Your search keyword '"SEAWATER"' showing total 2,254 results

1. Assessment of the Effectiveness of Protective Coatings in Preventing Steel Corrosion in the Marine Environment.

Author

Bogatu, Nicoleta, Buruiana, Daniela Laura, Muresan, Alina Crina, Ghisman, Viorica, Lupu, Anca, Mardare, Laurentiu, Herbei, Elena Emanuela, Basliu, Vasile, Ceoromila, Alina, and Florescu, Stefan

Abstract

This research aims to evaluate the effectiveness of protective coatings in preventing the corrosion of steel in the marine environment. Electrochemical tests were performed on S355JR steel immersed in natural seawater (Black Sea, Port Constanta) over a period of 22 weeks, using electrochemical techniques such as the evolution of the open circuit potential (OCP) and linear polarization resistance to calculate Rp and the corrosion rate (Vcorr). The investigated steel surfaces included (a) S355JR steel blasted with Al2O3, (b) S355JR steel blasted and coated with epoxy primer enriched with zinc, (c) S355JR steel blasted and coated with epoxy primer and polyurethane paint, and (d) S355JR steel blasted and subsequently coated with epoxy primer and then polyurethane paint to which kreutzonit particles had been added. The proportion of kreutzonit particles added to the polyurethane paint was 2 wt% of the total mass of the paint. Subsequently, the samples were subjected to morphological analyses and cross-sectional analysis by scanning electron microscopy (SEM), topographical characterization (roughness and microhardness), and structural assessments (FTIR and XRD), as well as an analysis of hydrophobicity (contact angle). The results of this study revealed significant differences in corrosion behavior between the different surfaces and coatings tested. Electrochemical analysis revealed that the coating with epoxy primer and polyurethane paint to which kreutzonit particles had been added provided the best corrosion protection in the marine environment during immersion. [ABSTRACT FROM AUTHOR]

Published

2025

2. Effect of Hydrolysate Derived from Subcritical Seawater Treatment of Buckwheat Waste on the Growth of Lettuce (Lactuca sativa L.).

Author

Yuan, Yongheng, Li, Faqinwei, and Shimizu, Naoto

Subjects

SEAWATER composition, LIQUID fertilizers, WASTE treatment, PLANT growth, SEAWATER, LETTUCE

Abstract

This study explores the effects of a subcritical seawater treatment (SST) on buckwheat waste (BW), and the use of the hydrolysate as a liquid fertilizer to improve the growth of lettuce (Lactuca sativa L.). Three temperature treatments (110 °C, 170 °C, 230 °C) were used for the SST, and the ionic composition in the seawater achieved the depolymerization and degradation of BW. The X-ray diffraction of the residual solids showed that the structure of BW was destroyed. Compared with seawater, the hydrolysate contained higher amounts of elements beneficial to plant growth, such as N, P, K, and organic compounds such as phenolics and sugars, as a result of the degradation of BW caused by the SST. The hydrolysate was tested as a liquid fertilizer (treatments H110°C, H170°C, H230°C) to irrigate lettuce. The content of proteins, phenolics, and chlorophyll, as well as the weight of the lettuce in the H110°C and H170°C treatments, were significantly higher than those in the seawater and the H230°C irrigation treatments (p < 0.05). The hydrolysate from the SST of BW, being rich in various organic and inorganic nutrients, can act as a liquid fertilizer that promotes the growth of lettuce, whereas hydrolysate from higher SST temperatures might inhibit the growth of lettuce, because of the excessive total nitrogen and organic acid. [ABSTRACT FROM AUTHOR]

Published

2025

3. Dynamic Trends in Aquatic Product Supply and Consumption in China: Implications for Sustainable Diets and Environmental Impact Reduction.

Author

Yang, Wanni

Subjects

ECOLOGICAL impact, SUSTAINABLE consumption, FISHERY products, CONSUMPTION (Economics), SEAWATER

Abstract

Aquatic foods play a pivotal role in transforming food systems. As the world's leading producer, consumer, and trader of aquatic products, China's potential for sustainable supply and consumption is critical to understand. The aim of this study was to depict the dynamic trends of aquatic products and the consequences of sustainable diets and environmental impacts. A panel dataset about Chinese aquatic products covering the period from 1952 to 2023 was drawn for analysis. Diet sustainability was assessed with the deviation from the Dietary Guidelines for Chinese Residents (2022) and EAT-Lancet recommendations. The environmental impacts of aquatic products' supply and consumption were assessed using carbon footprints and water footprints. The findings reveal that aquatic products' supply increased from 4.65 million tons to 71.16 million tons from 1978 to 2023, and annual aquatic food consumption per capita increased from 3.50 kg in 1978 to 15.20 kg. While overall supply meets consumption needs, structural imbalances persist at the provincial level. Over time, the influence of marine fishery products has declined from 1.06 million tons (63.63%) in 1952 to 35.85 million tons (50.38%) in 2023, whereas offshore aquaculture shows promising potential for meeting future supply demands (23.96 million tons in 2023, accounting for 66.82% of marine fishery production). To align with healthy dietary goals and environmentally sustainable food systems, provincial aquatic food demand across China was adjusted. The carbon footprints and water footprints of both current and adjusted consumption patterns were also assessed. The results indicate that adjusting consumption based on the Dietary Guidelines for Chinese Residents (2022) and EAT-Lancet recommendations could reduce environmental impacts to different degrees. The findings could offer valuable references and insights into developing sustainable strategies in aquatic product management and advancing food system transformation. [ABSTRACT FROM AUTHOR]

Published

2025

4. On Tectonic and Hydro Meteorological Conditions of Methane Genesis and Migration in the Offshore Waters of East Vietnam.

Author

Kholmogorov, Andrey, Kulinich, Ruslan, Vlasova, Galina, Syrbu, Nadezhda, Wu, Nengyou, and Wan, Yizhao

Subjects

SEDIMENTARY basins, OCEAN currents, GREENHOUSE gas mitigation, WATERSHEDS, SEAWATER

Abstract

Complex geological, gas geochemical and hydro meteorological studies were conducted to investigate the methane fields present in the bottom sediments and seawater of the Red River and Phu Khanh sedimentary basins. We demonstrate that the system of tectonic faults that formed the sedimentary basins of the Red River and the Phu Khanh (the eastern shelf and slope of Vietnam) created the necessary conditions for the generation and migration of endogenous methane into the bottom sediments and seawater. It is shown that dissolved methane in seawater can be transported by marine currents, which in turn can be influenced by seasonal and irregular synoptic processes. The research shows that part of the dissolved methane contained in the waters above the Ken Bau gas field can be transported to the south by the coastal Vietnamese current, which adapts to the conditions of the winter northeast monsoon. It is concluded that there could be at least two deep sources of hydrocarbon gas emissions in the Phu Khanh basin. The impact of Typhoon Nakri on the transport of dissolved methane in the water column of the Phu Khanh sedimentary basin has been investigated. The typhoon could create favorable hydrodynamic conditions for the movement of dissolved gases from oil and gas deposits near the coasts of the islands of Kalimantan and Palawan to the Phu Khanh basin. A possible route for this transfer has been identified. [ABSTRACT FROM AUTHOR]

Published

2025

5. Sorbents Based on Polyacrylonitrile Fiber for Complex Recovery of Artificial 137 Cs and Natural Radionuclides from Natural Media.

Author

Shibetskaia, Iuliia G., Razina, Viktoriia A., Bezhin, Nikolay A., Tokar', Eduard A., Turyanskiy, Vladislav A., Zarubina, Natalia V., Shichalin, Oleg O., Yarusova, Sofia B., and Tananaev, Ivan G.

Subjects

SEAWATER salinity, TRANSITION metal oxides, FERROCYANIDES, TRANSITION metals, SORBENTS

Abstract

Sorbents based on polyacrylonitrile fiber, containing ferrocyanides of transition metals and manganese oxides (CoMn-PAN and FeMn-PAN) or iron(III) hydroxide (CoFe-PAN) in their structure were obtained, as confirmed by the results of X-ray diffraction and energy-dispersive analyses. The selectivity of the obtained sorbents was investigated, along with their ability to sorb Cs, Ba (as an analog of Ra), P, and Be from various natural media, including river water and seawater with varying salinity of 18.2 and 33.8 ‰. The data show that the sorbents are universal for the recovery of artificial 137Cs and natural radionuclides from the natural environments, including complex salt composition (seawater). Researching the obtained sorbents during marine expeditions confirmed the efficiency of the obtained materials based on transition metal ferrocyanides and manganese oxides (CoMn-PAN and FeMn-PAN) for the sorption of 137Cs, 7Be, 210Pb, 210Po, 226Ra, 228Ra, and 234Th. Additionally, the sorbent based on transition metal ferrocyanides and iron(III) hydroxide (CoFe-PAN) was effective for the sorption of 137Cs, 7Be, 32P, 33P, 210Pb, 210Po, and 234Th. Based on the obtained results, methods for comprehensively determining artificial 137Cs and natural radionuclides using these sorbents were developed. [ABSTRACT FROM AUTHOR]

Published

2025

6. Spatial Analysis of Maritime Disasters in the Philippines: Distribution Patterns and Identification of High-Risk Areas.

Author

Aguilar, Glenn D., Tirol, Yasmin P., Basina, Ryan M., and Alcedo, Jamaica

Subjects

*MARITIME safety, *WIND speed, *COASTAL surveillance, *SYSTEM safety, *SEAWATER, *MARINE accidents

Abstract

Maritime accidents frequently occur in the Philippine archipelagic waters, often resulting in significant loss of life. These incidents highlight the urgent need for improvements in the country's maritime safety systems. By utilising accident data from the Philippine Coast Guard and the GISIS IMO databases, spatial analytical approaches were employed to determine incident distribution patterns and resulted in an overall depiction of the likelihood component of risk across the country's territorial waters. Kernel density and hotspot analysis revealed areas where incidents were concentrated and where statistically significant hotspots occurred. The Maxent tool was used to develop risk likelihood models for the incident locations using environmental rasters representing wind speed, significant wave height, depth, surface current, land distance and port distance. Model performance metrics including the AUC, TSS and Kappa were used to compare the two datasets and provide confidence on model robustness. Variable contribution figures showed that land distance is the most influential variable, with the majority of high-risk areas predominantly located near population centres. The resulting maps provide an intuitive and informative depiction of the characteristic patterns of maritime accidents in the country, identify areas of high risk requiring immediate attention and offer valuable insights to support strategies for improving and enhancing the country's maritime safety. [ABSTRACT FROM AUTHOR]

Published

2025

7. Mapping the Distribution and Population Status of Alosa immaculata and Alosa tanaica (Teleostei, Clupeidae) in the Bulgarian Black Sea Area.

