Your search keyword '"salinity gradient"' showing total 868 results

1. Segmental-porosity regulation of nanochannel membranes with anomalously improved ion selectivity for enhanced osmotic power generation

Author

Zhang, Xu, Zhu, Jianjun, and Qu, Z.G.

Published

2024

2. Synergy effects of pH and thermal localization on membrane-based salinity gradient energy harvesting

Author

Liu, Zheng, Liu, Qingyuan, Liu, Xinzhe, and Liu, Guohua

Published

2024

3. Mercury photoreduction and photooxidation kinetics in estuarine water: Effects of salinity and dissolved organic matter

Author

Clarke, Rachel G., Klapstein, Sara J., Keenan, Robert, and O'Driscoll, Nelson J.

Published

2023

4. Influence of salinity gradients on the diffusion of water and ionic species in dual porosity clay samples

Author

Tertre, Emmanuel, Dabat, Thomas, Wang, Jingyi, Savoye, Sébastien, Hubert, Fabien, Dazas, Baptiste, Tournassat, Christophe, Steefel, Carl I, and Ferrage, Eric

Subjects

Hydrology, Earth Sciences, Porosity, Salinity, Diffusion, Clay, Aluminum Silicates, Water, Ions, Models, Theoretical, Clayey porous media, Water diffusion, Ionic diffusion, Salinity gradient, Through -diffusion experiments, Reactive transport modeling, Through-diffusion experiments, Environmental Engineering

Abstract

Most of the available data on diffusion in natural clayey rocks consider tracer diffusion in the absence of a salinity gradient despite the fact that such gradients are frequently found in natural and engineered subsurface environments. To assess the role of such gradients on the diffusion properties of clayey materials, through-diffusion experiments were carried out in the presence and absence of a salinity gradient using salt-diffusion and radioisotope tracer techniques. The experiments were carried out with vermiculite samples that contained equal proportions of interparticle and interlayer porosities so as to assess also the role played by the two types of porosities on the diffusion of water and ions. Data were interpreted using both a classical Fickian diffusion model and with a reactive transport code, CrunchClay that can handle multi-porosity diffusion processes in the presence of charged surfaces. By combining experimental and simulated data, we demonstrated that (i) the flux of water diffusing through vermiculite interlayer porosity was minor compared to that diffusing through the interparticle porosity, and (ii) a model considering at least three types of porous volumes (interlayer, interparticle diffuse layer, and bulk interparticle) was necessary to reproduce consistently the variations of neutral and charged species diffusion as a function of salinity gradient conditions.

Published

2024

5. Chitin Exfoliation Nanoengineering for Enhanced Salinity Gradient Power Conversion.

Author

Huang, Ting, Xie, Zhijiang, Liu, Siqi, Li, Yiwei, Zhou, Jing, Li, Zhixuan, Kong, Yi, Shi, Dean, Zhang, Qunchao, Wei, Zhaoyang, Chen, Pan, Ye, Dongdong, and You, Jun

Subjects

*ENERGY harvesting, *NANOTECHNOLOGY, *ION transport (Biology), *CHITIN, *NANOFIBERS, *SURFACE charges

Abstract

Rapid advancements in nano‐exfoliation and dissolution strategies have effectively disassembled hierarchical biomass materials into nanosheets, nanofibers, and even atomic‐scale molecular chains, making them highly applicable in osmotic energy harvesting. However, sub‐nanosheets, situated between molecular chains and nanofibers, remain unexplored due to the demanding nature of their preparation methods. Herein, a pseudosolvent‐driven programmable ion intercalation‐exfoliation strategy is developed that triggers exfoliation along the lowest energy crystal plane (010), as simulations confirm. This method allows for the controlled exfoliation of chitin assemblies ranging from nanofibers to sub‐nanometer sheets and molecular chains. Specifically, compared to nanofibrils, sub‐nanometer sheet interfacial assembly exhibits higher surface charge density and interplanar spacing, leading to a 2.3‐fold increase in ion transport flux while maintaining high‐performance selective ion behavior, as confirmed by both experiments and molecular scale simulations, respectively. These enhancements result in superior ionic conductivity and power conversion performance (8.45 W m−2) under a 50‐fold salinity gradient, surpassing commercial standards (5.0 W m−2) and other all‐biomass membrane systems (Max. 2.87 W m−2). This work provides insights into the controlled exfoliation of biomass at the sub‐nanometer scale and enhancing osmotic energy harvesting. [ABSTRACT FROM AUTHOR]

Published

2024

6. Phytoplankton Community in Contrasting Hydrological Features of the Tropical Meandering River Chapora, Central West Coast of India.

Author

Nilajkar, Sujata, Gauns, Mangesh, Pratihary, Anil, Mandal, Sourav, and Nanajkar, Mandar

Abstract

This study examines the distribution and composition of phytoplankton in the tropical river Chapora under its intricate physicochemical characteristics. The river’s meandering character resulted in a unique zonation of plankton richness. The phytoplankton community dominated by class Bacillariophyceae, Chlorophyceae, Cyanophyceae, Cryptophyceae, Dinophyceae, and Mediophyceae spatially showed distinct zonation regarding salinity, near mouth (> 23‰), midstream (> 12‰), and upstream (> 0.15‰). In the upstream region of the river where the influx of fresh water was high, diatom Aulacoseira spp. and dinoflagellate Peridinium spp. dominated and showed effective correlation with nitrogen (N). The presence of heterotrophic dinoflagellates like Oxyrrhis marina, Gymnodinium spp., and Gyrodinium spp. in the midstream region, an active sand mining locale with a sluggish water column and elevated bacterial load, suggests the development of a specialized niche with ecological significance. [ABSTRACT FROM AUTHOR]

Published

2025

7. Intensified river salinization alters nitrogen-cycling microbial communities in arid and semi-arid regions of China

Author

Qingqing Pang, Dan Wang, Zewei Jiang, Mohamed Abdalla, Lei Xie, Xiang Zhu, Fuquan Peng, Pete Smith, Longmian Wang, Lingzhan Miao, Jun Hou, Peng Yu, Fei He, and Bin Xu

Subjects

Arid and semi-arid regions, Nitrogen cycle, Nitrogen transforming functional bacteria, River, Salinity gradient, Ecology, QH540-549.5, Environmental sciences, GE1-350

Abstract

Freshwater salinization is receiving increasing global attention due to its profound influence on nitrogen cycling in aquatic ecosystems and the accessibility of water resources. However, a comprehensive understanding of the changes in river salinization and the impacts of salinity on nitrogen cycling in arid and semi-arid regions of China is currently lacking. A meta-analysis was first conducted based on previous investigations and found an intensification in river salinization that altered hydrochemical characteristics. To further analyze the impact of salinity on nitrogen metabolism processes, we evaluated rivers with long-term salinity gradients based on in situ observations. The genes and enzymes that were inhibited generally by salinity, especially those involved in nitrogen fixation and nitrification, showed low abundances in three salinity levels. The abundance of genes and enzymes with denitrification and dissimilatory nitrate reduction to ammonium functions still maintained a high proportion, especially for denitrification genes/enzymes that were enriched under medium salinity. Denitrifying bacteria exhibited various relationships with salinity, while dissimilatory nitrate reduction to ammonium bacterium (such as Hydrogenophaga and Curvibacter carrying nirB) were more inhibited by salinity, indicating that diverse denitrifying bacteria could be used to regulate nitrogen concentration. Most genera exhibited symbiotic and mutual relationships, and the highest proportion of significant positive correlations of abundant genera was found under medium salinity. This study emphasizes the role of river salinity on environment characteristics and nitrogen transformation rules, and our results are useful for improving the availability of river water resources in arid and semi-arid regions.

Published

2024

8. Global Optimization via Quadratic Disjunctive Programming for Water Networks Design with Energy Recovery

Author

Tristán, Carolina, Fallanza, Marcos, Ibáñez, Raquel, Grossmann, Ignacio E., and Bernal Neira, David E.

Published

2024

9. Simulated characteristics of estuarine fronts in the Changjiang River Delta

Author

Tian, Qing, Wang, Yaping, Zhu, Jianrong, and Li, Weihua

Published

2025

10. Optimizing Nanofluidic Energy Harvesting in Synthetic Clay‐based Membranes by Annealing Treatment.

Author

Zavala‐Galindo, Yozelin, Yang, Guoliang, Zang, Hanwen, Lei, Weiwei, and Liu, Dan

Subjects

*ENERGY harvesting, *ARTIFICIAL membranes, *FAST ions, *CONCENTRATION gradient, *WATER salinization

Abstract

Nanofluidic energy harvesting from salinity gradients is studied in 2D nanomaterials‐based membranes with promising performance as high ion selectivity and fast ion transport. In addition, moving forward to scalable, feasible systems requires environmentally friendly materials to make the application sustainable. Clay‐based membranes are attractive for being environmentally friendly, non‐hazardous, and easy to manipulate materials. However, achieving underwater stability for clay‐based membranes remains challenging. In this work, the synthetic clay Laponite is used to prepare clay‐based membranes with high stability and excellent performance for osmotic energy harvesting. The Laponite membranes (Lap‐membranes) are stabilized by low‐temperature annealing treatment to effectively reduce the interlayer space, achieving a continuous operation under salinity gradients. Furthermore, the Lap‐membranes conserve integrity while soaking in water for more than one month. The output power density improves from ≈4.97 W m−2 on the pristine membrane to ≈9.89 W m−2 in the membrane treated 12 h at 300 °C from a 30‐fold concentration gradient. Especially, It is found that the presence of interlayer water to be favorable for ion transport. Different mechanisms are proposed in the Lap‐membranes involved for efficient ion selectivity and the states found with varying annealing temperatures. This work demonstrates the potential application of Laponite based nanomaterials for nanofluidic energy harvesting. [ABSTRACT FROM AUTHOR]

Published

2024

11. Spatial patterns and environmental drivers of demersal fish assemblages in the Swartkops and Sundays estuarine to marine seascapes, South Africa.

