Your search keyword '"Fresh Water"' showing total 90,787 results

1. Populational differences in freshwater prawn Macrobrachium tenellum Smith (Decapoda: Palaemonidae) from three river basins of Oaxaca, Mexico, determined with microsatellite markers

Author

Gutierrez-Mendez, Itandehui, Rodriguez-Magadan, Hector, Martinez-Salazar, Nathali, Garcia-Guerrero, Marcelo, and de los Santos-Romero, Rodolfo

Published

2024

2. First report of Oreochromis niloticus in the Sonora River, Mexico

Author

Castro-Longoria, Reina, Martinez-Durazo, Angel, Minjarez-Osorio, Christian, de la Re-Vega, Enrique, and Grijalva-Chon, Jose Manuel

Published

2024

3. New records on the distribution of the Mexclapique, Girardinichthys viviparus (Bustamante, 1837) (Cyprinodontiformes, Goodeidae), an endangered species in Mexico

Author

López-Segovia, Eduardo, Pérez-Díaz, Jorge, Del Moral-Flores, Luis Fernando, and Hernández-Arellano, Tao

Published

2024

4. Occurrence of chitons (Mollusca, Polyplacophora) in estuaries: first records in Brazil

Author

de Lima, Davi J. Araujo, Maia, Rafaela Camargo, and Jardim, Jaime Alberto

Published

2024

5. Mercury species induce metabolic reprogramming in freshwater diatom Cyclotella meneghiniana

Author

Santos, João P, Li, Weiwei, Keller, Arturo A, and Slaveykova, Vera I

Subjects

Environmental Sciences, Pollution and Contamination, Aetiology, 2.1 Biological and endogenous factors, Mercury, Diatoms, Methylmercury Compounds, Metabolic Reprogramming, Phytoplankton, Fresh Water, Water Pollutants, Chemical, Inorganic mercury, Methylmercury, Bioaccumulation, Metabolomics, Physiological endpoints, Diatom, Chemical Sciences, Engineering, Strategic, Defence & Security Studies, Chemical sciences, Environmental sciences

Abstract

Mercury is a hazardous pollutant of global concern. While advances have been made in identifying the detrimental effects caused by Hg species in phytoplankton, knowledge gaps remain regarding the metabolomic perturbations induced by inorganic mercury (Hg(II)) and monomethylmercury (MeHg) in these organisms. Diatoms represent a major phytoplankton group essential in various global biogeochemical cycles. The current study combined targeted metabolomics, bioaccumulation, and physiological response assays to investigate metabolic perturbations in diatom Cyclotella meneghiniana exposed for 2 h to nanomolar concentrations of Hg(II) and MeHg. Our findings highlight that such exposures induce reprogramming of the metabolism of amino acids, nucleotides, fatty acids, carboxylic acids and antioxidants. These alterations were primarily mercury-species dependent. MeHg exposure induced more pronounced reprogramming of the metabolism of diatoms than Hg(II), which led to less pronounced effects on ROS generation, membrane permeability and chlorophyll concentrations. Hg(II) treatments presented distinct physiological responses, with more robust metabolic perturbations at higher exposures. The present study provides first-time insights into the main metabolic alterations in diatom C. meneghiniana during short-term exposure to Hg species, deepening our understanding of the molecular basis of these perturbations.

Published

2024

6. Life after a fiery death: Fire and plant biomass loading affect dissolved organic matter in experimental ponds

Author

Spiegel, Cody J, Mladenov, Natalie, Wall, Christopher B, Hollman, Kelly, Tran, Cindy H, Symons, Celia C, and Shurin, Jonathan B

Subjects

Ecological Applications, Earth Sciences, Environmental Sciences, Atmospheric Sciences, Geochemistry, Ponds, Biomass, Dissolved Organic Matter, Fresh Water, Organic Chemicals, degradation, dissolved organic carbon, dissolved organic matter, experimental ponds, fluorescence spectroscopy, wildfire, Biological Sciences, Ecology, Biological sciences, Earth sciences, Environmental sciences

Abstract

Drier and hotter conditions linked with anthropogenic climate change can increase wildfire frequency and severity, influencing terrestrial and aquatic carbon cycles at broad spatial and temporal scales. The impacts of wildfire are complex and dependent on several factors that may increase terrestrial deposition and the influx of dissolved organic matter (DOM) from plants into nearby aquatic systems, resulting in the darkening of water color. We tested the effects of plant biomass quantity and its interaction with fire (burned vs. unburned plant biomass) on dissolved organic carbon (DOC) concentration and degradation (biological vs. photochemical) and DOM composition in 400 L freshwater ponds using a gradient experimental design. DOC concentration increased nonlinearly with plant biomass loading in both treatments, with overall higher concentrations (>56 mg/L) in the unburned treatment shortly after plant addition. We also observed nonlinear trends in fluorescence and UV-visible absorbance spectroscopic indices as a function of fire treatment and plant biomass, such as greater humification and specific UV absorbance at 254 nm (a proxy for aromatic DOM) over time. DOM humification occurred gradually over time with less humification in the burned treatment compared to the unburned treatment. Both burned and unburned biomass released noncolored, low molecular weight carbon compounds that were rapidly consumed by microbes. DOC decomposition exhibited a unimodal relationship with plant biomass, with microbes contributing more to DOC loss than photodegradation at intermediate biomass levels (100-300 g). Our findings demonstrate that the quantity of plant biomass leads to nonlinear responses in the dynamics and composition of DOM in experimental ponds that are altered by fire, indicating how disturbances interactively affect DOM processing and its role in aquatic environments.

Published

2024

7. Reservoir ecosystems support large pools of fish biomass

Author

Parisek, Christine A, De Castro, Francine A, Colby, Jordan D, Leidy, George R, Sadro, Steve, and Rypel, Andrew L

Subjects

Environmental Sciences, Environmental Management, Biomass, Animals, Fishes, Ecosystem, Fresh Water, Fisheries, Biodiversity, Conservation of Natural Resources, United States, Humans, Freshwater fisheries, Food security, Sustainability, Environmental change, Reservoir and lake classification, National Reservoir Research Program

Abstract

Humans increasingly dominate Earth's natural freshwater ecosystems, but biomass production of modified ecosystems is rarely studied. We estimate potential fish total standing stock in USA reservoirs is 3.4 billion (B) kg, and approximate annual secondary production is 4.5 B kg y-1. We also observe varied and non-linear trends in reservoir fish biomass over time, thus previous assertions that reservoir fisheries decline over time are not universal. Reservoirs are globally relevant pools of freshwater fisheries, in part due to their immense limnetic footprint and spatial extent. This study further shows that reservoir ecosystems play major roles in food security and fisheries conservation. We encourage additional effort be expended to effectively manage reservoir environments for the good of humanity, biodiversity, and fish conservation.

Published

2024

8. Analysis of distillate yield on solar still.

Author

Chandra, Ryan, Ambarita, Himsar, Sihombing, Hendrik V., and Sibagariang, Yogie P.

Subjects

*FRESH water, *DRINKING water, *FOSSIL fuels, *WATER use, *RENEWABLE energy sources, *SOLAR stills, *SALINE water conversion

Abstract

Water is a necessity that cannot be separated from human life. Water is used in human daily activities such as cooking, bathing, washing, and especially for drinking water. However,some of the water have been contaminated by soil, germs, bacteria or small solids. And most of the energy sources used come from fossil fuels, which is non- renewable energy and are not environmentally friendly One method that can be used to obtain clean water is by solar still desalination, but the problem is low rate of fresh water production. The process of increasing the rate of fresh water production can be carried out if mathematical modelling that can explain the desalination processwell has been obtained. The objective of the present research is to evaluate the commonly used model (Dunkle, Chen, Clark, Adhikari, Kumar Tiwari, Narjes, Rahbar) in terms fresh water productivity, and the mathematical model was validated using experimental data which was carried out for three days. The results showed that of the 7 equations evaluated, the equations that were close to the experimental data were different for the three test days, and had a high percentage of error in fresh water productivity. [ABSTRACT FROM AUTHOR]

Published

2024

9. Energy and economic analysis of semi cylindrical and single slope solar still.

Author

Yugbodh, Kshitij, Agrawal, Rahul, Ahmed, Syed Faisal, Jain, Ekta, and Sarangapani, Kennedy

Subjects

*DRINKING water, *SALINE waters, *FRESH water, *ENERGY consumption, *HUMAN beings, *SOLAR stills, *SALINE water conversion

Abstract

Availability of pure and potable water is a big concern in present scenario. The availability of the required fresh water is not enough to fulfill the requirement of the human being. Conventional methods of the desalinations are costly and have adverse impact on the environment. Solar desalination process used to get potable water from the saline water. In this paper experimental comparative analysis has been performed between Semi cylindrical solar Still (SCSS) and Single Slope Solar Still (SSSS). The results for the experimental analysis shows that SCSS having 3.16kg/m2 which is 79% higher than SSSS. The energy efficiency of the SCSS is 49%. The CPL of the SCSS and SSSS are.87Rs/l and 1.17 Rs/l respectively. The design factor plays an important part in all the above mentioned results. Conventional solar Stills (CSS) shows poor water yield in comparison of the SCSS. [ABSTRACT FROM AUTHOR]

Published

2024

10. Performance of a solar parabolic dish concentrator used for water desalination in Al-Diwaniyah, Iraq.

Author

Qaid, Ahmed Raheem, Baqir, Ali Shakir, and Almoussawi, Montadhar

Subjects

*PARABOLIC reflectors, *BRACKISH waters, *FRESH water, *SOLAR radiation, *SALINE waters, *SOLAR concentrators

