Your search keyword '"RIVERS"' showing total 188,804 results

201. Stormwater Management Modeling (SWMM)

Author

Salam, Abdul and Salam, Abdul

Published

2024

202. Phylogenetics and Integrative Taxonomy of African Water Snakes (Squamata: Colubridae: Grayia).

Author

Chaney, Teslin, Pauwels, Olivier S. G., Nagy, Zoltán T., Gvoždík, Václav, Kusamba, Chifundera, Badjedjea, Gabriel, Masudi, Franck M., Akuboy, Jeannot B., Ernst, Raffael, Trape, Jean-François, Chirio, Laurent, Conradie, Werner, Keates, Chad, Wallach, Van, Zassi-Boulou, Ange-Ghislain, Vaughan, Eugene R., and Greenbaum, Eli

Abstract

GrayiaGünther 1858 is a genus of relatively large (1.2–2.5 m) aquatic Afrotropical snakes. Recent molecular phylogenies recovered Grayia in its own distinct subfamily (Grayiinae), which was supported as the sister group to Colubrinae. Tropical African snakes are generally understudied, so the relationships within Grayia are poorly known. High degrees of intra- and interspecies variation can make identification difficult, and previous studies involving Grayia included misidentified specimens in other genera. The goal of this study is to create a phylogenetic tree that can be used to understand the relationships and taxonomy of Grayia via an integrative taxonomic approach that combines molecular data for 60 specimens and morphological data for 719 specimens. Two nuclear (BDNF, NT3) and four mitochondrial genes (COI, cyt b, 16S, and ND4) were used to construct phylogenetic trees with Maximum Likelihood and Bayesian Inference algorithms. The phylogenetic trees recovered two clades, Grayia caesar + G. tholloni and G. ornata + G. smythii, which the time-calibrated Bayesian Evolutionary Analysis Sampling Tree (BEAST) analysis estimated to have diverged from each other in the mid-Oligocene. This deep divergence, combined with distinct morphological differences, led us to resurrect the name XenurophisGünther 1863 as a subgenus [G. (Xenurophis) caesar, G. (Xenurophis) tholloni]. Molecular and morphological evidence further supports a new cryptic species of Grayia from the Upper and Middle Congo River and its tributaries. This new species is estimated to have diverged from its nearest sister species, G. ornata, in the Late Miocene—which coincides with the divergence dates of sister taxa within other Central African snake genera. Grayia ornata sensu stricto was found to consist of several evolutionary lineages, which mirror the patterns recovered in other Central African vertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

203. Influence of storage method on the content of photosynthetic pigments of the aquatic moss Fontinalis antipyretica.

Author

Villares, Rubén, Real, Carlos, and Vázquez, María Dolores

Subjects

*PHOTOSYNTHETIC pigments, *PHYSIOLOGICAL stress, *WATER quality, *WATER use, *BRYOPHYTES

Abstract

Aquatic bryophytes are frequently used as bioindicators of water quality in rivers. Poor water quality increases physiological stress in moss, and stress levels can be estimated by measuring the concentrations of photosynthetic pigments and by calculating pigmentary indices. However, studies collecting many samples in a short time may need to store them until analysis. In the meantime, the pigments may suffer some degradation. Given the lack of studies on this problem for aquatic bryophytes, this one investigates the effect of three storage methods (refrigerated at 6 °C, frozen at − 20 °C and dried at room temperature) on the concentrations of chlorophyll a, chlorophyll b, pheophytin a and the following ratios: chlorophyll a/chlorophyll b, D430/D410, D665/D665a, D430/D665 and D480/D665 (where Dx is the absorbance at x nm) in the aquatic moss Fontinalis antipyretica. The results showed that refrigeration was the most suitable method, freezing might be suitable for some parameters, and drying was inadequate for this purpose. We recommend that all studies on photosynthetic pigments detail the time elapsed from collection to sample analysis, as well as the storage method used. [ABSTRACT FROM AUTHOR]

Published

2024

204. The ecological and sanitary-hygienic assessment of the river systems located in the technogenic polluted zone of the Caucasus

Author

Maxim Viktorovich Larionov, Meruzhan Haykaram Galstyan, Abraham Garnik Ghukasyan, Lusine Gagik Matevosyan, Inna Lendrush Hakobjanyan, Pargev Arayik Gharibyan, Hovik Yakhsibek Sayadyan, and Karine Shahen Sargsyan

Subjects

Mining industry, Tails, Rivers, Water, Environmental quality, Environmental and hygienic assessment, Aquaculture. Fisheries. Angling, SH1-691, Environmental sciences, GE1-350

Abstract

The Caucasus is characterized by the large and at the same time increasing load from exploited metal and non-metallic mines. The sanitary-hygienic and toxic danger to people and the environment is quite high. There are 44 metal ores in the Syunik Region, and more than 90 non-metal deposits. In 2018, 12 metal and 29 non-metallic deposits were granted with the use rights for the purpose of mineral extraction. Also, geological survey permission was granted for 12 metal deposits. Currently, there are 12 operating and conserved tailings filled with about 400 million m3 of tailings, which are equipped with many heavy metals and other dangerous substances, as the result of the exploitation of the metal mines in Syunik. The present study focuses on the ecological assessment of the waters of the Voghji and the Khalaj Rivers that are located in the technogenic polluted zone of the Caucasus. The research revealed that along with the increase of the volumes of the Kapan-Qajaran copper-molybdenum mines, as well as the increase of the rock dumps and tailings, the organoleptic-chemical indicators of the waters of the Voghji and the Khalaj Rivers had increased. The quantity of the suspended particles and the heavy metals in the waters of these rivers had increased 1.5 and 2.0 times or by 58–100 % and 19.5 − 29.8 %, respectively, in the last 10 years. The trends are also observed in the values of the sulfates, the total dissolved salts, and the electrical conductivity, which are due to the chemical composition of the ores and the improper management of the acid drainage. The content of the heavy metals in the waters of the mentioned rivers is 9 − 20 times higher than the permissible limit density, and the degree of the mineralization is above the permissible limit. Thus, the waters of these rivers, after mixing with the effluent from the mining industry, are not guaranteed to be used for irrigation. Considering that the mobility of the heavy metals decreases several times in the alkaline environment (pH 8.5 − 9.0), it is recommended that the mining industry constantly adds lime (CaO) to the acid drainage of the mines so that the pH of the water become lower: from acid to alkaline (pH 8.5 − 9.0) and only after that, the water could be used for irrigation of the agricultural crops. This is possible for many types of heavy metals, including when using other wastewater treatment measures: engineering, physicochemical and biological.

Published

2024

205. Temporal trajectories of artificial radiocaesium 137Cs in French rivers over the nuclear era reconstructed from sediment cores

Author

Frédérique Eyrolle, Pierre-Alexis Chaboche, Hugo Lepage, Valérie Nicoulaud Gouin, Patrick Boyer, Anne De Vismes, Gabrielle Seignemartin, Dominique Badariotti, François Chabaux, Maxime Chastanet, David Claval, Yoann Copard, Alexandra Coynel, Maxime Debret, Claire Delus, Cassandra Euzen, Thomas Gardes, Franck Giner, Rodolfo Gurriaran, Christian Grenz, Cécile Grosbois, Laurence Lestel, Benoît Losson, Laurence Mansuy-Huault, Emmanuelle Montarges-Pelletier, Amandine Morereau, Brice Mourier, David Mourier, Vincent Ollive, Laure Papillon, Jorg Schafer, Laurent Schmitt, Richard Sempere, Thierry Winiarski, Mathilde Zebracki, and Olivier Evrard

Subjects

Sediment cores, Rivers, Radiocaesium, Radioactivity, Trajectories, Resiliency, Medicine, Science

Abstract

Abstract 137Cs is a long-lived man-made radionuclide introduced in the environment worldwide at the early beginning of the nuclear Era during atmospheric nuclear testing’s followed by the civil use of nuclear energy. Atmospheric fallout deposition of this major artificial radionuclide was reconstructed at the scale of French large river basins since 1945, and trajectories in French nuclearized rivers were established using sediment coring. Our results show that 137Cs contents in sediments of the studied rivers display a large spatial and temporal variability in response to the various anthropogenic pressures exerted on their catchment. The Loire, Rhone, and Rhine rivers were the most affected by atmospheric fallout from the global deposition from nuclear tests. Rhine and Rhone also received significant fallout from the Chernobyl accident in 1986 and recorded significant 137Cs concentrations in their sediments over the 1970–1985 period due to the regulatory releases from the nuclear industries. The Meuse River was notably impacted in the early 1970s by industrial releases. In contrast, the Seine River display the lowest 137Cs concentrations regardless of the period. All the rivers responded similarly over time to atmospheric fallout on their catchment, underlying a rather homogeneous resilience capacity of these river systems to this source of contamination.