Author

Nodo, P, Childs, AR, Pattrick, P, and James, NC

Subjects

*ESTUARIES, *SOLEA solea, *MARINE habitats, *SPECIES diversity, *FISHING villages, *CYNOGLOSSUS, *MARINE biodiversity

Abstract

Estuaries are often observed as the boundary between the ocean and the river, separating coastal environments, rather than being seen as a continuum. Owing to insufficient research on demersal fish communities across nearshore marine to estuarine habitats, particularly in South Africa, this study employed a spatial seascape approach, with seasonal sampling of soft-bottom benthic habitats in two permanently open estuaries and the adjacent marine nearshore environment of Algoa Bay on the south coast of South Africa. A total of 790 fish representing 29 species were collected in the marine nearshore, and 6 414 fish (28 species) were caught in the estuarine zone. Two discrete demersal fish assemblages were identified as representing the marine nearshore and estuarine environments. The marine nearshore fish assemblages were dominated by marine species (e.g. Argyrosomus inodorus and Cynoglossus zanzibarensis) that were not recorded in the estuarine environment, whereas marine estuarine-opportunist species (e.g. Pomadasys olivaceus and Galeichthys feliceps) were more abundant in the marine nearshore than in the estuarine environment. The estuaries were dominated by benthic marine estuarine-dependent and marine and estuarine species (e.g. Rhabdosargus holubi, Solea turbynei, Heteromycteris capensis, Psammogobius knysnaensis and Glossogobius callidus). Differences observed in abundance and species richness along the estuarine to marine continuum were primarily related to the salinity gradient. These findings are significant as altered freshwater flows and consequent changes in salinity and productivity can have an impact on the nursery use of both estuaries and the marine nearshore by fish species. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of soil type and salinity levels on the performance and bacteriome of the halophyte Atriplex nummularia (old man saltbush).

Author

Monteiro, Douglas Alfradique, Custer, Gordon F., Martins, Luiz Fernando, Balieiro, Fabiano de Carvalho, Dini-Andreote, Francisco, and Rachid, Caio Tavora Coelho da Costa

Subjects

*SOIL salinity, *SOIL classification, *ATRIPLEX, *SOIL salinization, *PLANT physiology

Abstract

Background: Soil salinization has a major impact on crop production and it is expected to increase in area in the coming years. In this scenario, exploring the potential of halophytes and their plant-associated microbiomes as to increase phytoremediation strategies represents a suitable and sustainable strategy. Methods: We conducted a microcosm experiment with the halophyte Atriplex nummularia, cultivating it in two contrasting soils (clay and sandy) at distinct levels of salinity (0, 10 and 20 mS/cm). After 109 days, we assessed its growth and bacteriome composition, through 16S rRNA gene sequencing of the leaf and root endospheres, as well as rhizosphere. Results: A. nummularia showed increased growth under salinity levels of up to 20 mS/cm in both soils. Salinity and soil type had an effect in determining the rhizosphere bacterial communities of A. nummularia, with a stronger signal in the sandy soil. Most interestingly, no differences were found in endophytic bacterial communities, suggesting a strong buffering effect of the plant physiology, even though this halophyte accumulates NaCl. Last, functional prediction based on a subset of differentially abundant taxa in the rhizosphere revealed an increase in plant-growth promotion and salinity tolerance traits in higher salinity, indicating simultaneous selection by salinity and A. nummularia under stress. Conclusion: Collectively, these results provide valuable insights into halophyte-associated bacteria, advancing our understanding of this complex system with potential application in phytoremediation strategies for saline soils. [ABSTRACT FROM AUTHOR]

Published

2024

13. Physiological responses of European sea bass (Dicentrarchus labrax) exposed to increased carbon dioxide and reduced seawater salinities

Author

Caneos, Warren G., Shrivastava, Jyotsna, Ndugwa, Moses, and De Boeck, Gudrun

Published

2024

14. Variance reflects resilience to disturbance along a stress gradient: Experimental evidence from coastal marshes.

Author

Yinhua Wang, Hongyu Guo, Alber, Merryl, and Pennings, Steven C.

Subjects

*ECOLOGICAL disturbances, *ECOLOGICAL resilience, *SALT marshes, *PLANT species, *GROUND vegetation cover, *VARIANCES

Abstract

Quantifying ecosystem resilience to disturbance is important for understanding the effects of disturbances on ecosystems, especially in an era of rapid global change. However, there are few studies that have used standardized experimental disturbances to compare resilience patterns across abiotic gradients in real-world ecosystems. Theoretical studies have suggested that increased return times are associated with increasing variance during recovery from disturbance. However, this notion has rarely been explicitly tested in field, in part due to the challenges involved in obtaining long-term experimental data. In this study, we examined resilience to disturbance of 12 coastal marsh sites (five low-salinity and seven polyhaline [=salt] marshes) along a salinity gradient in Georgia, USA. We found that recovery times after experimental disturbance ranged from 7 to >127 months, and differed among response variables (vegetation height, cover and composition). Recovery rates decreased along the stress gradient of increasing salinity, presumably due to stress reducing plant vigor, but only when low-salinity and polyhaline sites were analyzed separately, indicating a strong role for traits of dominant plant species. The coefficient of variation of vegetation cover and height in control plots did not vary with salinity. In disturbed plots, however, the coefficient of variation (CV) was consistently elevated during the recovery period and increased with salinity. Moreover, higher CV values during recovery were correlated with slower recovery rates. Our results deepen our understanding of resilience to disturbance in natural ecosystems, and point to novel ways that variance can be used either to infer recent disturbance, or, if measured in areas with a known disturbance history, to predict recovery patterns. [ABSTRACT FROM AUTHOR]

Published

2024

15. Temperature and salt concentration behavior of a compact rectangular salinity gradient solar pond.

Author

SATHISH, Dhandapani, JEGADHEESWARAN, Selvaraj, VEERAMANIKANDAN, Murugan, PRAVEENKUMAR, Seepana, and THIRUNAVUKKARASU, Raja

Subjects

*SOLAR ponds, *HEAT storage, *HEAT storage devices, *HIGH density polyethylene, *SALINITY

Abstract

Design of economical and effective solar ponds which are useful thermal energy storage devices, remains a huge challenge. The present work aims at investigating the thermal performance of low cost mini salt gradient solar pond. The portable pond was fabricated as a rectangular configuration having a volume of 0.5m³. Polystyrene and high density polyethylene sheets were employed for insulating the walls. The top of the pond was covered with a slender glass so that the dust accumulation could be prevented without affecting the absorption of solar radiation. Sodium chloride salt was used as the medium and the three salt gradient regions namely lower convective, non-convective, and upper convective regions were established through injection filling technique. The temperature and salt gradient data were observed experimentally for a period of 20 days at Coimbatore, India. The pond could absorb significant amount of available radiation (around 65%) and the maximum temperature of the pond was observed to be 49 °C. Frequent washing of the water surface is necessary to maintain stable salt gradient. Nevertheless, portable pond fabricated with low cost materials exhibited good potential of storing solar energy for solar thermal applications. [ABSTRACT FROM AUTHOR]

Published

2024

16. Spatio-temporal Relationship between Diatom Diversity and Environmental Gradients at La Mancha Coastal Lagoon (Veracruz, Mexico).

Author

Raygoza-Alcantar, Lizeth N., Vázquez, Gabriela, and Rodríguez-Zaragoza, Fabián A.

Subjects

*LAGOONS, *MANGROVE swamps, *DIATOMS, *FUNCTIONAL groups, *WATER sampling, *ULNA, *NAVICULA

Abstract

Raygoza-Alcantar, L.N.; Vázquez, G., and Rodríguez-Zaragoza, F.A., 2024. Spatiotemporal relationship between diatom diversity and environmental gradients at La Mancha coastal lagoon (Veracruz, Mexico). Journal of Coastal Research, 40(2), 366–381. Charlotte (North Carolina), ISSN 0749-0208. This study analyzed the composition and distribution of diatoms in the La Mancha tropical coastal lagoon, Veracruz, Mexico, under different environmental conditions. Water samples were collected from the surface and bottom of the lagoon at five sites during the "nortes" (cold winter fronts), dry, and rainy seasons. The physical and chemical variables of the lagoon water were also analyzed. Diatom taxa were identified and quantified. Sixty-five taxa were determined and classified according to functional groups. Sites 1 and 2 were considered potential sources of nutrients and folin phenol active substances (FPAS). In addition, two horizontal gradients were observed. The first concerned nutrient concentration, which increased in the area of the mouth of the Caño Grande River and decreased towards the bar. The second was a salinity gradient characterized by high values in the area of the bar and decreasing values towards the river mouth. Diatom richness and diversity were higher in the areas influenced by the opening of the bar and the Caño Grande River discharges in the "nortes" season. Diatom composition varied across seasons, sites, and depth levels; functional groups only varied between sites (p ≤ 0.05). A redundancy analysis recorded the species that responded to the salinity and temperature gradients, including Paralia sulcata, Odontella spp., and Grammatophora oceanica. The species that responded to high nutrient concentrations, total phosphorus, and transparency were Aulacoseira granulata, Stephanocyclus meneghinianus, Ulnaria ulna, Gyrosigma acuminatum, Navicula subrhynchocephala, and Amphipleura pellucida in different seasons in the area close to the river mouth and mangrove swamp. The correlation between diatom density and FPAS indicates that Psammodictyon constrictum and Amphiprora pseudoduplex have optimal growth when the FPAS concentration increases. [ABSTRACT FROM AUTHOR]

