Your search keyword '"SponGES"' showing total 5,275 results

1. Ellagic acid-loaded poly-methyl vinyl ether-co-maleic anhydride (Gantrez®) - gelatin sponges for wound bandaging: Preparation, characterization and ex-vivo antibiofilm activity

Author

Corrêa, Thayná O., Tavares, Walter S., and Sousa, Francisco F.O.

Published

2024

2. Fine-scale variability in habitat selection and niche differentiation between sponges and cold-water corals on vertical walls of the Charlie-Gibbs Fracture Zone

Author

Yánez-Suárez, Ana Belén, Van Audenhaege, Loïc, Eddy, Tyler D., and Robert, Katleen

Published

2025

3. Environmental shifts and their impact on sponge-associated macroinvertebrate communities in seagrass ecosystems.

Author

Briceño-Vera, Antony Enrique, Ávila, Enrique, Rodríguez-Santiago, María Amparo, and Nava, Héctor

Subjects

*WIND waves, *LIFE sciences, *BIOTIC communities, *ENVIRONMENTAL sciences, *SEAGRASSES, *MARINE biodiversity

Abstract

This study aimed to assess the alterations in the community structure of macroinvertebrates associated with two seagrass-dwelling sponge species following a shift in the environmental conditions. Individuals of the sponge Amorphinopsis atlantica, whose optimal distribution is in areas exposed to wind-driven waves, were transplanted to a less exposed area and, contrarily, individuals of Haliclona implexiformis, whose optimal distribution is in less exposed areas, were transplanted to an exposed area. After 71 days, individuals of A. atlantica showed a decrease in the density (75.5%), family richness (29.8%), and diversity (22.2%) of associated macroinvertebrates regarding controls, whereas those of H. implexiformis showed an increase in the density (85.9%), family richness (57.7%), and diversity (20.8%). These changes were attributed to species turnover, recruitment of some associated taxa, and morphological changes in one of the host sponge species. In the exposed site, the associated communities were more influenced by the hydrodynamism and sedimentation rate, and in the protected site, by salinity and the concentrations of organic matter in surface sediments and the water column. Overall, this study highlights the complex interactions between environmental conditions and marine biodiversity, providing valuable data for the conservation and management of seagrass meadow ecosystems and their associated sponge communities. [ABSTRACT FROM AUTHOR]

Published

2025

4. Spongy-looking microfabrics in the earliest named stromatolite represent deep burial alteration and incipient metamorphism.

Author

Neuweiler, Fritz, Mueller, Mathias, Walter, Benjamin F., Landing, Ed, Beranoaguirre, Aratz, Sendino, Consuelo, Amati, Lisa, and Kershaw, Stephen

Abstract

The earliest named stromatolite Cryptozoon Hall, 1884 (Late Cambrian, ca. 490 Ma, eastern New York State), was recently re-interpreted as an interlayered microbial mat and non-spiculate (keratosan) sponge deposit. This "classic stromatolite" is prominent in a fundamental debate concerning the significance or even existence of non-spiculate sponges in carbonate rocks from the Neoproterozoic (Tonian) onwards. Cryptozoon has three types of microbially-induced carbonate layers: clotted-pelletoidal micrite with microbial filaments, clotted-pelletoidal micrite with vesicular structure, and dense microcrystalline laminae. A fourth, stratiform to patchy fabric comprises suspect sponges. Using contextual fabric analysis, elemental mapping, cathodoluminescence, fluid inclusions, electron backscatter diffraction, U–Pb dating, and burial history, the sponge interpretation is denied. Neither a distinct sponge body outline nor a canal system is identifiable. Instead, the suspect fabric is secondary in origin, and best explained as a product of Carboniferous (Mississippian) deep burial alteration associated with basement reactivation. Key petrographic observations include heterogenous recrystallization via aggrading Ostwald ripening with interfingering reaction fronts typical for partially miscible fluids, a granoblastic calcite texture (incipient metamorphism), and subsequent hypidioblastic white mica (arguably Carboniferous/Permian, Alleghenian orogeny). Topotype Cryptozoon is a stromatolite altered to sub-greenschist metacarbonate. The published Tonian to Phanerozoic record of interpreted non-spiculate sponges requires reassessment. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sponge exhalent metabolites influence coral reef picoplankton dynamics.

Author

Reigel, Alicia M., Easson, Cole G., Fiore, Cara L., and Apprill, Amy

Abstract

Coral reef sponges efficiently take up particulate and dissolved organic matter (DOM) from the water column and release compounds such as nucleosides, amino acids, and other dissolved metabolites to the surrounding reef via their exhalent seawater, but the influence of this process on reef picoplankton and nutrient processing is relatively unexplored. Here we examined the impact of sponge exhalent on the reef picoplankon community and subsequent alterations to the reef dissolved metabolite pool. We exposed reef picoplankton communities to a sponge exhalent water mixture (Niphates digitalis and Xestospongia muta) or filtered reef seawater (control) in closed, container-based dark incubations. We used 16S rRNA gene sequencing and flow cytometry-based cell counts to examine the picoplankton community and metabolomics and other analyses to examine the dissolved metabolite pool. The initial sponge exhalent was enriched in adenosine, inosine, chorismate, humic-like and amino acid-like components, and ammonium. Following 48 h of exposure to sponge exhalent, the picoplankton differed in composition, were reduced in diversity, showed doubled (or higher) growth efficiencies, and harbored increased copiotrophic and denitrifying taxa (Marinomonas, Pontibacterium, Aliiroseovarius) compared to control, reef-water based incubations. Alongside these picoplankton alterations, the sponge treatments, relative to seawater controls, had decreased adenosine, inosine, tryptophan, and ammonium, metabolites that may support the observed higher picoplankton growth efficiencies. Sponge treatments also had a net increase in several monosaccharides and other metabolites including anthranilate, riboflavin, nitrite, and nitrate. Our work demonstrates a link between sponge exhalent-associated metabolites and the picoplankton community, with exhalent water supporting an increased abundance of efficient, copiotrophic taxa that catabolize complex nutrients. The copiotrophic taxa were often different from those observed in previous algae and coral studies. These results have implications for better understanding the multifaceted role of sponges on picoplankton biomass with subsequent potential impacts to coral and other planktonic feeders in oligotrophic reef environments. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Chitinous Skeleton of Ianthella basta Marine Demosponge as a Renewable Scaffold-Based Carrier of Antiseptics.

Author

Dziedzic, Izabela, Dydek, Kamil, Voronkina, Alona, Kovalchuk, Valentin, Jesionowski, Teofil, and Ehrlich, Hermann

Abstract

The chitinous skeleton of the marine demosponge Ianthella basta exhibits a unique network-like 3D architecture, excellent capillary properties, and chemical inertness, making it highly suitable for interdisciplinary research, especially in biomedical applications. This study investigates the potential of renewable I. basta chitinous scaffolds for drug delivery and wound dressing. The scaffolds, characterized by a microtubular structure, were impregnated with selected commercially available antiseptics, including solutions with hydrophilic and hydrophobic properties. Evaluations against selected clinical strains of bacteria, as well as fungi, demonstrated significant zones of growth inhibition with antiseptics such as brilliant green, gentian violet, decamethoxine, and polyhexanide. Notably, the antibacterial properties of these antiseptic-treated chitin matrices persisted for over 72 h, effectively inhibiting microbial growth in fresh cultures. These findings highlight the considerable potential of I. basta chitin scaffolds as sustainable, innovative biomaterials for controlled drug release and wound dressing applications. [ABSTRACT FROM AUTHOR]

Published

2024

7. Integrative taxonomy of Tethya: description of four new species based on morphology, phylogeny and microbiome diversity.

Author

Santodomingo, Nadia, Díez-Vives, Cristina, Kenny, Nathan J., Cárdenas, Paco, Balcells, Laura, Moles, Juan, Zea, Sven, Giribet, Gonzalo, Lanna, Emilio, Gracia-Sancha, Carlota, and Riesgo, Ana

Subjects

*BIOLOGICAL classification, *MOLECULAR phylogeny, *MICROBIAL communities, *PHYLOGENY, *MARINE organisms

Abstract

The genus Tethya, one of the most iconic groups in the phylum Porifera. includes nearly 100 valid species. Tethya shows a nearly cosmopolitan distribution, and thus this clade could help elucidate global mechanisms of speciation in sponges. Contrasting with many other marine organisms, Tethya peaks in diversity in the temperate region, with only ∼30% of diversity occurring in the tropics. This pattern may however be related to a lack of studies in the tropics, masked by dubious taxonomic identifications. To address this question, we studied new collections from the Western Atlantic (Caribbean and Brazil) and the Northeastern Atlantic, as well as museum material from the Indian Ocean. Combining morphological investigation with molecular phylogenetics and the study of the sponge's microbial communities, we conclude that four constitute new species that we describe here: Tethya martini Riesgo, Giribet, & Santodomingo, sp. nov.; Tethya simoni Santodomingo, Zea, & Riesgo, sp. nov.; Tethya erici Díez-Vives, Santodomingo, Moles, & Riesgo, sp. nov.; Tethya orioni Kenny, Santodomingo & Riesgo, sp. nov. Some species thought to be widespread (e.g., T. aurantium and T. seychellensis), each represent multiple species with unique geographic distributions. A phylogenetic analysis of Tethya (based on COI and 28S rRNA sequence data) recovered five main clades, which were also characterized by distinct prokaryotic communities. This suggests that microbiomes could be used as a guide for taxonomic identification in Tethya. We finally explored the existence of a phylosymbiotic pattern in sponges at different levels of prokaryotic taxonomic resolution (i.e., at phylum, class, and genus-level analysis of prokaryotes). Remarkably, our analysis revealed high levels of coevolution of Tethya and their associated microbial communities, even when microbiomes were analysed at the genus level. Our findings support the use of an integrative approach to better understand the evolutionary history of sponges. [ABSTRACT FROM AUTHOR]

Published

2024

8. Porifera Associated with Deep-Water Stylasterids (Cnidaria, Hydrozoa): New Species and Records from the Ross Sea (Antarctica).