Published

2024

206. Water color from Sentinel-2 MSI data for monitoring large rivers: Yangtze and Danube

Author

Shenglei Wang, Xuezhu Jiang, Evangelos Spyrakos, Junsheng Li, Conor McGlinchey, Adriana Maria Constantinescu, and Andrew N. Tyler

Subjects

Forel-Ule Index (FUI), water color, water quality, rivers, Sentinel-2, MSI, Mathematical geography. Cartography, GA1-1776, Geodesy, QB275-343

Abstract

Rivers provide key ecosystem services that are inherently engineered and optimized to meet the strategic and economic needs of countries around the world. However, limited water quality records of a full river continuum hindered the understanding of how river systems response to the multiple stressors acting on them. This study highlights the use of Sentinel-2 Multi-Spectral Imager (MSI) data to monitor changes in water color in two optically complex river systems: the Yangtze and Danube using the Forel-Ule Index (FUI). FUI divides water color into 21 classes from dark blue to yellowish brown stemming from the historical Forel-Ule water color scale and has been promoted as a useful indicator showing water turbidity variations in water bodies. The results revealed contrasting water color patterns in the two rivers on both spatial and seasonal scales. Spatially, the FUI of the Yangtze River gradually increased from the upper reaches to the lower reaches, while the FUI of the Danube River declined in the lower reaches, which is possibly due to the sediment sink effect of the Iron Gate Dams. The regional FUI peaks and valleys observed in the two river systems have also been shown to be related to the dams and hydropower stations along them. Seasonally, the variations of FUI in both systems can be attributed to climate seasonality, especially precipitation in the basin and the water level. Moreover, land cover within the river basin was possibly a significant determinant of water color, as higher levels of vegetation in the Danube basin were associated with lower FUI values, whereas higher FUI values and lower levels of vegetation were observed in the Yangtze system. This study furthers our knowledge of using Sentinel-2 MSI to monitor and understand the spatial-temporal variations of river systems and highlights the capabilities of the FUI in an optically complex environment.

Published

2024

207. Water stagnancy and wastewater input enhance primary productivity in an engineered river system

Author

Siddhartha Sarkar and Sanjeev Kumar

Subjects

carbon, pollution, primary productivity, rivers, water, Oceanography, GC1-1581, River, lake, and water-supply engineering (General), TC401-506

Abstract

Abstract Under warming conditions and with increasing human perturbations, rivers across the globe are facing drastic shifts in their hydrologic regime, resulting in fragmentation and disconnection from the catchment. Subsequently, a dependency on in situ primary productivity as the source of organic matter increases and warrants detailed investigation of the nature of primary production in urbanized river systems. In this study, primary productivity was estimated at multiple locations along the continuum of an engineered (Sabarmati) and a free flowing (Mahi) river systems in India using 13C tracer incubation method. Significantly enhanced primary productivity in the riverfront (engineered construction along the Sabarmati that holds water supplied by a canal) and polluted downstream of the Sabarmati compared to free flowing Mahi was observed. It was also observed that water stagnancy, temperature, and nutrient availability were the key factors regulating the rates of primary productivity in the urban river system. The study highlights the salient features of riverine primary productivity associated with engineered modifications, which needs to be considered for future river development projects.

Published

2024

208. Quantifying Channel Mobility and Floodplain Reworking Timescales Across River Planform Morphologies.

Author

Greenberg, Evan, Chadwick, Austin J., Li, Gen K., and Ganti, Vamsi

Subjects

*FLOODPLAINS, *BRAIDED rivers, *MEANDERING rivers, *FLUVIAL geomorphology, *SURFACE of the earth, *REMOTE-sensing images

Abstract

Source‐to‐sink transfer of sediment and organic carbon (OC) is regulated by river mobility. Quantifying trends in river mobility is, however, challenging due to diverse planform morphologies (e.g., meandering, braided) and measurement methods. Here, we utilize a remote‐sensing method applicable to all planform morphologies to quantify the mobility timescales of 80 rivers worldwide. Results show that, across the continuum from meandering to braided rivers, there is a systematic reduction in the timescales of channel mobility and—to a lesser extent—floodplain reworking. This leads to a decrease in the efficiency with which braided rivers rework old floodplain material compared to their meandering counterparts. Reduced floodplain reworking efficiency of braided rivers leads to smaller channel‐belt areas relative to their size. Results suggest that river‐mobility timescales derived from remote sensing can aid in the characterization of sediment and OC storage and transit times at a global scale. Plain Language Summary: Rivers transport sediment and organic carbon (OC) from the mountains to the sea, and river movement affects sediment and OC transit times in landscapes. Understanding the controls on timescales of river movement is critical for assessing how fluvial processes influence the terrestrial carbon cycle. While previous work has quantified different river planform shapes on the Earth's surface (e.g., meandering, wandering, and braided), little is known about how the pace and nature of river movement is different between river planform shapes. This is because we lack methods to measure and compare river movement across different river planform shapes. Here, we leverage a tool to quantify river movement from time series of satellite imagery that is equally applicable to all river planform shapes. We apply this method to calculate the timescales of river movement of 80 rivers worldwide for the last 37 years. We show that (a) braided rivers migrate faster than meandering rivers, and (b) braided rivers move over a smaller area relative to their size. Comparing results with geochemical observations from the Río Bermejo—a well‐studied river for sediment‐OC cycling—we show that our mobility framework may provide a new way to assess sediment and OC storage timescales in floodplains. Key Points: We quantify timescales of floodplain reworking and channel‐overlap decay from satellite imagery of 80 rivers worldwideFrom meandering to braided planform morphology, there is a reduction in the overlap timescale and the reworking timescaleMobility timescales provide a means for remotely quantifying terrestrial‐sediment and organic‐carbon storage and transit [ABSTRACT FROM AUTHOR]

Published

2024

209. Vertically integrated unconfined groundwater flow on sloping base.

Author

Strack, Otto D. L.

Abstract

We consider unconfined flow in aquifers with a small sloping base, a magnitude of no more than a few percent at maximum and aim the analysis to large-scale regional modeling using analytic elements. We write the equations for the vertically integrated discharge, and find that the resulting two-dimensional discharge vector is rotational, as opposed to the specific discharge vector. We propose an approximate model for describing three-dimensional flow in an aquifer with a sloping base, and apply the approach to cases of flow between two parallel rivers and flow with a well in an aquifer bounded by a long river. We apply Wirtinger calculus and are able to estimate the error due to the approximation. [ABSTRACT FROM AUTHOR]

Published

2024

210. Social considerations for the removal of dams and other aquatic barriers.

Author

Lutter, Seth H, Cuppett, Scott, Sethi, Suresh A, and Rahm, Brian G

Subjects

*DAM retirement, *STREAM restoration, *RIVER conservation, *AQUATIC biodiversity, *BIODIVERSITY conservation

Abstract

Stream connectivity restoration through the removal or mitigation of dams and other anthropogenic barriers is critical for aquatic species conservation. Historically, stream connectivity restoration planning has been focused on biophysical criteria; however, aquatic barriers are embedded in social contexts that can constrain restoration decisions. To support the integration of social considerations into stream connectivity conservation planning, we synthesized the available research involving social criteria linked to barrier removal. We found that the literature has been focused predominantly on the removal of dams and identify four major categories of social considerations for barrier removal: economics, nonmarket social values, safety, and procedural context. We reviewed contemporary barrier removal prioritization efforts and found that existing approaches typically only consider small subsets of social considerations and face issues with data availability. The findings synthesized in the present article establish potential criteria that could be integrated into effective stream connectivity restoration planning and inform future data capture efforts for barrier removal. [ABSTRACT FROM AUTHOR]

Published

2024

211. Enduring colonial legacies in Philadelphia.

Author

Wiggin, Bethany

Subjects

*RIVERS, *HUMANISM, *BLACK people, *ECOLOGY

Abstract

In the article the author shares the important role of the Schuylkill River located in Pennsylvania in writing her book "Utopia Found and Lost in Penn's Woods." Topics include brief description of the ecological location of the river, emphasis by scholars on the humanistic objects of inquiry and the concept of Black ecologies by authors J. T. Roane and Justin Hosbey.

Published

2024

212. The ecological and sanitary-hygienic assessment of the river systems located in the technogenic polluted zone of the Caucasus.