Published

2024

17. Three-Dimensional Numerical Simulation of Turbidity Impact on Solar Pond Thermal Performance.

Author

Kermiche, Messaoud, Abdelli, Ammar, Sayoud, Nassim, and Sissaoui, Hocine

Subjects

*SOLAR ponds, *CONVECTION (Astrophysics), *HEAT storage, *SOLAR thermal energy, *TURBIDITY, *ENERGY storage, *PONDS, *SOLAR radiation

Abstract

This research focuses on the influence of water turbidity on the thermal efficiency of solar ponds, innovative devices designed for the concurrent collection and storage of solar energy utilizing salinity gradients. A three-dimensional simulation approach is employed to analyze solar ponds under varying turbidity conditions, namely clear, slightly turbid, and very turbid water. The findings reveal that increased turbidity levels lead to reduced solar radiation penetration, consequently decreasing the temperature in the pond's bottom storage zone. Notably, the presence of a temperature profile across horizontal planes in solar ponds, as identified in this study, challenges the adequacy of conventional onedimensional models in explaining certain phenomena. This insight casts doubt on the widely accepted concept of distinct upper and lower convective zones within solar ponds, suggesting a need to re-evaluate this hypothesis. Moreover, the ground beneath solar ponds is posited as a potential secondary heat storage zone. The study proposes the strategic placement of heat exchangers in the central circular ground plane, just beneath the bottom of the pond. This positioning is recommended to optimize heat extraction efficiency while circumventing the placement of exchangers in the corrosive Lower Convective Zone (LCZ), thereby reducing maintenance costs. The findings underscore the necessity of considering three-dimensional aspects in solar pond analyses for a more comprehensive understanding of their thermal behavior. [ABSTRACT FROM AUTHOR]

Published

2024

18. Seascapes Shaped the Local Adaptation and Population Structure of South China Coast Yellowfin Seabream (Acanthopagrus latus).

Author

Wang, Wenhao, Huang, Junrou, Hu, Yan, Feng, Jianxiang, Gao, Dong, Fang, Wenyu, Xu, Meng, Ma, Chunlei, Fu, Zhenqiang, Chen, Qinglong, Liang, Xuanguang, and Lu, Jianguo

Abstract

Understanding the genetic composition and regional adaptation of marine species under environmental heterogeneity and fishing pressure is crucial for responsible management. In order to understand the genetic diversity and adaptability of yellowfin seabream (Acanthopagrus latus) along southern China coast, this study was conducted a seascape genome analysis on yellowfin seabream from the ecologically diverse coast, spanning over 1600 km. A total of 92 yellowfin seabream individuals from 15 sites were performed whole-genome resequencing, and 4,383,564 high-quality single nucleotide polymorphisms (SNPs) were called. By conducting a genotype-environment association analysis, 29,951 adaptive and 4,328,299 neutral SNPs were identified. The yellowfin seabream exhibited two distinct population structures, despite high gene flow between sites. The seascape genome analysis revealed that genetic structure was influenced by a variety of factors including salinity gradients, habitat distance, and ocean currents. The frequency of allelic variation at the candidate loci changed with the salinity gradient. Annotation of these loci revealed that most of the genes are associated with osmoregulation, such as kcnab2a, kcnk5a, and slc47a1. These genes are significantly enriched in pathways associated with ion transport including G protein-coupled receptor activity, transmembrane signaling receptor activity, and transporter activity. Overall, our findings provide insights into how seascape heterogeneity affects adaptive evolution, while providing important information for regional management in yellowfin seabream populations. [ABSTRACT FROM AUTHOR]

Published

2024

19. Solar evaporation for simultaneous oil-water separation and electricity generation with Janus wood-based absorbers.

Author

Yang, Yue, Fu, Ze, and Zhang, Qi

Abstract

Oily wastewater from ocean oil spills endangers marine ecosystems and human health. Therefore, developing an effective and sustainable solution for separating oil-water mixtures is urgent. Interfacial solar photothermal evaporation is a promising approach for the complete separation of two-phase mixtures using only solar energy. Herein, we report a carbonized wood-based absorber with Janus structure of comprising a hydrophobic top-layer and an oleophobic bottom-layer for simultaneous solar-driven oil-water separation and electricity generation. Under sunlight irradiation, the rapid evaporation of seawater will induce a separation of oil-water mixtures, and cause a high salt concentration region underlying the interface, while the bottom "bulk water" maintains in a low salt concentration, thus forming a salinity gradient. Electricity can be generated by salinity gradient power. Therefore, oil-water separation efficiency of > 99% and derived extra electricity power of ∼0.1 W/m2 is achieved under solar radiation, demonstrating the feasibility of oil-water separation and electricity production synchronously directly using solar energy. This work provides a green and cost-effective path for the separation of oil-water mixtures. [ABSTRACT FROM AUTHOR]

Published

2024

20. Current Source Strategy for Energy Injection from a CapMix Cell.

Author

Busto, María G., Prieto, Miguel J., Martín-Ramos, Juan A., Martínez, Juan A., and Pernía, Alberto M.

Subjects

GRID energy storage, ENERGY storage, ENERGY harvesting, FRESH water

Abstract

Circulation of salty and fresh water through the electrodes of a deionization cell produces a voltage between the electrodes caused by the Capacitive Donnan Potential (CDP). The voltage so generated is very low (100 mV), but this work demonstrates that it is possible to develop a power converter suitable to inject this energy into the grid or into energy storage systems; this is a relevant aspect of this paper, for most works in the literature simply dissipate this energy over a resistor. To increase the input voltage, a stack of electrodes is connected in series. A bridgeless rectifier that uses a dual buck–boost converter to operate with both the positive and negative cycles is used to extract the energy from the cell. The topology chosen, which is operated as a current source, can work at extremely low voltage levels and provide power factor correction. After this stage, an H-bridge inverter can be included to inject the energy into the AC grid. The whole system implements a hysteresis control system using the current through the inductor of the power converter as control variable. This paper investigates the influence of such current on the efficiency of the total system. [ABSTRACT FROM AUTHOR]

Published

2024

21. Salinity and host drive Ulva‐associated bacterial communities across the Atlantic–Baltic Sea gradient.

Author

van der Loos, Luna M., D'hondt, Sofie, Engelen, Aschwin H., Pavia, Henrik, Toth, Gunilla B., Willems, Anne, Weinberger, Florian, De Clerck, Olivier, and Steinhagen, Sophie

Subjects

*SALINITY, *ULVA

Abstract

The green seaweed Ulva is a model system to study seaweed–bacteria interactions, but the impact of environmental drivers on the dynamics of these interactions is little understood. In this study, we investigated the stability and variability of the seaweed‐associated bacteria across the Atlantic–Baltic Sea salinity gradient. We characterized the bacterial communities of 15 Ulva sensu lato species along 2,000 km of coastline in a total of 481 samples. Our results demonstrate that the Ulva‐associated bacterial composition was strongly structured by both salinity and host species (together explaining between 34% and 91% of the variation in the abundance of the different bacterial genera). The largest shift in the bacterial consortia coincided with the horohalinicum (5–8 PSU, known as the transition zone from freshwater to marine conditions). Low‐salinity communities especially contained high relative abundances of Luteolibacter, Cyanobium, Pirellula, Lacihabitans and an uncultured Spirosomaceae, whereas high‐salinity communities were predominantly enriched in Litorimonas, Leucothrix, Sulfurovum, Algibacter and Dokdonia. We identified a small taxonomic core community (consisting of Paracoccus, Sulfitobacter and an uncultured Rhodobacteraceae), which together contributed to 14% of the reads per sample, on average. Additional core taxa followed a gradient model, as more core taxa were shared between neighbouring salinity ranges than between ranges at opposite ends of the Atlantic–Baltic Sea gradient. Our results contradict earlier statements that Ulva‐associated bacterial communities are taxonomically highly variable across individuals and largely stochastically defined. Characteristic bacterial communities associated with distinct salinity regions may therefore facilitate the host's adaptation across the environmental gradient. [ABSTRACT FROM AUTHOR]

Published

2023

22. The Structure of the Zooplankton Communities in Sukhoe More Bay, Southeastern White Sea.

Author

Sobko, E. I., Klimov, S. I., Neverova, N. V., and Moreva, O. Yu.