Author

Calcinai, Barbara, Marrocco, Teo, Roveta, Camilla, Puce, Stefania, Montagna, Paolo, Mazzoli, Claudio, Canese, Simonepietro, Vultaggio, Carlo, and Bertolino, Marco

Abstract

Stylasterid corals are known to be fundamental habitat-formers in both deep and shallow waters. Their tridimensional structure enhances habitat complexity by creating refuges for a variety of organisms and by acting as basibionts for many other invertebrates, including sponges. Porifera represent crucial components of marine benthic assemblages and, in Antarctica, they often dominate benthic communities. Here, we explore the sponge community associated with thanatocoenosis, mostly composed of dead stylasterid skeletons, collected along the Western and Northern edges of the Ross Sea continental shelf. Overall, 37 sponge species were identified from 278 fragments of the stylasterid Inferiolabiata labiata, of which 7 are first records for the Ross Sea, 1 is first record for Antarctic waters and 2 are proposed as new species. Despite the high biodiversity recorded in this and previous studies on Antarctic deep-sea communities, we are still far from capturing the true richness of Antarctic benthic assemblages. Long-term research programs designed to improve the knowledge of the deep-sea fauna inhabiting Antarctic waters are needed to support successful management and conservation plans, especially in this area, considered one of the main marine diversity hotspots worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

9. Study on Oil–Water Separation Performance of PDA/ODA Composite–Modified Sponge.

Author

Chen, Jianfeng, Hu, Yuanjing, Zhang, Zhiying, Li, Xiaobing, Yu, Xiong, Wu, Zhenping, and Chen, Zewen

Subjects

*DIESEL motors, *PHOTOELECTRON spectroscopy, *SOY oil, *SCANNING electron microscopy, *COMPOSITE structures

Abstract

The study involved the modification of a melamine sponge (SP) through the introduction of polydopamine (PDA) and octadecylamine (ODA), resulting in the creation of three distinct sponge types: PDA/ODA@SP, PDA@SP and ODA@SP. The successful modification of PDA and ODA onto the surface of the sponge was confirmed through the utilisation of scanning electron microscopy and x‐ray photoelectron spectroscopy. Consequently, the resulting sponges exhibited a unique micro–nano composite structure. Wettability testing was conducted to assess the properties of the sponges, revealing that the PDA/ODA@SP sponge demonstrated hydrophobic superlipophilic characteristics. Moreover, a series of 10 repeated oil–water separation experiments indicated that the PDA/ODA@SP sponge achieved an impressive separation efficiency of up to 97%, demonstrating its exceptional oil–water separation capabilities and reusability. Additionally, investigations utilising soybean oil and engine oil demonstrated the composite sponge's superior absorption capabilities for fatty acids and hydrocarbons. [ABSTRACT FROM AUTHOR]

Published

2024

10. Depth drive shifts in the fish and benthic assemblages of the South American Reef System

Author

Rhayany Juvêncio Costa, Pedro Bastos de Macedo Carneiro, Caroline Vieira Feitosa, Hortência de Sousa Barroso, Marcus Vinicius Chagas da Silva, Tommaso Giarrizzo, Sula Salani, Francisco Gleidson C. Gastão, Tatiane Martins Garcia, Tallita Cruz Lopes Tavares, Tyler B. Smith, and Marcelo O. Soares

Subjects

Tropical reefs, Spatial distribution, Benthic community, Corals, Sponges, Reef fish, Medicine, Science

Abstract

Abstract The low-latitude habitats of the South American reef system have a high endemism and represent important stepping-stones due to the connectivity with Amazon and Caribbean reefs. We provide the first seabed mapping, and analyze the benthic cover and fish assemblages of these extreme reefs. Fleshy macroalgae (2—66% of cover), algal turfs (0—47%), and sponges (3—25%) are the dominant benthic groups. The main reef builders are crustose coralline algae (2—23%) and only four coral species (0 to 18%), mainly the weedy Siderastrea stellata. Cluster analysis distinguished two groups. The first group includes the shallowest reefs (~ 17 m deep) where fleshy macroalgae are abundant together with higher siltation on the reefs (~ 31% covered by sediments). The second group, by contrast, includes the deeper reefs (22.5—27 m), which have much higher algal turf cover, and the lowest sediment cover (4%). The deeper reefs also have the highest cover of corals (18%) and sponges (25%). We recorded a total of 63 fish species, with the deep reefs being the richest. Analysis indicated that the composition of the benthos was considerably more homogeneous across the study area than the composition of fish assemblages, which had a higher turnover of species among reefs. Moreover, we identified the depth of the reef as a variable structuring the benthic assemblages. The fish assemblage is influenced, in turn, by the benthos. Overall, the seabed mapping revealed the existence of a single reef system with high spatial heterogeneity. Our results provide new insights into the structure of these extreme reefs that have evolved under the influence of sediment resuspension, moderate turbidity, and are warmer than other West Atlantic reefs located at middle- and high-latitudes.

Published

2024

11. Chukhonastovka – the reference section of the Turonian-Lower Santonian from the Volga-Ilovlya interfluve (the Volga right bank area near Volgograd). Paper 2. Characteristics of the Oryctocomplexes

Author

Pervushov, Evgeniy Mikhaylovich, Ryabov, Ilya P., Kalyakin, Evgeniy Aleksandrovich, Shelepov, Dmirtiy Aleksandrovich, and Ilinskiy, Egor Igorevich

Subjects

upper cretaceous, benthic foraminifers, echinoderms, sponges, brachiopods, southeast of the east european province, Geology, QE1-996.5, Geography (General), G1-922

Abstract

A representative complex of the Turonian-Santonian carbonate-producing invertebrates has been revealed. It comprised benthic foraminifers, diverse echinoderms, brachiopods, calcareous and siliceous sponges.

Published

2024

12. Diversity and Activity of Bacteria Cultured from a Cup—The Sponge Calyx nicaeensis.

Author

Itelson, Lynne, Merav, Mayan, Haymi, Shai, Carmeli, Shmuel, and Ilan, Micha

Abstract

Marine sponges are well-known for hosting rich microbial communities. Sponges are the most prolific source of marine bioactive compounds, which are frequently synthesized by their associated microbiota. Calyx nicaeensis is an endemic Mediterranean sponge with scarce information regarding its (bioactive) secondary metabolites. East Mediterranean specimens of mesophotic C. nicaeensis have never been studied. Moreover, no research has inspected its associated bacteria. Thus, we studied the sponge's bacterial diversity and examined bacterial interspecific interactions in search of a promising antibacterial candidate. Such novel antimicrobial agents are needed since extensive antibiotic use leads to bacterial drug resistance. Bacteria cultivation yielded 90 operational taxonomic units (OTUs). A competition assay enabled the testing of interspecific interactions between the cultured OTUs. The highest-ranked antagonistic bacterium, identified as Paenisporosarcina indica (previously never found in marine or cold habitats), was mass cultured, extracted, and separated using size exclusion and reversed-phase chromatographic methods, guided by antibacterial activity. A pure compound was isolated and identified as 3-oxy-anteiso-C15-fatty acid-lichenysin. Five additional active compounds await final cleaning; however, they are lichenysins and surfactins. These are the first antibacterial compounds identified from either the C. nicaeensis sponge or P. indica bacterium. It also revealed that the genus Bacillus is not an exclusive producer of lichenysin and surfactin. [ABSTRACT FROM AUTHOR]

Published

2024

13. Efficacy and safety of intraoperative injection of mitomycin C during trabeculectomy: a systematic review and meta-analysis.