Abstract

A solar parabolic dish concentrator is designed and manufactured to desalinate the saline and brackish water to produce fresh water. The system consists of a solar parabolic dish concentrator with a sun-trucking system, a steam generator (absorber), in addition to a heat exchanger (condenser) to condense the generated steam and convert it to water. The distillation products were measured to assess the environmental and operational effects, which include the intensity of solar radiation, ambient temperature, and wind speed under the climatic conditions of the city of Diwaniyah, Iraq, in three different months (March, April, and May) of 2022. The maximum productivity was obtained during the month of May at 9.97 liters/day, with an average solar radiation of 801.5 W/m2 with an average operating of 6 hours of the distillation system. It was noted through the experimental results that there is an insignificant effect of air temperature and wind speed on the efficiency of the system. The desalinated water was examined, and it was found that it conformed to the recommendations of the World Health Organization. [ABSTRACT FROM AUTHOR]

Published

2024

11. STOP THE TRAIN BEFORE IT'S TOO LATE: One of the world's biggest infrastructure projects is racing ahead, despite court orders to halt construction. Conservationists fear that a train line looping around the Yucatan Peninsula is going to wreak havoc on the fragile Mexican cenotes, the jungle above and the coral reefs that border the coast

Author

Russell, Mark

Subjects

Fresh water, Aquifers, Infrastructure (Economics), Coral reefs and islands, Courts -- Mexico, Archaeology, Environmentalists, Geography

Abstract

On 19 June this year, Mexico's First District Court issued an order to halt construction on Section 5 South of Tren Maya--the Mayan Train. It's at least the sixth time [...]

Published

2024

12. The Ultimate Guide to Our Area's Sandbars: A deep dive into shallow water

Author

Wallace, Hannah

Subjects

Fresh water, General interest

Abstract

Dredging spoils, storm-shaped shoals and even a freshwater spring in the middle of the salty Gulf... our sandbars are a many-splendored bunch. As are the crowds they attract. Whether you [...]

Published

2024

13. FISH BIODIVERSITY IN MODIFIED ECOSYSTEMS: A CASE STUDY OF NIGERIA'S CHALLAWA AND TIGA DAMS IN THE CHALLAWA AND KANO RIVERS

Subjects

Fresh water, Dams -- Environmental aspects -- Nigeria, Fishes -- Environmental aspects, Biological diversity -- Research, Agricultural industry, Food/cooking/nutrition, Health

Abstract

River impoundment is usually accompanied with consequences of alteration in the hydrological system and change in the biodiversity composition of the ecosystem. This study investigated the impact of the dams built on Challawa (that is, Challawa George-Dam) and Kano (that is, Tiga Dam) on the fish biodiversity of the reservoir and below-dam sections of the two rivers. Fish sampling was done using long lines, Malian traps, cast and gill nets from stations on the reservoir and below-dam sections of the rivers. Ten fish species were identified from the reservoir and the below-dam sections of Challawa River belonging to nine families and four orders. Fish communities of the reservoir and below-dam sections of Kano River consisted of 28 species belonging to 12 families and 7 orders. Results of the Shannon diversity index (H') indicated that the two reservoirs have relatively higher fish species diversity measures (that is, Challawa=1.948 & Kano=2.294) than the below-dam parts (that is, Challawa=1.833 & Kano=2.247) of their respective rivers. Non-metric Multidimensional Scaling (NMDS) analysis produced two-dimensional maps with stress values of 0.0554 and 0.0537, an indication that the model provided good representation of the original data in reduced-dimensional space. The ordination map indicated wide dissimilarities between fish communities of the impounded and below-dam sections. Furthermore, a one-way analysis of similarity indicated significant difference (P=0.0001) and high dissimilarities (R=0.643) between fish communities in the two sections of Challawa River and also in Kano River (P=0.001, R=0.929). Analysis of Similarity Percentage indicated 74.45% of the dissmilarities between fish communities in the two sections were cummulatively contributed by four species in Challawa River and 72.18% by five species in Kano River. The distinct differences in fish abundance and richness between the two sections is ascribed to increased ecosytem productivity often associated with the inundated portion of dammed river. It is recommended that more water flow across the dams should be encouraged as a mitigating measure to boost basin sizes of the rivers at the below-dam sections. Key words: Diversity, dam, impound, reservoir, community, freshwater and fish species, INTRODUCTION Anthropogenic activities are major factors behind the fast deteriorating state of world's freshwater bodies[1]. The strive by many sub-Saharan Africa countries to attain food security and rural development places [...]

Published

2024

14. Biodegradation of human faecal sludge for photosynthetic bioelectricity generation and seawater desalination in a microbial desalination cell.

Author

Danaee, Soroosh, Naghoosi, Hamed, Badali Varzaghani, Neda, and Vo, Phong H. N.

Subjects

CLEAN energy, RENEWABLE energy sources, SALINE waters, MICROBIAL cells, FRESH water

Abstract

Inaccessibility and expensiveness of vital infrastructures are the main problems in some urban and rural areas to supply fresh water, sustainable energy, and wastewater treatment. An effective solution is the integration of several systems in an environmentally friendly technology of the photosynthetic microbial desalination cell (PMDC). The aim of this study is to assess the process characterisation of an algae-based PMDC, which was loaded with a high-strength mixture of human feces and urine (HFS). The PMDC was also able to efficiently remove COD and total nitrogen of HFS by 50% and 94%, respectively. The maximum power density, voltage, and desalination efficiency of 362.5 mW/m², 175.2 mV, and 60% were accomplished. Adequate parameter adjustment led to a remarkable maximum of 2.25 g/L.d in the ion removal rate. In addition, an energy balance was governed showing that zero or positive net energy in PMDC is feasible by replacing the main energy consumers. Based on the results, this type of MDC had a high efficiency for simultaneous saline water desalination and HFS treatment, which makes it attractive for further studies of upscaling and its application in remote areas. [ABSTRACT FROM AUTHOR]

Published

2024

15. Temperature and light timing effects on diapause progression in Daphnia magna.

Author

Chen, Luxi, Gómez, Rocío, Horstmann, Martin, and Weiss, Linda C.

Subjects

*EMBRYOLOGY, *DAPHNIA, *CRUSTACEA, *EMBRYOS, *FRESH water, *DAPHNIA magna

Abstract

Diapause is a survival strategy for freshwater crustaceans in the genus Daphnia that involves a genetically encoded inhibition of organism growth, development and reproduction. While the environmental triggers for Daphnia to produce diapause‐destined embryos and those that induce hatching are well documented, the influence of environmental challenges during different diapause sub‐phases remains unexplored. In this study, we exposed diapause‐destined embryos of Daphnia magna to different temperatures and light conditions during designated diapause sub‐phases. Our results underscore the importance of the maternal environment for the embryos that are in preparation for diapause. Moreover, we demonstrate a period of obligate developmental arrest during which reinitiation of development cannot be triggered. Additionally, we illustrate the embryos' ability to adjust hatching in response to environmental changes during the hatching process. This study reveals the inherent developmental pattern in Daphnia embryos as they progress through diapause and their adaptability to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Freshwater ‘microcroissants’ shed light on a novel higher-level clade within the Trebouxiophyceae and reveal the genus <italic>Chlorolobion</italic> to be a trebouxiophyte.

Author

Barcytė, Dovilė, Hodač, Ladislav, and Eliáš, Marek

Subjects

*GREEN algae, *RECOMBINANT DNA, *PHYLOGENY, *ALGAE, *FRESH water

Abstract

\nHighlightsThe Trebouxiophyceae is a widespread and species-rich green algal class encompassing mostly coccoid algae with a simple spherical, ovoid or ellipsoidal outline. However, some poorly sampled lineages have evolved more elaborate shapes or even complex thalli, adding to the morphological diversity of the class. By investigating new and previously established strains, this study expands the range of morphologies exhibited by the class members by uncovering a clade of croissant-like trebouxiophytes. Phylogenetic analyses inferred from nuclear 18S rDNA and chloroplast rbcL sequences confirmed the monophyly of the ‘microcroissant’ clade, which we propose to be classified as a new family, Ragelichloridaceae. This family includes two novel genera, Ragelichloris and Navichloris, and the previously described Thorsmoerkia. The position of Ragelichloridaceae within Trebouxiophyceae stayed unresolved but chloroplast phylogenomics showed that the family belongs to the broader incertae sedis group that also includes Xylochloris and Leptosira. In addition, our study showed that the similar morphotype-bearing genus Chlorolobion, previously classified within Chlorophyceae, is a genuine trebouxiophyte, potentially related to Ragelichloridaceae. A new family-level clade uncovered within the Trebouxiophyceae.Two new genera, Ragelichloris and Navichloris, are described.The genus Chlorolobion is shown to be a trebouxiophyte.A new family-level clade uncovered within the Trebouxiophyceae.Two new genera, Ragelichloris and Navichloris, are described.The genus Chlorolobion is shown to be a trebouxiophyte. [ABSTRACT FROM AUTHOR]

Published

2024

17. Range maps and waterbody occupancy data for 1158 freshwater macroinvertebrate genera in the contiguous USA.

Author

Brown, Ethan A., Hellenthal, Ronald A., Mahon, Michael B., Rumschlag, Samantha L., and Rohr, Jason R.