Author

Rozdina, Desislava, Stoyanova, Yana, Terziyski, Georgi, Studenkov, Slavi, Karakushev, Boris, Delov, Venceslav, Mihaylov, Konstantin, Kozhuharov, Dimitar, Kutsarov, Yordan, Kolev, Nikolay, Nedyalkov, Nikolay, and Natchev, Nikolay

Subjects

*MARINE parks & reserves, *FISH reproduction, *GILLNETTING, *FISH conservation, *SEAWATER

Abstract

(1) Background: To date, data concerning the population of Alosa immaculata and Alosa tanaica from the marine waters of Bulgaria are rather scarce. In the range of a project for mapping the Bulgarian marine protected sites from the network NATURA 2000, we provide an intense investigation of the biology and distribution of both Alosa species. (2) Methods: A trawling survey was carried out within 102 predefined sampling plots of 10 × 10 km grid cells (93 cells on the continental shelf, up to 100 m depth, and 9 offshore cells). In some coastal regions, sampling was conducted with gill nets of different mesh sizes (28 mm to 36 mm). Analysis of the suitability of the occupied habitat of both species was carried out using the MAXENT v 3.4.0 software application. The status of the populations was studied based on the parameters abundance (ind./km−2), biomass (kg/km−2), size, sex structure, maturity, and food spectrum. (3) Results: Out of 102 transects studied, A. immaculata was found in 12 transects and A. tanaica in 13. A total of 408 fish specimens were captured, out of which 313 were A. immaculata and 95 were A. tanaica. Both species were distributed along Bulgaria's entire Black Sea coast, with a numerical prevalence of the catches in the southern part. The population size of A. immaculata for the number of individuals on a biographical level in the Marine Black Sea Biographic Region (MBLS) was a minimum of 100,255 individuals and a maximum of 526,408 individuals (the average was 313,286). The population size for A. tanaica was a minimum of 28,183 individuals and a maximum of 449,549 individuals (an average of 238,866). The current population density of A. immaculata in the MBLS was 25.98 ind./km−2, and for A. tanaica, it was 19.00 ind./km−2. The current biomass of the population of A. immaculata in the MBLS was 3.44 kg/km−2, and the population of A. tanaica was 0.53 kg/km−2. The sex ratio for A. immaculata was 1 male:2.6 females, and for A. tanaica, 1 male:3.8 females. Both shad species were feeding with less intensity or not feeding during the winter. The diversity in the food spectrum of A. tanaica was more limited compared to that of A. immaculata. (4) Conclusions: Key parameters for the Bulgarian Black Sea Exclusive Economic Zone indicate current stability in the resources of A. immaculata and A. tanaica and more favorable conditions for the populations in the Natura 2000 sites compared to that outside the Natura 2000. The results of this study should be used to develop management plans for marine protected areas, and future monitoring projects should follow the sampling protocol. [ABSTRACT FROM AUTHOR]

Published

2025

8. Strategic Reduction Method for Energy Input and CO 2 Emissions: Direct Supply of Underground Seawater for Land-Based Aquaculture Systems in South Korea.

Author

Baek, Seungyeop, Jeon, Byungchil, Oh, Sebong, Choi, Wontak, Choi, Seunggi, and Sung, Yonmo

Subjects

*GROUND source heat pump systems, *WATER temperature, *CARBON emissions, *SEAWATER, *ENERGY consumption

Abstract

This study addresses the challenges of and opportunities for achieving the ambitious greenhouse gas emissions reduction target of the fishery sector of the Republic of Korea, set at 96% by 2030. We also focus on the current status of land-based aquaculture and underground seawater resource development, quantitatively compare energy inputs for land-based fish cultivation, and evaluate the potential of underground seawater to reduce CO2 emissions. Since 2010, 762 underground seawater boreholes have been developed, yielding a cumulative daily pumpage of 125,780 m3. Jeollanam-do was found to have the highest daily pumpage, with an annual energy requirement of 131,205,613 Mcal. Despite the fact that the energy demands for underground seawater are higher in some months, it provides a 22.6% reduction in total annual energy consumption compared to surface water. The use of underground seawater for heating or cooling resulted in a 24.1% reduction in the required input energy. However, energy requirements increase due to the relatively high surface water temperature in some regions and seasons. This study also highlights the utilization of underground seawater in heating or cooling surface water via indirect applications using geothermal heat pumps. This innovative research broadens the methods of greenhouse gas mitigation, particularly in the agriculture, livestock, and fisheries industries. [ABSTRACT FROM AUTHOR]

Published

2025

9. The Evolution of the Tensile Properties of MoS 2 -Coated Titanium Alloy Bolts Under the Synergistic Damage of NaCl Corrosion and Preloading.

Author

Feng, Derong, Xie, Maoyang, Yu, Weilin, Li, Chao, Guo, Raolong, Hu, Yunpeng, Ming, Quanyuan, and Wan, Qiang

Subjects

*SALT spray testing, *WATER damage, *CORROSION resistance, *SEAWATER, *TENSILE strength

Abstract

MoS2 coating is a newly developed method to prevent bolt corrosion and the seizure of bolts used in equipment in sea areas. It is of great significance to investigate the evolution of the tensile properties and intact coatings for the maintenance of coated bolts. To evaluate the tensile properties of MoS2-coated titanium alloy bolts, titanium alloy bolts coated with MoS2 (TC4+MoS2) and bolts treated with a composite treatment of anodizing oxidation and MoS2 coating (TC4+AO+MoS2) were corroded in salt spray tests for 4300 h. The MoS2 coating significantly enhanced the bolts' corrosion resistance, demonstrating exceptional protective performance by only experiencing minor peeling due to oxidation-induced cracking of the coating during the extensive 4300 h salt spray test. The tensile strengths of the TC4+MoS2 and TC4+AO+MoS2 bolts both decreased as compared with the original bolts. The bolts pretreated with anodic oxidation revealed lighter coating peeling and maintained a higher tensile strength after corrosion. Therefore, it can be concluded that the coatings provided excellent corrosion resistance, leading to a minor impact on the bolts' tensile strength and fracture behavior under the synergistic damage of sea water corrosion and preloading. [ABSTRACT FROM AUTHOR]

Published

2025

10. Fibre Optic Method for Detecting Oil Fluorescence in Marine Sediments.

Author

Baszanowska, Emilia, Otremba, Zbigniew, and Kubacka, Maria

Subjects

*MARINE sediments, *FLUORESCENCE spectroscopy, *SEDIMENT sampling, *SIGNAL sampling, *SPECTRUM analysis

Abstract

The aim of this study is to verify the possibility of detecting oil in the bottom sediment using a fibre optic system. The presence of oil is assessed on excitation–emission spectra obtained from spectral fluorescence signals of the sediment sample. A factory spectrofluorometer coupled with an experimental fibre optic measurement system was used. During the determination of spectra, the fibre optic system is set at a 45° angle to the sediment surface and placed above its surface. The light exciting the fluorescence and the light emitted by the sediment are transmitted in a combined bundle of fibre optic threads. The analysis of excitation–emission spectra of sediments contaminated with oil shows variability of the shapes of fluorescence spectra depending on the type and degree of oil contamination, which indicates the feasibility of the sensor design for detecting oil in the sediment in situ. [ABSTRACT FROM AUTHOR]

Published

2025

11. Experimental Investigation on Thermo-Economic Analysis of Direct Contact Membrane Distillation for Sustainable Freshwater Production.

Author

Shalaby, Saleh M., Hammad, Farid A., Ebeid, Hamdy A., Armanuos, Asaad M., Mujtaba, Iqbal M., and Gado, Tamer A.

Subjects

SUSTAINABILITY, REVERSE osmosis in saline water conversion, SALINE waters, BRACKISH waters, SEAWATER, SALINE water conversion

Abstract

Treatment of extremely saline water such as the brine rejected from reverse osmosis water desalination plants, and produced water from shale oil and non-conventional gas extraction, is considered a global problem. Consequently, in this work, hollow fiber membrane distillation (HFMD) is experimentally evaluated for desalinating extremely saline water of a salinity ranging from 40,000 to 130,000 ppm. For the purpose of comparison, the HFMD is also tested for desalinating brackish (3000–12,000 ppm) and sea (25,000–40,000 ppm) water. Firstly, the HFMD is tested at two values of feed water temperature (65 and 76 °C) and flow rate (600 and 850 L/h). The experimental results showed that the HFMD productivity significantly increases when the temperature of feed water increases. Increasing the feed water flow rate also has a positive effect on the productivity of HFMD. It is also concluded that the productivity of the HFMD is not significantly affected by increasing the salt concentration when brackish and sea water are used. The productivity also slightly decreases with increasing the salt concentration when extremely saline water is used. The decrement in the productivity reaches 27%, when the salt concentration increases from 40,000 to 130,000 ppm. Based on the conducted economic analysis, the HFMD shows a good potential for desalinating extremely saline water especially when the solar collector is used as a heat source. In this case, the cost per liter of freshwater is reduced by 21.7–23.1% when the evacuated tube solar collectors are used compared to the system using electrical heaters. More reduction in the cost per liter of freshwater is expected when a high capacity solar-powered HFMD plant is installed. [ABSTRACT FROM AUTHOR]

Published

2025

12. Reliability Analysis of the Bearing Performance of Corroded Piles Subjected to Scour Action.

Author

Chen, Bo, Wu, Caihong, Zhang, Wei, Fan, Shenghua, Dai, Jialin, and Zhang, Wenbing

Subjects

MONTE Carlo method, BUILDING foundations, SEAWATER, BENDING moment

Abstract

This study puts forward a reliability analysis for the bearing performance of piles subjected to the coupled action of chloride corrosion and scouring. A chloride diffusion model was constructed based on the stiffness degradation factor and Fick's law. The Monte Carlo simulation method, along with the consideration of the scouring effect of water flow on the pile foundation, was employed to assess the impact of key factors on the failure probability, considering both the bending moment and lateral displacement damage criteria. The results show that for the same exposure period, the failure probability increases as the bending moment, lateral and vertical loads, and seawater velocity increase; furthermore for the same conditions, the failure probability increases with longer exposure times. According to a particular case study, the mean bending moment, mean lateral and vertical loads, and seawater velocity all have an impact on the lateral displacement failure criterion, making it more sensitive than the bending moment failure criterion. [ABSTRACT FROM AUTHOR]

Published

2025

13. Cross-Attention-Based High Spatial-Temporal Resolution Fusion of Sentinel-2 and Sentinel-3 Data for Ocean Water Quality Assessment.