Author

Viktorovich Larionov, Maxim, Haykaram Galstyan, Meruzhan, Garnik Ghukasyan, Abraham, Gagik Matevosyan, Lusine, Lendrush Hakobjanyan, Inna, Arayik Gharibyan, Pargev, Yakhsibek Sayadyan, Hovik, and Shahen Sargsyan, Karine

Abstract

The Caucasus is characterized by the large and at the same time increasing load from exploited metal and non-metallic mines. The sanitary-hygienic and toxic danger to people and the environment is quite high. There are 44 metal ores in the Syunik Region, and more than 90 non-metal deposits. In 2018, 12 metal and 29 non-metallic deposits were granted with the use rights for the purpose of mineral extraction. Also, geological survey permission was granted for 12 metal deposits. Currently, there are 12 operating and conserved tailings filled with about 400 million m3 of tailings, which are equipped with many heavy metals and other dangerous substances, as the result of the exploitation of the metal mines in Syunik. The present study focuses on the ecological assessment of the waters of the Voghji and the Khalaj Rivers that are located in the technogenic polluted zone of the Caucasus. The research revealed that along with the increase of the volumes of the Kapan-Qajaran copper-molybdenum mines, as well as the increase of the rock dumps and tailings, the organoleptic-chemical indicators of the waters of the Voghji and the Khalaj Rivers had increased. The quantity of the suspended particles and the heavy metals in the waters of these rivers had increased 1.5 and 2.0 times or by 58–100 % and 19.5 − 29.8 %, respectively, in the last 10 years. The trends are also observed in the values of the sulfates, the total dissolved salts, and the electrical conductivity, which are due to the chemical composition of the ores and the improper management of the acid drainage. The content of the heavy metals in the waters of the mentioned rivers is 9 − 20 times higher than the permissible limit density, and the degree of the mineralization is above the permissible limit. Thus, the waters of these rivers, after mixing with the effluent from the mining industry, are not guaranteed to be used for irrigation. Considering that the mobility of the heavy metals decreases several times in the alkaline environment (pH 8.5 − 9.0), it is recommended that the mining industry constantly adds lime (CaO) to the acid drainage of the mines so that the pH of the water become lower: from acid to alkaline (pH 8.5 − 9.0) and only after that, the water could be used for irrigation of the agricultural crops. This is possible for many types of heavy metals, including when using other wastewater treatment measures: engineering, physicochemical and biological. [ABSTRACT FROM AUTHOR]

Published

2024

213. The Use of Unmanned Aerial Systems for River Monitoring: A Bibliometric Analysis Covering the Last 25 Years.

Author

Pizarro, Alonso, Valera-Gran, Desirée, Navarrete-Muñoz, Eva-María, and Dal Sasso, Silvano Fortunato

Subjects

BIBLIOMETRICS, WATERSHEDS, RIVER channels, TECHNOLOGICAL innovations, SEDIMENT transport, EROSION, RIPARIAN areas

Abstract

Cutting-edge technology for fluvial monitoring has revolutionised the field, enabling more comprehensive data collection, analysis, and interpretation. Traditional monitoring methods were limited in their spatial and temporal resolutions, but advancements in remote sensing, unmanned aerial systems (UASs), and other innovative technologies have significantly enhanced the fluvial monitoring capabilities. UASs equipped with advanced sensors enable detailed and precise fluvial monitoring by capturing high-resolution topographic data, generate accurate digital elevation models, and provide imagery of river channels, banks, and riparian zones. These data enable the identification of erosion and deposition patterns, the quantification of sediment transport, the evaluation of habitat quality, and the monitoring of river flows. The latter allows us to understand the dynamics of rivers during various hydrological events, including floods, droughts, and seasonal variations. This manuscript aims to provide an update on the main research themes and topics in the literature on the use of UASs for river monitoring. The latter is achieved through a bibliometric analysis of the publication trends and identifies the field's key themes and collaborative networks. The bibliometric analysis shows trends in the number of publications, number of citations, top contributing countries, top publishing journals, top contributing institutions, and top authors. A total of 1085 publications on UAS monitoring in rivers are identified, published between 1999 and 2023, showing a steady annual growth rate of 24.44%. Bibliographic records are exported from the Web of Science (WoS) database using a comprehensive set of keywords. The bibliometric analysis of the raw data obtained from the WoS database is performed using the R software. The results highlight important trends and valuable insights related to the use of UASs in river monitoring, particularly in the last decade. The most frequently used author keywords outline the core themes of UASs monitoring research and highlight the interdisciplinary nature and collaborative efforts within the field. "River", "topography", "photogrammetry", and "Structure-from-Motion" are the core themes of UASs monitoring research. These findings can guide future research and promote new interdisciplinary collaborations. [ABSTRACT FROM AUTHOR]

Published

2024

214. Identification of hydrodynamic changes in rivers by means of freshwater mussels' behavioural response: An experimental investigation.

Author

Termini, Donatella, Benistati, Nina, Tosato, Luca, Pilbala, Ashkan, Modesto, Vanessa, Fraccarollo, Luigi, Manca, Dario, Moramarco, Tommaso, and Riccardi, Nicoletta

Subjects

FRESHWATER mussels, WATER filtration, SEDIMENT transport, BIOTIC communities, MUSSELS

Abstract

The present work concerns the interaction between hydraulic processes and biological communities in rivers. In particular, the aim of this study is to investigate the interactions between flow dynamics and the freshwater mussels (FMs) to verify if the mussels' behavioural response to the hydrodynamic stress could be used to monitor natural extreme events in rivers. Although the influence of mussels on the kinematic characteristics of flow at the water–sediment interface was investigated by a certain number of studies, their behavioural response to flow, both in static and dynamic conditions, remains understudied. Laboratory experiments were performed in an artificial flume exposing Unio elongatulus to different values of flow discharge, both in steady and in unsteady conditions either with or without sediment transport. Mussels' behavioural responses were detected by using Hall sensor technology to measure gaping frequency, amplitude and duration, both in static conditions and under the effect of hydrodynamic stresses. Five categories of behavioural response were identified: Normal Activity (NA), Resting (Re), Transition (Tr), Adaptation (Ad) and Avoidance (Av). During NA (standard feeding and moving), FMs presented valve gaping, while during Re valves were kept constantly opened for water filtration. After a variation of flow discharge (ΔQ), FMs promptly reacted showing a transition from their normal behaviour, with constant gaping frequency (below 0.01 Hz), to higher valve gaping frequencies. The mean valves' gaping frequency increased as a function of ΔQ, and the highest values were reached in the presence of sediment transport. The mean valve opening amplitude was less sensitive to ΔQ. Its range of variation was very narrow with the highest values corresponding to the protrusion/retraction of the animals' foot to move or anchor to the substrate. The percentage of mussels responding to the discharge variation (Transition behaviour) increases with ΔQ confirming that mussels' behavioural response represents a promising tool for monitoring the occurrence of hydrodynamic stressors in fluvial systems. [ABSTRACT FROM AUTHOR]

Published

2024

215. Navigating a broken river: Understanding the ecological consequences of fragmentation on benthic life.

Author

Sofi, Mohd Sharjeel, Bhat, Sami Ullah, and Muslim, Mohd

Subjects

BIOTIC communities, AQUATIC biodiversity, RIVER ecology, BIODIVERSITY conservation, FRAGMENTED landscapes, FRESHWATER biodiversity

Abstract

Habitat fragmentation is emerging as a leading cause of biodiversity decline in riverine ecosystems. Several natural and human factors contribute to the fragmentation of rivers. River fragmentation is a growing problem that is widely spread and poses a significant challenge to the conservation of freshwater biodiversity, but its impact is not fully documented and acknowledged. Fragmentation impedes the movement of aquatic organisms and alters natural flow regimes, disrupting habitats and trophic supplies for aquatic biodiversity. It can also affect the adaptive ability of organisms to natural environmental changes, leading to a change in the structure and function of biotic communities. To understand the effects of fragmentation on river ecology, it is crucial to link its spatial and structural implications. This article examines the occurrence and frequency of fragmentation and its effects on the ecological community of benthic biota. This review aims to elucidate the overall effects of fragmentation on river ecology and recommends the possible measures to mitigate its impact. Urgent action is required to establish a comprehensive global network of free‐flowing river systems and revive previously exploited rivers in different regions to enhance the protection and sustainable utilization of river ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

216. Developing ensemble models for estimating sediment loads for different times scales.

Author

Niazkar, Majid and Zakwan, Mohammad

Subjects

MACHINE learning, ARTIFICIAL neural networks, SEDIMENTS, GENETIC programming

Abstract

Sediment ratings supply an important input to the design of water resources projects. Nevertheless, the accuracy of sediment ratings has remained a matter of concern for hydrologists. The present article investigates both the aspect of improving the accuracy, i.e., modifying the simple rating curve equation by introducing a four-parameter equation and application of ensemble machine learning (ML) and ensemble empirical models, to estimate sediment loads. The ML models include artificial neural networks, multi-gene genetic programming (MGGP), and a hybrid MGGP-based model. Published field data at two measuring stations were used to assess the performance of different models employed in this study. The comparative analysis conducted in this study provides a novel comparison of sediment load estimations for three time scales. For instance, the ML-based simple average ensemble model (i.e., 556.5, 255.0, and 0.759) and the empirical-based nonlinear ensemble model (i.e., 549.1, 378.6, and 0.589) achieved the lowest root-mean-square errors and mean absolute errors and highest determination coefficients for the train and test monthly sediment data of the first station, respectively. Finally, the findings demonstrate that ensemble-based models generally improve the estimates of sediment loads at daily, 10-daily, and monthly scales. [ABSTRACT FROM AUTHOR]

Published

2024

217. Water color from Sentinel-2 MSI data for monitoring large rivers: Yangtze and Danube.

Author

Wang, Shenglei, Jiang, Xuezhu, Spyrakos, Evangelos, Li, Junsheng, McGlinchey, Conor, Constantinescu, Adriana Maria, and Tyler, Andrew N.