Abstract

This paper presents the results of our investigation of the zooplankton communities from Sukhoe More Bay, located in the southeastern part of Dvina Bay of the White Sea, in July–August, 2018. The species composition, quantitative characteristics and spatial distribution of zooplankton were studied. The zooplankton communities are composed of 34 species of hydrobionts. Copepods were the dominant group in the entire study area. The zooplankton communities were characterized by high quantitative indicators. Juvenile stages of copepods were a significant contribution to the formation of the total number of zoocenoses. During high water level, the abundance of zooplankton was 37 000 ind./m3, biomass, 0.6 g/m3 (wet weight). During low water level, these parameters were 210 000 ind./m3 and 1.7 g/m3 (wet weight), respectively. The structure, abundance and spatial distribution of zooplankton in the bay are determined by the morphometric features of the reservoir (shallow water), the influence of a complex of environmental factors (temperature and salinity), as well as tidal phenomena. [ABSTRACT FROM AUTHOR]

Published

2023

23. The Surface Salinity of the North Sea and Baltic Sea Area

Author

Dormann, Wolfgang, Canadell, Josep G., Series Editor, Díaz, Sandra, Series Editor, Heldmaier, Gerhard, Series Editor, Jackson, Robert B., Series Editor, Levia, Delphis F., Series Editor, Schulze, Ernst-Detlef, Series Editor, Sommer, Ulrich, Series Editor, Wardle, David A., Series Editor, Mossakowski, Dietrich, editor, and Irmler, Ulrich, editor

Published

2023

24. Phytoplankton community dynamics in response to seawater intrusion in a tropical macrotidal river-estuary continuum.

Author

Sá, A. K. D. S., Feitosa, F. A. N., Cutrim, M. V. J., Flores-Montes, M. J., dos S. Costa, D., and Cavalcanti, L. F.

Subjects

*SALTWATER encroachment, *ESTUARIES, *ABSOLUTE sea level change, *PHYTOPLANKTON, *ESTUARY management, *PARTICULATE matter, *TURBIDITY

Abstract

Coastal environments are at the frontline of sea-level rise effects, and seawater intrusion constitutes one of the most important causes of salinization, changing the ecological patterns. Hence, we hypothesized that seawater intrusion would alter environmental gradients, causing either abrupt or gradual changes in the phytoplankton of Itapecuru River estuary. Physical and chemical and biological variables were collected bimonthly at six sites between 2019 and 2020. Seventy-six phytoplankton indicators were selected based on their specific functional traits and indicator value. Polymyxus coronalis was a good indicator of the limit of seawater intrusion. Multivariate analyses revealed high species dispersion among the estuarine sectors governed by variations in salinity, suspended particulate matter, cell size, and silicate. The distribution of freshwater species in the upper sector was correlated with low nutrient values and salinity. The marine species were transported between the middle and lower sectors under the opposite conditions. The seawater intrusion negatively affected the community, primarily in the dry season when the displacement of the turbidity maximum zone estuarine altered the structure, reducing its density, diversity, and biomass. The present study generated important information about seawater intrusion effects on the spatiotemporal variation in the phytoplankton community and provided a tool for the sustainable management of tropical estuaries. [ABSTRACT FROM AUTHOR]

Published

2023

25. Environmental Heterogeneity and Salinity Gradient Impacted the Alpha and Beta Diversities of Diatom Assemblages in a Coastal Delta Wetland.

Author

Dalkıran, Nurhayat and Zünbülgil-Ünsal, Burcu

Subjects

COASTAL wetlands, DIATOMS, SALINITY, HETEROGENEITY, FLOODPLAIN forests, BODIES of water, WETLANDS

Abstract

The coastal deltas are ecologically diverse and complex ecosystems that can contain different habitat types. The effect of environmental heterogeneity on diatom beta diversity is a poorly understood research topic. Freshwater (floodplain forest, river) and brackish (three lagoons) water bodies in the study area construct distinct environmental heterogeneity at a small spatial scale. The connection of the lagoons with an inland sea caused a high salinity gradient. All water bodies in the wetland were determined as hypereutrophic. CCA, Cluster, ANOSIM, and SIMPER analysis clearly explained the distribution of diatom assemblages according to salinity gradient and environmental heterogeneity. The environmental heterogeneity resulted in the presence of freshwater, brackish, and marine diatom species in the studied wetland. Diatom assemblages generally consist of freshwater species with euryhaline character adapted to wide salinity gradients. We determined the rapid replacement and richness difference in diatom assemblages due to environmental heterogeneity and salinity gradient causes high overall alpha, beta, and gamma diversity. Unlike many other studies, the high beta diversity mainly consists of the richness difference rather than species replacement. The high overall beta diversity showed low similarity between the habitats, while high overall alpha diversity exposed high species diversity at the local scale in the study area. [ABSTRACT FROM AUTHOR]

Published

2023

26. Taxonomic Composition and Salinity Tolerance of Macrozoobenthos in Small Rivers of the Southern Arid Zone of the East European Plain.

Author

Golovatyuk, Larisa V., Nazarova, Larisa B., Kalioujnaia, Irina J., and Grekov, Ivan M.

Subjects

*ARID regions, *BODIES of water, *WATER salinization, *SALINITY, *STREAM salinity, *SOIL salinity

Abstract

Simple Summary: Climate-related salinization of inland waters is observed in many regions of the world as a major environmental problem affecting natural processes in aquatic ecosystems. In order to better predict and control these changes, it is important to study the responses of aquatic fauna to increasing salinity. Macrozoobenthic fauna, which includes mollusks, small crustaceans, and insect larvae, constitutes the main food base for fish and water birds. Due to their relatively short life cycles, large species diversity, and high abundance, macrozoobenthos are the best indicators of changing water salinity. To determine the species richness, distribution, and salinity tolerance of macrozoobenthos, we investigated 17 small rivers with different water salinity in the southern arid region of the East European Plain. The study shows that the species richness gradually decreases with an increase in water salinity in the rivers. In freshwater rivers, the macrozoobenthos fauna includes more than 100 species, whereas, in hypersaline rivers with salinity comparable to seawater, only 10 species were found. A total of 5 of the 156 invertebrate species can be used as indicators of water salinization in rivers of the arid regions of Europe. This study investigated the species composition, distribution, and salinity tolerance of macrozoobenthos in 17 small rivers in the southern arid region of the East European Plain, which are characterized by a small channel gradient, slow-flowing or stagnant water bodies, and a wide range of water salinity, varying between 0.18 and 30 g L−1. In total, 156 taxa were found, among which 66 were Diptera species. The study revealed that the formation of benthic communities in the rivers is influenced by natural factors of the catchment basins, including the flat landscape with sparsely developed relief differentiation, climate aridity, and the widespread occurrence of saline soils and groundwater, largely related to the sedimentation of the ancient Caspian Sea and modern climate changes. These conditions are favorable for the occurrence of lacustrine macrozoobenthic species in freshwater, euryhaline, and halophilic ecological groups. The investigation revealed a decrease in species richness in response to an increase in water salinity. The five identified halophilic species Tanytarsus kharaensis, Glyptotendipes salinus, Cricotopus salinophilus, Chironomus salinarius, and Palpomyia schmidti can be used as indicators of river ecosystem salinization. [ABSTRACT FROM AUTHOR]

Published

2023

27. Substrate quality overrides soil salinity in mediating microbial respiration in coastal wetlands.

Author

Li, Qiang, Song, Zhaoliang, Xia, Shaopan, Guo, Laodong, Singh, Bhupinder Pal, Shi, Yu, Wang, Weiqi, Luo, Yu, Li, Yongchun, Chen, Junhui, Zhang, Jianchao, Sun, Shaobo, and Wang, Hailong

Subjects

COASTAL wetlands, MICROBIAL respiration, SOIL salinity, SOIL respiration, SOIL quality, BIOPROSPECTING

Abstract

As productive and essential ecosystems, coastal wetlands have experienced increased environmental impacts such as saltwater intrusion and eutrophication, resulting in significant shifts in microbially mediated ecosystem functions, such as carbon sequestration and nutrient transformations. The soil microbial respiration, a primary process in the transfer of carbon from soil to the atmosphere, is susceptible to environmental changes. However, studies on how salinity affects soil microbial respiration in coastal wetlands have not been fully explored. Soil samples were systematically collected from divergent sampling sites covering medium‐ and extremely‐saline wetlands along a river‐estuary‐coast continuum to investigate mechanisms controlling soil microbial respiration in coastal wetlands. According to the results, the microbial biomass and carbon‐related extracellular enzyme activities were significantly lower in extremely saline (ECe >15 ds m−1, ES) than medium and highly saline soils (ECe <15 ds m−1, MHS) (p < 0.05), indicating a suppressive effect of salinity on soil microbiota. Meanwhile, high‐salinity soils had lower vector length and soil microbial respiration rates, suggesting that soils with low carbon limitation might cause less carbon loss under higher salinity environments. Moreover, it was showed that increased available phosphorus could alleviate microbial carbon limitations. Changes in the microbial functional community demonstrated that the microbial community in favor of metabolic mediates and secondary metabolites substrates (regarded as labile substrates) were more sensitive to salinity. The partial least square path modeling further confirmed that microbial nutrient limitation and microbial biomass contribute more directly to promoting soil microbial respiration. These results have substantial implications for elucidating carbon dynamics in coastal wetlands ecosystems under increased nutrient discharge and sea‐level rise. [ABSTRACT FROM AUTHOR]

Published

2023

28. Adaptive divergence and underlying mechanisms in response to salinity gradients between two Crassostrea oysters revealed by phenotypic and transcriptomic analyses

Author

Ziyan Zhang, Ao Li, Zhicai She, Xuegang Wang, Zhen Jia, Wei Wang, Guofan Zhang, and Li Li

Subjects

adaptive divergence, oysters, phenotypic and transcriptomic analyses, related species, salinity gradient, Evolution, QH359-425

Abstract

Abstract Comparing the responses of closely related species to environmental changes is an efficient method to explore adaptive divergence, for a better understanding of the adaptive evolution of marine species under rapidly changing climates. Oysters are keystone species thrive in intertidal and estuarine areas where frequent environmental disturbance occurs including fluctuant salinity. The evolutionary divergence of two sister species of sympatric estuarine oysters, Crassostrea hongkongensis and Crassostrea ariakensis, in response to euryhaline habitats on phenotypes and gene expression, and the relative contribution of species effect, environment effect, and their interaction to the divergence were explored. After a 2‐month outplanting at high‐ and low‐salinity locations in the same estuary, the high growth rate, percent survival, and high tolerance indicated by physiological parameters suggested that the fitness of C. ariakensis was higher under high‐salinity conditions and that of C. hongkongensis was higher under low‐salinity conditions. Moreover, a transcriptomic analysis showed the two species exhibited differentiated transcriptional expression in high‐ and low‐salinity habitats, largely caused by the species effect. Several of the important pathways enriched in divergent genes between species were also salinity‐responsive pathways. Specifically, the pyruvate and taurine metabolism pathway and several solute carriers may contribute to the hyperosmotic adaptation of C. ariakensis, and some solute carriers may contribute to the hypoosmotic adaptation of C. hongkongensis. Our findings provide insights into the phenotypic and molecular mechanisms underlying salinity adaptation in marine mollusks, which will facilitate the assessment of the adaptive capacity of marine species in the context of climate change and will also provide practical information for marine resource conservation and aquaculture.