Author

Zheng, Jing and Zhang, Ai

Abstract

Purpose: Trabeculectomy, a primary surgical treatment for glaucoma, often employs mitomycin C (MMC) to reduce scar formation and improve surgical outcomes. However, the optimal application method of MMC, whether by injection or sponge, remains a subject of debate. This meta-analysis aims to compare injectable and sponge-based MMC application in terms of efficacy and safety, focusing on various clinical outcomes in glaucoma patients. Methods: A comprehensive literature search of Scopus, MEDLINE, EMBASE, Ovid, Chinese biomedical literature database, China National Knowledge Infrastructure, and Cochrane Library was done for eligible studies that report data of glaucoma patients who were administered MMC by injection or sponge application during trabeculectomy. Outcomes of interest included intraocular pressure (IOP) reduction, bleb appearance grading (height, extent, vascularity), use of anti-glaucoma medications, and rates of complete success, qualified success, and failure. Data were reported as weighted mean differences (WMD) or odds ratios (OR) with confidence intervals (CI). The random-effects inverse-variance model with DerSimonian-Laird estimate of tau2 was employed, with continuity correction applied where necessary. Results: A total of 15 studies with 1276 participants were included. The meta-analysis revealed no significant difference in IOP reduction between patients treated by MMC injection and sponge application (WMD = − 0.434). Significant differences were observed in bleb appearance grading scores for height (WMD = − 0.170) and extent (WMD = 0.174), with substantial heterogeneity. The use of anti-glaucoma medications was significantly lower in the injection group (WMD = − 0.274). However, there were no significant differences in the rates of complete success, qualified success, and failure. The study demonstrated moderate to high heterogeneity across various outcomes. Conclusion: This meta-analysis indicated that while both injection and sponge methods of MMC application during trabeculectomy were equally effective for IOP reduction, they differ in their impact on bleb morphology and postoperative medication requirement. The findings highlight the need for individualized treatment approaches in glaucoma surgery, taking into account the specific needs and characteristics of each patient. [ABSTRACT FROM AUTHOR]

Published

2024

14. Importance of complex sponges as habitat and feeding substrata for coral reef fishes.

Author

Coppock, Amy G., Kingsford, Michael J., and Jones, Geoffrey P.

Subjects

*CORAL reef fishes, *CORAL reefs & islands, *CAMCORDERS, *HABITATS, *CORALS, *POMACENTRIDAE

Abstract

Coral reef fishes are usually assumed to be most strongly associated with reef-building corals. However, sponges can be a significant structural component of coral reef ecosystems and their framework can enhance the local abundance and biodiversity of fish assemblages. Little is known regarding the range of fish species using complex sponges as either shelter or feeding substrata. Here we use a combination of stationary video cameras and focal animal sampling to document fish species positively associated with complex sponges in Kimbe Bay, Papua New Guinea. Stationary cameras identified 45 fish species using the sponges for either shelter, feeding substrata or as sites for ambush predation. A guild of 10 individual fish species from five families (Blenniidae, Chaetodontidae, Gobiidae, Labridae and Pomacentridae) were observed to quantify sponge and other habitat use and compared with habitat availability to determine the level of sponge selectivity. One species, Pleurosicya elongata (the Slender Spongegoby), lived in obligate association with Ianthella basta (Elephant Ear sponge), and there was a positive relationship between sponge size and number of resident fish, however this was not significant for all life stages. Five other fish species appeared to preferentially select sponges as habitat (Amblyglyphidodon aureus, Chaetodon kleinii, Coradion chrysozonus, Escenius prooculis and Pomacentrus nigromanus), while for others, sponge use appeared incidental. When selectivity indices were calculated for specific sponge species it was apparent that some fishes exhibited preferences for particular sponge species or growth forms. These results suggest more fish species may be reliant on sponges than is widely appreciated. [ABSTRACT FROM AUTHOR]

Published

2024

15. An Investigation on Bioderived Sponges with Hemostatic and Photoluminescent Properties for Accelerating Wound Healing.

Author

Bhoopathy, Jayavardhini, Sathyaraj, Weslen Vedakumari, Prabakaran, Lokesh, Senthil, Rethinam, Mohammed, Vajagathali, and Dharmalingam, Sankari

Subjects

FOURIER transform infrared spectroscopy, BLOOD coagulation, LABORATORY rats, SCANNING electron microscopes, WOUND healing

Abstract

Skin serves as an active defense barrier in protecting our body from harmful microbes and external environment. It is subjected to several injuries caused by either microbes or chemicals. Therefore, damaged skin must be treated with a wound dressing material that possesses potent hemostatic, biocompatible and tissue regenerating properties. In the present study, silk sericin – a byproduct from silk industry is used as the starting material for preparing sericin sponges (S-SP). The S-SP were characterized using scanning electron microscopy, UV-visible spectroscopy, fourier transform infrared spectroscopy, and photoluminescence (PL) spectroscopy. S-SP possessed porous and interconnected structures when viewed under scanning electron microscope. The S-SP had percentage of hemolysis less than 2% when treated with human erythrocytes which proved their hemocompatible property. In vitro blood clotting assay showed that the S-SP reduced the time required for blood coagulation when compared with the control. Zebrafish embryos were used to assess the toxicity of S-SP. The open excision rat model experiments showed that S-SP were able to heal the wounds by reducing the time required for wound healing. These experiments proved the hemostatic, hemocompatible and wound healing efficacy of the prepared S-SP and their efficient role in the field of biomedicine. Fabrication of silk sericin sponges (S-SP) for treating open excision wounds: [ABSTRACT FROM AUTHOR]

Published

2024

16. KOMPOSISI JENIS DAN KEPADATAN SPONS (PORIFERA: DEMOSPONGIAE) DI PULAU PANGGANG, KEPULAUAN SERIBU, DKI JAKARTA.

Author

Setyaningsih, Wahyu Adi, Bengen, Dietriech G., Madduppa, Hawis H., Ismet, Meutia Samira, Taqiyuddin, Muhammad Wijdan, and Salsabila, dan Afviya

Subjects

WATER filters, SEAGRASSES, ISLANDS, DENSITY, HABITATS

Abstract

Copyright of Jurnal Ilmu dan Teknologi Kelautan Tropis is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

17. Diversity of Porifera along the coasts of Türkiye.

Author

EVCEN, ALPER and TOPALOĞLU, BÜLENT

Subjects

*NUMBERS of species, *ENDANGERED species listing, *SPONGES (Invertebrates), *SPECIES distribution, *INTRODUCED species

Abstract

This study compiled data on the distribution of sponge species on the coasts of Türkiye. The checklist consists of 183 species belonging to 52 families, 16 orders, and 3 classes. The orders Haplosclerida (32 species), Poecilosclerida (28 species), Tetractinellida (26 species), Dictyoceratida (21 species), and Suberitida (18 species) have the highest numbers of species found in the region. The Aegean coast has the highest number of sponge species (155 species), followed by the Sea of Marmara (84 species), the Levantine coast (50 species), and the Black Sea coast (24 species). Among the species, Niphates toxifera and Paraleucilla magna are alien species. A total of 12 sponge species listed as endangered or threatened according to the Barcelona Convention or Bern Convention are found in the region. [ABSTRACT FROM AUTHOR]

Published

2024

18. Silactins and Structural Diversity of Biosilica in Sponges.

Author

Ehrlich, Hermann, Voronkina, Alona, Tabachniсk, Konstantin, Kubiak, Anita, Ereskovsky, Alexander, and Jesionowski, Teofil

Subjects

*DEMOSPONGIAE, *F-actin, *BIOPOLYMERS, *SPONGES (Invertebrates), *ACTIN

Abstract

Sponges (phylum Porifera) were among the first metazoans on Earth, and represent a unique global source of highly structured and diverse biosilica that has been formed and tested over more than 800 million years of evolution. Poriferans are recognized as a unique archive of siliceous multiscaled skeletal constructs with superficial micro-ornamentation patterned by biopolymers. In the present study, spicules and skeletal frameworks of selected representatives of sponges in such classes as Demospongiae, Homoscleromorpha, and Hexactinellida were desilicified using 10% HF with the aim of isolating axial filaments, which resemble the shape and size of the original structures. These filaments were unambiguously identified in all specimens under study as F-actin, using the highly specific indicators iFluor™ 594-Phalloidin, iFluor™ 488-Phalloidin, and iFluor™ 350-Phalloidin. The identification of this kind of F-actins, termed for the first time as silactins, as specific pattern drivers in skeletal constructs of sponges opens the way to the fundamental understanding of their skeletogenesis. Examples illustrating the biomimetic potential of sophisticated poriferan biosilica patterned by silactins are presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2024

19. Direct Assembly of Aerogel Micro‐Nanofiber/MXene Sponges with Dual‐Network Structures for All‐Day Personal Heating.

Author

Wang, Sai, Zhao, Xiangdong, Yang, Zaihui, Ding, Ruida, Tian, Yucheng, Wang, Xianfeng, Yu, Jianyong, Zhang, Shichao, and Ding, Bin

Subjects

*NANOPORES, *AEROGELS, *HYDROGEN bonding interactions, *HYPOTHERMIA, *HEATING, *SKIN temperature

Abstract

Maintaining human body temperature under low temperature is crucial to human well‐being, thereby urgently requiring for high‐performance warmth retention materials. However, designing such materials with both mechanical robustness and warming up the human body under complex and changing outdoor environments remains challenging. Here, a dual‐network structured aerogel micro‐nanofiber/MXene sponge is directly synthesized by the synchronous occurrence of electrospinning and electrospraying. Tailoring phase inversion of the solution jet creates micro‐nanofibers with highly porous aerogel structures, which exhibit nanoscale aperture (30–60 nm) and high single fiber surface aera (56.5 m2 g−1). Under strong hydrogen bonding interaction, the dual‐network structures are constructed by chemical entanglement between aerogel micro‐nanofibers and self‐assembled MXene networks, achieving robust stretchable and compressible property. The nanopores of the single fiber cause the Knudsen effect to suppress the slippage of air molecules, thereby enhancing the unique capacity to block heat energy. Further integrating passive radiative heating and active heating performance of MXene networks, the as‐designed sponge offers an all‐day personal heating system to rise human skin temperature over 3.5 °C. This work may provide new candidates for the applications within aerospace, energy, transportation, and building. [ABSTRACT FROM AUTHOR]

Published

2024

20. Use of Lemon Peel Extract as Antimicrobial Supported on Eco-friendly Polyvinyl Alcohol/Polydimethylsiloxane Sponges.

Author

García Fernández, M. Luján, Levy, Ivana Karina, Salustro, Débora, Negri, R. Martín, and Saleh Medina, Leila M.