Subjects

AQUATIC resources, FRESH water, AQUATIC invertebrates, MAPS, BIODIVERSITY conservation, ARITHMETIC mean, ESTUARIES

Abstract

Range maps are used to estimate the geographic extent of taxa, providing valuable information for biodiversity and conservation research and management. Freshwater macroinvertebrates are not well-represented in the range map literature relative to freshwater vertebrates. To address this knowledge gap, we provide range maps for 1158 freshwater macroinvertebrate genera based on two decades of publicly available occurrence data from the USEPA National Aquatic Resource Surveys, which included 11,628 sites and 6,906,990 organisms across the contiguous USA. Maps were created by applying unweighted and weighted pair group method with arithmetic mean clustering and single-linkage clustering algorithms to the occurrence data and creating three layers of polygons from the minimum convex hulls of clusters. A total of 25 freshwater macroinvertebrate classes are represented in the range map dataset. Most mapped genera were insects (394/1158), followed by malacostracans (242/1158), polychaetes (182/1158), and bivalves (121/1158). Additionally, we provide waterbody type percent occupancy data for all genera, detailing how genera are partitioned between boatable streams, wadeable streams, inland lakes, Laurentian Great Lakes, and coastal estuaries. [ABSTRACT FROM AUTHOR]

Published

2024

18. Identifying barriers to installing above-ground rainwater tanks in urban households in Aotearoa New Zealand: a segmentation approach.

Author

McLeod, Lynette J., Dorner, Zack, Hine, Donald W., Kitson, Jane C., Milfont, Taciano L., Stahlmann-Brown, Philip, and Tassell-Matamua, Natasha A.

Subjects

*CITY dwellers, *SUSTAINABLE communities, *PRIVATE property, *SUSTAINABLE urban development, *FRESH water

Abstract

Urbanisation poses numerous challenges to fresh water biodiversity, and installation of above-ground rainwater tanks on private properties is one important tool for addressing these challenges. In this paper, we used an online survey targeting a representative sample of 1291 urban residents to investigate their underlying capabilities, opportunities, and motivations for installation of above-ground rainwater tanks on their properties. Only 221 (17%) of the 1,291 respondents already had an above-ground rainwater tank installed on their property. By segmenting on behavioural variables, we found that those urban residents who currently did not have a water tank on their property were not homogeneous. We identified three audience segments, ‘Supportive’ (19%), ‘Receptive’ (59%) and ‘Reluctant’ (22%), each with their own unique driver and barrier combination to rainwater tank installation. Suitable leverage points and behaviour change tools (e.g. education, enablement, incentivisation) and message framing (environmental, community, or functional benefits) are identified for each segment. [ABSTRACT FROM AUTHOR]

Published

2024

19. Performance analysis of floating bifacial stand-alone photovoltaic module in tropical freshwater systems of Southern Asia: an experimental study.

Author

Pandian, Ganesan Rathinavel, Balachandran, Gurukarthik Babu, David, Prince Winston, and K, Sangeetha

Subjects

*CLEAN energy, *FRESH water, *RESPONSE surfaces (Statistics), *SOLAR panels, *PHOTOVOLTAIC power systems, *PHOTOVOLTAIC cells, *OFFSHORE wind power plants

Abstract

The optimization of floating bifacial solar panels (FBS PV) in tropical freshwater systems is explored by employing response surface methodology (RSM) and central composite design (CCD). Previous studies have yet to explore the long-term durability, environmental impact, economic viability, and performance of FBS PV systems under various climatic conditions. This study addresses this gap by focusing on panel height, water depth, and tilt angle to improve performance. The quadratic model reveals significant non-linear relationships impacting FBS PV power generation with freshwater cooling. Our models demonstrate high explanatory power, with R-squared values of 0.9831 for output power and 0.9900 for Bi-Facial gain. Experimental validation using conventional white surface (CWS) and proposed freshwater surface (PFS) indicates notable improvements in power generation, achieving a 4.34 to 4.86% gain in bifacial efficiency across various irradiation levels. Under 950 W/m2 irradiation, freshwater cooling achieves a 3.19% higher bifacial gain compared to CWS cooling. Panel temperature analysis shows consistent reductions with freshwater cooling, ranging from 1.43 to 2.72 °C, enhancing overall efficiency and longevity. This research highlights the potential of freshwater cooling in optimizing bifacial solar systems, offering actionable insights for sustainable energy solutions in tropical regions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Quantifying regulatory limits for multiple stressors in an open and transparent way.

Author

Stoffels, Rick J. and White, Richard S. A.

Subjects

*ENVIRONMENTAL degradation, *WATER quality, *ENVIRONMENTAL policy, *ECOLOGICAL models, *FRESH water

Abstract

Biodiversity is confronted globally by multiple stressors. Environmental policies must regulate these stressors to achieve targets, but how should that be done when the outcomes of limits on one stressor are contingent on other stressors, about which there is imperfect knowledge? Deriving regulatory frameworks that incorporate these contingencies is an emerging challenge at the science–policy interface. To be fit for implementation, these frameworks need to facilitate the inherently sociopolitical process of policy implementation and account transparently for uncertainty, such that practitioners and other stakeholders can more realistically anticipate the range of potential outcomes to policy. We developed an approach to quantify stressor limits that explicitly accounts for multistressor contingencies. Using an invertebrate data set collected over 30 years throughout New Zealand, we combined ecological and ecotoxicological models to predict biodiversity loss as a function of one stressor, treating multistressor contingencies as a form of uncertainty about the outcomes of limits on that stressor. We transparently accounted for that uncertainty by presenting regulatory limits as bands bounded between optimistic and pessimistic views that practitioners may have about the local context within which limits are applied. In addition to transparently accounting for uncertainties, our framework also leaves room for practitioners to build stakeholder consensus when refining limits to suit different local contexts. A criticism of this open, transparent approach is that it creates too much scope for choosing limits that are lenient on polluters, paralyzing on‐the‐ground management of multiple stressors, but we demonstrate that this is not necessarily the case. [ABSTRACT FROM AUTHOR]

Published

2024

21. Simultaneously predicting SPAD and water content in rice leaves using hyperspectral imaging with deep multi‐task regression and transfer component analysis.

Author

Zhai, Yuanning, Wang, Jun, Zhou, Lei, Zhang, Xincheng, Ren, Yun, Qi, Hengnian, and Zhang, Chu

Subjects

*CHLOROPHYLL in water, *CONVOLUTIONAL neural networks, *TRANSFER of training, *FRESH water, *PLANT development, *PARTIAL least squares regression

Abstract

BACKGROUND RESULTS CONCLUSION Water content and chlorophyll content are important indicators for monitoring rice growth status. Simultaneous detection of water content and chlorophyll content is of significance. Different varieties of rice show differences in phenotype, resulting in the difficulties of establishing a universal model. In this study, hyperspectral imaging was used to detect the Soil and Plant Analyzer Development (SPAD) values and water content of fresh rice leaves of three rice varieties (Jiahua 1, Xiushui 121 and Xiushui 134).Both partial least squares regression and convolutional neural networks were used to establish single‐task and multi‐task models. Transfer component analysis (TCA) was used as transfer learning to learn the common features to achieve an approximate identical distribution between any two varieties. Single‐task and multi‐task models were also built using the features of the source domain, and these models were applied to the target domain. These results indicated that for models of each rice variety the prediction accuracy of most multi‐task models was close to that of single‐task models. As for TCA, the results showed that the single‐task model achieved good performance for all transfer learning tasks.Compared with the original model, good and differentiated results were obtained for the models using features learned by TCA for both the source domain and target domain. The multi‐task models could be constructed to predict SPAD values and water content simultaneously and then transferred to another rice variety, which could improve the efficiency of model construction and realize rapid detection of rice growth indicators. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

22. Coassembly and binning of a twenty-year metagenomic time-series from Lake Mendota.

Author

Oliver, Tiffany, Varghese, Neha, Roux, Simon, Schulz, Frederik, Huntemann, Marcel, Clum, Alicia, Foster, Brian, Foster, Bryce, Riley, Robert, LaButti, Kurt, Egan, Robert, Hajek, Patrick, Mukherjee, Supratim, Ovchinnikova, Galina, Reddy, T. B. K., Calhoun, Sara, Hayes, Richard D., Rohwer, Robin R., Zhou, Zhichao, and Daum, Chris

Subjects

METAGENOMICS, MICROBIAL communities, ECOSYSTEM dynamics, ECOLOGICAL disturbances, LAKES, DATA binning, FRESH water

Abstract

The North Temperate Lakes Long-Term Ecological Research (NTL-LTER) program has been extensively used to improve understanding of how aquatic ecosystems respond to environmental stressors, climate fluctuations, and human activities. Here, we report on the metagenomes of samples collected between 2000 and 2019 from Lake Mendota, a freshwater eutrophic lake within the NTL-LTER site. We utilized the distributed metagenome assembler MetaHipMer to coassemble over 10 terabases (Tbp) of data from 471 individual Illumina-sequenced metagenomes. A total of 95,523,664 contigs were assembled and binned to generate 1,894 non-redundant metagenome-assembled genomes (MAGs) with ≥50% completeness and ≤10% contamination. Phylogenomic analysis revealed that the MAGs were nearly exclusively bacterial, dominated by Pseudomonadota (Proteobacteria, N = 623) and Bacteroidota (N = 321). Nine eukaryotic MAGs were identified by eukCC with six assigned to the phylum Chlorophyta. Additionally, 6,350 high-quality viral sequences were identified by geNomad with the majority classified in the phylum Uroviricota. This expansive coassembled metagenomic dataset provides an unprecedented foundation to advance understanding of microbial communities in freshwater ecosystems and explore temporal ecosystem dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

23. Framework for Regional to Global Extension of Optical Water Types for Remote Sensing of Optically Complex Transitional Water Bodies.