Published

2023

29. Spatiotemporal optical properties of dissolved organic matter in a sluice-controlled coastal plain river with both salinity and trophic gradients.

Author

Liu, Yu, Hu, Yucheng, Yu, Chengxun, Gao, Yuqi, Liu, Zhenying, Mostofa, Khan M.G., Li, Siliang, Hu, Yumei, and Yu, Guanghui

Subjects

*DISSOLVED organic matter, *COASTAL plains, *ALLUVIAL plains, *STREAM salinity, *TROPHIC state index, *SEAWATER salinity

Abstract

• Haihe River is a sluice-controlled coastal plain river showing both salinity and trophic gradients. • TSI posed a greater influence than salinity on the CDOM abundance. • TSI affected the CDOM abundance more than the fluorescence intensity. • Salinity affected the abundance of CDOM but rarely affected FDOM. Due to the combined effect of sluices and sea tide, the sluice-controlled coastal plain river would be characterized by both trophic state and salinity gradients, affecting the spatiotemporal optical properties of dissolved organic matter (DOM). In this study, we investigated the spatiotemporal variation of water quality parameters and optical properties of DOM in the Haihe River, a representative sluice-controlled coastal plain river in Tianjin, China. A significant salinity gradient and four trophic states were observed in the water body of the Haihe River. Two humic- and one protein-like substances were identified from the DOM by the three-dimensional fluorescence spectra combined with the parallel factor (PARAFAC) analysis. Pearson's correlation analysis and redundancy analysis (RDA) showed that the salinity significantly affected the abundance of chromophoric DOM (CDOM) but did not cause significant changes in the fluorescence optical characteristics. In addition, the effect of Trophic state index (TSI) on the CDOM abundance was greater than that on the fluorescence intensity of fluorescent dissolved organic matter (FDOM). In the water body with both salinity and trophic state gradients, TSI posed a greater influence than salinity on the CDOM abundance. Our results fill the research gap in spatiotemporal DOM characteristics and water quality variation in water bodies with both salinity and trophic state gradients. These results are beneficial for clarifying the joint influence of saline intrusion and sluices on the DOM characteristics and water quality in sluice-controlled coastal plain rivers. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

30. Response of the Coastal Phytoplankton Community to the Runoff from Small Rivers in the Northeastern Black Sea.

Author

Sergeeva, Valentina M., Mosharov, Sergey A., Shulga, Natalia A., Kremenetskiy, Viacheslav V., Khlebopashev, Pavel V., and Matorin, Dmitry N.

Subjects

*RUNOFF, *MARINE phytoplankton, *COCCOLITHUS huxleyi, *PHYTOPLANKTON, *COASTS, *MARINE ecology, *FISH communities

Abstract

River runoff is an important source of nutrients as well as suspended and dissolved organic matter that in coastal zones and on the shelf are transformed due to local production cycles. River runoff affects the hydrological regime, salinity, temperature, and irradiance in river–seawater mixing zone. Our study focuses on the response of phytoplankton to the impact of small Caucasian rivers in the Northeastern (NE) Black Sea, as one of the most sensitive components of marine ecosystems with respect to the changes in abiotic factors. The leading role of marine species of diatoms, dinoflagellates, and coccolithophores in the structure and functioning when impacted by runoff from small rivers is demonstrated in comparison to the freshwater community. Variability of the taxonomic composition and quantitative and productive characteristics of marine phytoplankton communities impacted by small rivers were comparable to or exceed the seasonal and interannual variability on the NE Black Sea shelf. This indicates the significant role of runoff from small Caucasian rivers in maintaining of a high production level of phytoplankton overall and of the coccolithophore Emiliania huxleyi in particular in the coastal zone. [ABSTRACT FROM AUTHOR]

Published

2023

31. Improving the Performance of a Solar Pond Using TEG: An Experimental Investigation.

Author

Abood, Mohammed Hasan, Mohammed, Hayder Noori, and Atiyah, Basim Sacht

Subjects

*SOLAR ponds, *ELECTRIC power production, *HEAT storage, *THERMOELECTRIC generators, *LIGHTING reflectors, *SOLAR radiation

Abstract

A study has created a solar pond model. The pond's performance in terms of heat storage and electric power generation using TEG is analyzed using this model. The impact of various parameters, such as covering the pond's surface with plastic and using reflectors to focus on the intensity of solar radiation, will be investigated. A pyramidal pond with a base size of 0.64 square meters was used to validate the model. And it has a 6.25 square meter surface area. There's also a 1.35-meter depth. The walls are inclined at a 60-degree angle. TEG was also used to determine the pond's electrical capacity. The addition of a plastic cover and reflectors enhanced the efficiency of the pond's operation from 12.1% to 27.5%, according to the findings. At a lower layer temperature of 60 degrees Celsius, the electrical capacity reached 104 watts with a TEG operating efficiency of 8.9%. [ABSTRACT FROM AUTHOR]

Published

2023

32. Osmotic energy harvesting using acrylic acid hydrogel PET membrane.

Author

Haider, M. Hamza Ali, Ali, Mubarak, Farooq, M. Omer, Bräuer, Patrick, and Ensinger, Wolfgang

Subjects

*ACRYLIC acid, *CHEMICAL stability, *CONCENTRATION gradient, *ELECTRIC power production, *ENERGY harvesting

Abstract

In this study, we investigated the osmotic energy harvesting using a cation-selective membrane. The cation-selective membrane was synthesized by the incorporation of acrylic acid hydrogel in a porous support membrane. FTIR analysis and SEM images confirmed the presence of the acrylic acid hydrogel rods inside the porous support material. The exposure of the acrylic acid hydrogel PET (AP) membrane to a concentration gradient culminated in the generation of electric power. The AP membrane was evaluated in regard to the following parameters: E Diff , I o , P max and t +. The maximum power obtained with the membrane was 1.10 μW at the 40-fold concentration gradient (test area∽ 100 mm2). Increasing the concentration gradient increased the power output. However, a decrease in power output was observed after a certain value of the concentration gradient. An enhancement in power output was noted as the fraction of acrylic acid within the membrane was augmented. Additionally, the cation transference number also increased owing to a high charge density and a reduction in the mesh size. The AP membrane was also investigated in acidic and basic media. The time-dependent study revealed the superior chemical stability of the AP membrane. [Display omitted] • Successful incorporation of acrylic-acid hydrogel within the PET support membrane was achieved. • Membrane transports cations upon exposure to concentration gradient. • A general increase in output power was observed upon increasing concentration fold. • An increase in the power output was observed when the charge density was increased. • The decline in power output was observed in low-acidic media. [ABSTRACT FROM AUTHOR]

Published

2025

33. Adaptive divergence and underlying mechanisms in response to salinity gradients between two Crassostrea oysters revealed by phenotypic and transcriptomic analyses.

Author

Zhang, Ziyan, Li, Ao, She, Zhicai, Wang, Xuegang, Jia, Zhen, Wang, Wei, Zhang, Guofan, and Li, Li

Subjects

MARINE resources conservation, CRASSOSTREA, HABITATS, SUMINOE oyster, OYSTERS, TRANSCRIPTOMES, KEYSTONE species, PHYSIOLOGICAL adaptation

Abstract

Comparing the responses of closely related species to environmental changes is an efficient method to explore adaptive divergence, for a better understanding of the adaptive evolution of marine species under rapidly changing climates. Oysters are keystone species thrive in intertidal and estuarine areas where frequent environmental disturbance occurs including fluctuant salinity. The evolutionary divergence of two sister species of sympatric estuarine oysters, Crassostrea hongkongensis and Crassostrea ariakensis, in response to euryhaline habitats on phenotypes and gene expression, and the relative contribution of species effect, environment effect, and their interaction to the divergence were explored. After a 2‐month outplanting at high‐ and low‐salinity locations in the same estuary, the high growth rate, percent survival, and high tolerance indicated by physiological parameters suggested that the fitness of C. ariakensis was higher under high‐salinity conditions and that of C. hongkongensis was higher under low‐salinity conditions. Moreover, a transcriptomic analysis showed the two species exhibited differentiated transcriptional expression in high‐ and low‐salinity habitats, largely caused by the species effect. Several of the important pathways enriched in divergent genes between species were also salinity‐responsive pathways. Specifically, the pyruvate and taurine metabolism pathway and several solute carriers may contribute to the hyperosmotic adaptation of C. ariakensis, and some solute carriers may contribute to the hypoosmotic adaptation of C. hongkongensis. Our findings provide insights into the phenotypic and molecular mechanisms underlying salinity adaptation in marine mollusks, which will facilitate the assessment of the adaptive capacity of marine species in the context of climate change and will also provide practical information for marine resource conservation and aquaculture. [ABSTRACT FROM AUTHOR]

Published

2023

34. Risk assessment and spatio-temporal distribution of dissolved trace metals in Swarna, Sharavati and Kali estuaries, South-West Coast of India.