Subjects

SUSTAINABLE chemistry, GENTIAN violet, IONIC strength, POLYVINYL alcohol, MANUFACTURING processes

Abstract

Prevention of biofilm formation is essential for water treatment and industrial processes. Although there are different agents capable to inhibit bacteria proliferation, the use of natural, and in particular obtained from waste, is highly desirable in the green chemistry paradigm. The objective of this work is to obtain eco-friendly sponges that can be used to prevent biofilm formation by the action of a natural antimicrobial agent. Polyvinylalcohol (PVA) sponges were prepared by freeze-drying using malic and citric acid as green crosslinkers. Aqueous lemon peel extract was used as antimicrobial agent for PVA dissolution. Some sponges were coated with polydimethylsiloxane (PDMS) in order to increase the stability in aqueous media and provide flexibility. Sponges were characterized by ATR-FTIR, TGA, DSC, nitrogen adsorption isotherms and SEM. Water contact angles and swelling degrees of all the prepared sponges were measured. Kinetic release measurements of the yellow pigment, present in the lemon extract, were analyzed under different pH and ionic strength conditions. The obtained sponges were incubated for 24 h at room temperature with Pseudomonas protegens. The surface of the sponges after incubation was characterized by Raman spectroscopy and observed at the microscope to determine the presence of biofilm. UV–Vis spectrophotometry with crystal violet were employed to quantify biofilm formation and optical density at 600 nm was measured in the liquid media to determine the bacterial cell concentration. Sponges show high mechanical and chemical resistance and incorporation of lemon extract prevent biofilm formation as high as 70% with respect to sponges without the extract. [ABSTRACT FROM AUTHOR]

Published

2024

21. Wound Dressing Based on Cassava Silk-Chitosan.

Author

Chen, Yumei, Lin, Haitao, Yue, Xinxia, Lai, Enping, Huang, Jiwei, and Zhao, Ziyu

Subjects

*CASSAVA, *DRUG delivery systems, *INFRARED absorption, *SILK fibroin, *SCANNING electron microscopy, *TISSUE engineering, *FREEZE-drying

Abstract

The application prospects of composite sponges with antibacterial and drug-carrying functions in the field of medical tissue engineering are extensive. A solution of cassava silk fibroin (CSF) was prepared with Ca(NO3)2 as a solvent, which was then combined with chitosan (CS) to create a sponge-porous material by freeze-drying. The CSF-CS composite sponge with a mesh structure was successfully fabricated through hydrogen bonding. Scanning electron microscopy (SEM), Fourier transform infrared absorption (FTIR) and X-ray diffraction (XRD) were employed to investigate the appearance and structure of the cassava silk's fibroin materials, specifically examining the impact of different mass percentages of CS on the sponge's structure. The swelling rate and mechanical properties of the CSF-CS sponge were analyzed, along with its antibacterial properties. Furthermore, by incorporating ibuprofen as a model drug into these loaded sponges, their potential efficacy as efficient drug delivery systems was demonstrated. The results indicate that the CSF-CS sponge possesses a three-dimensional porous structure with over 70% porosity and an expansion rate exceeding 400% while also exhibiting good resistance against pressure. Moreover, it exhibits excellent drug-carrying ability and exerts significant bacteriostatic effects on Escherichia coli. Overall, these findings support considering the CSF-CS composite sponge as a viable candidate for use in drug delivery systems or wound dressings. [ABSTRACT FROM AUTHOR]

Published

2024

22. Cell cycle dynamics of food‐entrapping cells of sponges: an experimental approach.

Author

Melnikov, Nikolai P. and Lavrov, Andrey I.

Subjects

*CELL cycle, *CELL populations, *CELL migration, *DNA analysis, *DEMOSPONGIAE

Abstract

Sponges (phylum Porifera) exhibit surprisingly complex tissue dynamics, maintaining constant cell turnover and migration, rearranging internal structures, and regenerating after severe injuries. Such tissue plasticity relies on the activity of proliferating cells represented primarily by the food‐entrapping cells, choanocytes. Although there are plenty of studies regarding the dynamics of regeneration and tissue rearrangement in sponges, cell cycle kinetics of choanocytes in intact tissues remains a controversial issue. This study is devoted to the comparative description of choanocyte cell cycle dynamics in intact tissues of two sponges, Halisarca dujardinii (class Demospongiae) and Leucosolenia corallorrhiza (class Calcarea). We have identified populations of proliferating cells and synchronized them in the S‐phase to estimate the growth fraction of cycling cells. Using continuous exposure to labeled thymidine analog ethynyl deoxyuridine (EdU), we calculated choanocyte cell cycle duration and the length of the S phase. We also applied double labeling with EdU and antibodies against phosphorylated histone 3 to estimate the lengths of choanocyte M and G2 phases. Finally, flow‐cytometry‐based quantitative analysis of DNA content provided us with the lengths of G2 and G1 phases. We found that tissue growth and renewal in the studied sponges are generally maintained by a relatively large population of slowly cycling choanocytes with a total cell cycle duration of 40 h in H. dujardinii and 60 h in L. corallorrhiza. In both species, choanocytes are characterized by an extremely short M‐phase and heterogeneity in the duration of the G2 phase. [ABSTRACT FROM AUTHOR]

Published

2024

23. Sponge abundance and diversity patterns in the shallow and mesophotic reefs of the northern Red Sea.

Author

Raijman-Nagar, Lilach, Goren, Liron, Shefer, Sigal, and Ilan, Micha

Subjects

CORAL reefs & islands, REEFS, CORAL reef management, COLLOIDAL carbon, ENDANGERED species, SPONGES (Invertebrates), CORALS

Abstract

Accumulating data on the increasing degradation of coral reefs worldwide has led to a focus on the unique mesophotic coral ecosystem (MCE) as a potential refuge for threatened shallow-water species (i.e., the deep reef refugia hypothesis: DRRH). Sponges play a crucial role in coral-reef functioning but are often overlooked in benthic surveys. This knowledge gap is especially true for the Red Sea, where data on sponge abundance, coverage and species composition are scarce. Furthermore, to date, no study has examined mesophotic sponges in the Red Sea. Here we compared sponge abundance and diversity metrics between shallow and mesophotic reefs at two sites in the Gulf of Aqaba, northern Red Sea. We also examined the role of biotic and abiotic parameters in determining sponge variability between sites and depths. Sponge diversity metrics significantly varied with increasing depth and between sites. Sponge species composition also differed significantly between depth and sites. However, parameters measured in the water column, that is, Total Organic Carbon (TOC), Particulate Organic Carbon (POC), NOx, etc., did not differ between depths and sites, except for Synechococcus and Prochlorococcus concentration, which did. The findings indicated that site characteristics and biotic interactions may play an essential role in determining sponge diversity and community composition. Between-site differences in sponge fauna revealed in the study highlight the importance of considering the variability in the benthic communities and the factors controlling it when designing management tools for coral reefs, particularly for the northern Red Sea. [ABSTRACT FROM AUTHOR]

Published

2024

24. Transient Interphase Microtubules Appear in Differentiating Sponge Cells.

Author

Golyshev, Sergei A., Lyupina, Yulia V., Kravchuk, Oksana I., Mikhailov, Kirill V., Gornostaev, Nicolay G., and Burakov, Anton V.