Subjects

BODIES of water, WATER quality, LAND cover, ECOSYSTEM services, COLOR, WATER levels, WATERSHEDS

Abstract

Rivers provide key ecosystem services that are inherently engineered and optimized to meet the strategic and economic needs of countries around the world. However, limited water quality records of a full river continuum hindered the understanding of how river systems response to the multiple stressors acting on them. This study highlights the use of Sentinel-2 Multi-Spectral Imager (MSI) data to monitor changes in water color in two optically complex river systems: the Yangtze and Danube using the Forel-Ule Index (FUI). FUI divides water color into 21 classes from dark blue to yellowish brown stemming from the historical Forel-Ule water color scale and has been promoted as a useful indicator showing water turbidity variations in water bodies. The results revealed contrasting water color patterns in the two rivers on both spatial and seasonal scales. Spatially, the FUI of the Yangtze River gradually increased from the upper reaches to the lower reaches, while the FUI of the Danube River declined in the lower reaches, which is possibly due to the sediment sink effect of the Iron Gate Dams. The regional FUI peaks and valleys observed in the two river systems have also been shown to be related to the dams and hydropower stations along them. Seasonally, the variations of FUI in both systems can be attributed to climate seasonality, especially precipitation in the basin and the water level. Moreover, land cover within the river basin was possibly a significant determinant of water color, as higher levels of vegetation in the Danube basin were associated with lower FUI values, whereas higher FUI values and lower levels of vegetation were observed in the Yangtze system. This study furthers our knowledge of using Sentinel-2 MSI to monitor and understand the spatial-temporal variations of river systems and highlights the capabilities of the FUI in an optically complex environment. [ABSTRACT FROM AUTHOR]

Published

2024

218. Water quality characteristics and ecological risk evaluation of a landscaped river replenished by three reclaimed water sources in Qingdao, China.

Author

Cai, Yanan, Bi, Yunze, Tian, Bowen, Cheng, Lihua, Zhou, Shuhui, and Qi, Quanyong

Subjects

WATER quality, ECOLOGICAL risk assessment, RISK assessment, WATER quality monitoring, WATER depth

Abstract

The water crisis may be solved by utilizing reclaimed water. Three reclaimed water sources have restored the lower sections of the Licun River, forming a landscaped river. In this paper, the river's water quality was monitored for a year, and the ecological concerns were analyzed using luminescent bacteria, chlorella, and zebrafish. The results indicated that although basic water quality indicators like COD and ammonia fluctuated along the river, the classification of water quality was primarily affected by factors such as flow rate and water depth. Under experimental conditions, the toxic inhibitory effect of river water on luminescent bacteria, chlorella, and zebrafish was related to the treatment process of reclaimed water. It was found that the reclaimed water produced by the MBR, along with the UV disinfection process, showed no detectable toxicity. In contrast, the MBBR process, when combined with coagulation, sedimentation, filtration, ozonation, and chlorination, seemed to be the source of this toxicity. Along the river, the results of water quality assessments and ecological risk assessments were different, indicating that both should be conducted to evaluate rivers replenished with reclaimed water. [ABSTRACT FROM AUTHOR]

Published

2024

219. Development of new assessment approach: a macroinvertebrates-based biotic scoring system to assess the health of riverine ecosystems in the Sahel area in Burkina Faso (West Africa).

Author

Kaboré, I, Sawadogo, L, Bancé, V, Tampo, L, Sanogo, S, Ouéda, A, Moog, O, and Melcher, AH

Subjects

*NATURAL resources, *WATER use, *WATER supply, *CLIMATE change, *ECOLOGICAL integrity, *ECOSYSTEMS, *HAND care & hygiene

Abstract

To address ongoing threats from human pressures and climate changes, water managers and users require a visual tool that provides accurate information about the health of waterbodies for decision making. However, there is a lack of less sophisticated methods, such as biotic scoring, to assess the health of rivers in West Africa. To bridge this gap, we have developed a macroinvertebrate-based scoring system for monitoring the health of rivers in the Sahelian regions. We adopted a multi-habitat sampling approach to collect macroinvertebrates using hand nets, and these specimens were identified mostly to family taxonomic level using keys. We recorded more than 75 taxa of macroinvertebrates, each assigned relative sensitivity scores to human disturbances ranging from 1 (very tolerant) to 10 (highly sensitive). The Burkina Biotic Score System (BBIOSS) and the Average Score Per Taxa (ASPT) demonstrated a strong and significant correlation with environmental variables, including anthropogenic pressures types (r = 0.6; p < 0.01) making it a robust tool for monitoring rivers. Here, our findings revealed that all taxa scored are expected to be those reported in Western African freshwater. This study has produced an effective tool that can be used or adapted to monitor other riverine ecosystems in West Africa, potentially contributing to the preservation of water and biological resources. [ABSTRACT FROM AUTHOR]

Published

2024

220. Crosscurrents of Contagion: Snakes, Rumours, Rivers, and Ebola in Sierra Leone's Borderlands.

Author

Anderson, Samuel Mark

Subjects

*RUMOR, *BORDERLANDS, *EBOLA virus, *SNAKES, *VIRAL transmission, *HUMANITARIANISM

Abstract

When the Ebola virus crossed undetected into Sierra Leone and exacerbated the 2014-15 crisis, the World Health Organization blamed the breach on a traditional healer treating patients from Guinea. Meanwhile, local residents initially maintained that her death was not Ebola-related but a serpent's curse, an assumption grounded in lived experience of snake charmer spectacles. Both narratives drowned out evidence that the virus spread not via the healer's covert herbalism, but via her professional connections at the local government clinic and, more broadly, an overtaxed and undertrained public health system. This article takes local rumours around Ebola as vernacular epidemiologies that resonated with sensory experience. They show that both community and humanitarian actors had information; complications arose from the diverse experiences and expectations that shaped responses to that information. Such expectations emerge from the borderland geography, where colonial infrastructures continue to channel perception according to "upriver", "downriver", and "crossriver" phenomenologies. [ABSTRACT FROM AUTHOR]

Published

2024

221. Compound Flooding Potential from the Joint Occurrence of Precipitation and Storm Surge in the Qiantang Estuary, China.

Author

Wu, Yanjuan, Haigh, Ivan D., Gao, Chao, Jenkins, Luke J., Green, Joshua, Jane, Robert, Xu, Yu, Hu, Hengzhi, and Wu, Naicheng

Subjects

*STORM surges, *FLOOD risk, *TROPICAL cyclones, *FLOODS, *ESTUARIES

Abstract

In coastal regions, compound flooding, driven by multiple flood hazard sources, can cause greater damage than when the flood drivers occur in isolation. This study focuses on compound flooding from extreme precipitation and storm surge in China's Qiantang Estuary. We quantify the potential of compound flooding by measuring bivariate joint statistical dependence and joint return period (JRP). We find a significant positive dependence between the two flood drivers considered, as indicated by Kendall's rank correlation coefficients. Compound events occur frequently, with an average of 2.65 events per year from 1979 to 2018, highlighting the significant concern of compound flooding for this estuary. Using a copula model, we demonstrate that considering the dependence between the two flood drivers shortens the JRP of compound flooding compared to the JRP assuming total independence. For a 1-in-10-yr precipitation event and 1-in-10-yr storm surge event, the JRP is 1 in 100 years when assuming total independence. However, it decreases to 1 in 32.44 years when considering their dependence. Ignoring the dependence between flood drivers can lead to an increase in the JRP of compound events, resulting in an underestimation of the overall flood risk. Our analysis reveals a strong link between the weather patterns creating compound events and extreme storm surge only events with tropical cyclone activity. Additionally, the extreme precipitation only events were found to be connected with the frontal system of the East Asian summer monsoon. This study highlights the importance of considering the dependence between multiple flood drivers associated with certain types of the same weather systems when assessing the flood risk in coastal regions. [ABSTRACT FROM AUTHOR]

Published

2024

222. Detection and modeling of Staphylococcus aureus and fecal bacteria in Hawaiian coastal waters and sands.

Author

Steadmon, Maria, Takakusagi, Melia, Wiegner, Tracy N., Jones, Mikayla, Economy, Louise M., Panelo, Jazmine, Morrison, Lynn A., Medeiros, Matt C. I., and Frank, Kiana L.