Author

Atwood, Elizabeth C., Jackson, Thomas, Laurenson, Angus, Jönsson, Bror F., Spyrakos, Evangelos, Jiang, Dalin, Sent, Giulia, Selmes, Nick, Simis, Stefan, Danne, Olaf, Tyler, Andrew, and Groom, Steve

Subjects

*BODIES of water, *WATER quality monitoring, *WATER quality, *GOVERNMENT policy on climate change, *FRESH water

Abstract

Water quality indicator algorithms often separate marine and freshwater systems, introducing artificial boundaries and artifacts in the freshwater to ocean continuum. Building upon the Ocean Colour- (OC) and Lakes Climate Change Initiative (CCI) projects, we propose an improved tool to assess the interactions across river–sea transition zones. Fuzzy clustering methods are used to generate optical water types (OWT) representing spectrally distinct water reflectance classes, occurring within a given region and period (here 2016–2021), which are then utilized to assign membership values to every OWT class for each pixel and seamlessly blend optimal in-water algorithms across the region. This allows a more flexible representation of water provinces across transition zones than classic hard clustering techniques. Improvements deal with expanded sensor spectral band-sets, such as Sentinel-3 OLCI, and increased spatial resolution with Sentinel-2 MSI high-resolution data. Regional clustering was found to be necessary to capture site-specific characteristics, and a method was developed to compare and merge regional cluster sets into a pan-regional representative OWT set. Fuzzy clustering OWT timeseries data allow unique insights into optical regime changes within a lagoon, estuary, or delta system, and can be used as a basis to improve WQ algorithm performance. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effects of Short-Term Differences in Concentrate Feeding on the Recovery of In Vivo Embryos in Hanwoo Donor Cows through Superovulation Treatment.

Author

Ha, Seungmin, Kim, Namtae, Park, Mi-Ryung, Lee, Seyoung, Cho, Sang-Rae, Song, Huimang, Jin, Daehyeok, Kim, Ui-Hyung, and Ko, Yeoung-Gyu

Subjects

*BLOOD urea nitrogen, *CONCENTRATE feeds, *EMBRYO transfer, *FRESH water, *OVUM

Abstract

Simple Summary: Superovulation is a hormonal treatment used to produce multiple oocytes in cows simultaneously, which is essential for embryo transfer. Its success depends on various factors such as hormone levels, protocols, timing of insemination, weather, and nutrition. However, the impact of feed changes, specifically the energy levels in the concentrate, on embryo production is not well understood. This study explores how changes in concentrate intake, with unlimited access to hay, affect embryo production in indigenous Korean (Hanwoo) cows. We compared embryo production and physiological changes between cows with altered concentrate intake and those with consistent intake. The results offer new insights for managing superovulation in relation to feed concentrate. Superovulation is a technique used to increase the number of oocytes released for fertilization. This study investigated the effects of short-term differences in concentrate feed intake on in vivo embryo production through superovulation in indigenous Korean (Hanwoo) cows. The cows were given fresh water and hay ad libitum and randomly divided into three groups (control (CON, n = 9): 2.0 kg/day (unchanged diet); low concentrate (LC, n = 10): 0 kg/day; and high concentrate (HC, n = 8): 4.0 kg/day) according to the amount of formula they were fed. This feeding treatment began seven days before the start of the hormonal treatment for superovulation. From the results, the LC group had the greatest weight change and the lowest body condition score at harvest, followed by the CON and HC groups (p < 0.05). The LC group had the highest number of harvesting embryos, followed by the HC and CON groups (p < 0.05). Estradiol, progesterone, glucose, total cholesterol, high-density lipoprotein, low-density lipoprotein, total protein, and blood urea nitrogen concentrations did not differ between the groups, except for a temporary increase in the HC group on day 0. These findings suggest that more embryos may be harvested when short-term changes in concentrate intake are made during superovulatory responses in Hanwoo cows. [ABSTRACT FROM AUTHOR]

Published

2024

25. Histomorphological and Dynamical Changes in Female River Lampreys during Maturation under Controlled Conditions as a Part of Lamprey Restoration Programs.

Author

Nowosad, Joanna, Kujawa, Roman, Sherzada, Shahid, Kucharczyk, Dariusz, Mikiewicz, Mateusz, Dryl, Katarzyna, Kapusta, Andrzej, Łuczyńska, Joanna, and Abdel-Latif, Hany M. R.

Subjects

*BIOLOGICAL extinction, *DIGESTIVE organs, *AQUATIC animals, *LAMPREYS, *FRESH water, *GONADS, *SPAWNING

Abstract

Simple Summary: Lampreys are a group of about 40 species found all over the world. One representative of this group is the river lamprey, which spends its larvae life initially in fresh water and then in the sea. For spawning, which is the end of their last migration, they return to fresh water. The spawning migration period lasts many months, during which the lampreys do not eat and many changes occur in their bodies. However, knowledge of these processes and their dynamics has not been studied and described, and this is the basis for preparing programs for the restitution of lampreys and their artificial reproduction under controlled conditions. This paper describes the changes occurring during spawning migration in female river lampreys, including the development of ovaries, changes in the liver, and atrophy of the digestive system. More than 40 species of lampreys (Petromyzontiformes) are known worldwide. Some of them are parasitic and feed on the blood of fish or other aquatic animals. Lampreys spawn once in their lifetime, after which they die. One of the representatives of the ichthyofauna of European rivers is the river lamprey, Lampetra fluviatilis. The river lamprey is now an endangered species due to loss and degradation of their habitats. The present study investigated gonadal development without hormonal stimulation in female river lampreys during puberty under controlled conditions for a period of seven months. Female river lampreys were kept in conditions that mimicked the natural environment. During the November–May period, samples were taken monthly to determine the extent of gonadal development and gastrointestinal and liver changes using histological examination. From the results obtained, the dynamical changes were determined for the following: gonadosomatic index (GSI; %), hepatosomatic index (his; %), and digestivesomatic index (DSI; %). With the gonadal development of female lampreys, an increase in GSI (7–23%; November–May) and a decrease in DSI (0.4–0.1%; November–May) histological changes were observed in the gonads (oocyte development), intestines (over time, decreased lipid vacuoles and enterocyte apoptosis), and in the liver (decreased lipid vacuoles and hepatocyte apoptosis over time) and in the digestive system resulting from its degradation. Also, it was observed that there was a change in the color of the liver to green in April. This study demonstrated the key role of the liver in the oocyte maturation process in this species. [ABSTRACT FROM AUTHOR]

Published

2024

26. Species–environment sorting explains latitudinal patterns in spatiotemporal β‐diversity for freshwater macroinvertebrates.

Author

He, Siwen, Wang, Beixin, Chen, Kai, Li, Ning, and Soininen, Janne

Subjects

*BIOTIC communities, *LATITUDE, *FRESH water, *HETEROGENEITY, *INVERTEBRATES

Abstract

Understanding how and why β‐diversity varies along latitude is a long‐standing challenge in community ecology and rarely addressed in both space and time. We aimed to explore the spatiotemporal variations in macroinvertebrate β‐diversity and their underlying drivers in eight biogeographic regions covering a substantial latitudinal gradient of more than 40 degrees. By combining β‐diversity partitioning and distance decay of community similarity analyses, we found that subtropical β‐diversity varies more in space relative to variation in time compared with temperate β‐diversity, as we predicted. This is probably because subtropical β‐diversity is shaped by species–environment sorting (SS), caused by habitat heterogeneity and species specialization, more strongly in space relative to time than temperate β‐diversity. Our study highlights the importance of SS in shaping latitudinal gradients of β‐diversity in space and time. [ABSTRACT FROM AUTHOR]

Published

2024

27. The rise of 3D/4D-printed water harvesting materials.

Author

Vaghasiya, Jayraj V. and Pumera, Martin

Subjects

*PRINT materials, *ACADEMIC motivation, *ENGINEERING design, *STRUCTURAL engineering, *FRESH water

Abstract

This review offers insights into the recent advancements of 3D/4D printed materials for fog collection and solar vapor generation devices. It presents a comprehensive overview of various material properties, device engineering aspects, printing technologies, practical challenges, and future prospects. [Display omitted] • Exploration of additive manufacturing technology in advanced water harvesting systems. • Utilization of 3D/4D printing materials for improved fog harvesting and solar vapor generation devices. • Examination of various material properties and device design engineering to optimize water harvesting performance. • Discussion on strategies for autonomous freshwater collection. The incorporation of cutting-edge technology in developing diverse water harvesters enhances the efficiency of water harvesting systems. Fog harvesting device (FHD) and solar vapor generation device (SVGD) have emerged as environmentally friendly, cost-effective, and efficient methods for generating clean and fresh water, gaining significant attention in recent years. Additionally, there has been extensive reporting on various fog harvesters and photothermal materials, and their structural designs to enhance the efficiency of water harvesting systems. Notably, the exploration of three-dimensional (3D)/four-dimensional (4D) printed FHD and SVGD represents a crucial research avenue in this field. This comprehensive review meticulously investigates recent advancements in designing and engineering 3D/4D printed materials, specifically tailored to enhance water harvesting efficiency. We present an overview of 3D printed materials and designs featuring diverse surface properties to enhance the effectiveness of FHD and SVGDs. The working principles of both systems and key considerations for designing new FHD and SVGD are explored. We investigate a variety of 3D printed materials optimized for fog collection and vapor generation, evaluating their performance based on structural engineering and surface properties. The review also emphasizes 4D printed materials, highlighting their potential for continuous water harvesting from day to night. In conclusion, the review furnishes a comprehensive summary, providing insights into current research, accomplishments, and future challenges in the realm of 3D/4D printed materials for water harvesting. We believe that this information serves as valuable education and motivation for new researchers and the scientific community. [ABSTRACT FROM AUTHOR]

Published

2024

28. Zero-Emissions, Off-grid, Autonomous Houseboat – a Case Study of Selected Locations in Europe.

Author

Gorzka, Jakub, Karczewski, Artur, Litwin, Wojciech, Matej-Łukowicz, Karolina, Nawrot, Nicole, Nyka, Lucyna, and Piątek, Łukasz

Subjects

*SUSTAINABILITY, *BODIES of water, *WATER purification, *FRESH water, *ELECTRIC power distribution grids

Abstract

The aim of this study was to assess the feasibility of creating a prototype of a self-sufficient houseboat that is capable of prolonged independence from power grids and freshwater sources. In this design, electricity demand is met by a photovoltaic installation, and the energy is stored in batteries. Fresh water for living needs may be obtained from many sources, depending on the environmental conditions, such as through purifying outboard water, desalinating seawater, and collecting and storing rainwater. No waste production of the vessel can be achieved in two ways: waste can be treated and discharged into a body of water, or processed into fertiliser for later use in agriculture. Four possible locations were analysed: Rome, Lisbon, Gdańsk and Stockholm. The findings reveal that the length of time for which the unit is autonomous and emission-free depends on the geographical location of the facility. In periods when there is overproduction of energy, the system can produce hydrogen, donate energy to the grid, use it for the needs of its own movement, or perform other useful work, e.g. cleaning or aerating the water body on which it is floating. [ABSTRACT FROM AUTHOR]

Published

2024

29. The Chinese Freshwater Jellyfish Unbound: Evolution, Nomenclature, and Bioinvasion of Craspedacusta sowerbii, 1880–1941.