Author

Wen, Yanfeng, Chen, Peng, Zhang, Zhenhua, and Li, Yunzhou

Subjects

*REMOTE sensing, *SEAWATER, *OCEAN currents, *SPATIAL resolution, *WATER quality, *REMOTE-sensing images, *IMAGE fusion

Abstract

Current marine research that leverages remote sensing data urgently requires gridded data of high spatial and temporal resolution. However, such high-quality data is often lacking due to the inherent physical and technical constraints of sensors. A necessary trade-off therefore exists between spatial, temporal, and spectral resolution in satellite remote sensing technology: increasing spatial resolution often reduces the coverage area, thereby diminishing temporal resolution. This manuscript introduces an innovative remote sensing image fusion algorithm that combines Sentinel-2 (high spatial resolution) and Sentinel-3 (relatively high spectral and temporal resolution) satellite data. The algorithm, based on a cross-attention mechanism and referred to as the Cross-Attention Spatio-Temporal Spectral Fusion (CASTSF) model, accounts for variations in spectral channels, spatial resolution, and temporal phase among different sensor images. The proposed method enables the fusion of atmospherically corrected ocean remote sensing reflectance products (Level 2 OSR), yielding high-resolution spatial data at 10 m resolution with a temporal frequency of 1–2 days. Subsequently, the algorithm generates chlorophyll-a concentration remote sensing products characterized by enhanced spatial and temporal fidelity. A comparative analysis against existing chlorophyll-a concentration products demonstrates the robustness and effectiveness of the proposed approach, highlighting its potential for advancing remote sensing applications. [ABSTRACT FROM AUTHOR]

Published

2024

14. Methodology for Removing Striping Artifacts Encountered in Planet SuperDove Ocean-Color Products.

Author

Slocum, Brittney, Ladner, Sherwin, Lawson, Adam, Lewis, Mark David, and McCarthy, Sean

Subjects

*SPECTRAL sensitivity, *SEAWATER, *REMOTE sensing, *NANOSATELLITES, *RADIANCE, *OCEAN color

Abstract

The Planet SuperDove sensors produce eight-band, three-meter resolution images covering the blue, green, red, red-edge, and NIR spectral bands. Variations in spectral response in the data used to perform atmospheric correction combined with low signal-to-noise over ocean waters can lead to visible striping artifacts in the downstream ocean-color products. It was determined that the striping artifacts could be removed from these products by filtering the top of the atmosphere radiance in the red and NIR bands prior to selecting the aerosol models, without sacrificing high-resolution features in the imagery. This paper examines an approach that applies this filtering to the respective bands as a preprocessing step. The outcome and performance of this filtering technique are examined to assess the success of removing the striping effect in atmospherically corrected Planet SuperDove data. [ABSTRACT FROM AUTHOR]

Published

2024

15. Seawater Pools Versus Freshwater Pools to Treat Inflammatory Skin Diseases and Rheumatic Conditions: A Scoping Review.

Author

Cegolon, Luca, Larese Filon, Francesca, and Mastrangelo, Giuseppe

Subjects

DISINFECTION by-product, SOLAR radiation, PSORIATIC arthritis, SPA pools, RHEUMATISM

Abstract

Seawater is a long-standing remedy against a number of skin or rheumatic conditions since ancient times, now popular in many countries, where spa, thalassotherapy and seawater pools have considerably boomed. Exposure to seawater and sunlight is an essential component of thalassotherapy, defined by any controlled interaction with marine environments and their natural elements, even in the absence of skin applications of algae, sands or muds. Seawater pools therefore offer the opportunity of thalassotherapy to patients unable to go the beach or during the winter months. The evidence from various studies seems to converge on combined exposure to solar radiation and seawater as a more effective approach than irradiation alone or bathing in freshwater followed by irradiation to reduce symptoms of inflammatory skin diseases or rheumatic conditions. An unwanted consequence of chlorine-based treatment of seawater is the formation of disinfection-by-products (DBPs) due to reactions of disinfectants with organic matter of anthropogenic origin released by bathers. Whilst chlorination of freshwater predominantly generates chlorinated DBPs, the prevailing species produced by chlorination of seawater pools are brominated DBPs, reportedly more genotoxic. However, despite greater toxicity of brominated DBPs, there is evidence that DBPs concentration in freshwater pools is significantly higher (probably due to the larger number of users) compared to seawater pools. Containing the number of bathers could therefore reduce the risk of exposure to DBPs in both types of pool. The outdoor location of pools can further contribute to reducing the risk of genotoxicity thanks to volatilization, airborne dispersion and photodegradation of some DBPs. [ABSTRACT FROM AUTHOR]

Published

2024

16. Single but Not Combined In Vitro Exposure to Bisphenol A and Nanoplastics Affects the Cholinergic Function of the Ascidian Ciona robusta.

Author

Melki, Safa, Ferrari, Emma, Ahmed, Raja Ben, Spagnuolo, Antonietta, and Corsi, Ilaria

Subjects

*EMERGING contaminants, *BISPHENOL A, *TERRITORIAL waters, *SEAWATER, *LIGHT scattering, *MARINE debris, *MARINE biodiversity

Abstract

Nanoplastics are known to represent a threat to marine ecosystems. Their combination with other contaminants of emerging concerns (CECs) may amplify ecotoxic effects, with unknown impacts on marine biodiversity. This study investigates the effects, single and combined, of bisphenol A (BPA)—one of the most hazardous CECs—and polystyrene nanoparticles (PS NPs)—as a proxy for nanoplastics, being among the most commonly found asmarine debris—on cholinesterase (ChE) activities of the ascidian Ciona robusta. ChE activity was first measured in the siphons, tunic, and viscera of wild-caught adult specimens and exposed in vitro to BPA (0.01, 0.21, 0.69 mM) and PS NPs (0.0096–0.096 mM; 8.096 × 109–1010 particles, respectively) alone and combined for 15 min of incubation. PS NPs' behavior in milliQ water and in the ChE assay reaction buffer was characterized alone, combined with BPA, and analyzed through ζ-potential measurements via Dynamic Light Scattering. The results revealed that ChE activity was predominant in the viscera and siphons of C. robusta; PS NPs did not affect the ChE activity alone or combined, while BPA caused a concentration-dependent inhibition of ChE activity in the viscera. No changes in ζ-potential were observed for PS NPs alone or combined with BPA in the ChE buffer, suggesting no interaction. Further investigations are needed to understand the potential neurotoxic consequences for C. robusta and ecological risk scenarios due to exposure to BPA and nanoplastics in marine coastal waters. [ABSTRACT FROM AUTHOR]

Published

2024

17. Spawning Potential Ratio Can Provide Reference Points for Fishery Management That Are Robust to Environmental Variability.

Author

Shertzer, Kyle W., Damiano, Matthew D., and Williams, Erik H.

Subjects

*FISH spawning, *FISHERY management, *LIFE history theory, *SEAWATER, *CLIMATE change, *FISHERIES

Abstract

Biological reference points are key quantities provided by stock assessments and used in fishery management for evaluating fishery status and setting future catch levels. For many fisheries worldwide, biological reference points are based on the spawning potential ratio (SPR), which measures per-recruit reproductive output as a function of the fishing rate relative to that when fishing is absent. SPR depends on the biological characteristics of the stock, which in turn can be influenced by the environment. A fishing rate based on SPR is often used as a proxy for the fishing rate that provides maximum sustainable yield. Here, we evaluate variability in the fishing rate (F40) that provides an SPR of 40%, a commonly used limit reference point, given plausible variability in biological characteristics. Using eight case-study species from marine waters off the southeast United States, we consider both simple random variability and directional variability, both of which might result from climate change. We test the sensitivity of F40 to various life-history traits and compute distributions of F40, given the expected variability in those traits. Based on those distributions, we evaluate the probabilities of overfishing given a target fishing rate (here, 75%F40) that is based on prevailing conditions without considering future variability in F40, consistent with common, current practice. Analyses also considered an SPR of 30% and 50% to evaluate the generality of conclusions. Results support that SPR-reference points are generally robust to plausible levels of variability in life-history traits that might be induced by environmental nonstationarity and that associated target fishing rates can provide meaningful buffers to prevent overfishing. [ABSTRACT FROM AUTHOR]

Published

2024

18. A Novel TiO 2 -Cuttlebone Photocatalyst for Highly Efficient Catalytic Degradation of Tetracycline Hydrochloride.

Author

Li, Qing, Liu, Penghui, Lin, Huizhen, Xue, Hun, and Mao, Jingyun

Subjects

*RADICALS (Chemistry), *PHOTOCATALYSTS, *THREE-dimensional printing, *MODERN society, *SUBSTRATES (Materials science)

Abstract

The harmful effects of antibiotics on aquatic environments have become a growing concern of modern society. Developing high-performance photocatalysts capable of degrading antibiotics under solar light is, therefore, crucial. In this study, TiO2-cuttlebone composites are prepared via the sol–gel method, to produce carbonate radicals (•CO3−) under solar light irradiation. The •CO3− radicals exhibit high selectivity for the degradation of tetracycline hydrochloride (TC). Compared to TiO2 alone, the TiO2-cuttlebone composite demonstrates excellent solar-driven photocatalytic activity for TC degradation in both freshwater and seawater. The reaction pathways of TC degradation in seawater are elucidated using HPLC-MS/MS analysis. Moreover, a TiO2-cuttlebone self-suspending photocatalyst device is fabricated using 3D printing technology and low-temperature deposition methods, with aluminum–plastic (AP) as a substrate. This innovative device is easily recyclable from photocatalytic solutions while maintaining high stability, making it highly desirable for practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Influence of Local Climatic Factors and Water Vapor Transport from North Atlantic Ocean on Winter Snow-Cover Variation on Western Kunlun Mountains and Eastern Pamir Plateau.