Author

Nishitha, D'Souza, Sudheer, Athiyarath Krishnan, Arun, Kumar, Amrish, Vadakkeveedu Narayan, Mahesh, Gaddam, Udayashankar, Harikripa Narayana, and Balakrishna, Keshava

Subjects

TRACE metals, ESTUARIES, RISK assessment, COPPER, ECOSYSTEM health, MARINE productivity

Abstract

Trace metals act as a limiting nutrient and prerequisite for primary productivity in marine environments. The distribution of metals in dissolved phase along the salinity gradients of Swarna, Sharavati and Kali estuaries in southwestern India, during post and pre-monsoon seasons, were studied. We have investigated the behaviour of trace metals in the estuarine environment and their extent of impact on human health and ecosystem. The study revealed, non-conservative behaviour of dissolved Mn, Fe, Ni, Cd and Co in the estuaries. Whereas Cu behaved non-conservatively in post-monsoon and conservatively in pre-monsoon seasons. Risk assessment studies revealed that higher chronic daily intake (CDI) in humans, through dermal pathway, in Swarna and Sharavati estuaries during post-monsoon, whereas it was during pre-monsoon season in the Kali estuary. Hazard Index values for the studied metals in adults and children are below risk thresholds, though children are more prone to health risk through the dermal pathway. [ABSTRACT FROM AUTHOR]

Published

2023

35. Color polymorphism in the Cuban endemic livebearing fish Limia vittata (Teloestei, Poeciliidae): Potential roles of sexual and natural selection.

Author

Rodriguez‐Silva, Rodet, Spikes, Montrai, Monsisbay, Manuel Iturriaga, and Schlupp, Ingo

Subjects

*SEXUAL selection, *NATURAL selection, *ENDEMIC fishes, *POECILIIDAE, *FRESHWATER habitats, *HABITATS, *PREDATION

Abstract

Color polymorphism can be maintained in natural populations by natural selection or sexual selection. In this study, we use two different approaches to test which of these evolutionary mechanisms may explain the presence of color polymorphism in the Cuban Limia (Limia vittata), an endemic livebearing fish from Cuba. First, we investigate the role of sexual selection using traditional binary choice tests looking at both female and male preferences relative to varying degrees of black spotting in stimulus mates. Second, we assess the role of natural selection by analyzing the frequency and geographic distribution of black‐spotted and nonspotted morphs of L. vittata in natural populations from Cuba. The frequency of black‐spotted morphs is significantly higher in brackish and saltwater environments compared with freshwater habitats, which could be related to higher predation pressure in coastal ecosystems compared with purely freshwater environments. Our results suggest that habitat variation is the most important factor in maintaining color polymorphism in L. vittata. Salinity levels could be indirectly responsible for maintaining different color morphs in this species, likely due to the regulatory effect of saline gradients on predation regimes. [ABSTRACT FROM AUTHOR]

Published

2023

36. Isolated occurrence of halophytic vegetation on mineral springs in the Eastern and Western Carpathians.

Author

Dítě, Zuzana, Šuvada, Róbert, and Dítě, Daniel

Subjects

*SALT marshes, *WATER withdrawals, *PLANT communities, *SEWAGE, *MINERALS

Abstract

Numerous features of the great diversity of saline environments in Romania (Southeastern Europe) have been investigated, although less explored regions still require field research. Tectonic movements and abundant fossil salt deposits have led to various isolated salt fountains, salty rocks and hypersaline ponds in the contact zone between the Eastern Carpathians and the Transylvanian Basin. According to the European Habitat Directive, these natural salt bodies belong to a priority habitat. In the counties of Harghita and Braşov, salt springs have been used as cold-water spas for decades, often without regard for their fragility. Their unique flora and vegetation remain largely unexplored. Based on numerical analysis of relevés collected from twelve salt spring locations in eastern Transylvania, we provide a comprehensive survey of saline vegetation. Compared to the large saline areas in western Transylvania, these are smaller, and only three euhalophytic plant associations make up the following vegetation zonation: Scorzonero parviflorae-Juncetum gerardi, Puccinellietum limosae, and Salicornietum prostratae. Their physiognomy and species composition resemble the well-studied travertine fens of the Western Carpathians (Slovakia). Joint analysis of data from rich fens (association Glauco-Trichophoretum pumili) in the Spiš basin revealed the insular character of sub-mountain halophilic vegetation in both regions. The construction of new tourist resorts poses a threat to the mineral salt springs. Fragmentation, waste depositing and water withdrawal for swimming pools have destroyed many sites. Our results can help to estimate the recent area and conservatuion status of temperate inland salt marshes in Romania. [ABSTRACT FROM AUTHOR]

Published

2022

37. Polychaete Assemblages in the Sungai Terengganu Estuary (East Coast of Peninsular Malaysia): Spatial Distribution Patterns.

Author

Alias, Nurul Syazwani, Abd Hamid, Muzzalifah, Ibrahim, Nur Fazne, Bachok, Zainudin, and Idris, Izwandy

Abstract

Urban developments in estuarine areas affect benthic organisms, notably the macrobenthos, by physically modifying the territory and generating waste. The polychaete assemblages and the environmental parameters in the estuarine area of Sungai Terengganu were examined based on nine stations along a salinity gradient from oligohaline to polyhaline. Samples were collected using a Smith McIntyre grab and yielded 1886 individuals, from 43 species grouped into 24 families. The fauna was mainly dominated by Composetia sp. (39.48%) and Cossura sp. (31.87%); the former in oligohaline areas and the latter in the polyhaline areas. The densities of both species had significant positive correlations with salinity, temperature, and silt, clay, and gravel contents. This study will benchmark the polychaete community distribution in this tropical estuary, which could be similar to environments along the east coast of Peninsular Malaysia (South China Sea). [ABSTRACT FROM AUTHOR]

Published

2022

38. The Key Environmental Factors Shaping Coastal Fish Community in the Eastern Gulf of Finland, Baltic Sea.

Author

Uspenskiy, Anton, Zhidkov, Zakhar, and Levin, Boris

Subjects

*FISHING villages, *FISH communities, *LIFE cycles (Biology), *FISH reproduction, *TERRITORIAL waters, *ENVIRONMENTAL sciences

Abstract

A highly productive coastal zone plays an important role in various stages of fish life cycles, e.g., spawning migrations, fish reproduction, larval development, juveniles growing, etc. Therefore, coastal biotopes significantly contribute to commercial fish species recruitment. Although the eastern Gulf of Finland is rich in shallow coastal water, its coastal fish communities and the influencing environmental variables are still significantly understudied. We investigated the composition and distribution of coastal fish species and the impact of abiotic and biotic environmental factors in the eastern Gulf of Finland during field surveys in 2011–2017. In total, 34 fish species were recorded at shallows. The coastal fish community demonstrates a low degree of heterogeneity despite a highly heterogeneous environment. Five freshwater species are widely distributed and the most frequent in the area. Three key environmental variables influencing the coastal fish community of the eastern Gulf of Finland were: (i) salinity, (ii) filamentous algae presence, and (iii) macrophytes presence. Fish community structure was also influenced by the sampling season. Discriminating and typifying taxa were performed for each environmental variable. We suggest that obtained results might be useful for future environmental studies in the region and fish community modeling. [ABSTRACT FROM AUTHOR]

Published

2022

39. Microplastic Distribution through the Salinity Gradient in a Stratified Estuary.

Author

Parać, Marija, Cuculić, Vlado, Cukrov, Nuša, Geček, Sunčana, Lovrić, Marin, and Cukrov, Neven

Subjects

PLASTIC marine debris, ESTUARIES, HALOCLINE, SALINITY, STAINS & staining (Microscopy), COLUMNS

Abstract

Despite the extensive and rapidly growing literature on microplastics in oceans and coastal seas, little information exists on microplastic distribution through the salinity gradient. This study is the first one to evaluate microplastic distribution through the salinity gradient of a highly stratified estuary. A total of 910 microplastic particles were collected from 12 different sampling events in the Krka River estuary, Croatia. The number of detected particles ranged from 389 in the surface layer to 63 in the deepest marine layer. The highest plastic abundance was found in the surface layer (3.68 particles/m3) and the lowest in the marine layer (0.13 particles/m3). The measured values of the cross-sectional area indicated an ellipsoidal cross-sectional shape of the particles. It was also found that the majority of microplastic particles belonged to the small microplastic class (<1 mm). The Nile Red (NR) staining method was used to visualize fluorescent microplastic particles, while quantification was performed using ImageJ/Fiji software. The strong salinity stratification in the studied estuary did not alter the usual distribution of microplastic particles in the water column, and there was no significant accumulation on the halocline. [ABSTRACT FROM AUTHOR]

Published

2022

40. Relationship between fish assemblage structure and predictors related to estuarine productivity in shallow habitats of a Neotropical estuary.