Subjects

*STAPHYLOCOCCUS aureus, *TERRITORIAL waters, *WATER quality monitoring, *SEWAGE disposal, *WATER pollution, *CLOSTRIDIA, *COLIFORMS, *TURBIDITY

Abstract

Microbial pollution of recreational waters leads to millions of skin, respiratory, and gastrointestinal illnesses globally. Fecal indicator bacteria (FIB) are monitored to assess recreational waters but may not reflect the presence of Staphylococcus aureus, a global leader in bacterial fatalities. Since many community‐acquired S. aureus skin infections are associated with high recreational water usage, this study measured and modeled S. aureus, methicillin‐resistant S. aureus (MRSA), and FIB (Enterococcus spp., Clostridium perfringens) concentrations in seawater and sand at six beaches in Hilo, Hawai'i, USA, over 37 sample dates from July 2016 to February 2019 using culturing techniques. Generalized linear models predicted bacterial concentrations with physicochemical and environmental data. Beach visitors were also surveyed on their preferred activities. S. aureus and FIB concentrations were roughly 6–78 times higher at beaches with freshwater discharge than at those without. Seawater concentrations of Enterococcus spp. were positively associated with MRSA but not S. aureus. Elevated S. aureus was associated with lower tidal heights, higher freshwater discharge, onsite sewage disposal system density, and turbidity. Regular monitoring of beaches with freshwater input, utilizing real‐time water quality measurements with robust modeling techniques, and raising awareness among recreational water users may mitigate exposure to S. aureus, MRSA, and FIB. Practitioner Points: Staphylococcus aureus and fecal bacteria concentrations were higher in seawater and sand at beaches with freshwater discharge.In seawater, Enterococcus spp. positively correlated with MRSA, but not S. aureus.Freshwater discharge, OSDS density, water turbidity, and tides significantly predicted bacterial concentrations in seawater and sand.Predictive bacterial models based upon physicochemical and environmental data developed in this study are readily available for user‐friendly application. [ABSTRACT FROM AUTHOR]

Published

2024

223. Evaluating methods for measuring in‐river bathymetry: Remote sensing green LIDAR provides high‐resolution channel bed topography limited by water penetration capability.

Author

Kastdalen, Leif, Stickler, Morten, Malmquist, Christian, and Heggenes, Jan

Subjects

REMOTE sensing, LIDAR, RIVER channels, BATHYMETRY, MULTIBEAM mapping, WATER depth

Abstract

The objective was to evaluate the feasibility of measuring bathymetry using airborne green LiDAR in long and variable river reaches (4 km or more), across three rivers with varying gradients, water depths and light penetration (3.5–10 m), using four alternative LiDAR sensors. The accuracy of green LiDAR data was compared to in situ measurements collected by stratified transect point sampling and Multibeam bathymetry. Factors potentially limiting the feasibility of green LIDAR in rivers were explored. If remote sensing signals were reflected by the riverbed, the sensors generally provided elevation data consistent with in situ elevation measurements, indicating high accuracy (±10 cm) across different hydraulic conditions. The loss of green LiDAR data was mainly a consequence of limited signal water penetration capability, that is, water clarity. Secchi depth was a proxy variable strongly associated with green LiDAR penetration capability across rivers. Data loss was low up to the Secchi depth but increased rapidly thereafter. Surface water turbulence ('white water') and dark riverbed vegetation also increased green LiDAR signal loss. Sensors with lower point density and therefore less spatial resolution had more signal strength and therefore penetrated deeper water. However, with increasing coverage of surface turbulence ('white water'), the importance of high point density also increased. Signal power should be balanced with signal density (spatial resolution), depending on river characteristics and project objectives. We conclude that remote sensing green LiDAR bathymetry is a robust method that efficiently provides accurate elevation data across rivers with different hydraulic conditions and water depths. [ABSTRACT FROM AUTHOR]

Published

2024

224. Occurrence of toxic elements in river areas along drains and groundwater resources: source of contamination and associated health risk.

Author

Ullah, Zahid, Younas, Fazila, Bacha, Aziz Ur Rahim, Rashid, Abdur, Al-onazi, Wedad A., and Sardar, Muhammad Fahad

Subjects

ECOLOGICAL risk assessment, HEALTH risk assessment, RIVER pollution, GROUNDWATER, GROUNDWATER quality, INDUSTRIAL wastes, WATER quality

Abstract

The objective of the current research was to examine the water quality of the River Ravi and the River Sutlej, with a specific focus on potentially toxic elements (PTEs). Additionally, we sought to monitor the sources of pollution in these rivers by gathering samples from the primary drains that carry industrial and municipal waste into these water bodies. Furthermore, we aimed to evaluate the impact of PTEs in surface water on groundwater quality by collecting groundwater samples from nearby populated areas. A total of 30 samples were collected from these three sources: rivers (6 samples), drains (9 samples), and groundwater (15 samples). The analysis revealed that the levels of PTEs in the samples from these three resources having a mean value: arsenic (As) 23.5 µg/L, zinc (Zn) 2.35 mg/L, manganese (Mn) 0.51 mg/L, lead (Pb) 6.63 µg/L, and chromium (Cr) 10.9 µg/L, exceeded the recommended values set by the World Health Organization (WHO). Furthermore, PTEs including (As 84%), (Zn 65%), (Mn 69%), (Pb 53%), (Cr 53%), and (Ni 27%), samples were beyond the recommended values of WHO. The results of the Principal Component Analysis indicated that surface water and groundwater exhibited total variability of 83.87% and 85.97%, respectively. This indicates that the aquifers in the study area have been contaminated due to both natural geogenic factors and anthropogenic sources. These sources include the discharge of industrial effluents, wastewater from municipal sources, mining activities, agricultural practices, weathering of rocks, and interactions between rocks and water. Spatial distribution maps clearly illustrated the widespread mobilization of PTEs throughout the study area. Furthermore, a health risk assessment was conducted to evaluate the potential adverse health effects of PTEs through the ingestion of drinking groundwater by both children and adults. Health risk assessment result show the mean carcinogenic values for As, Cr, Pb and Ni in children are calculated to be (1.88E-04), (2.61E-04), (2.16E-02), and (5.74E-05), respectively. Similarly, the mean carcinogenic values for the above mentioned PTEs in adults were recorded to be (2.39E-05), (3.32E-05), (1.19E-03), and (7.29E-06) respectively. The total hazard index values for As, Zn, Cr, Pb, Mn, Cu, and Ni in children were observed to be (9.07E + 00), (9.95E-07), (4.59E-04), (5.75E-04), (4.72E-05), (2.78E-03), and (5.27E-05) respectively. The analysis revealed that As has an adverse effect on the population of the study area as compared to other PTEs investigated in this study. [ABSTRACT FROM AUTHOR]

Published

2024

225. Conserving Freshwater Ecosystems in India: A call to action.

Author

Arora, R., Balachander, T., Agrawal, I., Panda, R., Gupta, D., Kasturirangan, A., Vencatesan, J., Sivakumar, K., Kumar, R., Mathur, V.B., Chokkakula, S., Lal, T., Kaushal, N., Babu, S., and Kiesecker, J.

Subjects

FRESH water, GROUNDWATER monitoring, WATER supply, CONSERVATION projects (Natural resources), ECOSYSTEMS, FRESHWATER biodiversity, REGIONAL planning

Abstract

India boasts of a vast freshwater resource network (rivers, wetlands, and groundwater), which has unique ecological, social and economic values associated with it. Despite their importance for both people and biodiversity, its freshwater ecosystems (FWEs) are heavily impacted through multiple factors such as pollution, overexploitation, habitat loss/modification and climate change. India is also among the hotspots of water resource overuse that has caused a serious decline in freshwater availability.Given that healthy FWEs lie at the centre for supporting the country's ecology, health, economy, livelihoods and ultimately achieving multiple policy goals, it is crucial that holistic and focused efforts are made to protect, conserve, and restore all types of FWEs.We call for an urgent and a greater focus on implementing conservation actions for FWEs in India and suggest the following strategy to enhance focus on their conservation: (1) establishing a shared freshwater conservation vision at a national scale, (2) developing and including national freshwater conservation goals within global efforts, (3) conducting simultaneous conservation action planning at regional scales and (4) bridge planning to implementation gap by strengthening key enabling conditions: i) mainstream FWE conservation within key existing governance instruments, ii) secure sustainable conservation funding, iii) improve data access and knowledge translation; iv) create national awareness around importance of FWEs; v) facilitate collaboration among key actors. [ABSTRACT FROM AUTHOR]

Published

2024

226. Evaluating the potential for efficient, UAS-based reach-scale mapping of river channel bathymetry from multispectral images.

Author

Legleiter, Carl J. and Harrison, Lee R.