Author

Xue, Xiaoying, Xu, Xiangde, Ren, Guoyu, Sun, Xiubao, and Zhang, Panfeng

Subjects

*WATER vapor transport, *SNOW cover, *WATER vapor, *SEAWATER, *WATER transfer

Abstract

Snow cover days (SCD) have increased significantly in winter on the Western Kunlun Mountains and Eastern Pamir Plateau (hereafter referred to as KMPP for short), however the causes have not been well understood so far. Here, we use remote sensing data to analyze the abnormal increase in SCD on the KMPP and explore its causes from the perspective of the local factors and water vapor transport caused by sea surface temperatures (SST) warming. We discover that the winter SCD on the KMPP increased significantly at a rate of 4.75 days/decade (significant at the 0.01 level) during 1989–2020, while there has been a significant decrease on the Tibetan Plateau (TP), with a rate of −1.50 days/decade (significant at the 0.1 level). Based on ERA5, GPCP, GHCN, and station data, we find that, in contrast to the significant warming observed on the TP, temperature changes on the KMPP are negligible, while precipitation is increasing, differing from the decreasing precipitation trend observed on the TP. The differences in local temperature and precipitation changes cause different variations in SCD between the KMPP and the TP. The increase in SCD on the KMPP is primarily driven by increased precipitation (over 97% contribution), with minimal impact from the more or less unchanged temperature. In contrast, the decline in SCD on the TP results from decreased precipitation and significantly increased temperature. Furthermore, we found that changes in SCD on the KMPP are significantly correlated with SST in the northern North Atlantic Ocean. Based on the correlation vector, the anomaly field in the high/low SCD years of water vapor transport, and the FLEXPART model, we show that the northern North Atlantic Ocean is one of the major water vapor sources affecting the SCD on the KMPP. The warming SST in the northern North Atlantic Ocean enhances water vapor transport to the KMPP in winter, leading to an abnormal increase in the SCD that differs from the overall trend on the TP. The findings are conductive to further understand the peculiarity of winter precipitation and SCD on the KMPP, and the "Western Kunlun Mountains Oddity" in mountain glacial change. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effect of Incorporating Natural Zeolitic Tuffs in Concrete Mixed and Cured Using Seawater.

Author

Qsymah, Ansam, Alqawasmeh, Hasan, Ayasrah, Mo'men, and Al-kharabsheh, Buthainah

Subjects

*TENSILE tests, *SILICA sand, *COMPRESSIVE strength, *SEAWATER, *REPUTATION

Abstract

Concrete production has increasingly used seawater to overcome the challenge of freshwater scarcity. Although the use of seawater in concrete still has a controversial reputation, it is a promising application, particularly when combined with mineral admixtures such as natural zeolitic tuffs (ZT). This paper aims to investigate the effect of using locally quarried ZT on the strength of unreinforced concrete mixed and/or cured using seawater. The mix proportions of the concrete were selected to obtain the optimum combination for the M20 grade of concrete with a water-to-cement ratio of 0.69. Moreover, 150mm-cubes and cylinders of 100 mm diameter by 200mm height were cast from the concrete mixtures, which contain 0%, 5%, 7.5%, 10%, and 25% of ZT as a partial replacement of silica sand. Splitting tensile tests and compressive strength tests were conducted on these specimens at 7, 28, and 90 days. The results show the harmful effect of seawater on the strength of plain concrete (without ZT) at 7, 28, and 90 days of curing, especially when seawater is used in both mixing and curing of the concrete. However, adding ZT in seawater-based concrete improved its strength apparently, especially at early curing ages. For example, using 10% of ZT as a partial replacement of silica sand increased the compressive strength of seawater based-concrete by 105.4%, 28.3%, and 34.6% after 7, 28, and 90 days of curing, compared with concrete without ZT and produced using seawater. These results contribute to the enhancement of the sustainability of both freshwater and concrete material through the use of ZT in producing concrete, particularly in areas where freshwater is scarce or expensive. [ABSTRACT FROM AUTHOR]

Published

2024

21. Nannochloris sp. JB17 as a Potential Microalga for Carbon Capture and Utilization Bio-Systems: Growth and Biochemical Composition Under High Bicarbonate Concentrations in Fresh and Sea Water.

Author

Markou, Giorgos, Kougia, Eleni, and Arapoglou, Dimitris

Subjects

*CARBON sequestration, *ESSENTIAL amino acids, *SEAWATER, *FRESH water, *BIOMASS production

Abstract

Nannochloris sp. JB17 has been identified as an interesting microalgal species that can tolerate high salinity and high bicarbonate concentrations. In this study, Nannochloris sp. JB17 was long-term adapted to increased bicarbonate concentrations (10–60 g NaHCO3 per L) in fresh or sea-water-based growing media. This study aimed to evaluate its growth performance and biochemical composition under different cultivation conditions. The highest biomass production (1.24–1.3 g/L) achieved in the study was obtained in fresh water media supplemented with 40 g/L and 60 g/L NaHCO3, respectively. Total protein content fluctuated at similar levels among the different treatments (32.4–38.5%), displaying good essential amino acids indices of 0.85–1.02, but with low in vitro protein digestibility (15–20%) rates. Total lipids did not show any significant alteration among the different NaHCO3 concentrations in both fresh and sea water (12.6–13.3%) but at increased sodium strength, a significant increase in unsaturated lipids and in particular a-linolenic acid (C18:3) and linoleic acid (C18:2) was observed. Carbohydrate content also ranged at very similar levels among the cultures (26–30.9%). The main fraction of carbohydrates was in the type of neutral sugars ranging from around 72% to 80% (of total carbohydrates), while uronic acids were in negligible amounts. Moreover, Nannochloris sp. showed that it contained around 8–9% sulfated polysaccharides. Since the microalgae display good growth patterns at high bicarbonate concentrations, they could be a potential species for microalgal-based carbon capture and utilization systems. [ABSTRACT FROM AUTHOR]

Published

2024

22. Growth, Filtration and Respiration Under Superfluous Feeding in Single-Osculum Halichondria panicea Sponges.

Author

Kumala, Lars and Riisgård, Hans Ulrik

Subjects

*RESPIRATION, *SEAWATER, *OXYGEN, *LABORATORIES

Abstract

Filter-feeding sponges capture suspended food particles from ambient water, but little is known about the response of sponges to high food concentrations causing superfluous feeding. Here, through several experimental assays, we studied the relationship between algal concentration in the water column, filtration rate, respiration rate, and specific growth rate in single-osculum Halichondria panicea demosponge explants. Laboratory experiments showed that sponge explants filter the ambient seawater at a maximum rate when exposed to naturally (low) algal concentrations, whereas high algal concentrations resulted in superfluous feeding and reduced filtration rates. Explants maintained at algal concentrations above the incipient overloading concentration level showed that growth rates were in fair agreement with the maximum possible weight-specific growth rate of about 4% d−1. Although the filtration rate became reduced due to overloading, the oxygen extraction efficiency increased, and therefore superfluous feeding did not cause reduced growth. This suggests that H. panicea and probably other sponges have adapted to low algal concentrations, displaying continuous maximum filtration rates. Osculum closure reflects a protection mechanism rather than a physiological regulatory response to high algal concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

23. Exploring Mesozooplankton Insights by Assessing the Ecological Status of Black Sea Waters Under the Marine Strategy Framework Directive.

Author

Bisinicu, Elena and Lazar, Luminita

Subjects

*SEAWATER, *ECOLOGICAL assessment, *POPULATION dynamics, *BIOMASS, *COPEPODA

Abstract

Mesozooplankton are highly responsive to environmental changes, making their population dynamics and species composition important indicators of large-scale oceanic conditions. This study investigates the mesozooplankton composition, emphasizing biomass values across all three marine reporting units in the Romanian Black Sea from 2013 to 2020, covering 45 stations that represent transitional, coastal, and marine waters during the warm season. It also examines environmental parameters, such as temperature, salinity, and nutrient levels associated with eutrophication, that impact the mesozooplankton, as well as the environmental status of the pelagic habitat in this region, influenced by various hydrological and anthropogenic factors. Statistical analyses, including multivariate methods, were employed to investigate correlations between mesozooplankton biomass and environmental parameters, facilitating ecological assessments in accordance with the Marine Strategy Framework Directive (MSFD) Descriptors 1 (Biodiversity) and 5 (Eutrophication) using indicators such as Mesozooplankton bBiomass, Copepoda Biomass, and Noctiluca scintillans iomass. The results indicated that Mesozooplankton and Copepoda Biomass did not reach good ecological status (GES). However, the Noctiluca scintillans Biomass indicator demonstrated that all marine reporting units achieved GES during the warm seasons. These findings underscore the dynamic nature of pelagic habitats and highlight the importance of ongoing monitoring to inform policy and conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

24. Characterization of Epoxy Adhesive for Marine Applications.

Author

Rodríguez-Dopico, Francisco J., Álvarez García, A., and Tarrío-Saavedra, Javier

Subjects

*FOURIER transform infrared spectroscopy, *GLASS transition temperature, *DIFFERENTIAL scanning calorimetry, *MARITIME shipping, *LIGHTWEIGHT construction

Abstract

The shipping industry faces the challenge of expanding its capabilities and mitigating its environmental impact. The utilization of adhesive bonding techniques has the potential to facilitate the construction of lighter ships with a reduced carbon footprint. In this work, a complete methodology has been established to study the properties of an adhesive bond between naval steel and the behavior of the bulk adhesive when introduced into seawater. Thermogravimetric analysis (TGA) has been used to determine the thermal properties. Single-lap-joint and tensile tests have been performed showing the negative influence of temperature on the mechanical properties. Seawater absorption has been studied by gravimetric tests. Differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FTIR), and mechanical bulk tests have been carried out before and after aging. The water absorption is Fickian, and when a constant load is applied, the absorption occurs faster and in greater quantity, decreasing the stiffness and strength. An increase in the glass transition temperature was observed in the absence of a load, with no discernible change upon the application of load condition. Also, aged specimens with constant load exhibited a reduction in water content. These phenomena may be attributed to several diffusion processes. [ABSTRACT FROM AUTHOR]

Published

2024

25. A Symmetric Experimental Study of the Interaction Between Regular Waves and a Pontoon Breakwater with Novel Fin Attachments.