Author

Martins Capp Vergès, Luís Henrique, Feltrin Contente, Riguel, Marion, Camila, Casado del Castillo, Cívil Prisyla, Louis Spach, Henry, Pereira Cattani, André, and Fernando Fávaro, Luís

Subjects

*HABITATS, *LIFE cycles (Biology), *SALINE waters, *SUMMER, *MARINE fishes, *CLIMATE change, *ESTUARIES

Abstract

The variability of fish assemblage structure with respect to seasonality in salinity and productivity remains to be elucidate to many Neotropical estuaries. In this study, we hypothesized that salinity gradient and a set of variables related to ecosystem productivity drive community parameters in the shallow-water fish assemblage of the north-south axis of the Paranaguá Estuarine Complex (Southern Brazilian coast). Samples were taken with beach seine monthly from May 2000 to April 2001. Supporting our hypothesis, richness and abundance increased with turbidity, warmer waters of the rainier summer seasons, which are more productive. This environmental setting favors reproduction, as well as juvenile recruitment and growth, whose intensities are highest in this period. Highest abundance was found in inner areas, which may be explained by greater food and habitat availability. Richness was higher in more saline waters, due to the proximity of the rich pool of marine fish species. We suggest that local human interventions (e.g., dredging) should be avoided during the rainy seasons that are critical for species life cycles. Salinization, low estuarine productivity, and warmer waters, which are expected with climate change and human impacts in the local watershed, could affect the integrity of the local fish assemblage. [ABSTRACT FROM AUTHOR]

Published

2022

41. Integration of a solar pond in a salt work in Sabzevar in Northeast Iran.

Author

Farrokhi, M., Jaefarzadeh, M.R., Bawahab, M., Faqeha, H., and Akbarzadeh, A.

Subjects

*SOLAR ponds, *ROCK salt, *FUEL storage, *CARBON emissions, *ENERGY dissipation, *SALINE water conversion, *SOLAR power plants

Abstract

• Integration of a 10,000 m2 area solar pond in a salt work is investigated. • A mathematical model is used for LCZ temperature prediction. • A simple method is presented for salinity gradient development. • Economic and environmental benefits are evaluated through a parametric study. • Construction and operating costs of the solar pond are estimated. The process of salt manufacture in a salt work in Sabzevar in Northeast Iran is presented. A multi-faceted application to integrate a salinity gradient solar pond as part of the salt work process is presented addressing the reduction of parasitic energy losses such as the energy used for salt rock crushing and saving the amount of fossil fuel (natural gas) needed for brine heating. The solar pond with an area of 100 × 100 m2 and depth of 3 m is proposed to be constructed on the site of salt work. A partitioning wall with some opening heights equal to the desired position of the interface of lower convective (LCZ) and non-convective zones (NCZ) in its lower section, divides part of the area of this pond, say 5 percent or 500 m2. The separated area is designated to act as a salt charger and salt storage. The rock salt deposited in the salt charger dissolves into the LCZ of the pond and produces hot saturated brine solution. Results indicate that 100 tons of pure salt may be obtained from the extraction of 320 m3 of hot saturated brine consisting of 73 wt% water and 27 wt% salt. This is the nominated daily salt production of the factory. The proposed system will help to streamline the process of salt manufacture and reduce the environmental footprint. Using locally available meteorological data of Sabzevar, it is shown that such a pond may produce hot brine at an average temperature of 65 °C in summer and 37 °C in wintertime with a loading of 20% of the input irradiation. The gradient zone of the pond may be setup by placing a layer of low salinity water over saturated brine, allowing for salt diffusion to take place. Formation of large amplitude surface waves increases the salt diffusion and a salinity profile will develop in few months. A parametric study was performed to assess the enviro and economic effects of the proposed 10,000 m2 solar pond. The amount of fresh water to be injected to the solar pond is calculated to compensate for evaporation of pond surface as well as production of concentrated brine containing 100 tons of salt per day. Computer simulation shows that about 59,000 MJ/day thermal energy may be extracted from the pond in June. This is equal to a saving of about 1,576 kg/day of methane. Considering the price of methane this would be a financial saving of 283 $/day. The rate of reduction in CO 2 emission is estimated to be 4,335 kg/day in June. Considering a carbon price of 30 $/ton, the above reduction in CO 2 will be equivalent to savings of 130 $/day related to the environment. These calculations are extended to all months of the year and results presented. For demonstration, feasibility of using an existing old cylindrical fuel storage tank (2,000 m3, 3.3 m deep) as a container for a 600 m2 outdoor solar pond nearby the factory buildings, is proposed for pilot study. The shading effect is examined by scaling down a 3D model of the reservoir and its adjacent buildings for different months of the year, using Helidon device available at RMIT University of Australia. According to the simulation performed, it seems that the presence of buildings around the fuel tank does not have a significant shading effect on the surface of the demonstration solar pond. [ABSTRACT FROM AUTHOR]

Published

2022

42. Coexistence of a native and an invasive mussel species across an environmental gradient: Do interactions matter?

Author

Olabarria, Celia, Viejo, Rosa M., and Vázquez, Elsa

Subjects

*NATIVE species, *MYTILUS galloprovincialis, *INTRODUCED species, *MYTILUS edulis, *FIELD research

Abstract

Introductions of invasive species are increasing worldwide, potentially threatening biodiversity. Although invasive species often displace native species by outcompeting them, coexistence between native and non-native species is common in diverse communities. A field experiment investigated the interactions between the native mussel Mytilus galloprovincialis and the invasive black pygmy mussel Xenostrobus securis across an environmental salinity gradient in the Ria de Vigo (NW Spain). The salinity gradient strongly affected the physiological responses of both mussel species as well as the competitive interactions between the two species. Mytilus galloprovincialis had a stronger effect on the invader than vice versa. The competition with M. galloprovincialis and the release from predation in certain estuarine areas may in part explain the dynamics of the invader population in the Ría de Vigo. Furthermore, results suggest that the invader may contribute positively to ecosystem functioning by increasing bentho-pelagic coupling, water-column clearance, and biodeposition of organic material in the innermost parts of estuaries, where it reaches large abundances. These areas are likely to promote and maintain the supply of propagules to the outermost parts, as well as favouring secondary spread along the Galician coast. • Coexistence between native and non-native mussels is common in coastal systems. • Salinity and competition affect physiological responses in the model mussel species. • M. galloprovincialis is a stronger competitor than the invasive X. securis. • Ecosystem function can be enhanced in the inner part of estuaries where X.securis reaches large abundances. [ABSTRACT FROM AUTHOR]

Published

2024

43. Effects of inorganic nitrogen enrichment on soil CH4 and CO2 production in freshwater and mesohaline marshes across six estuaries in China.

Author

Tong, Chuan, Hu, Fang, Zhan, Pengfei, Tan, Ji, Huang, Jiafang, and Tang, Kam W.

Subjects

*MARSHES, *SALT marshes, *NITROGEN in soils, *EXTRACELLULAR enzymes, *PHRAGMITES australis, *COASTAL wetlands, *PHENOL oxidase

Abstract

• Total nitrogen was a key driver in soil CH 4 and CO 2 production in tidal marshes. • Nitrate enrichments tended to decrease CH 4 and CO 2 production. • Nitrate but not ammonium addition decreased mcr A gene abundance. • Salinity was not a mitigating factor in either nitrogen eutrophication scenarios. Eutrophication is an important environmental stressor in coastal wetlands that alters ecosystem processes including primary production and the carbon cycle. However, how different nitrogen eutrophication scenarios may affect CH 4 and CO 2 production along a salinity gradient in coastal wetlands is poorly known. We collected the surface soil samples from both tidal freshwater and mesohaline Phragmites australis marshes in six main estuaries in China and conducted inorganic nitrogen enrichment anaerobic incubation experiments. Background soil CH 4 and CO 2 production rates were strongly correlated with total nitrogen but not salinity. On average, nitrate enrichment decreased soil CH 4 and CO 2 production rates by ca. 20 % in freshwater marsh and 16–43 % in mesohaline marshes, whereas ammonium enrichment decreased CO 2 production by ca. 26–30 % but had no effect on CH 4 production. Salinity was not an important mitigating factor in either eutrophication scenario. In most cases, nitrogen addition decreased the extracellular enzyme activities of β-1,4-glucosidase and cellobiohydrolase, but increased the activity of β-N-acetyl glucosaminidase, phenol oxidase and peroxidase. Nitrate addition decreased the mcr A gene abundance on average by 34–35 % but ammonium addition had insignificant effect. Total nitrogen availability was an important driver of CH 4 and CO 2 production rates in these tidally influenced coastal wetlands. Our results showed that tidal marshes with salinity < 15 ppt had similar soil CH 4 production rates, and increasing inorganic nitrogen eutrophication might lower soil microbial carbon gas production in both tidal freshwater and mesohaline marshes. [ABSTRACT FROM AUTHOR]

Published

2024

44. Organic matter composition and stability in estuarine wetlands depending on soil salinity.

Author

Wu, Lele, Song, Zhaoliang, Wu, Yuntao, Xia, Shaopan, Kuzyakov, Yakov, Hartley, Iain P., Fang, Yunying, Yu, Changxun, Wang, Yidong, Chen, Ji, Guo, Laodong, Li, Zimin, Zhao, Xiangwei, Yang, Xiaomin, Zhang, Zhenqing, Liu, Shuyan, Wang, Weiqi, Ran, Xiangbin, Liu, Cong-Qiang, and Wang, Hailong

Published

2024

45. 反电渗析法发电用离子交换膜技术发展.

