognise scientific evidence and the best practice, and compiled a set of recommendations to provide guidance on the 'techniques' to be used for the capture and transport of live cephalopods for their use in scientific procedures. In addition, we propose to (a) develop standardised approaches able to assess recommended methods and objectively quantify the impact of these processes on animals' health, welfare and stress response, and (b) design a training programme for people attaining the necessary competence for capture and transportation of live cephalopods, as required by Directive 2010/63/EU. [ABSTRACT FROM AUTHOR]

Published

2024

45. Morphological Differences and Contour Visualization of Statoliths in Different Geographic Populations of Purpleback Flying Squid (Sthenoteuthis oualaniensis).

Author

Chu, Moxian, Liu, Bilin, Ou, Liguo, Chen, Ziyue, and Li, Qingying

Subjects

DATA visualization, DISCRIMINANT analysis, SEPARATION of variables, FOURIER transforms, CEPHALOPODA, SQUIDS

Abstract

Statoliths are important hard tissues in cephalopods. Significant differences are found in the external morphology of statoliths in different groups or species. In this study, stepwise discriminant analysis was used to investigate the external morphological differences in purpleback flying squid statoliths in three different marine regions, comprising the East Indian Ocean (5° S–2° N, 82°–92° E), Central East Pacific Ocean (02°37′ S–0°59′ N, 99°44′ W–114°19′ W), and Northwest Indian Ocean (17°04′ N–17°18′ N, 61°05′ E–61°32′ E). The contours of statoliths were reconstructed visually by using Fourier analysis and the landmark method. The results obtained by stepwise discriminant analysis showed that the accuracy of identification was 84.4% for the traditional measurement method, 82.9% for the Fourier analysis method, and 87.3% for the landmark method. The contour visualization results showed that the purpleback flying squid statoliths were small in the Central East Pacific Ocean, and the curvature of the side region was the most obvious. The radian differentiation of statoliths was most gentle in the East Indian Ocean. In the Northwest Indian Ocean, the rostral region of statoliths was shorter and the dorsal region was smoother. The reconstruction results detected significant differences in the outer morphology of statoliths in different marine regions. The results obtained in this study show that all three methods are effective for identifying populations, but the landmark method is better than the traditional measurement method. The reconstruction of statolith contours using the Fourier transform and landmark methods provides an important scientific basis for conducting taxonomy, according to statolith morphology. [ABSTRACT FROM AUTHOR]

Published

2024

46. Dynamic visual noise has limited influence on the habitat selection and behavioural activity of crustaceans and cephalopods.

Author

Drerup, Christian, How, Martin J., and Herbert‐Read, James E.

Subjects

*HABITAT selection, *CARCINUS maenas, *CEPHALOPODA, *CRUSTACEA, *AQUATIC habitats, *SHRIMPS

Abstract

Environments contain various forms of noise that can interfere with the ability of animal sensory systems to perceive information. One ubiquitous type of visual noise in shallow aquatic habitats is caustic flicker (or caustics), consisting of dynamically moving light patterns caused by the refraction of light when passing through the water's rippling surface. While some teleost fish avoid environments with caustic noise (where their prey can be more difficult to detect), it remains untested whether caustics affect the habitat selection of invertebrates. In the present study, we ask whether three invertebrate species, the shore crab Carcinus maenas, the brown shrimp Crangon crangon, and the common cuttlefish Sepia officinalis, prefer or avoid associating with environments with caustic noise, and whether caustics affect their behavioural activity and habitat exploration. To do this, we exposed the three species in binary choice experiments to different simulated caustic noise levels varying in their temporal (speed) and spatial (definition) components. Neither of the three tested invertebrate species spent more or less time in environments with higher caustic noise levels. While we also found no evidence that caustics affected the behavioural activity and exploration of Ca. maenas and S. officinalis, the brown shrimp Cr. crangon reduced its activity with increasing spatial caustic noise. However, all obtained effect sizes in this study were small, suggesting that caustic noise only minimally affects invertebrate behaviour. Overall, our results show that, unlike in teleost fish, caustics have limited influence on the habitat selection, exploration, and activity of crustaceans and cephalopods. [ABSTRACT FROM AUTHOR]

Published

2024

47. Disappeared Steps in Melanin Formation in Octopus vulgaris as a Model of Higher Organisms from the Red Sea, Egypt.

Author

Abd-Elrheem, Ali Ali

Subjects

*COMMON octopus, *MELANINS, *HEMATOXYLIN & eosin staining, *COLOR blindness, *SKIN cancer, *CEPHALOPODA