Author

Luk, Christine Y. L.

Subjects

*JELLYFISHES, *HUMAN-animal relationships, *BIOLOGICAL invasions, *MARINE biology, *FRESH water

Abstract

Jellyfish are commonly known as dangerous sea creatures that humans should avoid. Focusing on the newly discovered freshwater jellyfish in the late nineteenth century, this article explores a global history of Craspedacusta sowerbii, a species native to China first noted in nineteenth-century Britain but since traveling the world over. The worldwide distribution of C. sowerbii, as both polyps and medusae, made it a global subject of scientific inquiry. However, no independent study has examined the history behind the origin, circulation, and implication of the freshwater jellyfish and its relationship with marine types. The late nineteenth century was the period when our premodern knowledge of jellyfish transformed from it being purely a marine life to the modern recognition of jellyfish as both marine and freshwater organisms, triggered by the discovery and discussion of the Chinese freshwater jellyfish C. sowerbii among naturalists and philosophers. This article focuses on Arthur de Carle Sowerby's engagement with C. sowerbii in terms of narratives of evolution, nomenclature, and bioinvasion between 1880 and 1941. I argue that jellyfish, as a lowly form of invertebrates, should be taken more seriously by historians of modern China and historians of biology who are interested in the diverse roles of animals in shaping human–animal interactions in the Anthropocene. While the scientific research of jellyfish's global bloom abounds, the interpretation of the global rise of jellyfish could benefit from a historically and culturally bound analysis of this classical animal. This is particularly so as scientists recognized the diverse perceptions of jellyfish. The global jellyfish bloom requires historical perspectives on a topic that has hitherto received scant attention from historians of science. [ABSTRACT FROM AUTHOR]

Published

2024

30. Water, War & Peace in the Middle East: 30 Years On.

Author

Gleick, Peter H.

Subjects

*GEOGRAPHIC boundaries, *WAR, *WATERSHEDS, *PEACE, *FRESH water

Abstract

In 1994, Water, War & Peace in the Middle East was published on these pages. Thirty years later, it is an important moment to consider what has changed, what has stayed largely the same, and how to think about the continuing role of water in the dynamic and difficult politics of the region. Freshwater resources there are scarce, variable, and every major river and groundwater basin crosses international boundaries. With some exceptions, over the last 30 years water conditions and political relationships have deteriorated, and violence has surged. The conclusion of the 1994 article remains true: "The opportunity for conflict over water in the Middle East is high, but peaceful, effective cooperation remains a goal worth striving for." [ABSTRACT FROM AUTHOR]

Published

2024

31. Economics, environmental foot print and sustainability of community scale solar desalination plant in water scarce Somalia coastal regions.

Author

Hilarydoss, Sharon, Nishant, Kavalla, and Nahak, Subrat Kumar

Subjects

DRINKING water, WATER supply, LOW-income countries, FRESH water, PLANT size, SALINE water conversion

Abstract

Clean water supply in low-income countries can be improved by utilizing affordable renewable energy-powered desalination technologies. In this research work, viability of community scale solar desalination plant (at least 3.0 m3/d capacity) capable of addressing the daily fresh water demands of hundred families in twenty three coastal locations of Somalia has been investigated through year-round simulations. The required desalination plant size and investment is heavily dependent on solar radiation potential of the site. The potable water production cost ranges between 8.66 to 9.48 USD/m3, and is lower than the nonreliable conventional water supply cost in eighteen Somalia coastal locations. Moreover, the desalination plant can sooth at least 2.5 to 13.6-kilo tons of CO2 emission, 6.0 to 33.3-tons of SO2 emission and, 2.30 to 12.6-tons of NOX emission during its 5.0 to 25.0 years operation period. The sustainability index and finance payback time of community scale solar desalination plant is about 1.08, and 4.0 to 13.0 years, respectively. The economics and environmental foot print results indicate feasibility and potential application of community scale solar desalination plant in water starved Somalia coastal locations. [ABSTRACT FROM AUTHOR]

Published

2024

32. Research and Trends of Filtration for Removing Microplastics in Freshwater Environments.

Author

Garfansa, Marchel Putra, Zalizar, Lili, Husen, Syarif, Triwanto, Joko, Ramadani, Shefa Dwijayanti, Iswahyudi, Iswahyudi, and Ekalaturrahmah, Yenni Arista Cipta

Subjects

WATER pollution, BIBLIOMETRICS, BIOFILTRATION, MICROPLASTICS, FRESH water

Abstract

Microplastics (MPs) are a pollutant that increasingly threatens freshwater ecosystems and requires effective solutions for their removal. The aim of this study is to review current filtration methods used to remove MPs from freshwater environments. This study uses a systematic review method of existing literature regarding filtration techniques for removing MPs. Data were collected from various scientific sources published between 2015 and 2023. The filtration techniques analyzed include traditional filtration and advanced filtration technology. The study results show that advanced filtration technologies such as nanofiltration and biofiltration have a high potential in removing MPs from freshwater. However, each technique has its own challenges, including removal efficiency and implementation cost. The conclusion is that filtration is an effective method for dealing with MP pollution in freshwater ecosystems; however, further study is needed to address the existing challenges. This study provides in‐depth insights that can help develop more efficient policies and technologies for managing MP pollution in the future. [ABSTRACT FROM AUTHOR]

Published

2024

33. Evaluation of residual sodium carbonate (RSC) and sodium adsorption ratio (SAR) in fresh water and laundry grey water for irrigation usage.

Author

Khapra, Rajat and Singh, Nirankar

Subjects

IRRIGATION water, FRESH water, SODIUM carbonate, WATER quality, IRRIGATION

Abstract

The current study was carried out to assess the suitability of laundry grey water (LGW) for reuse in irrigation so that it can help in the reduction of freshwater stress in irrigation sector. To address this objective, concentration of sodium (Na+), calcium (Ca2+), magnesium (Mg2+), carbonate (CO32−), bicarbonate (HCO3−), and phosphate (PO43−) were tested in fresh water (FW) collected before laundry washing and LGW generated after laundry washing from different households. The suitability of LGW for irrigation purpose was determined by using water quality indices such as Sodium adsorption ratio (SAR) and Residual Sodium Carbonate (RSC). The SAR values of FW at the rural and urban area sites varied from 0.84 to 1.10 and 0.82 to 4.30 respectively and remained in the excellent category for irrigation purpose. The SAR values of LGW at the rural and urban sites varied from 10.06 to 13.01 and 6.26 to 9.68, respectively. In contrast to the SAR values of the LGW at rural site, which remained under good quality category, SAR values remained under excellent category for irrigation purpose at urban sites. RSC values of FW and LGW were below 3.97 showing low or medium hazards associated with it for irrigation. [ABSTRACT FROM AUTHOR]

Published

2024

34. Seasonal variation of surface water quality and streamflow in Rispana: A tributary of Ganges river, India.

Author

Pant, Manish and Singh, Jabrinder

Subjects

WATER management, BIOCHEMICAL oxygen demand, WATER supply, WATERSHEDS, FRESH water

Abstract

To evaluate the seasonal changes in quality and quantity of river Rispana (a tributary of river Ganges—Dehradun region of India) water quality index (WQI) was calculated at four major locations by using the weighted arithmetic method. Sixteen samples in all were taken throughout the pre‐monsoon (April 2022), monsoon (July 2022), post‐monsoon (November 2022), and the Winter season (January 2023). The major parameters, namely, temperature, dissolved oxygen (DO), pH, electrical conductivity (EC), and total dissolved solids (TDS), E‐coliform, sulphate, total alkalinity (TA), total hardness (TH), and biochemical oxygen demand (BOD) were considered for calculation of WQI. The WQI varied from minimum 44.53 (good) at site 1 – Kairwaan Gaon during monsoon season to maximum 302.69 (unfit for drinking) at site 4 – Mothrowala during the pre‐monsoon period. In 75% samples quality of water was unfit for domestic purpose and the contributing factors are DO, BOD, and Coliform which exceeds permissible limit in all samples. The major factors attributed for decline in the Rispana water quality are discharge of sewage, commercial sites effluent, and urban runoff. Pre‐monsoon, monsoon, post‐monsoon, and winter had average total coliform levels of 1849.6, 2419.6, 2419.6, and 1546.25, respectively, in MPN units. The average value of E‐coli for the four season vary from 1306.8 to 1888.1 MPN. The pollution load (physico‐chemical parameters and bacteriological factors) increases as the river Rispana flows to downstream in urban locations. Streamflow was observed as very lean except monsoon season (~1500 cfs) due to more extraction of Rispana's fresh water in upstream and unplanned changes in its catchment basin; thus establishes an extensive decline in availability of fresh water sources (Domestic use) in downstream Dehradun city area. In monsoon season, more streamflow (rain water influx) maintains the WQI also in good‐moderate category. The land use/land cover – LULC analysis in Rispana basin area, depicted 71% enhancement in urbanization (24.16%–41.55%) takes place in 15 years' span (2003–2017). The study establishes the potential causes (natural and anthropogenic) for Rispana deterioration and provides a baseline (quality index) for aquatic and ecological rejuvenation of its watershed by executing a proper management strategy with people participation. This work contributes discernments for effective water resource management to address the smart city objectives and sustainable development goal‐SDG:6, urban and municipal authorities must take cognizance for revival of this domestic water resource. [ABSTRACT FROM AUTHOR]

Published

2024

35. Feasibility assessment of a stepped solar still integrated with hexagram fin: an experimental and numerical approach toward sustainability.