Author

朱泊旭, 马昕霞, 李建涛, and 陈凌冲

Subjects

*ION-permeable membranes, *ELECTRODIALYSIS, *ELECTRIC power production, *POWER density

Abstract

This article mainly reviews the preparation methods of ion exchange membranes for electricity generation by reverse electrodialysis. It is reported that under different preparation methods, the obtained ion exchange membranes have different advantages and are suitable for the research status of different working conditions. The application of ion membranes with different properties in RED was analyzed, and the output power of commercial membranes and tailor-made membranes in reverse electrodialysis power generation systems were compared. The ion exchange membrane has high performance such as low membrane resistance, high ion permeation selectivity, and antifouling, which can significantly increase the output power of reverse electrodialysis. The ion exchange membrane plays a decisive role in the output power of the reverse electrodialysis power generation system. The preparation methods of high-performance ion exchange membranes are studied in order to promote the research and further development of ion exchange membrane preparation technology. [ABSTRACT FROM AUTHOR]

Published

2022

46. Sediment Nitrate Dissimilatory Reduction Processes along a Salinity Gradient in an Estuarine and Coastal Wetland, China.

Author

Gao, Lin, Liu, Chen, Li, Mingcong, and Lin, Xianbiao

Subjects

DENITRIFICATION, COASTAL wetlands, SALINITY, SPATIO-temporal variation, SEDIMENTS

Abstract

Nitrate (NO3−) dissimilatory reduction processes (denitrification, anammox and dissimilatory NO3− reduction to ammonium (DNRA)) in estuarine and coastal ecosystems play a crucial role in regulating reactive nitrogen loadings. However, nitrate reduction process rates and relative proportions along the estuarine salinity gradient remain poorly understood. Here, denitrification, anammox and DNRA were explored simultaneously along a salinity gradient in Yangtze Estuary based on nitrogen isotope-tracing experiments. Measured denitrification, anammox and DNRA process rates were in the range of 2.33–28.21 nmol g−1 h−1, 0.43–1.87 nmol g−1 h−1 and 0.28–0.74 nmol g−1 h−1, respectively, with a large spatio-temporal variation. The changes in these nitrate reduction process rates were mainly affected by the TOC, TN, NH4+ and NOx− concentrations, rather than salinity and related functional gene abundance. Denitrification dominated the total NO3− reduction process (67.52 to 93.85%), while anammox (3.67 to 25.01%) and DNRA (2.48 to 11.21%) also played a substantially important role in nitrate reduction. The proportions of denitrification to gross nitrate reduction in high-salinity areas were generally lower than those in freshwater, but the opposite was true for DNRA. Overall, our study reported the simultaneous observation of nitrate dissimilatory reduction processes along the salinity gradient of the estuary and highlighted that changes in sediment environmental variables affected by human activities can alter the distribution patterns of NO3− reduction processes. [ABSTRACT FROM AUTHOR]

Published

2022

47. Microbial Necromass, Lignin, and Glycoproteins for Determining and Optimizing Blue Carbon Formation

Author

Li, Qiang, Song, Zhaoliang, Xia, Shaopan, Kuzyakov, Yakov, Yu, Changxun, Fang, Yunying, Chen, Ji, Wang, Yidong, Shi, Yu, Luo, Yu, Li, Yongchun, Chen, Junhui, Wang, Wei, Zhang, Jianchao, Fu, Xiaoli, Vancov, Tony, Van Zwieten, Lukas, Liu, Cong-Qiang, Wang, Hailong, Li, Qiang, Song, Zhaoliang, Xia, Shaopan, Kuzyakov, Yakov, Yu, Changxun, Fang, Yunying, Chen, Ji, Wang, Yidong, Shi, Yu, Luo, Yu, Li, Yongchun, Chen, Junhui, Wang, Wei, Zhang, Jianchao, Fu, Xiaoli, Vancov, Tony, Van Zwieten, Lukas, Liu, Cong-Qiang, and Wang, Hailong

Abstract

Coastal wetlands contribute to the mitigation of climate change through the sequestration of “blue carbon”. Microbial necromass, lignin, and glycoproteins (i.e., glomalin-related soil proteins (GRSP)), as important components of soil organic carbon (SOC), are sensitive to environmental change. However, their contributions to blue carbon formation and the underlying factors remain largely unresolved. To address this paucity of knowledge, we investigated their contributions to blue carbon formation along a salinity gradient in coastal marshes. Our results revealed decreasing contributions of microbial necromass and lignin to blue carbon as the salinity increased, while GRSP showed an opposite trend. Using random forest models, we showed that their contributions to SOC were dependent on microbial biomass and resource stoichiometry. In N-limited saline soils, contributions of microbial necromass to SOC decreased due to increased N-acquisition enzyme activity. Decreases in lignin contributions were linked to reduced mineral protection offered by short-range-ordered Fe (FeSRO). Partial least-squares path modeling (PLS-PM) further indicated that GRSP could increase microbial necromass and lignin formation by enhancing mineral protection. Our findings have implications for improving the accumulation of refractory and mineral-bound organic matter in coastal wetlands, considering the current scenario of heightened nutrient discharge and sea-level rise.

Published

2024

48. Richness and biomass distribution of the mangrove macroalgal association in a subtropical estuary

Author

Inara Regina Wengratt Mendonça and Paulo da Cunha Lana

Subjects

Bostrychia, Salinity gradient, Hierarchical sampling, Spatial scales, Oceanography, GC1-1581

Abstract

The richness and biomass distribution of mangrove macroalgae were evaluated along the main salinity gradient of the Paranaguá Bay subtropical estuarine complex in southern Brazil. We used a spatially hierarchical design to investigate the spatial scales that contributed most to the variation in richness and biomass within the association. A total of eighteen taxa of macroalgae and cyanobacteria were identified with nonlinear patterns of distribution. While richness correlated with the salinity gradient, algal biomass did not follow the predicted pattern. Conversely, most of the mangrove macroalgae distribution patterns were more related to small-scale processes than to salinity variation. These results indicated that even though coastal regions are exposed to large-scale environmental processes, the somewhat disregarded small-scale processes should be also considered to unravel patterns in biological distributions.

Published

2022

49. Riverine Inputs Impact the Diversity and Population Structure of Heterotrophic Fungus-like Protists and Bacterioplankton in the Coastal Waters of the South China Sea.

Author

Wang, Suisui, Sen, Kalyani, He, Yaodong, Bai, Mohan, and Wang, Guangyi

Subjects

TERRITORIAL waters, PROTISTA, BRACKISH waters, BACTERIOPLANKTON, MARINE ecology, CARBON cycle, HABITATS

Abstract

Labyrinthulomycetes protists (LP) play an important role in ocean carbon cycling with an ubiquitous presence in marine ecosystems. As one of the most important environmental factors, salinity is known to regulate their diverse metabolic activities. However, impacts of salinity gradient on their distribution and ecological functions in natural habitats remain largely unknown. In this study, the dynamics of LP abundance and community structure were examined in the surface water of plume, offshore, and pelagic habitats in the South China Sea (SCS). The highest (5.59 × 105 copies L−1) and lowest (5.28 × 104 copies L−1) abundance of LP were found to occur in the waters of plume and pelagic habitats, respectively. Multiple dimensional scaling (MDS) analysis revealed a strong relationship between salinity and LP community variation (p < 0.05, rho = 0.67). Unexpectedly, relative low LP diversity was detected in the brackish water samples of the plume. Moreover, our results indicated the genus Aplanochytrium dominated LP communities in offshore and pelagic, while Aurantiochytrium and Ulkenia were common in the plume. Physiological and metabolic features of these genera suggested that LP ecological functions were also largely varied along this salinity gradient. Clearly, the salinity gradient likely regulates the diversity and functional partitioning of marine protistan micro-eukaryotes in the world's oceans. [ABSTRACT FROM AUTHOR]

Published

2022

50. Feeding Habits and Short-Term Mobility Patterns of Blue Crab, Callinectes sapidus, Across Invaded Habitats of the Ebro Delta Subjected to Contrasting Salinity.

Author

Prado, Patricia, Ibáñez, Carles, Chen, Lucy, and Caiola, Nuno

Subjects

BLUE crab, SALINITY, MUSSEL culture, FOOD habits, STABLE isotopes, HABITATS, CRUSTACEA, AQUACULTURE

Abstract

The blue crab Callinectes sapidus was first observed in the Ebro Delta in 2012 and since then captures have increased exponentially up to over 2 t per day, while its presence remains low in other Catalonian estuarine areas. Here, we use a stable isotope approach (δ15N and δ13C) to explore the dietary habits of adult blue crab in four different invaded habitats—bays, coastal lagoons, rice field drainage channels, and the Ebro River—in order to assess the strength of bottom-up forces and identify risks for native and aquaculture species, as well as patterns of site fidelity (male individuals). Mixing models showed average contributions of 35.89% from organic matter in sediments, 34.25% from animal resources (fish, crustaceans, gastropods, and bivalves), and 23.84% from vegetal resources (aquatic plants and algae), although there were important differences across habitat sites. In sites where bivalves were available, they can represent up to ca. 75% of the diet, thus threatening natural banks and local oyster and mussel farms. The average estimated trophic position of blue crabs in those sites was only 2.8, which confirms an omnivorous behavior but also can be attributed to the fact that mollusks were rare in the majority of the areas sampled in the Ebro Delta. Crabs from the same habitat site exhibited very little isotopic variability, suggesting that they remain in those environments long enough to reflect local salinity conditions. Overall, our results suggest that blue crabs are likely using all locally available resources and remain in certain sites, even when preferred animal preys are scarce and low-quality items are the main dietary option. [ABSTRACT FROM AUTHOR]

Published

2022