Author

Lyu, Xiangcheng, Yang, Yifeng, Mi, Chenhao, Tang, Chi Man, Adeboye, Lukman, Farhan, Mohamed, Collins, Stan, Ou, Binjian, Wong, Anson, Gordon Duffy, John, and Huang, Luofeng

Subjects

*MOORING of ships, *SEAWATER, *OCEAN wave power, *WAVE forces, *WAVE energy, *SEA-walls

Abstract

Floating breakwaters are widely applied on the ocean water surface to protect human infrastructure from the destructive power of waves. This study designs and investigates the performance of a novel symmetric-pontoon floating breakwater with a symmetric pair of hydrofoils. Based at the Cranfield Ocean Systems Laboratory, the system was constructed and tested in various wave conditions using different fin configurations. The floating structure was anchored using a symmetric four-point mooring system. The tested waves were regular and symmetric perpendicular to the propagating direction. Key parameters, including the attenuated wave amplitude, motions of the breakwater, and the mooring forces, were measured. The wave parameters utilised for testing covered 1.61–5.42 relative wavelength to structural length, with wave heights of 3 c m and 5 c m . Results showed the 90° fin configuration can reduce wave transmission by up to 74 % , with the lowest mooring forces at 3.05 relative wavelength, enhancing the performance of wave energy dissipation and structural seakeeping. At 90° setup, the mooring force was lowest at 2.41 relative wavelength. This research can inform novel designs of breakwaters to improve protection abilities for coastal cities and offshore infrastructures, especially renewable energy systems. [ABSTRACT FROM AUTHOR]

Published

2024

26. Palaeoecological Conditions in the South-Eastern and Western Baltic Sea during the Last Millennium.

Author

Ponomarenko, Ekaterina, Pugacheva, Tatiana, and Kuleshova, Liubov

Subjects

LITTLE Ice Age, NORTH Atlantic oscillation, WESTERLIES, SEAWATER, RADIOCARBON dating

Abstract

We present the reconstruction of palaeoenvironmental conditions in the Gdansk, Bornholm, and Arkona Basins of the Baltic Sea over the last millennium. A multiproxy study (including geochemical, XRF, grain size, AMS, and micropalaeontological analyses) of five short sediment cores was performed. The relative age of the sediments was determined based on the Pb distribution along the sediment sequences, as radiocarbon dating has resulted in an excessively old age. The retrieved cores cover two comparable warm periods, the Medieval Climate Anomaly and the Modern Warm Period, for which the increase in surface water productivity was reconstructed. Notably, the production of diatoms was higher during the colder periods (the Dark Ages and Little Ice Age), but this was also the case within the Modern Warm Period. In the Gdansk Basin, the initial salinity increase during the Littorina transgression started after 7.7 cal. a BP. The increased inflow activity was reconstructed during the Medieval Climate Anomaly, even in the Gdansk Basin, despite, in general, very low foraminiferal amounts and diversity. The strongly positive North Atlantic Oscillation Index during this period led to the prevalence of westerly winds over the Baltic region and stronger saltwater intrusions. In the recent sediments, the reconstructed inflow frequency demonstrates a variability against the reduction trend, and a general decline compared to the Medieval Climate Anomaly is seen. [ABSTRACT FROM AUTHOR]

Published

2024

27. Can Phthalates Be Considered as Microplastic Tracers in the Mediterranean Marine Environment?

Author

Di Bella, Giuseppa, Albergamo, Ambrogina, Litrenta, Federica, Lo Turco, Vincenzo, and Potortì, Angela Giorgia

Subjects

PLASTIC scrap, COASTS, BODIES of water, MICROPLASTICS, MARINE ecology, PLASTIC marine debris, MARINE debris

Abstract

Plastics are a major environmental concern, not only because of their uncontrolled dispersion in the environment, but also because of their release of chemical additives, such as phthalates (PAEs), particularly in water bodies. Key land–water interfaces, such as coastal zones, has always represented a complex and dynamic nexus for plastic pollution, as they are sites often densely populated, with major pollution sources. The Mediterranean basin, for example, is known to be a global hotspot of plastic waste, with a microplastic concentration approximately four times greater than the North Pacific Ocean. However, differently from the overviewed issue of plastic litter and microplastics, the occurrence, distribution, and impact of PAEs on the abiotic and biotic compartment of marine ecosystems of the Mediterranean area have still not been reviewed. Hence, this review provides an introductory section on the plastic pollution issue and its close relationship, not only with microplastics, but also with the leaching of toxic PAEs. To follow, the most relevant analytical approaches for reliably assessing PAEs in abiotic and biotic marine matrices are discussed. The analysis of the main anthropogenic sources of PAEs, their occurrence and spatiotemporal trends in the Mediterranean Sea is conducted. Finally, the potential correlation between PAE pollution and the abundance of microplastics are critically examined to evaluate their effectiveness as tracers of microplastic pollution. [ABSTRACT FROM AUTHOR]

Published

2024

28. Sinking Particle Fluxes at the Jan Mayen Hydrothermal Vent Field Area from Short-Term Sediment Traps.

Author

Klyuvitkin, Alexey A., Kravchishina, Marina D., Starodymova, Dina P., Bulokhov, Anton V., and Lein, Alla Yu.

Subjects

HYDROTHERMAL vents, SEAWATER, COPPER, GEODIVERSITY, GEOCHEMISTRY

Abstract

The mixing of hydrothermal vent fluids with deep ocean water and near-vent pelagic matter results in particle populations with a complex composition consisting of hydrothermally derived, rock-forming, and biogenic particles. This study is the first investigation of deep sediment trap material collected at the Jan Mayen hydrothermal vent field area at 71° N and 6° W of the southernmost Mohns Ridge in the Norwegian–Greenland Sea. This area is characterized by high magmatic activity, axial volcanic ridges, and mafic-hosted volcanogenic massive sulfide deposits. Data on sinking particle fluxes from two hydrothermal settings, the Troll Wall and Soria Moria vent fields, located about 4 km apart, are discussed in the article. In particular, the study emphasize the differences between two hydrothermal settings from each other that demonstrate the geodiversity of hydrothermal processes within the relatively shallow Jan Mayen hydrothermal vent field area affected by the Iceland and Jan Mayen hotspots. The fluxes of sinking hydrothermally derived particles (barite, gypsum, non-crystalline Fe-Si oxyhydroxides, and Fe, Zn, and Cu sulfides) obtained at the Jan Mayen hydrothermal vents made it possible to elucidate the characteristic features of their buoyancy plumes and compare them with similar data reported for other submarine hydrothermal systems. In terms of the composition of the deep-sea hydrothermal particles from buoyant plumes, the studied vent fields are most similar to the Menez Gwen and Lucky Strike vent fields affected by the Azores hotspot. The supply of hydrothermally derived matter is accompanied by normal pelagic/hemipelagic sedimentation, which is dominated by biogenic particles, especially in the upper water layers. [ABSTRACT FROM AUTHOR]

Published

2024

29. Characteristics of Dissolved Inorganic Carbon (DIC) in the Western Coast of the Taiwan Strait Using a Shipboard Measurement.

Author

Hu, Jiehua, Yan, Jinpei, Yang, Hang, Huang, Siming, Dai, Siying, Zhang, Xiaoke, Wang, Shanshan, and Zhao, Shuhui

Subjects

OCEAN temperature, VERTICAL mixing (Earth sciences), ONLINE monitoring systems, OCEAN acidification, SEAWATER

Abstract

An online dissolved inorganic carbon (DIC) monitoring system was produced to achieve high spatial and temporal resolution in DIC data from the western Taiwan Strait (WTS) during the summer. Surface seawater DIC, salinity, dissolved organic carbon (DOC), Chl-a, and NO3− samples were collected, as well as the vertical profiles of DIC, to understand DIC variations in the WTS. The results showed that the range of DIC levels in the surface seawater from the WTS was from 1.68 to 2.21 mmol/L (Mmol), with an average of 1.93 ± 0.19 Mmol, which was consistent with the sampling results using titration determination, with an average of 1.98 ± 0.12 Mmol. A high correlation (R2 = 0.96) was presented between the online monitoring and sampling detection of DIC, indicating that DIC could be measured with high accuracy using the online monitoring system. The spatial distribution of DIC was similar to that of salinity, but it was different from that of DOC and Chl-a. The DIC concentration positively correlated with salinity (R2 = 0.51) and presented a negative correlation (R2 = 0.92) with seawater temperature. However, the surface seawater DIC was almost independent from DOC and Chl-a in the observation sea areas. The DIC levels first increased and then decreased with the depth, with the highest DIC concentration occurring in the subsurface water at about 10 m, which was similar to the profiles of salinity and Chl-a in the northern and southern areas of the WTS. The profiles of DIC, salinity, NO3−, and Chl-a were almost independent from the water depth in the central WST. This indicated that seawater DIC in the WTS was mainly affected by seawater temperature, salinity, and the vertical mixing of sea water, but it was less impacted by TOC and Chl-a. [ABSTRACT FROM AUTHOR]

Published

2024

30. Coupled Hydrodynamic and Biogeochemical Modeling in the Galician Rías Baixas (NW Iberian Peninsula) Using Delft3D: Model Validation and Performance.

Author

Castro-Olivares, Adrián, Des, Marisela, deCastro, Maite, Pereira, Humberto, Picado, Ana, Días, João Miguel, and Gómez-Gesteira, Moncho

Subjects

MARINE resources, WATER quality, WATER supply, NUTRIENT cycles, SEAWATER

Abstract

Estuaries are dynamic and resource-rich ecosystems renowned for their high productivity and ecological significance. The Rías Baixas, located in the northwest of the Iberian Peninsula, consist of four highly productive estuaries that support the region's economy through key fisheries and aquaculture activities. Numerical modeling of biogeochemical processes in the rias is essential to address environmental and anthropogenic pressures, particularly in areas facing intense human development. This study presents a high-resolution water quality model developed using Delft3D 4 software, integrating the hydrodynamic (Delft3D-FLOW) and water quality (Delft3D-WAQ) modules. Calibration and validation demonstrate the robust performance and reliability of the model in simulating critical biogeochemical processes, such as nutrient cycling and phytoplankton dynamics. The model effectively captures seasonal and spatial variations in water quality parameters, including water temperature, salinity, inorganic nutrients, dissolved oxygen, and chlorophyll-a. Of the variables studied, the model performed best for dissolved oxygen, followed by nitrates, phosphates, ammonium, silicate, and chlorophyll-a. While some discrepancies were observed in the inner zones and deeper layers of the rias, the overall performance metrics aligned closely with the observed data, enhancing confidence in the model's utility for future research and resource management. These results highlight the model's value as a tool for research and managing water and marine resources in the Rías Baixas. [ABSTRACT FROM AUTHOR]

Published

2024

31. Pulse Electrodeposition for Carbonate-Rich Deposits from Seawater.

Author

Robinson, Alexander J., Ryan, Elisabeth A., Wang, Qingpu, Greene, David, and Subban, Chinmayee V.

Abstract

Seawater electrodeposition is gaining renewed interest in the context of sustainable development, both to build climate-resilient coastal infrastructure and for ocean-based decarbonization applications. Most of the applications benefit from CaCO3-rich deposits, but constant-voltage electrodeposition results in a mixture of CaCO3 and Mg(OH)2, especially at higher voltages where precipitation rates are more desirable. The use of pulse voltages can help control interfacial pH that dictates the precipitation reactions. Here, we explore the use of pulse electrodeposition as a function of pulse frequency and duty cycle to control deposit composition. The most CaCO3-rich deposits were obtained under 10 Hz frequency and 10% duty cycle conditions for the voltage window investigated (−0.8 V to −1.2 V vs. SCE). While pulsing the voltage increases the amount of CaCO3 deposited, the energy required per gram of CaCO3 is significantly higher (14.5×) when compared to the base case of applying a constant voltage of −0.8 V vs. SCE. Further optimization of pulse conditions, electrode materials, and system configuration could lead to finding parameters that result in exclusively carbonate deposits without compromising precipitation rates, which may prove to be more useful for corrosion protection, coastal infrastructure, and other applications in sustainable development. [ABSTRACT FROM AUTHOR]

Published

2024

32. Tuning Biodegradation of Poly (lactic acid) (PLA) at Mild Temperature by Blending with Poly (butylene succinate-co-adipate) (PBSA) or Polycaprolactone (PCL).