Author

Chinnasamy, Subramaniyan, Balasubramanian, Kalidasan, Sampathkumar, Arivazhagan, Babu, Prakash K, and Satchi, Christopher Sathiya

Subjects

SOLAR stills, BRACKISH waters, FRESH water, PAYBACK periods, CARBON emissions, SALINE water conversion

Abstract

Effective utilization and conservation of freshwater is a global concern due to the rapid population growth and industrial usage. To address this challenge, various approaches have been developed and implemented to convert brackish water into freshwater and meet the global water demand. This study introduces hexagram-shaped aluminum fins attached to a powder-coated basin to improve the freshwater production rate of stepped solar still. The experiment involved testing the modified stepped solar still (MSSS) equipped with hexagram fins and the conventional stepped solar still (CSSS) without hexagram fins during summer days at the Sathyamangalam location (11.49° N, 77.27° E). A mathematical model was used to analyze the performance of the solar stills, and the simulation results were validated by comparing CSSS and MSSS in terms of their freshwater production. The results indicate that the productivity of CSSS increased by 40% using hexagram fins, and the MSSS with hexagram fins produced a maximum of 4.45 l/m2 of fresh water daily. The annual performance of MSSS and CSSS in the experimental location reveals a 12.6% reduction in the payback period of the solar still due to the presence of fins. The study recommends using fins in solar stills in hot climates for efficient and cost-effective water desalination applications to achieve sustainable development objectives while reducing carbon emissions. [ABSTRACT FROM AUTHOR]

Published

2024

36. Potential impacts of saline groundwater pumping on seawater intrusion in a coastal aquifer system.

Author

Narayanan, Dhanya and Eldho, T. I.

Subjects

AQUIFERS, GROUNDWATER, SALINE waters, FRESH water, SCARCITY

Abstract

Desalination plants employing feed water sourced from saline groundwater (SGW) are a feasible approach to tackle freshwater scarcity and seawater intrusion (SWI). Available studies lacked comprehensive analysis quantifying the impact of pumping from a coastal aquifer, on changes in solute transport mechanism. This study investigates the impact of different rates of SGW pumping on the solute transport in a coastal aquifer. A regional-scale model resembling the Upper Floridan aquifer was modelled using SEAWAT to quantify SWI variables. The study found that the length of intrusion of toe (Ltoe), width of mixing zone (WMZ) and residual salt mass (RSM) varied with dispersivity values. The ratio of saltwater to freshwater influx was unaffected by dispersivity values. Significant decrease in the toe-length occurred when the pumping rate was highest and the dispersivity was lowest. The WMZ was found to be the most sensitive SWI variable towards varying dispersivity, with 65% difference for higher pumping rates. The mid-bottom region was experiencing substantial modifications, leading to an inclined response at increased pumping rates, which suggested that the diluting process was primarily taking place in the bottom portion. This study gives insight into saline wedge movement in a coastal aquifer system which will benefit in the design of SGW well system for desalination plants. [ABSTRACT FROM AUTHOR]

Published

2024

37. Hot and Fresh: Evidence of Climate-Related Suboptimal Water Conditions for Seagrass in a Large Gulf Coast Estuary.

Author

Beck, Marcus W., Flaherty-Walia, Kerry, Scolaro, Sheila, Burke, Maya C., Furman, Bradley T., Karlen, David J., Pratt, Christopher, Anastasiou, Christopher J., and Sherwood, Edward T.

Subjects

SEAGRASS restoration, SEAGRASSES, WATER quality, ESTUARIES, ECOSYSTEM health, FRESH water, WATER temperature

Abstract

Seagrasses have long been a focal point for management efforts aimed at restoring ecosystem health in estuaries worldwide. In Tampa Bay, Florida (USA), seagrass coverage has declined since 2016 by nearly a third (11,518 acres), despite sustained reductions of nitrogen loads supportive of light environments for growth. Changing physical water quality conditions related to climate change may be stressing seagrasses beyond their optimal growth ranges, requiring an assessment to determine if this decline can be linked to climate stress. Three ambient water quality datasets of varying sampling designs and coverage were evaluated to characterize physicochemical environments in Tampa Bay and the potential relationships with seagrass change. Tampa Bay has become hotter and fresher with water temperature increasing by 0.03–0.04 °C per year and salinity decreasing by 0.04–0.06 ppt per year, translating to an increase of 1.3 to 1.7 °C and a decrease of 1.6 to 2.6 ppt over the last 50 years. Additionally, the number of days when temperature was above 30 °C or salinity was below 25 ppt has increased on average across all bay segments by 48 and 37 days, respectively, since 1975. These changes varied spatially and seasonally, with the most dramatic changes observed in the upper bay. Generalized Additive Models provided a weight-of-evidence that recent seagrass declines are somewhat associated with hotter and fresher conditions. Trends in warming and increased precipitation in the region are likely to continue, further creating suboptimal conditions for seagrasses in Tampa Bay. These results should compel resource managers to consider the likelihood that reduced resilience of estuarine resources due to shifting ecological baselines driven by additional climate change drivers will complicate long-standing management paradigms. While conventional management approaches that focus on limiting nutrient loads should be continued, their future effectiveness may be confounded by climate change drivers and warrant additional, complementary interventions and continuous monitoring data to support ecosystem health into the future. [ABSTRACT FROM AUTHOR]

Published

2024

38. Freshwater fish biodiversity in Dikhu River below Longleng District, Northeast India.

Author

Phom, Lily, Kiewhuo, Magdalene, Marimuthu, Shanmugam, Chithira, A., and Nandakumar, R.

Subjects

FISH diversity, FRESH water, CLASSIFICATION of fish, SYNBRANCHIFORMES

Abstract

The present study was conducted on August 2020 to study the diversity of fishes in Dikhu River under Longleng District, Nagaland. The fish species were collected and for identification systematic list and while nomenclature was after FishBase (http//www.fishbase.org). A total of 11 species of fishes, representing 5 orders (Cypriniformes, Siluriformes, Perciformes, Synbranchiformes and Anguilliformes), 9 families (Cyprinidae, Balitoridae, Sisoridae, Siluridae, Heteopneustidae, Bagridae, Mastacembelidae, Anguillidae, Channidae) and 11 genera were collected from the Dikhu River, Longleng District. Among the fish species collected from the river, the order Cypriniformes composed of 37% was the most dominant, followed by Siluriformes composed of 27%, Perciformes composed of 18% and the remaining order Synbranchiformes, Anguilliformes composed of 9% and the number of individual species was highest from the order Cyprinformes (Devio aequipnatus sp.). The short term study does not cover up all the fish species that are found in the river. Therefore, the further study on the diversity of fish can be done. [ABSTRACT FROM AUTHOR]

Published

2024

39. Long-distance electron transport in multicellular freshwater cable bacteria.

Author

Tingting Yang, Chavez, Marko S., Niman, Christina M., Shuai Xu, and El-Naggar, Mohamed Y.

Subjects

*ELECTRON donors, *ELECTRON transport, *FRESH water, *MARINE bacteria, *CELL envelope (Biology), *ATOMIC force microscopy

Abstract

Filamentous multicellular cable bacteria perform centimeter-scale electron transport in a process that couples oxidation of an electron donor (sulfide) in deeper sediment to the reduction of an electron acceptor (oxygen or nitrate) near the surface. While this electric metabolism is prevalent in both marine and freshwater sediments, detailed electronic measurements of the conductivity previously focused on the marine cable bacteria (Candidatus Electrothrix), rather than freshwater cable bacteria, which form a separate genus (Candidatus Electronema) and contribute essential geochemical roles in freshwater sediments. Here, we characterize the electron transport characteristics of Ca. Electronema cable bacteria from Southern California freshwater sediments. Current- voltage measurements of intact cable filaments bridging interdigitated electrodes confirmed their persistent conductivity under a controlled atmosphere and the variable sensitivity of this conduction to air exposure. Electrostatic and conductive atomic force microscopies mapped out the characteristics of the cell envelope's nanofiber network, implicating it as the conductive pathway in a manner consistent with previous findings in marine cable bacteria. Four-probe measurements of microelectrodes addressing intact cables demonstrated nanoampere currents up to 200 µm lengths at modest driving voltages, allowing us to quantify the nanofiber conductivity at 0.1 S/cm for freshwater cable bacteria filaments under our measurement conditions. Such a high conductivity can support the remarkable sulfide-to-oxygen electrical currents mediated by cable bacteria in sediments. These measurements expand the knowledgebase of long-distance electron transport to the freshwater niche while shedding light on the underlying conductive network of cable bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