Subjects

*TISSUE differentiation, *INTERPHASE, *SPINDLE apparatus, *MOLECULAR motor proteins, *EUKARYOTIC cells, *MICROTUBULES, *TUBULINS

Abstract

Microtubules are an indispensable component of all eukaryotic cells due to their role in mitotic spindle formation, yet their organization and number can vary greatly in the interphase. The last common ancestor of all eukaryotes already had microtubules and microtubule motor proteins moving along them. Sponges are traditionally regarded as the oldest animal phylum. Their body does not have a clear differentiation into tissues, but it contains several distinguishable cell types. The choanocytes stand out among them and are responsible for creating a flow of water with their flagella and increasing the filtering and feeding efficiency of the sponge. Choanocyte flagella contain microtubules, but thus far, observing a developed system of cytoplasmic microtubules in non-flagellated interphase sponge cells has been mostly unsuccessful. In this work, we combine transcriptomic analysis, immunofluorescence, and electron microscopy with time-lapse recording to demonstrate that microtubules appear in the cytoplasm of sponge cells only when transdifferentiation processes are activated. We conclude that dynamic cytoplasmic microtubules in the cells of sponges are not a persistent but rather a transient structure, associated with cellular plasticity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Carboxymethyl Chitosan Derivatives in Blood Clotting

Author

Arthi, C., Nazreen, P. M., Nivedhitha Sundaram, M., Jayakumar, R., and Jayakumar, R., editor

Published

2024

26. Three new species of Spongiopsyllus Johnsson, 2000 (Copepoda: Siphonostomatoida: Entomolepididae) associated with Aplysina cauliformis (Carter, 1882) (Porifera: Demospongiae) from Todos-os-Santos Bay, Northeastern Brazil

Author

Amilcar Farias, Alisson Santana, Elizabeth G. Neves, and Rodrigo Jonsson

Subjects

associated copepod, symbiotic fauna, marine invertebrate parasite, sponges, Zoology, QL1-991, Botany, QK1-989

Abstract

Entomolepididae is a small siphonostomatoid family with a distinct shield-like body morphology, comprising 9 genera and 20 species. These genera are divided into two subfamilies, mostly based on their body segmentation, the genera with fused pedigerous somites 2 and 3 are included in the Parmulodinae subfamily, and the genera with free pedigerous somites 2 and 3 are included in the Entomolepinae subfamily. Spongiopsyllus is an endemic Entomolepinae genus, and its four known species are known only of Northeastern Brazil. This study reports three new species of this genus, all found associated with the sponge Aplysina cauliformis. The three new species share 16-segmented antennules, the position of the aesthetasc on the 14th segment, a 2-segmented antennal endopod and 4 setae on the outer lobe of the maxillule. Spongiopsyllus athosi sp. nov. has the maxillule with 3 setae on the inner lobe, and maxilliped endopod 3-segmented with setal formula (2,1,1+claw); S. porthosi sp. nov. has the maxilliped endopod 3-segmented with setal formula (2,2,0+claw); and S. aramisi sp. nov. differs from its congeners by having the antennal exopod with 6 spinules, plus the maxilliped endopod 3-segmented with seta formula (2,1,1+claw). An updated key to the species of the family is provided.

Published

2024

27. Mini review: antimicrobial compounds produced by bacteria associated with marine invertebrates

Author

Amran, Ramzi H., Jamal, Mamdoh T., Bowrji, Saba, Sayegh, Fotoon, Santanumurti, Muhammad Browijoyo, and Satheesh, Sathianeson

Published

2024

28. Polymeric Hydrogel Sponges for Wound Healing Applications: A Comprehensive Review

Author

Mohite, Popat, Asane, Govind, Rebello, Norma, Munde, Shubham, Ade, Nitin, Boban, Tresa, Damiri, Fouad, and Singh, Sudarshan

Published

2024

29. Seaweed and kelp, seagrasses and sponges

Published

2021

30. Depth drive shifts in the fish and benthic assemblages of the South American Reef System

Author

Costa, Rhayany Juvêncio, de Macedo Carneiro, Pedro Bastos, Feitosa, Caroline Vieira, de Sousa Barroso, Hortência, da Silva, Marcus Vinicius Chagas, Giarrizzo, Tommaso, Salani, Sula, Gastão, Francisco Gleidson C., Garcia, Tatiane Martins, Tavares, Tallita Cruz Lopes, Smith, Tyler B., and Soares, Marcelo O.

Published

2024

31. Polyurethane sponges bearing cucurbituril adsorb Cr(III) and Pb(II) ions from contaminated water samples.

Author

Souza, Lilian Rodrigues Rosa, Cicolani, Renato Salviato, de Freitas, Bruno Edson Santana, Floriano, Giovana Lavezo, de Oliveira, Maycon Lucas, de Oliveira Filho, Antonio Gustavo Sampaio, da Veiga, Márcia Andreia Mesquita Silva, and Demets, Gregoire Jean-François

Subjects

SPONGE (Material), WATER pollution, WATER sampling, HEAVY metals, ADSORPTION kinetics, CUCURBITURIL, LEAD

Abstract

Water contamination with toxic metals causes harmful effects on the environment and to human health. Although cucurbiturils have carboxyl groups in their portal that can interact with metal ions, there is a lack of studies about their use as metal adsorbent. This scenario has motivated conduction of the present study, which addresses the use of cucurbit[6]uril (CB[6]) and cucurbit[8]uril (CB[8]) for adsorbing Pb and Cr from water samples, in free forms and immobilized in poly(urethane) sponges. The adsorption kinetics revealed that CB[8] leads to faster adsorption compared to CB[6], with equilibrium achieved in 8 h for CB[8] and 48 h for CB[6] for both metals, and achieved up to 80% of decrease in metal concentration. The Langmuir isotherm model provided a better description of adsorption for Cr and Pb in CB[6] and Pb in CB[8] with a maximum concentration adsorbed of 32.47 mg g−1 for Pb in CB[6], while the Dubinin–Radushkevich model was more suitable for Cr adsorption in CB[8]. Sponges containing CB[6] and CB[8] have proven to be efficient for Pb and Cr remediation in tannery effluent samples, reducing Cr and Pb concentration by 42 and 33%, respectively. The results indicate that CB[6] and CB[8], whether used in their pure form or integrated into sponges, exhibit promising potential for efficiently adsorbing metals in aqueous contaminated environments. [ABSTRACT FROM AUTHOR]

Published

2024

32. Short macrocyclic peptides in sponge genomes.

Author

Zhenjian Lin, Agarwal, Vinayak, Ying Cong, Pomponi, Shirley A., and Schmidt, Eric W.

Subjects

*CYCLIC peptides, *PEPTIDES, *SIGNAL peptides, *AMINO acid sequence, *POST-translational modification

Abstract

Sponges (Porifera) contain many peptide-specialized metabolites with potent biological activities and significant roles in shaping marine ecology. It is well established that symbiotic bacteria produce bioactive "sponge" peptides, both on the ribosome (RiPPs) and nonribosomally. Here, we demonstrate that sponges themselves also produce many bioactive macrocyclic peptides, such as phakellistatins and related proline-rich macrocyclic peptides (PRMPs). Using the Stylissa carteri sponge transcriptome, methods were developed to find sequences encoding 46 distinct RiPP-type core peptides, of which ten encoded previously identified PRMP sequences. With this basis set, the genome and transcriptome of the sponge Axinella corrugata was interrogated to find 35 PRMP precursor peptides encoding 31 unique core peptide sequences. At least 11 of these produced cyclic peptides that were present in the sponge and could be characterized by mass spectrometry, including stylissamides A-D and seven previously undescribed compounds. Precursor peptides were encoded in the A. corrugata genome, confirm-ing their animal origin. The peptides contained signal peptide sequences and highly repetitive recognition sequence-core peptide elements with up to 25 PRMP copies in a single precursor. In comparison to sponges without PRMPs, PRMP sponges are incredibly enriched in potentially secreted polypeptides, with >23,000 individual signal peptide encoding genes found in a single transcriptome. The similarities between PRMP biosynthetic genes and neuropeptides in terms of their biosynthetic logic suggest a fundamental biology linked to circular peptides, possibly indicating a widespread and underappreciated diversity of signaling peptide post-translational modifications across the animal kingdom. [ABSTRACT FROM AUTHOR]

Published

2024

33. Chitosan-Based Scaffolds Incorporated with Silver Nanoparticles for the Treatment of Infected Wounds.

Author

Alven, Sibusiso and Aderibigbe, Blessing Atim

Subjects

*SILVER nanoparticles, *CHRONIC wounds & injuries, *WOUND care, *ANTIMICROBIAL bandages, *WOUNDS & injuries, *WOUND healing, *RAMAN scattering

Abstract

Bacterial infections are major problems in wound care due to their impact on the retarded process of wound healing, leading to chronic wounds. Most of the presently utilized wound dressing products exhibit poor antimicrobial properties. Wound dressings formulated from chitosan have been reported to be effective for treating infected wounds, resulting from the antibacterial properties of chitosan. The antibacterial properties of chitosan-based wound dressings can be further enhanced by incorporating metallic nanoparticles into them, such as silver, zinc, titanium, etc. The incorporation of silver nanoparticles into chitosan-based wound dressings has been widely explored in the design of antimicrobial wound dressings. The incorporation of silver nanoparticles into chitosan-based wound dressings promotes accelerated wound-healing processes due to enhanced antimicrobial activity. The accelerated wound healing by these metal-based nanoparticles is via the regulation of re-epithelialization and inflammation without affecting the viability of normal cells. However, there have been few reports that evaluate these wound dressings in infectious animal models to prove their efficacy. The in vivo toxicity of silver nanoparticles still needs to be addressed, revealing the need for further preclinical and clinical trials. The fabrication of wound dressings incorporated with silver nanoparticles has not been fully explored, especially for wounds requiring immediate treatment. The possible interactions between silver nanoparticles and chitosan scaffolds that result in synergistic effects still need to be understood and studied. This review provides a comprehensive report on the preclinical outcomes of chitosan wound dressing materials loaded with silver nanoparticles for managing infected wounds. [ABSTRACT FROM AUTHOR]

Published

2024

34. Assessment of chitosan-based adsorbents for glyphosate removal.

Author

Zavala-Robles, K. G., Ramos-Ibarra, J. R., Franco Rodriguez, N. E., Zamudio-Ojeda, A., Cavazos-Garduño, A., and Serrano-Niño, J. C.