Author

Van de Perre, Dimitri, Serbruyns, Lynn, Coltelli, Maria-Beatrice, Gigante, Vito, Aliotta, Laura, Lazzeri, Andrea, Geerinck, Ruben, and Verstichel, Steven

Subjects

*NATURAL resources, *SEAWATER, *LACTIC acid, *ELECTRON microscopy, *COMPOSTING, *BIODEGRADABLE plastics

Abstract

Biobased plastics are fully or partially made from biological resources but are not necessarily biodegradable or compostable. Poly (lactic acid) (PLA), one of the most diffused bioplastics, is compostable in industrial environments, but improving degradation in home composting conditions, in soil and in seawater could be beneficial for improving its end of life and general degradability. Blends obtained by the extrusion of PLA with different amounts of poly (butylene succinate-co-adipate) (PBSA) or poly (caprolactone) (PCL) were characterized in terms of their home composting, soil, marine and freshwater biodegradation. The blending strategy was found to be successful in improving the home compostability and soil compostability of PLA. Thanks to the correlations with morphological characterization as determined by electron microscopy, it was possible to show that attaining an almost co-continuous phase distribution, depending on the composition and melt viscosity of the blend components, can enhance PLA degradation in home composting conditions. Tests in marine and freshwater were also performed, and the obtained results showed that in marine conditions, pure PLA is degradable. A comparison of different tests evidenced that salt dissolved in marine water plays an important role in favoring PLA's degradability. [ABSTRACT FROM AUTHOR]

Published

2024

33. An Efficient LC–HRMS-Based Approach to Evaluate Pesticide Contamination in Water Bodies with Measurement Uncertainty Considerations.

Author

Nannou, Christina, Gkountouras, Dimitrios, Boti, Vasiliki, and Albanis, Triantafyllos

Subjects

PESTICIDE residues in food, SOLID phase extraction, WATER pollution, SEAWATER, BODIES of water

Abstract

Over recent decades, the global occurrence of pesticide residues in aquatic environments has been a pivotal issue; however, their trace-level concentrations necessitate the establishment of ultra-sensitive and reliable analytical approaches. To this end, the present study describes the optimization and validation of an LC-HRMS-based method for the accurate determination of 18 pesticides in river and sea water, accompanied by a measurement uncertainty estimation. This method was applied to analyze 17 real samples from agriculture and aquaculture-impacted areas in Greece and Albania. Different solid-phase extraction (SPE) protocols were tested. For the analysis, cutting-edge Orbitrap MS technology and MS/MS fragmentation, along with the use of matrix-matched calibration curves, provided unprecedented accuracy (<5 ppm) and sensitivity for the confirmation of positive detections. Regarding method performance, exceptional linearity was obtained; the limits of quantification ranged from 1.7 ng L−1 to 90 ng L−1, recoveries varied from 61% to 96% in river water, while slightly higher recoveries (60–111%) were observed in seawater. In all cases, repeatability and intra-laboratory reproducibility were below 15%. The measurement expanded uncertainty (U′, k = 2) was estimated considering precision and bias. MU% values were lower than 50% in all cases, as recommended in SANTE guidelines and applied to the quantified results. The matrix effect study exhibited negative values (<20%) for all compounds. Application to real samples showed a low pesticide contamination load that should not be underestimated. [ABSTRACT FROM AUTHOR]

Published

2024

34. An Overview of Sustainable Desalination with Freezing Crystallization: Current Development, Future Challenges, and Prospects.

Author

Zhao, Senyao, Zhu, Rongjie, Song, Jiatong, and Yuan, Han

Abstract

As global demand for freshwater grows, seawater desalination has become one of the most promising methods for obtaining freshwater. Many coastal nations have included it in their sustainable development plans and are actively advancing related technologies. Compared with traditional desalination methods, such as distillation and membrane-based desalination, seawater freezing desalination offers the benefit of producing large amounts of freshwater at lower costs. This study provides an overview of the main methods and principles of seawater freezing desalination and summarizes the latest research progress. This paper also discusses experimental and simulation studies of different principles. Current research shows that both direct and indirect seawater freezing desalination technologies have become relatively mature, laying a foundation for practical applications. Hydrate-based desalination, eutectic freezing technology, and vacuum freezing technology offer cost-reduction benefits, but existing technologies have limitations, making these areas hot topics in research. Additionally, this paper discusses the experimental progress and simulation methods associated with this, elaborates upon, and analyzes the freezing crystallization process and desalination efficiency from the perspective of the bottom layer of crystal growth, offering valuable insights for future research. It concludes by summarizing and predicting the development of these technologies, emphasizing their great potential due to their low-cost and sustainable features. [ABSTRACT FROM AUTHOR]

Published

2024

35. Design of a Duplex-to-Complex Structure-Switching Approach for the Homogeneous Determination of Marine Biotoxins in Water.

Author

Al-Tabban, Awatef, Rhouati, Amina, Fataftah, Amjad, Cialla-May, Dana, Popp, Jürgen, and Zourob, Mohammed

Subjects

*SEAWATER, *COMPLEMENTARY DNA, *FLUORESCENCE quenching, *FLUORESCENT dyes, *SAXITOXIN, *APTAMERS, *MARINE toxins, *CYANOBACTERIAL toxins

Abstract

In this report, we describe a fluorescent assay for the detection of six marine toxins in water. The mechanism of detection is based on a duplex-to-complex structure-switching approach. The six aptamers specific to the targeted cyanotoxins were conjugated to a fluorescent dye, carboxyfluorescein (FAM). In parallel, complementary DNA (cDNA) sequences specific to each aptamer were conjugated to a fluorescence quencher BHQ1. In the absence of the target, an aptamer–cDNA duplex structure is formed, and the fluorescence is quenched. By adding the toxin, the aptamer tends to bind to its target and releases the cDNA. The fluorescence intensity is consequently restored after the formation of the complex aptamer–toxin, where the fluorescence recovery is directly correlated with the analyte concentration. Based on this principle, a highly sensitive detection of the six marine toxins was achieved, with the limits of detection of 0.15, 0.06, 0.075, 0.027, 0.041, and 0.026 nM for microcystin-LR, anatoxin-α, saxitoxin, cylindrospermopsin, okadaic acid, and brevetoxin, respectively. Moreover, each aptameric assay showed a very good selectivity towards the other five marine toxins. Finally, the developed technique was applied for the detection of the six toxins in spiked water samples with excellent recoveries. [ABSTRACT FROM AUTHOR]

Published

2024

36. Metavirome Insights into the Diversity and Potential Pathogenic Infection of Chlamys farreri in the Coastal Seas of the Republic of Korea.

Author

Shin, Ji Woo, Kim, Kang Eun, Park, Joon Sang, Kim, Min-Jeong, Lee, Taek-Kyun, Kim, Yu Jin, Kim, Hyun-Jung, Kim, Seon Min, and Jung, Seung Won

Subjects

VIRUS diversity, VIRUS diseases, CHLAMYS, TERRITORIAL waters, VIRAL DNA

Abstract

Chlamys farreri is primarily cultivated in Japan, China, and South Korea. Although mass mortality of scallops has been occurring recently, likely caused by high temperatures or infectious diseases, the underlying cause remains unclear. Little is known regarding the viral diseases affecting them. Therefore, we explored DNA virus diversity in the mid-gut gland of C. farreri and compared it with that of seawater. C. farreri was cultivated at depths below 5 m from the sea surface in the coastal waters of South Korea and sampled from May to August 2018. Different DNA viral communities were observed in both C. farreri and seawater. In C. farreri, prevalent groups included Mimiviridae (7%), Poxviridae (6%), and Phycodnaviridae (5%). Conversely, the dominant groups in seawater were Autographiviridae (20%), Kyanoviridae (12%), and Zobellviridae (10%). We identified C. farreri-specific viral communities and potentially infectious viruses, such as Ostreid herpesvirus 1 and Abalone herpesvirus Victoria/AUS/2009. Furthermore, C. farreri acts as a reservoir for various viruses, which impact microbial community dynamics and disease transmission in marine ecosystems. Understanding these viral communities is crucial to protecting and restoring coastal ecosystems by highlighting their role in the transmission of potential avian- and bivalve-specific viruses. [ABSTRACT FROM AUTHOR]

Published

2024

37. Influence of Organic Matter and Speciation on the Dynamics of Trace Metal Adsorption on Microplastics in Marine Conditions.

Author

Rapljenović, Ana, Viskić, Marko, Frančišković-Bilinski, Stanislav, and Cuculić, Vlado

Subjects

DISSOLVED organic matter, COPPER, MARINE pollution, TRACE metals, CHEMICAL speciation, HUMIC acid

Abstract

Dissolved organic matter (DOM), primarily in the form of humic acid (HA), plays a crucial role in trace metal (TM) speciation and their subsequent adsorption dynamics on microplastics (MP) in aquatic environments. This study evaluates the impact of environmentally relevant concentrations of HA on the adsorption behaviors of essential (Co, Cu, Ni, and Zn) and toxic (Cd and Pb) TMs onto polyethylene (PE) and polypropylene (PP) pellets, as well as PP fibers under marine conditions, during a six-week experiment. The HA concentrations were 0.1, 1, and 5 mg/L, while all metals were in the same amounts (10 µg/L). Results reveal that HA significantly influences the adsorption of Cu, Pb, and Zn on MP, particularly on PP fibers, which exhibited the greatest TM adsorption dynamics. The adsorption patterns correspond to the concentrations of these metals in seawater, with the sequence for pellets being Zn > Cu > Pb > Ni > Co~Cd, and for fibers Cu > Zn > Pb > Co~Ni > Cd. Speciation modeling supported these findings, indicating that Cu, Pb, and Zn predominantly associate with HA in seawater, facilitating their adsorption on MP, whereas Cd, Co, and Ni mainly form free ions and inorganic complexes, resulting in slower adsorption dynamics. Statistical analysis confirmed the influence of HA on the adsorption of Cd, Pb, Cu, and Ni. By investigating the dynamics of TM adsorption on plastics, the influence of DOM on these two contaminants under marine conditions was evaluated. The presented results can help in forming a better understanding of synergistic plastic and trace metal pollution in marine systems that are relevant at the global level, since both contaminants pose a serious threat to aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

38. Emerging Vibrio vulnificus -Associated Infections After Seawater Exposure—Cases from the Bulgarian Black Sea Coast.

Author

Radeva, Stephanie, Vergiev, Stoyan, Georgiev, Georgi, and Niyazi, Denis

Subjects

VIBRIO vulnificus, MICROBIAL sensitivity tests, OLDER patients, SEPTIC shock, CLIMATE change

Abstract

Objectives: The aim of the current report is to present three cases of necrotizing fasciitis and sepsis caused by Vibrio vulnificus on the Bulgarian Black Sea coast. Materials and Methods: Two of the patients are males, 70 and 86 years of age, respectively, and one is an 86-year-old female. Data were collected from the patients' examination records. V. vulnificus was isolated on 5% sheep blood agar from wound and blood samples and identified by the automated system Phoenix M50 (BD, Franklin Lakes, NJ, USA). Antimicrobial susceptibility was tested with two well-known methods (disk diffusion and broth microdilution). Results: All of the patients were admitted to our hospital due to pain, swelling, ulceration, and bullae on the legs and were febrile. They underwent surgery and received intensive care support. One of the patients developed septicemia and septic shock; one of his legs was amputated, but the outcome was fatal. The other patient received immediate approptiate antibiotic and surgical treatment, and the outcome was favorable. The third patient underwent emergency fasciotomy but died a few hours after admission. Conclusions: Global climate change is affecting the distribution of Vibrio spp., and their incidence is expected to increase. It is important to highlight the need for awareness among immunocompromised and elderly patients of the potential threat posed by V. vulnificus infections. [ABSTRACT FROM AUTHOR]

Published

2024

39. The Contribution of Siliceous Plankton to Vertical Export Flux in the Eastern Mediterranean: A Comparative Study of the North Aegean, Cretan, and Ionian Seas.