40. Mixing, Water Transformation, and Melting Close to a Tidewater Glacier.

Author

Inall, Mark E., Sundfjord, Arild, Cottier, Finlo, Korte, Marie‐Louise, Slater, Donald A., Venables, Emily J., and Coogan, James

Subjects

*VERTICAL mixing (Earth sciences), *GLACIAL melting, *ICE sheets, *FRESH water, *ICE calving, *MELTWATER, *GLACIERS

Abstract

Marine‐terminating glacier fjords play a central role in the transport of oceanic heat toward ice sheets, regulating their melt. Mixing processes near glacial termini are key to this circulation but remain poorly understood. We present new summer measurements of circulation and mixing near a marine‐terminating glacier with active sub‐glacial discharge. 65% of the fjord's vertical overturning circulation is driven by the buoyant plume, however we newly report intense vertical and horizontal mixing in the plume's horizontal spreading phase, accounting for the remaining 35%. Buoyant plume theory supports 2%–5% of total glacial melt. Thus, most of the heat associated with vertical overturing short‐circuits the glacial front. We find however that turbulence in the horizontal spreading phase redistributes the short‐circuited heat back into the surface waters of the near‐glacial zone. Our findings highlight the need for further research on the complex mixing processes that occur near the glacier terminus. Plain Language Summary: Melting of glacial ice is the single largest contributor to global sea‐level rise. Many glaciers flow into the ocean where the near‐vertical ice wall is bathed in relatively warm sea water. Freshwater from ice surface melting seeps down through cracks and crevasses in the glacier to be discharged at the base of the ice wall, many tens to hundreds of meters below the sea surface. This fresh water rises from the depths as a highly turbulent plume, drawing in and pushing upwards the surrounding seawater, eventually spreading horizontally as a mixture of fresh discharge and mixed‐in seawater. Few measurements exist in the dangerous zone where iceberg often calve. Using data from a robotic platform we show that the vertical rise and the horizontal spreading of fresh water both play important roles in the total ocean‐induced melting of the glacial face in this type of system. Key Points: Entrainment into the buoyant plume drives ∼65% of fjord vertical overturning circulationIntense turbulent mixing in the horizontal spreading phase of the plume drives the remaining ∼35%95%–98% of the heat in the rising plume short‐circuits the glacier, to be redistributed into glacial proximal waters by horizontal mixing [ABSTRACT FROM AUTHOR]

Published

2024

41. Bio‐Inspired Fog Harvesting Meshes: A Review.

Author

Kennedy, Brook S. and Boreyko, Jonathan B.

Subjects

*WATER harvesting, *WATER shortages, *CONDENSATION (Meteorology), *SORBENTS, *FRESH water

Abstract

Freshwater scarcity has become a critical global challenge affecting some of the most vulnerable populations. In response, significant effort has focused on ways to increase access to this precious resource. Within the context of geographical, cultural, political, and technological factors governing freshwater availability, atmospheric water harvesting (AWH) has demonstrated tremendous promise to help address these shortages. Specifically, mesh‐based fog harvesters have received considerable attention for their passive qualities compared with their energy‐dependent technological siblings (sorbents, condensation, etc.), yet their specific water yield (SY) has developed only modestly in recent decades. While the plant and animal kingdom provide diverse examples of passive fog collection, and science has developed a remarkable understanding of these processes, much of this knowledge has yet to be translated practically at scale. This is partially due to challenges in mass‐producing complex (often micro‐scale) structures observed in nature. Fortunately, manufacturing technology is catching up with scientific understanding, especially at the scale of mesh design. To this end, the review begins by surveying bioinspired research in fog harvesting. Afterward, this study identifies milestones in developing bioinspired fog harvesting meshes, concluding in a discussion of future mesh research opportunities connecting bioinspiration and emerging advanced manufacturing techniques. [ABSTRACT FROM AUTHOR]

Published

2024

42. A natural vertical distribution calculation scheme for salinity simulation in freesurface model with quasistationary coordinates.

Author

Yundong Li, Guijun Han, Wei Li, Xiaobo Wu, Lige Cao, and Gongfu Zhou

Subjects

SALINITY, OCEAN waves, SEAWATER salinity, DYNAMIC balance (Mechanics), SIMULATION methods & models, FRESH water, SEAWATER

Abstract

Introduction: Salinity is a key variable in the dynamic and thermal balance of the entire climate system. To address the complexities of diverse terrains and fluctuating ocean waves, we commonly use free-surface models with quasistationary (e.g. height, pressure, or terrain following) coordinates for simulating salinity. In such models, the vertical grid dynamically adjusts with the undulation of seawater. However, this adjustment also occurs when freshwater enters or exits the ocean. Freshwater-induced salinity changes at the ocean's surface are artificially distributed to each vertical layer within a model time step. This means that the freshwater at the ocean surface instantaneously and directly affects the seafloor. This process is different from physical diffusion processes. The diffusion effects caused by the influx and outflow of freshwater have a very small impact on the seafloor. This error leads to salinity non-conservation and disrupts the vertical distribution structure of salinity. Previous studies have also addressed this issue with solutions such as the vertical Lagrangian-remap method. Method: This paper proposes a natural vertical distribution calculation scheme (NVDCS) which is different from the approaches of our predecessors. In the discrete formulation of the original ocean equations, freshwater flux is introduced to ensure salinity conservation. In each model time step, by calculating the seawater volume changes due to freshwater inflow or outflow, as well as the vertical grid changes caused by sea surface undulations, the aforementioned artificial error is eliminated from each vertical layer. Discussion: This scheme ensures that changes in the vertical coordinates of each layer result solely from internal oceanic dynamic processes, avoiding the instantaneous and directly impact of surface freshwater. Ultimately, the influence of freshwater is confined to the ocean surface. Results: This method is straightforward to implement and user-friendly. Sensitivity experiments indicate that in free-surface models, quasi-stationary coordinates introduce artificial errors. The proposed calculation scheme not only eliminates this error but also achieves a better vertical distribution structure than using virtual salt flux, while ensuring salinity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

43. Two new records of freshwater Sordariomycetes, <italic>Sporoschisma chiangraiense</italic> (Chaetosphaeriales) and <italic>Trichoderma pinicola</italic> (Hypocreales), from the Philippines.

Author

Concha, Michael Jee, Bagacay, Jan Felnesh Exe V., and Calabon, Mark S.

Subjects

*HYPOCREALES, *FRESH water, *PHYLOGENY, *FUNGI, *SPECIES

Abstract

One of our studies on lignicolous aquatic fungi in the Philippines yielded two new records of freshwater Sordariomycetes in the genera Sporoschisma and Trichoderma. The newly collected specimens, UPVMI 24–0003 and UPVMI 24–0004, exhibit morphological similarities to the holotypes of Trichoderma pinicola (SFC 20130926-S233) and Sporoschisma chiangraiense (MFLU 18–1722), respectively. Combined ITS-TEF1-α phylogenetic analysis showed that UPVMI 24–0003 clustered with the ex-type strain of T. pinicola (KACC 48486), and with T. simplex (HMAS 248842) as a sister taxon. The isolate UPVMI 24–0004 grouped with three strains of S. chiangraiense (MFLUCC 18-0703, MFLUCC 18-0336, and GMB0090), with 97% ML and 1.00 BYPP bootstrap supports in the ITS phylogeny. We provide detailed descriptions and illustrations for both T. pinicola and S. chiangraiense, along with a synopsis of morphological characters for freshwater Sporoschisma species. [ABSTRACT FROM AUTHOR]

Published

2024

44. Exploratory Analysis Using Deep Learning for Water-Body Segmentation of Peru's High-Mountain Remote Sensing Images.

Author

Perez-Torres, William Isaac, Uman-Flores, Diego Armando, Quispe-Quispe, Andres Benjamin, Palomino-Quispe, Facundo, Bezerra, Emili, Leher, Quefren, Paixão, Thuanne, and Alvarez, Ana Beatriz

Subjects

*BODIES of water, *FRESH water, *REMOTE-sensing images, *WATER supply, *DEEP learning

Abstract

High-mountain water bodies represent critical components of their ecosystems, serving as vital freshwater reservoirs, environmental regulators, and sentinels of climate change. To understand the environmental dynamics of these regions, comprehensive analyses of lakes across spatial and temporal scales are necessary. While remote sensing offers a powerful tool for lake monitoring, applications in high-mountain terrain present unique challenges. The Ancash and Cuzco regions of the Peruvian Andes exemplify these challenges. These regions harbor numerous high-mountain lakes, which are crucial for fresh water supply and environmental regulation. This paper presents an exploratory examination of remote sensing techniques for lake monitoring in the Ancash and Cuzco regions of the Peruvian Andes. The study compares three deep learning models for lake segmentation: the well-established DeepWaterMapV2 and WatNet models and the adapted WaterSegDiff model, which is based on a combination of diffusion and transformation mechanisms specifically conditioned for lake segmentation. In addition, the Normalized Difference Water Index (NDWI) with Otsu thresholding is used for comparison purposes. To capture lakes across these regions, a new dataset was created with Landsat-8 multispectral imagery (bands 2–7) from 2013 to 2023. Quantitative and qualitative analyses were performed using metrics such as Mean Intersection over Union (MIoU), Pixel Accuracy (PA), and F1 Score. The results achieved indicate equivalent performance of DeepWaterMapV2 and WatNet encoder–decoder architectures, achieving adequate lake segmentation despite the challenging geographical and atmospheric conditions inherent in high-mountain environments. In the qualitative analysis, the behavior of the WaterSegDiff model was considered promising for the proposed application. Considering that WatNet is less computationally complex, with 3.4 million parameters, this architecture becomes the most pertinent to implement. Additionally, a detailed temporal analysis of Lake Singrenacocha in the Vilcanota Mountains was conducted, pointing out the more significant behavior of the WatNet model. [ABSTRACT FROM AUTHOR]

Published

2024

45. Study of the Impact of Landforms on the Groundwater Level Based on the Integration of Airborne Laser Scanning and Hydrological Data.