Subjects

*GLYPHOSATE, *POISONS, *SORBENTS, *CHITOSAN, *POROSITY, *MONOMOLECULAR films

Abstract

Exposure to glyphosate produces various toxic effects, due to this, different methods have been evaluated for its elimination. The objective of this work was to formulate chitosan-based adsorbents and evaluate their efficiency in the removal of glyphosate in vitro. Four films were made by varying the weight ratio of silica/chitosan particles, and four sponges were made by varying the chitosan/chitosan ratio in a reticulated manner. Both adsorbents were characterized based on their porosity, water absorption, glyphosate removal, and reusability. It was found that increasing the porosity in both films and sponges resulted in an increase in the adsorption efficiency of glyphosate. The adsorption process exhibited a better fit in both adsorbents to the pseudo-second-order model. The adsorption of glyphosate to the films fit better with the Langmuir model, demonstrating that the process occurs in the form of a monolayer. In the case of sponges, the adsorption of glyphosate fit better with the Freundlich model, indicating that the process takes place in a multilayer form. Finally, when the reusability was evaluated, the adsorbents showed a loss of effectiveness. However, they still proved to be an efficient alternative for the removal of glyphosate in water, providing a cost-effective and environmentally friendly solution. [ABSTRACT FROM AUTHOR]

Published

2024

35. Diversity and Activity of Bacteria Cultured from a Cup—The Sponge Calyx nicaeensis

Author

Lynne Itelson, Mayan Merav, Shai Haymi, Shmuel Carmeli, and Micha Ilan

Subjects

sponges, mesophotic, Calyx nicaeensis, antibiotics, Paenisporosarcina indica, biosurfactants, Biology (General), QH301-705.5

Abstract

Marine sponges are well-known for hosting rich microbial communities. Sponges are the most prolific source of marine bioactive compounds, which are frequently synthesized by their associated microbiota. Calyx nicaeensis is an endemic Mediterranean sponge with scarce information regarding its (bioactive) secondary metabolites. East Mediterranean specimens of mesophotic C. nicaeensis have never been studied. Moreover, no research has inspected its associated bacteria. Thus, we studied the sponge’s bacterial diversity and examined bacterial interspecific interactions in search of a promising antibacterial candidate. Such novel antimicrobial agents are needed since extensive antibiotic use leads to bacterial drug resistance. Bacteria cultivation yielded 90 operational taxonomic units (OTUs). A competition assay enabled the testing of interspecific interactions between the cultured OTUs. The highest-ranked antagonistic bacterium, identified as Paenisporosarcina indica (previously never found in marine or cold habitats), was mass cultured, extracted, and separated using size exclusion and reversed-phase chromatographic methods, guided by antibacterial activity. A pure compound was isolated and identified as 3-oxy-anteiso-C15-fatty acid-lichenysin. Five additional active compounds await final cleaning; however, they are lichenysins and surfactins. These are the first antibacterial compounds identified from either the C. nicaeensis sponge or P. indica bacterium. It also revealed that the genus Bacillus is not an exclusive producer of lichenysin and surfactin.

Published

2024

36. Respiration kinetics and allometric scaling in the demosponge Halichondria panicea

Author

Lars Kumala, Malte Thomsen, and Donald E. Canfield

Subjects

Oxygen, Respiration kinetics, Sponges, Modularity, Metabolic scaling, Animal evolution, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background The aquiferous system in sponges represents one of the simplest circulatory systems used by animals for the internal uptake and distribution of oxygen and metabolic substrates. Its modular organization enables sponges to metabolically scale with size differently than animals with an internal circulatory system. In this case, metabolic rate is typically limited by surface to volume constraints to maintain an efficient supply of oxygen and food. Here, we consider the linkeage between oxygen concentration, the respiration rates of sponges and sponge size. Results We explored respiration kinetics for individuals of the demosponge Halichondria panicea with varying numbers of aquiferous modules (n modules = 1–102). From this work we establish relationships between the sponge size, module number, maximum respiration rate (R max ) and the half-saturation constant, K m , which is the oxygen concentration producing half of the maximum respiration rate, R max . We found that the n modules in H. panicea scales consistently with sponge volume (V sp ) and that R max increased with sponge size with a proportionality > 1. Conversly, we found a lack of correlation between K m and sponge body size suggesting that oxygen concentration does not control the size of sponges. Conclusions The present study reveals that the addition of aquiferous modules (with a mean volume of 1.59 ± 0.22 mL) enables H. panicea in particular, and likely demosponges in general, to grow far beyond constraints limiting the size of their component modules and independent of ambient oxygen levels.

Published

2023

37. Sponge abundance and diversity patterns in the shallow and mesophotic reefs of the northern Red Sea

Author

Lilach Raijman-Nagar, Liron Goren, Sigal Shefer, and Micha Ilan

Subjects

sponges, mesophotic, sponge community structure, sponge coverage, diversity, Red Sea, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Accumulating data on the increasing degradation of coral reefs worldwide has led to a focus on the unique mesophotic coral ecosystem (MCE) as a potential refuge for threatened shallow-water species (i.e., the deep reef refugia hypothesis: DRRH). Sponges play a crucial role in coral-reef functioning but are often overlooked in benthic surveys. This knowledge gap is especially true for the Red Sea, where data on sponge abundance, coverage and species composition are scarce. Furthermore, to date, no study has examined mesophotic sponges in the Red Sea. Here we compared sponge abundance and diversity metrics between shallow and mesophotic reefs at two sites in the Gulf of Aqaba, northern Red Sea. We also examined the role of biotic and abiotic parameters in determining sponge variability between sites and depths. Sponge diversity metrics significantly varied with increasing depth and between sites. Sponge species composition also differed significantly between depth and sites. However, parameters measured in the water column, that is, Total Organic Carbon (TOC), Particulate Organic Carbon (POC), NOx, etc., did not differ between depths and sites, except for Synechococcus and Prochlorococcus concentration, which did. The findings indicated that site characteristics and biotic interactions may play an essential role in determining sponge diversity and community composition. Between-site differences in sponge fauna revealed in the study highlight the importance of considering the variability in the benthic communities and the factors controlling it when designing management tools for coral reefs, particularly for the northern Red Sea.

Published

2024

38. A global dataset of demosponge distribution records

Author

Ariadni Vafeiadou, Eliza Fragkopoulou, and Jorge Assis

Subjects

Marine biodiversity, Foundational biodiversity information, Global biogeography, Demospongiae occurrence records, Sponges, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Biodiversity information in the form of species occurrence records is key for monitoring and predicting current and future biodiversity patterns, as well as for guiding conservation and management strategies. However, the reliability and accuracy of this information are frequently undermined by taxonomic and spatial errors. Additionally, biodiversity information facilities often share data in diverse incompatible formats, precluding seamless integration and interoperability. We provide a comprehensive quality-controlled dataset of occurrence records of the Class Demospongiae, which comprises 81% of the entire Porifera phylum. Demosponges are ecologically significant as they structure rich habitats and play a key role in nutrient cycling within marine benthic communities. The dataset aggregates occurrence records from multiple sources, employs dereplication and taxonomic curation techniques, and is flagged for potentially incorrect records based on expert knowledge regarding each species’ bathymetric and geographic distributions. It yields 417,626 records of 1,816 accepted demosponge species (of which 321,660 records of 1,495 species are flagged as potentially correct), which are provided under the FAIR principle of Findability, Accessibility, Interoperability and Reusability in the Darwin Core Standard. This dataset constitutes the most up-to-date baseline for studying demosponge diversity at the global scale, enabling researchers to examine biodiversity patterns (e.g., species richness and endemicity), and forecast potential distributional shifts under future scenarios of climate change.