Author

Nikolopoulou, Ioanna, Skampa, Elisavet, Varkitzi, Ioanna, Dimiza, Margarita D., Parinos, Constantine, Kambouri, Georgia, Stavrakaki, Ioanna, Gogou, Alexandra, and Triantaphyllou, Maria V.

Subjects

EUPHOTIC zone, ATMOSPHERIC deposition, SEAWATER, RAINFALL, RADIOLARIA

Abstract

This study investigates the intricate dynamics of siliceous plankton species within the open marine regions of the Greek Seas, focusing on their seasonal and spatial variability. For this purpose, vertical export fluxes of diatoms (DtF), silicoflagellates (SF), and radiolaria (RF) were analyzed in three sediment trap time series obtained from the North Aegean, Cretan, and Ionian Seas. Special attention was given to diatom assemblages, resulting in the estimation of the DtF community structure and diversity for each studied site. Diatom flux values reached 353.9 × 103 valves m−2 day−1, 77.7 × 103 valves m−2 day−1, and 42.4 × 103 valves m−2 day−1 in the North Aegean, Ionian, and Cretan Seas, respectively. SF maxima were 1309.8 × 103 skeletons m−2 day−1 in the North Aegean Sea, 35.2 × 103 skeletons m−2 day−1 in the Ionian Sea, and 11.9 × 103 skeletons m−2 day−1 in the Cretan Sea (South Aegean Sea). RF values reached 13.9 × 103 radiolaria m−2 day−1, 11.9 × 103 radiolaria m−2 day−1, and 5.4 × 103 radiolaria m−2 day−1 in the North Aegean, Ionian, and Cretan Seas, respectively. The North Aegean Sea exhibited significantly higher mean total fluxes, particularly for diatoms, driven by the north-to-south oligotrophy gradient, which was influenced by riverine inflows and the nutrient-rich Black Sea water. In the Cretan and Ionian Seas, convective mixing and atmospheric deposition, especially during increased rainfall (precipitation) events, were identified as primary drivers for the increased siliceous plankton fluxes recorded in the late winter–spring months. Diatom communities were dominated by Naviculales and Fragilariales; the prevalence of the former in the North Aegean Sea is likely linked to the higher nutrient levels in its upper photic zone, as Naviculales includes species with a high affiliation to nutrient enrichment. [ABSTRACT FROM AUTHOR]

Published

2024

40. Acoustic Imaging Learning-Based Approaches for Marine Litter Detection and Classification.

Author

Guedes, Pedro Alves, Silva, Hugo Miguel, Wang, Sen, Martins, Alfredo, Almeida, José, and Silva, Eduardo

Subjects

CONVOLUTIONAL neural networks, SUPPORT vector machines, CLASSIFICATION algorithms, SEAWATER, IMAGING systems

Abstract

This paper introduces an advanced acoustic imaging system leveraging multibeam water column data at various frequencies to detect and classify marine litter. This study encompasses (i) the acquisition of test tank data for diverse types of marine litter at multiple acoustic frequencies; (ii) the creation of a comprehensive acoustic image dataset with meticulous labelling and formatting; (iii) the implementation of sophisticated classification algorithms, namely support vector machine (SVM) and convolutional neural network (CNN), alongside cutting-edge detection algorithms based on transfer learning, including single-shot multibox detector (SSD) and You Only Look once (YOLO), specifically YOLOv8. The findings reveal discrimination between different classes of marine litter across the implemented algorithms for both detection and classification. Furthermore, cross-frequency studies were conducted to assess model generalisation, evaluating the performance of models trained on one acoustic frequency when tested with acoustic images based on different frequencies. This approach underscores the potential of multibeam data in the detection and classification of marine litter in the water column, paving the way for developing novel research methods in real-life environments. [ABSTRACT FROM AUTHOR]

Published

2024

41. Sustainable Activated Carbon from Agricultural Waste: A Study on Adsorption Efficiency for Humic Acid and Methyl Orange Dyes.

Author

Tigrine, Zahia, Benhabiles, Ouassila, Merabti, Leila, Chekir, Nadia, Mellal, Mounir, Aoudj, Salaheddine, Abdeslam, Nora Amele, Tassalit, Djilali, Lebouachera, Seif El Islam, and Drouiche, Nadjib

Abstract

In this study, porous activated carbon was produced from coffee waste and used as an effective adsorbent for the removal of humic acid (HA) from seawater and methyl orange (MO) dye from aqueous solutions. Phosphoric acid H3PO4 was used as an activating agent for the chemical activation of these agricultural wastes. The characterization of the activated carbon obtained using a scanning electron microscope (SEM), Fourier-transform infrared (FTIR) spectroscopy analysis, X-ray diffraction (XRD) and the Brunauer–Emmett–Teller (BET) method revealed that the activated carbon products exhibited high porosity and the formation of various functional groups. The effects of different parameters were examined using batch adsorption experiments, such as the adsorbent masses, pH, initial pollutant concentration and contact time. The results show that the performance increased with an increased adsorbent mass (up to 0.25 g/L) and decreased initial concentration of the adsorbent tested. On the other hand, this study clearly showed that the adsorption efficiency of the MO on the raw spent coffee grounds (SCGs) waste was around 43%, while no removal was observed for the humic acid. The experiments demonstrated that the activated carbon synthesized from the used coffee grounds (the efficiency was compared with commercial activated carbon (CAC) with a difference of 13%) was a promising alternative to commercially available adsorbents for the removal of humic acid from seawater. To understand and elucidate the adsorption mechanism, various isothermal and kinetic models were studied. The adsorption capacity was analyzed by fitting experimental data to these models. The experimental data for methyl orange dyes were analyzed using Langmuir and Freundlich isothermal models. The Freundlich isotherm model provided a superior fit to the equilibrium data, as indicated by a higher correlation coefficient (R2) than that of the Langmuir model. The maximum adsorption was observed at pH 3. The Freundlich adsorption capacity was found to be 333 mg/g adsorbent. The PAC showed a high adsorption capacity for the MO and HA. The PAC showed the highest adsorption capacities for the HA and MO compared with the other adsorbents used (SCGs and CAC) and would be a good material to increase the adsorption efficiency for humic acid removal in the seawater pretreatment process. In addition, the prepared AC BET surface area was 520.40 m2/g, suggesting a high adsorption capacity. This makes the material potentially suitable for various applications that require a high surface area. These results indicate that high-quality sustainable activated carbon can be efficiently produced from coffee waste, making it suitable for a wide range of adsorbent applications targeting various pollutants. [ABSTRACT FROM AUTHOR]

Published

2024

42. PDA Nanoparticle-Induced Lubricating Film Formation in Marine Environments: An Active Approach.

Author

Zou, Xinqi, Ge, Zhenghao, Wang, Chaobao, and Xi, Yuyang

Subjects

SLIDING friction, COPPER, DISTILLED water, SEAWATER, MOLECULAR weights

Abstract

The low viscosity of water-lubricated films compromises their load-bearing capacity, posing challenges for practical application. Enhancing the lubrication stability of these films under load is critical for the successful use of seawater-lubricated bearings in engineering. Polydopamine (PDA) shows great potential to address this issue due to its strong bio-inspired adhesion and hydration lubrication properties. Thus, PDA nanoparticles and seawater suspensions were synthesized to promote adhesive lubricating film formation under dynamic friction. The lubrication properties of PDA suspensions were evaluated on Cu ball and ultra-high molecular weight polyethylene (UHMWPE) tribo-pairs, with a detailed comparison to seawater. The results show PDA nanoparticles provide excellent adhesion and lubrication, enhancing the formation of lubricating films during friction with seawater. Under identical conditions, PDA suspensions demonstrated the lowest friction coefficient and minimal wear. At 3 N, friction decreased by 56% and wear by 47% compared to distilled water. These findings suggest a novel strategy for using PDA as a lubricant in seawater for engineering applications. [ABSTRACT FROM AUTHOR]

Published

2024

43. Virtual Instruments for Peak-Overlapping Studies to Determine Low- and High-Concentration Components with Ion Chromatography: Potassium and Sodium.