Subjects

MULTISPECTRAL imaging, RIVER channels, BATHYMETRY, WATER depth, REMOTE sensing, IMAGE retrieval

Abstract

Introduction: Information on spatial patterns of water depth in river channels is valuable for numerous applications, but such data can be difficult to obtain via traditional field methods. Ongoing developments in remote sensing technology have enabled various image-based approaches for mapping river bathymetry; this study evaluated the potential to retrieve depth from multispectral images acquired by an uncrewed aircraft system (UAS). Methods: More specifically, we produced depth maps for a 4 km reach of a clearflowing, relatively shallow river using an established spectrally based algorithm, Optimal Band Ratio Analysis. To assess accuracy, we compared image-derived estimates to direct measurements of water depth. The field data were collected by wading and from a boat equipped with an echo sounder and used to survey cross sections and a longitudinal profile. We partitioned our study area along the Sacramento River, California, USA, into three distinct sub-reaches and acquired a separate image for each one. In addition to the typical, self-contained, per-image depth retrieval workflow, we also explored the possibility of exporting a relationship between depth and reflectance calibrated using data from one site to the other two sub-reaches. Moreover, we evaluated whether sampling configurations progressively more sparse than our full field survey could still provide sufficient calibration data for developing robust depth retrieval models. Results: Our results indicate that under favorable environmental conditions like those observed on the Sacramento River during low flow, accurate, precise depth maps can be derived from images acquired by UAS, not only within a sub-reach but also across multiple, adjacent sub-reaches of the same river. Discussion: Moreover, our findings imply that the level of effort invested in obtaining field data for calibration could be significantly reduced. In aggregate, this investigation suggests that UAS-based remote sensing could facilitate highly efficient, cost-effective, operational mapping of river bathymetry at the reach scale in clear-flowing streams. [ABSTRACT FROM AUTHOR]

Published

2024

227. Assessment of heavy metal contentin water bodies of Zhytomyr Oblast.

Author

Mosiienko, Nataliia, Rudyk-Leuska, Nataliia, Makarenko, Alina, Polishchuk, Anatoliy, and Leuskyi, Mykhailo

Subjects

*BODIES of water, *HEAVY metals, *AQUATIC ecology, *ECONOMIC development

Abstract

Pollution of water bodies with heavy metals can lead to the death of fish and other aquatic organisms, a decrease in biodiversity and a threat to ecosystems, emphasising the importance of preserving the natural environment; pollution of water bodies can have serious economic consequences, in particular, a decrease in profits from fishing, tourism, and other activities related to water use, which requires the development of water management strategies. The purpose of the study was to determine the general trends in the content of heavy metals in the surface waters of the Teteriv River and fattening pond No. 1 of the LLC "SHF INTERRYBHOSP". Water samples were taken at the stream of the Teteriv River (Vidsichne Reservoir) and in the fattening pond No. 1 at a depth of 0.2-0.5 m from the surface for further laboratory analysis of the content of heavy metal ions (HM). The atomic absorption method of analysis was used to study water. Laboratory studies of surface waters in the Teteriv River and pond were performed according to the following indicators: hydrogen index (pH), lead, cadmium, manganese, zinc, and iron content. The results of the study of the content of heavy metals in the Teteriv River are presented, which showed that the content of such heavy metals as: Pb, Cd, Mn, Zn and Fe, in river water, with the exception of iron, exceed the limits of maximum admissible values of water quality indicators for fishery water bodies. Background HM indicators from fattening pond No. 1 did not show an excess of the MAC (maximum admissible concentration). High concentrations of lead, cadmium, manganese, and iron are explained by powerful anthropogenic pollution, the source of which is agricultural and industrial complexes of Zhytomyr Oblast. The results can be used to establish effective monitoring of water quality in reservoirs and develop strategies to reduce pollution in aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

228. Plastic pollution in marine and freshwater biota.

Author

Caruso, Gabriella, Corsi, Ilaria, Chenxi Wu, Bergami, Elisa, Corami, Fabiana, and Azevedo-Santos, Valter M.

Subjects

*PLASTIC marine debris, *WATER pollution, *FRESHWATER organisms, *MARINE biodiversity, *FRESHWATER biodiversity, *TECHNICAL reports, *MARINE pollution, *MODERN society, *MARINE debris

Abstract

Plastic pollution is now recognised as a growing concern for both the environment and associated biota. Consequently, a plethora of scientific reports are being produced regarding the occurrence, distribution, and transfer pathways of litter particles. However, there are scientific gaps that need to be filled regarding micro- and nanoplastic impacts on marine and freshwater organisms. This Special Issue (SI) aimed to provide an update on plastic pollution and its consequences on aquatic ecosystems, with a particular focus on biological domains, by adopting a multidisciplinary perspective. Several research articles and reviews were collected, focusing on the origin, fate, and effects of plastics in marine and freshwater environments, along with their interactions with biotic components. We believe this SI will contribute to the development of new studies on plastic pollution and the elaboration of science-based policies at different levels of our modern society. [ABSTRACT FROM AUTHOR]

Published

2024

229. Introduction to section 1.

Author

Nickum, James E. and Stephan, Raya Marina

Subjects

*WATER management, *BODIES of water, *WATER resources development, *WATERSHEDS, *POLITICAL autonomy, *LAKE management, *CLIMATE change adaptation

Abstract

This article discusses the governance aspects of managing river, lake, and aquifer basins, both at the transboundary and domestic levels. It highlights the importance of basin organizations in facilitating negotiation, data sharing, and decision-making among stakeholders. The article also explores the challenges faced by international basin organizations, such as power asymmetries and the inclusion of non-state actors. Additionally, it examines the scale implications of transboundary agreements and the participation of civil society in water management. The article concludes by emphasizing the need for improved institutions and cooperation in order to effectively manage water resources. [Extracted from the article]

Published

2024

230. Application of diffusive gradient in thin films probes to monitor trace levels of labile methylmercury in freshwaters.

Author

Bajagain, Rishikesh, Noh, Seam, Kim, Young-hee, Kim, Hyuk, Seok, Kwang-seol, Bailon, Mark Xavier, and Hong, Yongseok

Abstract

This study aimed to optimize the methods for sampling and analyzing methylmercury (MeHg) concentrated within diffusive gradients in thin films (DGT) and its application to different water bodies. We explored the elution solution for MeHg, comprised of 1.13 mM thiourea and 0.1M HCl, optimizing its volume to 50 mL. In addition, we found that it is necessary to analyze the entire extraction solution after adjusting its pH, to ensure completion of the ethylation reaction. The DGT samplers were deployed in two distinct aquatic environments (i.e., Okjeong Lake and Nakdong River) for up to 6 weeks, and this study demonstrated to predict the time-weighted average concentration with a diffusion coefficient of 7.65 × 10−6 cm2 s−1 for MeHg in the diffusive gel. To assess the diffusive boundary layer (DBL) effects, the DGT samplers with different agarose diffusive gel thickness were deployed. The mass of MeHg accumulated in the DGT resin at a given time decreased with increasing diffusive gel thickness, because of creating longer diffusion pathways within thicker gels. The labile MeHg concentration estimated by the DGT in Okjeong Lake and Nakdong River are found in the range of 61–111 and 55–105 pg L−1, respectively, which were found to be similar to the grab sampling data. Additionally, this study evaluated depth-dependent MeHg in Okjeong Lake. The vertical profile results showed that the concentration of MeHg at the depth of 2.3 and 15.7 m are about 1.5 and 4.6 times of the DGT installed at 0.3 m of the surface layer, respectively, suggesting potential mercury methylation in deep waters. These findings have practical implications for predicting bioavailability, assessing risks, and formulating strategies for water body management and contamination remediation. [ABSTRACT FROM AUTHOR]

Published

2024

231. Dissolved Iron and Organic Matter in Boreal Rivers across a South–North Transect.

Author

Aleshina, Alisa, Rusakova, Maria-Anna, Drozdova, Olga Y., Pokrovsky, Oleg S., and Lapitskiy, Sergey A.

Subjects

DISSOLVED organic matter, ION exchange chromatography, WATER quality, CHEMICAL speciation, ORGANIC compounds

Abstract

Iron (Fe) is one of the main nutrients present in dissolved, suspended, and colloidal states in river water. Predicting the composition and size of dissolved Fe compounds is crucial for assessing water quality. In this stud, we used a combination of physical methods (filtration), chemical techniques (ion exchange chromatography), and thermodynamic modeling (Visual MINTEQ) to characterize dissolved Fe speciation in boreal organic-rich rivers across a sizable south–north transect. We chose contrasting rivers with a predominance of either allochthonous or autochthonous organic compounds. We found that the dissolved organic matter (DOM) in the studied rivers varies in molecular weights and the degree of humification. Regardless of the climate parameters of the river watershed, the dominant status of dissolved Fe during the summer low-water period was essentially colloidal and dominated by anionic complexes of the type [MeL]n−. [ABSTRACT FROM AUTHOR]

Published

2024

232. Metalliferous accumulation and deposition in Fish within contaminated environments.

Author

Gupta, Bharti and Maurya, Ramakant

Subjects

AQUATIC habitats, METAL ions, GASTROINTESTINAL system, OXIDATIVE stress, CHEMICAL process control

Abstract

There is an accumulation of toxic metal ions in an aquatic habitat that modifies the physical and chemical characteristics of water, posing a threat to aquatic organisms. The fish's body absorbs heavy metals through the gills, dorsal surface, and gastrointestinal system when they eat foodstuff that has high levels of these metals. Zinc, Lead, Mercury, Copper, Arsenic, Nickel, chromium and cadmium are the primary heavy metal contaminants responsible for inducing toxicity in fish. Oxidative stress, or oxidative damage, is the primary chemical process responsible for metal poisoning. Stress undermines a low immune system, leading to harm to organs and tissues, developmental irregularities, and reduced reproductive capacity. Due to the copious availability of vitamins, proteins, and fatty acids such as omega-3 found in fish, individuals are inclined to consume seafood as their primary nutritional source. Consequently, the aggregation of toxic metallic elements in fish tissues has a direct impact on people, causing detrimental effects that accelerate the onset of various diseases. To effectively enforce aquatic conservation regulations and protect human lives, it is imperative to investigate the origins of toxic metals and their detrimental effects on the health of fish. [ABSTRACT FROM AUTHOR]

Published

2024

233. The changes in the annual distribution of mountain runoff during the period of 1965–2018 in Hexi Corridor, Northwest China.