Published

2024

39. Characterizing the bacterial communities associated with Mediterranean sponges: a metataxonomic analysis.

Author

Esposito, Roberta, Federico, Serena, Sonnessa, Michele, Reddel, Sofia, Bertolino, Marco, Ruocco, Nadia, Zagami, Giacomo, Giovine, Marco, Pozzolini, Marina, Guida, Marco, Zupo, Valerio, and Costantini, Maria

Subjects

BACTERIAL communities, NITROGEN fixation, CYTOCHROME oxidase, GAMMAPROTEOBACTERIA, RIBOSOMAL RNA, PLANT-soil relationships

Abstract

The oceans cover over 70% of our planet, hosting a biodiversity of tremendous wealth. Sponges are one of the major ecosystem engineers on the seafloor, providing a habitat for a wide variety of species to be considered a good source of bioactive compounds. In this study, a metataxonomic approach was employed to describe the bacterial communities of the sponges collected from Faro Lake (Sicily) and Porto Paone (Gulf of Naples). Morphological analysis and amplification of the conserved molecular markers, including 18S and 28S (RNA ribosomal genes), CO1 (mitochondrial cytochrome oxidase subunit 1), and ITS (internal transcribed spacer), allowed the identification of four sponges. Metataxonomic analysis of sponges revealed a large number of amplicon sequence variants (ASVs) belonging to the phyla Proteobacteria, Cloroflexi, Dadabacteria, and Poribacteria. In particular, Myxilla (Myxilla) rosacea and Clathria (Clathria) toxivaria displayed several classes such as Alphaproteobacteria, Dehalococcoidia, Gammaproteobacteria, Cyanobacteria, and Bacteroidia. On the other hand, the sponges Ircinia oros and Cacospongia mollior hosted bacteria belonging to the classes Dadabacteriia, Anaerolineae, Acidimicrobiia, Nitrospiria, and Poribacteria. Moreover, for the first time, the presence of Rhizobiaceae bacteria was revealed in the spongeM. (Myxilla) rosacea, which was mainly associated with soil and plants and involved in biological nitrogen fixation. [ABSTRACT FROM AUTHOR]

Published

2024

40. Open‐Cell Robust COF‐Nanowire Network Sponges as Sustainable Adsorbent and Filter.

Author

Ding, Chenhui, Du, Yingying, and Agarwal, Seema

Subjects

*COLOR removal in water purification, *NANOWIRE devices, *YOUNG'S modulus, *SPONGE (Material), *WATER filtration, *BASIC dyes, *WATER use

Abstract

Constructing crystalline covalent organic frameworks (COF) robust 3D reusable macroscopic objects exposing more adsorption sites with high water flux for use as a filter is an unresolved challenge. A simple scalable procedure is shown for making a robust, highly compressible 3D crystalline COF nanowire interconnected porous open‐cell sponge. The compressive strength and Young's modulus (80% strain) of the sponge are 175 and 238 kPa, respectively. The sponge can withstand multiple compression‐release cycles and a load of 2800 times its weight without collapsing. As an exemplary application, the use of a COF sponge in the selective removal and separation of cationic model dye from a mixture of dyes in water by adsorption and filtration with >99% efficiency is shown. Depending on the dye concentration, the dye removal time can be as short as 2 min, and dye adsorption efficiency can be as high as 653 mg g−1 (COF in the sponge). During filtration, the sponges as filters show a high water flux of 2355 L h−1 m−2 under ambient conditions and maintain their performance for many cycles. The lightweight, reusability, and efficiency make present sponges sustainable materials as adsorbents and filters. [ABSTRACT FROM AUTHOR]

Published

2024

41. Anomalies of Sponge Spicules: Exploring Links to Environmental Pollution.

Author

Andjus, Stefan, Tubić, Bojana, Vasiljević, Božica, Nikolić, Vera, and Paunović, Momir

Subjects

POLLUTION, SCANNING electron microscopy, POLLUTANTS

Abstract

The aim of this study was to assess the frequency of spicule malformations in freshwater sponges in relation to selected environmental parameters of the streams and the presence of river pollutants. A total of 50 sponge samples were collected from ten rivers in Serbia. Selected parameters of the water varied considerably at every site where sponges were found. After spicule preparation, the samples were subjected to morphological analysis by light and scanning electron microscopy, and the number of anomalies were recorded (spicules with bulbous enlargements, sharply bent, bifurcated, scissor- and cross-like, and t-shaped). The frequencies and types of malformations within the analyzed specimens varied from 1 to 100 per 1000 spicules, with an average number of 12 per 1000. The main types of anomalies were single- and double-bent spicules. The highest number of anomalies was found in a specimen of Eunapius fragilis collected at Markovac (Velika Morava River), and the lowest number was found in a specimen of Ephydatia fluviatilis from Kanjiža (Tisa River). The sites with the lowest and the highest numbers of anomalies showed statistically significant differences in concentrations of ammonia, orthophosphates, sodium, chloride, manganese, and lead. This study indicates that several pollutants potentially affect the occurrence of spicule anomalies. [ABSTRACT FROM AUTHOR]

Published

2024

42. Sharks checking in to the sponge hotel: First internal use of sponges of the genus Agelas and family Irciniidae by banded sand catsharks Atelomycterus fasciatus.

Author

O'Neill, Helen L., White, William T., Pogonoski, John J., Alvarez, Belinda, Gomez, Oliver, and Keesing, John K.

Subjects

*SAND, *DEMOSPONGIAE, *ECOLOGICAL niche, *HOTELS, *PREDATORY animals, *SHARKS

Abstract

Trawl surveys within and surrounding two northwestern Australian marine parks revealed banded sand catsharks Atelomycterus fasciatus (family Atelomycteridae) taking refuge within large sponges of the family Irciniidae (Demospongiae: Dictyoceratida) and the genus Agelas (Demospongiae: Agelasida: Agelasidae). Five sponges contained a total of 57 A. fasciatus, comprising both sexes and both immature and mature individuals ranging from 102 to 390 mm total length (TL). In the same surveys, only five A. fasciatus were captured unassociated with sponges, suggesting that sponges are an important microhabitat for A. fasciatus and may provide a daytime refuge from predators. A southerly range extension is also reported for this species. [ABSTRACT FROM AUTHOR]

Published

2024

43. New Hypercalcified Calcareous Sponges from the Gzhelian Stage of the Moscow Region.

Author

Davydov, A. E., Yashunsky, Yu. V., Mirantsev, G. V., and Krutykh, A. A.

Abstract

A new genus and species of hypercalcified calcareous sponge, Gzhelistella cornigera gen. et sp. nov., is described from the Kosherovo Formation (Gzhelian Stage) of the Moscow region. The new genus is the first representative of hypercalcified calcareous sponges from the Upper Carboniferous with an "inozoan-like" internal structure and a characteristic spicular organization of the skeleton. [ABSTRACT FROM AUTHOR]

Published

2023

44. Plant-Derived Nanocellulose with Antibacterial Activity for Wound Healing Dressing.

Author

Oprică, Gabriela Mădălina, Panaitescu, Denis Mihaela, Lixandru, Brînduşa Elena, Uşurelu, Catalina Diana, Gabor, Augusta Raluca, Nicolae, Cristian-Andi, Fierascu, Radu Claudiu, and Frone, Adriana Nicoleta

Subjects

*WOUND healing, *ANTIBACTERIAL agents, *MASTITIS, *CELLULOSE fibers, *SCANNING electron microscopes, *STAPHYLOCOCCUS aureus, *PSEUDOMONAS aeruginosa, *NATURAL products

Abstract

The medical sector is one of the biggest consumers of single-use materials, and while the insurance of sterile media is non-negotiable, the environmental aspect is a chronic problem. Nanocellulose (NC) is one of the safest and most promising materials that can be used in medical applications due to its valuable properties like biocompatibility and biodegradability, along with its good mechanical properties and high water uptake capacity. However, NC has no bactericidal activity, which is a critical need for the effective prevention of infections in chronic diabetic wound dressing applications. Therefore, in this work, a natural product, propolis extract (PE), was used as an antibacterial agent, in different amounts, together with NC to obtain sponge-like structures (NC/PE). The scanning electron microscope (SEM) images showed well-impregnated cellulose fibers and a more compact structure with the addition of PE. According to the thermogravimetric analysis (TGA), the samples containing PE underwent thermal degradation before the unmodified NC due to the presence of volatile compounds in the extract. However, the peak degradation temperature in the first derivative thermogravimetric curves was higher for all the sponges containing PE when compared to the unmodified NC. The antibacterial efficacy of the samples was tested against Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli, as well as on two clinically resistant isolates. The samples completely inhibited the development of Staphylococcus aureus, and Pseudomonas aeruginosa was partially inhibited, while Escherichia coli was resistant to the PE action. Considering the physical and biological properties along with the environmental and economic benefits, the development of an NC/PE wound dressing seems promising. [ABSTRACT FROM AUTHOR]

Published

2023

45. Flexible Sponge‐Based Nanogenerator for Energy Harvesting from Land and Water Transportation.

Author

Xu, Hui, Wang, Xiutong, Nan, Youbo, Zhou, Hui, Wu, Yan, Wang, Mingxing, Liu, Weilong, Duan, Jizhou, Huang, Yanliang, and Hou, Baorong