Abstract

The melanin structure in Cephalopods comprises multi-compound structures, including Tyrosinase-A and Tyrosinase-B. These structures exhibit positivity for H&E stain in some stages and bromophenol blue stain in others. Other components are positive for H&E stains as amylase and peptides of holocrine comments, such as Gamma p.p.t and Gamma melodine, which are rich in ink of Octopus vulgaris and cause color blindness for prey during the predation process of animal. The Octopus vulgaris has numerous inking colors, such as brown and deep brown color, released during the escape from predation animals. During this process, the light falls on the skin, and melanin pigments give deep brown color by mixing the ink with amylase enzymes. The melanin mechanism in all organisms is similar to each other's in the animal kingdom except insects, where it is produced differently. Additionally, melanin pigments are only retained in the upper epidermis from bacterial reactions. The knowledge of the mechanism of melanin formations is highly important for treating dermatology diseases in humans and reducing the risk of skin cancer. [ABSTRACT FROM AUTHOR]

Published

2024

48. Transcriptome profiling of the posterior salivary glands of the cuttlefish Sepia officinalis from the Portuguese West coast

Author

Cátia Gonçalves, Inês Moutinho Cabral, António P. Alves de Matos, Ana R. Grosso, and Pedro M. Costa

Subjects

toxins, bioactives, cephalotoxins, cephalopoda, coleoidea, marine biotechnology, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Cephalopods like octopuses and cuttlefishes are known to secrete a ‘toxic saliva’ to inject into their prey, especially crustaceans since the XIX century. However, only in the mid-XX century were the first coleoid-specific toxins successfully isolated. Motivated by the growing interest on the global ocean as an almost inexhaustible source of novel bioactive compounds, we used RNA-Seq – based transcriptomics and de novo assembly of transcriptomes to screen the posterior salivary glands of Sepia officinalis (the common cuttlefish) from the Portuguese West coast for toxins and other bioactive proteins and peptides. Supported by microanatomical analyses, the posterior salivary glands constitute indeed the ‘venom gland’ whereas the more elusive anterior salivary glands (embedded in the buccal mass) are responsible for the production of mucin-rich saliva that is effectively the vehicle that transports the toxins as the venom is injected into the prey. Indeed, the transcriptomic profiling suggests that the cuttlefish venom is complex mixture of bioactive proteins, among which neurotoxins are major players, together with enzymes whose function is to digest the extracellular matrix to facilitate diffusion of the toxins. Nonetheless, by comparing with previous RNA-Seq data obtained from S. officinalis collected from other biogeographical areas, it may be suggested that significant inter-populational variation in venom composition can occur, which may potentially increase the span of bioactives secreted by these animals. We isolated and validated the full coding sequences for three important toxins, a cysteine-rich venom protein (CRVP), a venom insulin (VIns) and a cephalotoxin (CTX). The toxins seem to be relatively conserved among coleoids but diverging from other venomous mollusks such as cone snails. Their properties as potent modulators of glucose (in the case of VIns) and as potential neurotoxins (like CRVP and CTX) can render them primer targets for drug development.

Published

2024

49. Early Tremadocian cephalopods from Santa Rosita Formation in NW Argentina: the oldest record for South America

Author

MARCELA CICHOWOLSKI, N. EMILIO VACCARI, ALEXANDER POHLE, DANIEL A. MORÓN ALFONSO, ROMAIN VAUCHER, and BEATRIZ G. WAISFELD

Subjects

cephalopoda, ellesmeroceratidae, ellesmeroceras, stem cephalopods, tremadocian, ordovician, santa rosita formation, cordillera oriental, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

We describe early Tremadocian (Kainella meridionalis Biozone) cephalopods from the Cordillera Oriental, Jujuy, NW Argentina. They consist of numerous small specimens collected at the Quebrada de Arenal, Trancas section, near the town of Tilcara, in the Alfarcito Member of the Santa Rosita Formation. All but three specimens were assigned to a new species of Ellesmeroceras (Family Ellesmeroceratidae), E. humahuacaensis sp. nov., based on its slightly endogastric curvature, the characteristics of the siphuncle and chambers dimensions. Micro CT scanning of one specimen aided in the description of the apex and facilitated the construction of a 3D model of the species. A single, similar specimen was assigned to Ellesmeroceras sp. pending the availability of additional material. Two specimens differ from the rest, being exogastric with a lower angle of expansion. They are tentatively assigned to Bassleroceras sp. This material indicates that Cambrian and early Tremadocian cephalopods are not as different as previously thought. “Diversification” and “extinction” events during the late Cambrian may be attributed to taxonomic “over-splitting” and taphonomic and/or sampling biases, respectively. These specimens are currently the oldest recorded in the Central Andean Basin and of West Gondwana, and probably represent the first migration of cephalopods into the region, when the water column was still poorly colonized. During the middle Tremadocian, subsequent immigrations and originations of several cephalopod orders accounted for a rise in diversity and expansion into new niches during this interval. Some of these taxa persisted into the middle Floian, at which time, a second increase in diversity is recorded. Ellesmeroceras humahuacaensis sp. nov. is interpreted as a sub-vertical nektobenthic organism.

Published

2023

50. Contributions of Federico Olóriz to the systematic paleontology of ammonites and taxa dedicated to him

Author

Villaseñor, Ana Bertha

Published

2024