Author

Blaszczak-Bak, Wioleta and Birylo, Monika

Subjects

*FRESH water, *LANDFORMS, *DRINKING water, *GROUNDWATER, *AQUIFERS, *AIRBORNE lasers

Abstract

This article presents a methodology for examining the impact of terrain on the level of groundwater in a well with an unconfined table aquifer. For this purpose, data from the groundwater observation and research network of the National Hydrogeological Service; airborne laser scanning technology; an SRTM height raster; orthophoto maps; and a WMTS raster were used and integrated for the specific parcels of Warmia and Mazury County. Groundwater is the largest and most important source of fresh drinking water. Apart from the influence of precipitation amount on groundwater level, the terrain is also important and is often omitted in comprehensive assessments. The research undertaken in this study provides new insights and a new methodology for the interpretation of hydrological data by taking into account the terrain, and it can be expanded with new data and increased research area or resolution. Research has shown that the attractiveness of the parcel in terms of construction development and excavation possibilities is greatly influenced by the groundwater level. [ABSTRACT FROM AUTHOR]

Published

2024

46. Generation of Microplastics from Biodegradable Packaging Films Based on PLA, PBS and Their Blend in Freshwater and Seawater.

Author

Apicella, Annalisa, Malafeev, Konstantin V., Scarfato, Paola, and Incarnato, Loredana

Subjects

*CRYSTALLINE polymers, *POLYMER blends, *PACKAGING film, *FRESH water, *MICROPLASTICS, *POLYLACTIC acid

Abstract

Biodegradable polymers and their blends have been advised as an eco-sustainable solution; however, the generation of microplastics (MPs) from their degradation in aquatic environments is still not fully grasped. In this study, we investigated the formation of bio-microplastics (BMPs) and the changes in the physicochemical properties of blown packaging films based on polylactic acid (PLA), polybutylene succinate (PBS) and a PBS/PLA 70/30 wt% blend after degradation in different aquatic media. The tests were carried out in two temperature/light conditions to simulate degradation in either warm water, under sunlight exposure (named Warm and Light—W&L), and cold deep water (named Cold and Dark—C&D). The pH changes in the aqueous environments were evaluated, while the formed BMPs were analyzed for their size and shape alongside with variations in polymer crystallinity, surface and mechanical properties. In W&L conditions, for all the films, the hydrolytic degradation led to the reorganization of the polymer crystalline phases, strong embrittlement and an increase in hydrophilicity. The PBS/PLA 70/30 blend exhibited increased resistance to degradation with respect to the neat PLA and PBS films. In C&D conditions, no microparticles were observed up to 12 weeks of degradation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Combined sensible heat and nano-enhanced latent heat energy storage for solar thermal evaporation: an experimental approach.

Author

Sathyamurthy, Ravishankar

Subjects

*HEAT storage, *SOLAR thermal energy, *DRINKING water standards, *DRINKING water analysis, *ENERGY storage, *LATENT heat, *PARAFFIN wax

Abstract

The need for water can be seen in many aspects of our daily lives. It is used for drinking, washing, cooking, and cleaning. Water is an essential and invaluable resource that maintains an unceasing demand, warranting prudent conservation efforts. In the present experimental investigation, sensible heat energy storage and nano-enhanced latent heat energy storage are utilized in the SSS to augment thermal performance. Doping commercial paraffin wax with 50-nm zirconium oxide nanoparticles improves heat stability and thermal characteristics. The thermophysical properties of the ZrO2 nanoparticle-doped paraffin wax is examined, and it is found that the thermal conductivity of the nano-enhanced paraffin wax with a maximum concentration of 0.5% by mass is enhanced by about 54.83% while compared to paraffin wax. Waste soda cans can store latent heat thermal energy with nano-enhanced PCM. Rubber and nano-enhanced latent heat thermal energy storage improve heat transfer and thermal performance in the SSS basin. Results showed that the SSS without any thermal energy storage produced a cumulative yield of 2.76 kg m− 2, whereas the SS with modified nano-enhanced PCM and sensible heat as rubber sheet produced a maximum of 5.02 kg m− 2. Similarly, the combined effect of nano-enhanced PCM and sensible heat energy storage augmented the SS performance by about 19.3 and 45.01% than the SS with nano-enhanced PCM and without any thermal energy storage, respectively. Before undergoing desalination, the initial water quality parameters of pH, TDS, and electrical conductivity were determined as 8.2, 2654 ppm, and 1.12 dS cm− 1, respectively. After completion of the desalination process, these values were notably lowered to 7.2, 552 ppm, and 0.12 dS cm− 1, respectively. Importantly, the results of the water quality analysis adhere to the drinking water standards outlined by the WHO guidelines. [ABSTRACT FROM AUTHOR]

Published

2024

48. Boron modification promoting electrochemical surface reconstruction of NiFe-LDH for efficient and stable freshwater/seawater oxidation catalysis.

Author

Wang, Zekun, Niu, Xueqing, Ye, Lin, Wang, Xiaoyu, Wang, Chao, Wen, Yonghong, Zong, Lingbo, Wang, Lei, Gao, Hongtao, Li, Xingwei, and Zhan, Tianrong

Subjects

*OXYGEN evolution reactions, *SURFACE reconstruction, *SEAWATER, *ELECTRON configuration, *FRESH water, *DENSITY functional theory, *ARTIFICIAL seawater

Abstract

Boron-modification and cyclic voltammetry (CV) activation dually accelerate the surface reconstruction of NiFe-LDH. Thus reconstructed CV-B-NiFe-LDH displays excellent OER performance in alkalized both freshwater and seawater. [Display omitted] Transition metal-based electrocatalysts generally take place surface reconstruction in alkaline conditions, but little is known about how to improve the reconstruction to a highly active oxyhydroxide surface for an efficient and stable oxygen evolution reaction (OER). Herein, we develop a strategy to accelerate surface reconstruction by combining boron modification and cyclic voltammetry (CV) activation. Density functional theory calculations and in-situ/ex-situ characterizations indicate that both B-doping and electrochemical activation can reduce the energy barrier and contribute to the surface evolution into highly active oxyhydroxides. The formed oxyhydroxide active phase can tune the electronic configuration and boost the OER process. The reconstructed catalyst of CV-B-NiFe-LDH displays excellent alkaline OER performance in freshwater, simulated seawater, and natural seawater with low overpotentials at 100 mA cm−2 (η 100 : 219, 236, and 255 mV, respectively) and good durability. This catalyst also presents outstanding Cl− corrosion resistance in alkalized seawater electrolytes. The CV-B-NiFe-LDH||Pt/C electrolyzer reveals prominent performance for alkalized freshwater/seawater splitting. This study provides a guideline for developing advanced OER electrocatalysts by promoting surface reconstruction. [ABSTRACT FROM AUTHOR]

Published

2024

49. Determinants of riverine migration success by Atlantic salmon (Salmo salar) smolts from rivers across the UK and Ireland.

Author

Rodger, Jessica R., Guthrie, Jemma, Honkanen, Hannele M., Lothian, Angus J., Lilly, Jessie, Walters, Marcus, Miller, Richie, Hawkins, Lorraine, Reeve, Al, Ribbens, Jamie, Henderson, Jim, Parke, Debbie, Green, Amy, Shields, Brian A., Ramsden, Philip, Fletcher, Melanie, Kettle‐White, Alan, Shaw, Brian, Burns, Stephen, and Laughton, Robert

Subjects

*FISH migration, *ATLANTIC salmon, *WATERSHEDS, *SEAWATER, *FRESH water

Abstract

There is some evidence that the river migration success of Atlantic salmon smolts, on their first migration to sea, varies both spatially and temporally. However, we have only a poor understanding of what may be driving this variation. In this study, we used acoustic telemetry to quantify the spatial and temporal variations in river migration success in Atlantic salmon smolts on their first migration to sea. In total 4120 Atlantic salmon smolts migrating through 22 rivers in Scotland, England, Ireland, and Northern Ireland over multiple years were included in the study. Individuals were defined as successful migrants if detected leaving the river to enter marine waters. The results show significant temporal (up to 4 years) and spatial (river) variations in migration success, with overall between‐river migration success varying from 3.4% to 97.0% and between years from 3.4% and 61.0%. Temporal variation in migration success was river specific, with some rivers being more temporally stable (exhibiting little variation between years) than others. Across all rivers and years, individual migration success was predicted positively by body condition and negatively by tag burden. The rate of migration success for a population (migration success standardized to a common river distance [proportion km−1]) was predicted by a number of environmental factors. The proportion of river catchment that comprised wetland and woodland positively predicted migration success, whereas the proportion of grassland and peatland in a catchment negatively predicted the rate of migration success. Although the mechanisms through which these effects may be operating were not directly examined in this study, we discuss some potential routes through which they may occur. [ABSTRACT FROM AUTHOR]

Published

2024

50. OBJECTIVATION OF THREE FLAVORS WELLS IN THE KARAMPUANG ISLAND TOURISM DESTINATION, WEST SULAWESI.

Author

Febriyani M., Abdullah, Suparman, and Arifin, Ansar

Subjects

TOURIST attractions, COMMUNITY organization, SUSTAINABILITY, FRESH water, WELLS, MARINE resources, MARKETING, SALINE waters, SUSTAINABLE tourism

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024