Subjects

*MARITIME shipping, *MECHANICAL energy, *WAVE energy, *WATER waves, *CATHODIC protection, *ENERGY harvesting

Abstract

Triboelectric nanogenerator (TENG) devices with high robustness are promising in collecting powerful energy. In this study, highly elastic and pressure‐resistance sponge fabricated TENG capable of adapting to high strength impact in land and water transportation and scalable for any shape is demonstrated for harvesting wave energy and mechanical energy. The polydimethylsiloxane sponge prepared by sacrificial template method has interconnected network and large size ratio of cavity‐wall suitable for contact and separation. The operation modes of self‐contact and extra‐contact collaborating with MXene in electron transfer provide options for different operating conditions. The polydopamine‐MXene modification of the sponge enables higher output due to the combination of the electronegativity, excellent adhesion, and antioxidant ability. Sponges are used to collect mechanical energy and applied for TENG‐powered cathodic protection, making the 304 stainless steel (304 SS, Φ = 2 mm) electrode enter a thermodynamic stable state. What's more, the work also tries the universal strategies of program monitoring wave in the water tank and harvests the mechanical energy created by cars and passers‐by, which enrich the applications of sponge TENG. [ABSTRACT FROM AUTHOR]

Published

2023

46. A New Method for Silicon Triple Isotope Analysis With Application to Siliceous Sponge Spicules.

Author

Pack, Andreas, Bultmann, Eike‐Matthias, Tatzel, Michael, and Reitner, Joachim

Subjects

SILICON isotopes, DEMOSPONGIAE, ISOTOPIC analysis, INFRARED lasers, SILICIC acid

Abstract

Multiple isotope ratios of elements disclose information on the fractionation mechanism that cannot be obtained from a single isotope ratio alone. We describe a laser fluorination technique in combination with gas source mass spectrometry for the measurement of triple Si isotope ratios with high precision that allows resolving ppm‐level variability in triple silicon isotope ratios (29Si/28Si, 30Si/28Si) Δ'29Si due to purely mass‐dependent fractionation in Si isotopes. We demonstrate how the triple silicon isotope ratios can be used to characterize different mass‐dependent processes that fractionate silicon isotopes. We report new data on reference materials (NBS‐28 [RM8546], Diatomite, BigBatch) and on siliceous sponges. Our triple silicon isotope data resolve that kinetic fractionation, possibly related to breaking Si(OH)4 molecules, causes the low δ30Si of sponges. The data further suggest that the cause for fractionation may be the same for the groups of Demospongiae, Homoscleromorpha, and Hexactinellida and that triple silicon isotope ratios of sponges have potential as seawater silicon isotope proxy. Plain Language Summary: In this study, we present a technique for high‐precision measurements of the triple silicon isotope ratios (29Si/28Si, 30Si/28Si, expressed as δ29Si and δ30Si) of silica. Silica (∼2–3 mg) samples were heated with an infrared laser in an atmosphere of BrF5 gas. The released SiF4 gas was analyzed by gas source mass spectrometry. We present data on standards and various sponge silica spicules. Small variations in the δ29Si and δ30Si can be resolved in the standards and the sponge spicules. Such variations provide information on the fractionation mechanism of silicon isotopes. In our study, we suggest that the sponges kinetically fractionation silicon during the incorporation of dissolved silicic acid into the silica spicules. We suggest that, with improved precision, seawater δ30Si values can be deduced from the analysis of fossil sponge spicules. Key Points: We present a new method of triple silicon isotope analysisWe present new data on standards and sponge spiculesWe suggest that the three silicon isotopes allow reconstruction of seawater silicon isotopes from sponge spicule data [ABSTRACT FROM AUTHOR]

Published

2023

47. Creation of a 3D Goethite–Spongin Composite Using an Extreme Biomimetics Approach.

Author

Kubiak, Anita, Voronkina, Alona, Pajewska-Szmyt, Martyna, Kotula, Martyna, Leśniewski, Bartosz, Ereskovsky, Alexander, Heimler, Korbinian, Rogoll, Anika, Vogt, Carla, Rahimi, Parvaneh, Falahi, Sedigheh, Galli, Roberta, Langer, Enrico, Förste, Maik, Charitos, Alexandros, Joseph, Yvonne, Ehrlich, Hermann, and Jesionowski, Teofil

Subjects

*BIOMIMETICS, *MATERIALS science, *BIOMIMETIC materials, *BIOMATERIALS, *IRON powder, *MICROSCOPY, *DOPAMINE receptors

Abstract

The structural biopolymer spongin in the form of a 3D scaffold resembles in shape and size numerous species of industrially useful marine keratosan demosponges. Due to the large-scale aquaculture of these sponges worldwide, it represents a unique renewable source of biological material, which has already been successfully applied in biomedicine and bioinspired materials science. In the present study, spongin from the demosponge Hippospongia communis was used as a microporous template for the development of a new 3D composite containing goethite [α-FeO(OH)]. For this purpose, an extreme biomimetic technique using iron powder, crystalline iodine, and fibrous spongin was applied under laboratory conditions for the first time. The product was characterized using SEM and digital light microscopy, infrared and Raman spectroscopy, XRD, thermogravimetry (TG/DTG), and confocal micro X-ray fluorescence spectroscopy (CMXRF). A potential application of the obtained goethite–spongin composite in the electrochemical sensing of dopamine (DA) in human urine samples was investigated, with satisfactory recoveries (96% to 116%) being obtained. [ABSTRACT FROM AUTHOR]

Published

2023

48. Bioprospection of Marine Sponge Microbiome for Bioactive Metabolites Employing Advanced Metagenomics Tools

Author

Berde, Chanda Vikrant, Berde, Vikrant Balkrishna, Reddy, Prakash Narayana, Veera Bramhachari, Pallaval, Veera Bramhachari, Pallaval, editor, and Berde, Chanda Vikrant, editor

Published

2023

49. Bioprospecting for polyesterase activity relevant for PET degradation in marine Enterobacterales isolates

Author

Denisse Galarza–Verkovitch, Onur Turak, Jutta Wiese, Tanja Rahn, Ute Hentschel, and Erik Borchert

Subjects

marine bacteria, order enterobacterales, petase-like activity, sponges, bryozoans, Microbiology, QR1-502

Abstract

Plastics have quickly become an integral part of modern life. Due to excessive production and improper waste disposal, they are recognized as contaminants present in practically all habitat types. Although there are several polymers, polyethylene terephthalate (PET) is of particular concern due to its abundance in the environment. There is a need for a solution that is both cost-effective and ecologically friendly to address this pollutant. The use of microbial depolymerizing enzymes could offer a biological avenue for plastic degradation, though the full potential of these enzymes is yet to be uncovered. The purpose of this study was to use (1) plate-based screening methods to investigate the plastic degradation potential of marine bacteria from the order Enterobacterales collected from various organismal and environmental sources, and (2) perform genome-based analysis to identify polyesterases potentially related to PET degradation. 126 bacterial isolates were obtained from the strain collection of RD3, Research Unit Marine Symbioses-GEOMAR-and sequentially tested for esterase and polyesterase activity, in combination here referred to as PETase–like activity. The results show that members of the microbial families Alteromonadaceae, Shewanellaceae, and Vibrionaceae, derived from marine sponges and bryozoans, are the most promising candidates within the order Enterobacterales. Furthermore, 389 putative hydrolases from the α/β superfamily were identified in 23 analyzed genomes, of which 22 were sequenced for this study. Several candidates showed similarities with known PETases, indicating underlying enzymatic potential within the order Enterobacterales for PET degradation.

Published

2023

50. Silactins and Structural Diversity of Biosilica in Sponges

Author

Hermann Ehrlich, Alona Voronkina, Konstantin Tabachniсk, Anita Kubiak, Alexander Ereskovsky, and Teofil Jesionowski

Subjects

biosilica, sponges, actin, spicules, hierarchical biocomposites, biomimetics, Technology

Abstract

Sponges (phylum Porifera) were among the first metazoans on Earth, and represent a unique global source of highly structured and diverse biosilica that has been formed and tested over more than 800 million years of evolution. Poriferans are recognized as a unique archive of siliceous multiscaled skeletal constructs with superficial micro-ornamentation patterned by biopolymers. In the present study, spicules and skeletal frameworks of selected representatives of sponges in such classes as Demospongiae, Homoscleromorpha, and Hexactinellida were desilicified using 10% HF with the aim of isolating axial filaments, which resemble the shape and size of the original structures. These filaments were unambiguously identified in all specimens under study as F-actin, using the highly specific indicators iFluor™ 594-Phalloidin, iFluor™ 488-Phalloidin, and iFluor™ 350-Phalloidin. The identification of this kind of F-actins, termed for the first time as silactins, as specific pattern drivers in skeletal constructs of sponges opens the way to the fundamental understanding of their skeletogenesis. Examples illustrating the biomimetic potential of sophisticated poriferan biosilica patterned by silactins are presented and discussed.

Published

2024