Author

Yan Luo, ZhiXiang Lu, Qi Feng, Meng Zhu, and JinBo Zhang

Subjects

WATER supply, WATER management, RIVERS, PROBABILITY theory, ANALYSIS of variance

Abstract

The annual distribution characteristics of river runoff in arid regions have significant implications for water resource stability and management. Based on the mountain runoff data from 1965 to 2018, this study examines the annual change characteristics of monthly runoff of the Shiyang River Basin, Heihe River Basin, and Shule River Basin in the Hexi Corridor, Northwest China. Many indexes are used and analyzed, including the coefficient of variance, the complete regulation coefficient, the concentration degree and concentration period, the magnitude of change, the skewness coefficient, and the kurtosis coefficient of the annual distribution curves. The results reveal the following: (1) The inhomogeneity of annual runoff distribution in the Taolai River and the rivers to the west of it, except the Shiyou River, show an increasing trend. Conversely, the inhomogeneity of the rivers to the east of the Taolai River generally show a downward trend, but the coefficient of variance value is still very high. (2) In the Shiyang River Basin, the annual distribution of the concentration period is characterized by a relatively discrete pattern. Conversely, the Heihe River Basin exhibits a relatively concentrated pattern, and the distribution pattern of the Shule River Basin is quite different. Notably, all concentration periods in the three basins have shifted backward after the 2000s. (3) The Shiyang River Basin exhibits disordered annual distribution curves of runoff in different years. In contrast, the Heihe River Basin presents a typical ‘single-peak’ pattern with a prominent right-skewed. The Shule River Basin has regular distribution curves, with a gradually significant ‘double-peak’ pattern from east to west. Overall, there has been a slight change in runoff in the Shiyang River Basin, while the Heihe River Basin and Shule River Basin have experienced significant increases in runoff. The annual distribution curves of runoff in the Liyuan River and the rivers to the east of it exhibit a gentle peak pattern, and the appearance probability of extreme runoff during the year is low. Conversely, the rivers to the west of the Liyuan River, excluding the Danghe River, display a sharp peak and thick tail pattern, indicating that the appearance probability of extreme runoff during the year is high. These findings have practical implications for the planning and management of water resources in the Hexi Corridor. Moreover, they provide a solid foundation for predicting future changes in regional water resources. [ABSTRACT FROM AUTHOR]

Published

2024

234. Water in Afghanistan: a modern history.

Author

Hanifi, Shah Mahmoud

Abstract

This paper discusses water in Afghanistan from the late nineteenth century through the early twenty-first century. This broad chronology is periodized using the historical themes of colonialism, nationalism, international developmentalism, and global warfare. Modern hydraulic technology arrived in the domestic architecture of Kabuli state elites beginning in the 1860s and accelerating greatly in the 1890s. The first decades of the twentieth were marked by continuing developments regarding palatial hydrology (pools, fountains, etc.) and new forms of modern hydraulic engineering (piped water, dams and bridges) primarily in and around Kabul involving the Kabul river and its tributaries. The middle decades of the twentieth century involved substantial engagement of rivers throughout country under the various ideological and material regimes of international development sponsored by the US, USSR and a number of other global actors and sanctioned by local political elites who became increasingly dependent on the global system. The decades surrounding the year 2000 have been marked by intense and sustained overt and covert global warfare. The effects of war on the environment of Afghanistan from the perspective of Human Rights, particularly Afghan Peoples' Rights to Water, constitute the final section of the paper. [ABSTRACT FROM AUTHOR]

Published

2024

235. Formation of Water Quality of Surface Water Bodies Used in the Material Processing.

Author

Lyubimova, Tatyana, Lepikhin, Anatoly, Parshakova, Yanina, Zayakina, Irina, and Issakhov, Alibek

Subjects

WATER quality, POLLUTANTS, RIVERS, REMOTE-sensing images, DATA analysis

Abstract

In the process of production or processing of materials by various methods, there is a need for a large volume of water of the required quality. Today in many regions of the world, there is an acute problem of providing industry with water of a required quality. Its solution is an urgent and difficult task. The water quality of surface water bodies is formed by a combination of a large number of both natural and anthropogenic factors, and is often significantly heterogeneous not only in the water area, but also in depth. As a rule, the water supply of large industrial enterprises is located along the river network. Mergers are the most important nodes of river systems. Understanding the mechanism of transport of pollutants at the confluence of rivers is critical for assessing water quality. In recent years, thanks to the data of satellite images, the interest of researchers in the phenomenon of mixing the waters of merging rivers has increased. The nature of the merger is influenced by the formation of transverse circulation. Within the framework of this work, a study of vorticity, as well as the width of the mixing zone, depending on the distance from the confluence, the speeds of the merging rivers and the angle of confluence was carried out. Since the consumer properties of water are largely determined by its chemical and physical indicators, the intensity of mixing, determined largely by the nature of the secondary circulation, is of fundamental importance for assessing the distribution of hydrochemical indicators of water quality in the mixing zone. These characteristics are important not only for organizing water intake for drinking and technical purposes with the best consumer properties, but also for organizing an effective monitoring system for confluence zones. [ABSTRACT FROM AUTHOR]

Published

2024

236. Paired Synoptic and Long-Term Monitoring Datasets Reveal Decadal Shifts in Suspended Sediment Supply and Particulate Organic Matter Sources in a River-Estuarine System

Author

Richardson, CM, Young, M, and Paytan, A

Subjects

Earth Sciences, Physical Geography and Environmental Geoscience, Atmospheric Sciences, Environmental Sciences, Estuary, Detritus, Rivers, Environmental change, Carbon, Data synthesis, Biological Sciences, Marine Biology & Hydrobiology, Biological sciences, Earth sciences, Environmental sciences

Abstract

Abstract: The San Francisco Estuary, in central California, has several long-running monitoring programs that have been used to reveal human-induced changes throughout the estuary in the last century. Here, we pair synoptic records of particulate organic matter (POM) composition from 1990–1996 and 2007–2016 with more robust long-term monitoring program records of total suspended sediment (TSS) concentrations generally starting in the mid-1970s to better understand how POM and TSS sources and transport have shifted. Specifically, POM C:N ratios and stable isotope values were used as indicators of POM source and to separate the bulk POC pool into detrital and phytoplankton components. We found that TSS and POC sources have shifted significantly across the estuary in time and space from declines in terrestrial inputs. Landward freshwater and brackish water sites, in the Delta and near Suisun Bay, witnessed long-term declines in TSS (32 to 52%), while seaward sites, near San Pablo Bay, recorded recent increases in TSS (16 to 121%) that began to trend downwards at the end of the record considered. Bulk POM C:N ratios shifted coeval with the TSS concentration changes at nearly all sites, with mean declines of 12 to 27% between 1990–1996 and 2007–2016. The widespread declines in bulk POM C:N ratios and inferred changes in POC concentrations from TSS trends, along with the substantial declines in upstream TSS supply through time (56%), suggest measurable reductions in terrestrial inputs to the system. Changes in terrestrial TSS and POM inputs have implications for biotic (e.g., food web dynamics) and abiotic organic matter cycling (e.g., burial, export) along the estuarine continuum. This work demonstrates how human-generated environmental changes can propagate spatially and temporally through a large river-estuary system. More broadly, we show how underutilized monitoring program datasets can be paired with existing (and often imperfect) synoptic records to generate new system insight in lieu of new data collection.

Published

2023

237. Changing Perspectives

Author

Lars Gustavsen

Subjects

Iron Age, Mound, Visibility, Viewshed analysis, GIS, Rivers, Archaeology, CC1-960

Abstract

This paper presents a reassessment of mound visibility through the analysis of Halvdanshaugen, a substantial Iron Age mound in Norway. In line with conventional views, the mound's visibility covers a considerable swath of the surrounding terrain, although views are limited by topographic features from certain directions and specific parts of the landscape. A refined viewshed analysis, incorporating vegetation as a visual barrier, however, suggests that the mound's visual impact extends no more than a few hundred meters from its base. This sees the mound placed in an enclosed setting which alters the mound’s visual characteristics, emphasizing details of both the mound and activities nearby. In contrast to traditional interpretations that emphasize landscape-wide symbolism, this study advocates for a more reflective perspective, and calls for a multi-sensory understanding of the fluid relationship between mound and landscape. It rejects the idea of universal placement rules and proposes more contextual interpretations that acknowledge the diversity observed in mound construction and use.