Author

Gros, Nataša

Subjects

*SODIUM ions, *POTASSIUM ions, *PHYSIOLOGIC salines, *ION exchange chromatography, *POTASSIUM

Abstract

We developed the LabVIEW-based virtual instruments (VIs) to bridge a gap in commercial software and to enable systematic peak-overlapping studies to recognise the concentration levels enabling reliable simultaneous determination of major and minor constituents in samples with wide concentration proportions. The VIs were applied to a case study of the ion chromatographic determination of potassium as minor and sodium as a major ion with an IonPac CS12A column and 50 μL injection loop. Two successive studies based on multilevel two-factorial response surface experimental designs, (1) a model peak-overlapping study based on single-ion injections, and (2) an accuracy and precision study, provided guidelines for real sample analyses. By adjusting sample dilutions so that the sodium mass concentration was set to 340 mg/L, the simultaneous determination of potassium in the presence of sodium was possible in samples with sodium over potassium concentration ratios between 14 and 341. The relative expanded uncertainty associated with potassium ion determination was between 0.52 and 4.4%, and the relative bias was between −3.8 and 1.9%. We analysed Ringer's physiologic solutions, standard sea, trisodium citrate anticoagulant, and buffered citrate anticoagulant solutions. We confirmed that the VI-supported peak-overlapping studies contributed to the quality of results by enabling the evidence-based choices of concentration levels adjusted by a dilution. [ABSTRACT FROM AUTHOR]

Published

2024

44. A Review on Research Progress of Corrosion Resistance of Alkali-Activated Slag Cement Concrete.

Author

Liang, Qiushuang, Huang, Xinlu, Zhang, Lanfang, and Yang, Haiyan

Subjects

*CONCRETE durability, *CONSTRUCTION materials, *PORTLAND cement, *CONCRETE corrosion, *SERVICE life, *SLAG cement

Abstract

China is the largest producer and user of Ordinary Silicate Cement (OPC), and rapid infrastructure development requires more sustainable building materials for concrete structures. Portland cement emits large amounts of CO2 in production. Given proposals for "carbon peaking and carbon neutralization", it is extremely important to study alternative low-carbon cementitious materials to reduce emissions. Alkali-activated slag (AAS) cement, a new green cementitious material, has high application potential. The chemical corrosion resistance of AAS concrete is important for ensuring durability and prolonging service life. This paper reviews the hydration mechanism of AAS concrete and discusses the composition of hydration products on this basis, examines the corrosion mechanism of AAS concrete in acid, sulfate, and seawater environments, and reviews the impact of its performance due to the corrosion of AAS concrete in different solutions. Further in-depth understanding of its impact on the performance of concrete can provide an important theoretical basis for its use in different environments and provides an important theoretical basis for the application of AAS concrete, so that we can have a certain understanding of the durability of AAS concrete. [ABSTRACT FROM AUTHOR]

Published

2024

45. Spatial Distribution of Physical and Chemical Properties of Deep Sea Water in Xisha, South China Sea.

Author

Fang, Xiaochen, Chen, Mei, Lu, Dongyu, Guo, Xudong, Tian, Fei, Li, Xuelin, Huang, Lei, Ji, Chunsheng, Xia, Changfa, Huang, Mianyu, Wang, Yanmei, He, Xiaoyu, Tian, Lieyu, and Zhang, Huiyin

Subjects

SEAWATER, HEAVY elements, WATER quality, RENEWABLE energy sources, TRACE elements, COPPER, HEAVY metals

Abstract

Deep sea water (DSW) is a globally utilized source of renewable energy and other resources. To understand the characteristics of DSW resources in the South China Sea, in July 2022, the Guangzhou Marine Geological Survey (GMGS) investigated temperature, salinity, pH, dissolved oxygen (DO), inorganic salts (DIN, PO43−-P, and SiO3-Si), heavy metals (Hg, Pb, As, and Cd), trace elements (Cu, Zn, Fe, Mn, Ni, Se, and Mo), and other related indicators. The results of this investigation elucidate the horizontal and vertical changes in the physical and chemical properties of deep sea water in the Xisha Sea. The surface seawater quality in Xisha was found to be excellent and to meet first-class seawater survey standards. However, the concentrations of various nutrient salts in the surface layer were relatively low. As the seawater depth increased, different trace elements and heavy metals exhibited variations, and the concentrations of various nutrients also gradually increased. [ABSTRACT FROM AUTHOR]

Published

2024

46. Pyrite Depression by Sodium Metabisulfite in Freshwater and Seawater with Copper Activation.

Author

Castellón, César I., Toledo, Pedro, Rojas, Francisco, Sepúlveda, Felipe D., and Jeldres, Ricardo I.

Subjects

*COPPER ions, *WATER quality, *SEAWATER, *PYRITES, *VALUE (Economics)

Abstract

Pyrite has natural floatability and thus readily enters valuable mineral flotation concentrates, diluting their quality and decreasing their economic value. Its separation is challenging, depending on process conditions, the presence of activating ions, and water quality, particularly in regions where seawater is used. This study examines the effect of various doses of sodium metabisulfite (SMBS) on pyrite depression in freshwater and seawater under weakly alkaline conditions and with different copper ion concentrations. Without the addition of activators or depressants, pyrite recovery is 40% in freshwater and 60% in seawater, whereas with 10 ppm of SMBS, recoveries drop to 28% and 38%, respectively. The addition of 10 ppm Cu2+ increases recovery by 10% in freshwater and by 20% in seawater. In the presence of 75 ppm of PAX, maximum recovery reached 50% in freshwater and 80% in seawater. These results suggest that cationic bridges formed by seawater ions, combined with CaOH+ activation, play a critical role in pyrite activation, even in the presence of depressants. [ABSTRACT FROM AUTHOR]

Published

2024

47. Cobalt Molybdenum Telluride as an Efficient Trifunctional Electrocatalyst for Seawater Splitting.

Author

Kar, Rajarshi, Nouralishahi, Amideddin, Singh, Harish, and Nath, Manashi

Subjects

*ARTIFICIAL seawater, *OXIDATION of water, *OXYGEN reduction, *GAS analysis, *SEAWATER, *OXYGEN evolution reactions, *HYDROGEN evolution reactions

Abstract

A mixed-metal ternary chalcogenide, cobalt molybdenum telluride (CMT), has been identified as an efficient tri-functional electrocatalyst for seawater splitting, leading to enhanced oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR). The CMT was synthesized by a single step hydrothermal technique. Detailed electrochemical studies of the CMT-modified electrodes showed that CMT has a promising performance for OER in the simulated seawater solutions, exhibiting a small overpotential of 385 mV at 20 mA cm−2, and superior catalyst durability for prolonged period of continuous oxygen evolution. Interestingly, while gas chromatography analysis confirmed the evolution of oxygen in an anodic chamber, it showed that there was no chlorine evolution from these electrodes in alkaline seawater, highlighting the novelty of this catalyst. CMT also displayed remarkable ORR activity in simulated seawater as indicated by its four-electron reduction pathway forming water as the dominant product. One of the primary challenges of seawater splitting is chlorine evolution from the oxidation of dissolved chloride salts. The CMT catalyst successfully and significantly lowers the water oxidation potential, thereby separating the chloride and water oxidation potentials by a larger margin. These results suggest that CMT can function as a highly active tri-functional electrocatalyst with significant stability, making it suitable for clean energy generation and environmental applications using seawater. [ABSTRACT FROM AUTHOR]

Published

2024

48. Numerical Analysis of the Influence of Runoff Input on Salinity Distribution and Its Mechanisms in Laizhou Bay.

Author

Ju, Kaixuan, Xiong, Lehang, Liu, Tao, Li, Zilong, and Zhang, Minxia

Subjects

RUNOFF analysis, SEAWATER, SOLAR radiation, NUMERICAL analysis, RUNOFF

Abstract

This study employs the MIKE 3 Flow Model, incorporating forcing conditions such as inflow from 18 major rivers along the Bohai coast, wind, precipitation, evaporation, and solar radiation, to develop a hydrodynamic and temperature-salinity model for the Bohai Sea, using a finer mesh for more detailed simulation in Laizhou Bay. The residual current in the surface layer primarily flowed eastward, exhibiting coastal transport characteristics in the southern region, leading to the formation of a large low-salinity region. The bottom salinity distribution closely mirrored that of the surface, with the isohaline shifting shoreward due to the high-salinity Bohai Sea water transported by the residual current. By grouping major runoff sources according to river outlet locations and residual current patterns, the study analyzed the impact of freshwater plumes formed by runoff from different directions on the salinity distribution in Laizhou Bay. The results indicate that the influence of freshwater inputs on both the mean salinity and the area of low-salinity zones in Laizhou Bay, ranked from greatest to least, is as follows: the Yellow River, the southwest, and the southeast. The variation in the area of low-salinity regions is closely related to factors such as runoff volume, residual currents, and the selection of boundaries for the low-salinity regions. [ABSTRACT FROM AUTHOR]

Published

2024

49. Advancements in the Programmable Hyperspectral Seawater Scanner Measurement Technology for Enhanced Detection of Harmful Algal Blooms.

Author

Langan, John J. and Bae, Jungyun

Subjects

RED tide, ALGAL blooms, LEAD time (Supply chain management), SEAWATER, SCANNING systems

Abstract

The Programmable Hyperspectral Seawater Scanner (PHySS) represents a significant breakthrough in monitoring harmful algal blooms (HABs), specifically targeting the "Florida red tide" caused by Karenia brevis. By utilizing a Fourth-Derivative Spectral Similarity Index (SI), this study establishes a strong positive correlation between the SI and phytoplankton counts, underscoring the PHySS's potential for early detection and effective management of HABs. Our findings suggest that the PHySS could act as a predictive tool, offering crucial lead time to mitigate the ecological and economic repercussions of blooms. However, this study also identifies certain limitations of the PHySS technology, such as its inability to differentiate among various phytoplankton species without additional physical verification of cell counts. This limitation highlights the need for a multifaceted approach to HAB management. Our research suggests that adopting a multi-modal monitoring strategy could lead to more sophisticated and effective methods for combating HABs, fostering an optimistic outlook for future advancements in this area. [ABSTRACT FROM AUTHOR]

Published

2024

50. Numerical Investigations of Deckhouse Height to the Self-Righting Moment of the Patrol Boat.

Author

Trimulyono, Andi, Tuswan, Tuswan, Taqi, Haidar Farros Mawarizt, Manik, Parlindungan, Rindo, Good, Samuel, Samuel, Mursid, Ocid, and Iqbal, Muhammad

Subjects

PATROL boats, COMPUTATIONAL fluid dynamics, CENTER of mass, SEAWATER, BUOYANCY

Abstract

The design of patrol boats, especially in Indonesian waters with extreme sea conditions, requires good stability capabilities and self-righting moments. These conditions require patrol boats to have anti-capsized capabilities where, with these capabilities, the patrol boat can return to an upright position at extreme heeling angles. This study investigates how changing the center of gravity (CoG) due to the deckhouse height factor improves self-righting moment capabilities. Four different deckhouse heights are examined to find the optimal self-righting roll moment, with a deckhouse height in the 2.01–2.31 m range. In addition, the presence of the self-righting roll moment is also validated by the computational fluid dynamics (CFD) method using three different mesh sizes. The height of the deckhouse can significantly influence the ship's stability. The initial investigation shows ships with minimum deckhouse heights of 2.06 m have positive righting lever arms at 170° and are classified as anti-capsized ships. It has been discovered that buoyancy and the center of gravity are crucial variables in obtaining the self-righting moment. The deckhouse's height increases the stability of the ship's righting arm by enhancing the metacenter point. The findings demonstrate that more excellent stability is achieved with a larger deckhouse height. [ABSTRACT FROM AUTHOR]

Published

2024