Published

2024

238. A critical review of biomonitoring in East African rivers: fostering community-based collaboration for environmental change observation

Author

Nzula Kitaka, Lorine A. Omondi, Priscilla W. Mureithi, Andreas Bauer, Andreas Melcher, and Grace A. Ssanyu

Subjects

biomonitoring, community-based collaboration, environmental changes, citizen science, rivers, integrated water resource management, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The contribution of citizen scientists to environmental monitoring is notably increasing significantly. Governments worldwide establish Water Users Associations (WUAs) as a good practice model to implement Integrated Water Resource Management (IWRM) at local levels. These associations target different stakeholders depending on the expected outcome. However, their effectiveness, especially in East Africa, can only be determined case by case. In Kenya, Water Resources Users Associations are registered, voluntary community groups whose members are water users and land owners. Similarly, in Uganda, community-based initiatives exist, especially along degraded rivers, involving cooperation between local communities and regional water authorities. On the contrary, it has been reported that in Tanzania, many community initiatives created become non-functional within 2–3 years of induction. In general, the main responsibility of Water Users Associations or its equivalent is to manage and conserve water resources for sustainable uses. In most cases, water quality monitoring by communities through citizen science is limited to the visual appearance of water in the river channel. While this can indicate the water’s esthetic value, it is insufficient for assessing the ecological status of rivers, which is influenced by a variety of physical, chemical, biological, and socioeconomic factors. The use of bioindicators has been advocated as a feasible method for community-based water quality river monitoring. Therefore, this review explores the commonly used bio-indicators and bio-assessment tools for river health assessment and their complexities when using a biomonitoring community-based approach through citizen science. Tolerance and intolerance macroinvertebrate and fish metric protocols that utilize identification keys have been recommended. These protocols are designed to be user-friendly and require minimal taxonomic expertise, making them easy for community volunteers to use with minimal basic training. The sustainability of these citizen science initiatives relies on the motivation of volunteers, the frequency of monitoring activities, and collaboration with researchers and government agencies. These initiatives not only facilitate environmental monitoring but also foster community engagement and awareness regarding the ecological status of rivers, thereby addressing knowledge and data gaps necessary for effective policy-making. This approach provides a practical model for environmental stewardship and participatory resource management in East Africa.

Published

2024

239. River continuum disruptions in a highly altered system: The perspective of potamodromous fish

Author

Johannes L. Kowal, Andrea Funk, Günther Unfer, Damiano Baldan, Gertrud Haidvogl, Christoph Hauer, Maria T. Ferreira, Paulo Branco, Rafaela Schinegger, and Thomas Hein

Subjects

Connectivity, Rivers, Fish, Potamodromous, Barriers, Fragmentation, Ecology, QH540-549.5

Abstract

In this study, we explored how barriers such as dams have affected the longitudinal connectivity of riverine habitats from the perspective of potamodromous fish. For this purpose, connectivity changes are investigated in the central part of the Austrian Danube system, where the national reporting for the EU Water Framework Directive provides detailed information on the position and characteristics of barriers as well as the distribution range of native fish species. This assessment is based on an estimation regarding the quantitative upstream and downstream passability of individual barriers, where we further investigate three different passability scenarios to account for uncertainties. We then apply several combinations of passability scenarios and assumptions on dispersal distances to calculate a series of network-based reach and catchment connectivity indices. On average, the estimation of barrier passability indicated a high downstream passability, while upstream passability was substantially lower across scenarios. Furthermore, existing fish passes were estimated to have increased passability on average between 20 % and 24 %. Overall, the results indicated a strong effect of barriers on the longitudinal connectivity of the investigated river network. Catchment scale indices revealed a loss of connectivity, which increased with dispersal distance. Reach connectivity indices displayed a strong disruption of the natural connectivity gradient along the river network and indicated that individual river reaches have, on average, become more isolated in addition to the overall decrease in connectivity. The average loss of connectivity across scenarios was estimated at 72 % (SD = 16 %) when taking into account all connections to other reaches and 66 % (SD = 7 %) when only connections to upstream reaches were considered. We conclude that longitudinal connectivity in the Austrian Danube system is still severely compromised, making it increasingly challenging for potamodromous fish species to complete their life cycle. This issue is further amplified by the severe loss of fish habitats as a consequence of river engineering.

Published

2024

240. The System of Water-Protecting Forests in Russia and Variants for Its Justification and Improvement

Author

Belyi, Anatolyi, Shmakin, Victor, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Ksibi, Mohamed, editor, Negm, Abdelazim, editor, Hentati, Olfa, editor, Ghorbal, Achraf, editor, Sousa, Arturo, editor, Rodrigo-Comino, Jesus, editor, Panda, Sandeep, editor, Lopes Velho, José, editor, El-Kenawy, Ahmed M., editor, and Perilli, Nicola, editor

Published

2024

241. Can't Beat the View: Where to get a great meal on the water

Author

Jackson, Lauren

Subjects

Rivers, Restaurants -- Restaurant reviews, General interest

Abstract

We often hear locals and visitors alike lament what they see as our area's shortage of waterfront dining options, but after combing our coastline and tracing our local rivers and [...]

Published

2024

242. SLOW SNOW: TAYLOR RIVER LODGE OFFERS WINTER ACTIVITIES THAT ALLOW GUESTS TO CONNECT WITH THE COLD IN NEW, MEANINGFUL WAYS, NO RESORT PASS REQUIRED

Author

Simmons, Krista

Subjects

Rivers, Home and garden

Abstract

The thin alpine air stings my lungs as I vigorously inhale and exhale in kapalabhati pranayama, or breath of fire, hoping to warm my body while focusing on the ice-cold [...]

Published

2024

243. Smooth Sailing

Author

Leppert, Jason

Subjects

Cruise ships, Rivers, Business, Travel industry

Abstract

River cruise lines are preparing for what's next on the world's waterways A NEW YEAR HAS BEGUN, and with it comes good tidings from the travel world. Just like there [...]

Published

2024

244. The Long and Winding Recovery

Author

Marech, Rona

Subjects

National parks and reserves, Rivers, Environmental issues

Abstract

The Anacostia River and the national park site that flanks it were long mistreated and neglected. Are the tides finally turning? Like many in his generation of Washington, D.C., natives, [...]

Published

2024

245. Dreaming in bourke

Author

Magee, Paul

Published

2024

246. Advances in Catchment Science, Hydrochemistry, and Aquatic Ecology Enabled by High-Frequency Water Quality Measurements

Author

Bieroza, Magdalena, Acharya, Suman, Benisch, Jakob, Borg, Rebecca N ter, Hallberg, Lukas, Negri, Camilla, Pruitt, Abagael, Pucher, Matthias, Saavedra, Felipe, Staniszewska, Kasia, Veen, Sofie GM van’t, Vincent, Anna, Winter, Carolin, Basu, Nandita B, Jarvie, Helen P, and Kirchner, James W

Subjects

Water Quality, Hydrobiology, Rivers, Forecasting, Environmental Monitoring, Catchment science, stream hydrochemistry, aquatic ecology, high-frequency, water quality monitoring, optical sensors, Environmental Sciences

Abstract

High-frequency water quality measurements in streams and rivers have expanded in scope and sophistication during the last two decades. Existing technology allows in situ automated measurements of water quality constituents, including both solutes and particulates, at unprecedented frequencies from seconds to subdaily sampling intervals. This detailed chemical information can be combined with measurements of hydrological and biogeochemical processes, bringing new insights into the sources, transport pathways, and transformation processes of solutes and particulates in complex catchments and along the aquatic continuum. Here, we summarize established and emerging high-frequency water quality technologies, outline key high-frequency hydrochemical data sets, and review scientific advances in key focus areas enabled by the rapid development of high-frequency water quality measurements in streams and rivers. Finally, we discuss future directions and challenges for using high-frequency water quality measurements to bridge scientific and management gaps by promoting a holistic understanding of freshwater systems and catchment status, health, and function.

Published

2023

247. Bacterial and Chemical Evidence of Coastal Water Pollution from the Tijuana River in Sea Spray Aerosol.

Author

Pendergraft, Matthew A, Belda-Ferre, Pedro, Petras, Daniel, Morris, Clare K, Mitts, Brock A, Aron, Allegra T, Bryant, MacKenzie, Schwartz, Tara, Ackermann, Gail, Humphrey, Greg, Kaandorp, Ethan, Dorrestein, Pieter C, Knight, Rob, and Prather, Kimberly A

Subjects

Humans, Bacteria, RNA, Ribosomal, 16S, Aerosols, Rivers, Seawater, Environmental Monitoring, Sewage, Water Pollution, Aerosolized Particles and Droplets, 16S, Imperial Beach, Scripps Institution of Oceanography, Tijuana, Tijuana River, airborne exposure, coastal, mass spectrometry, pathogen, sea spray aerosol, water pollution, Life Below Water, Scripps Institution of, Environmental Sciences

Abstract

Roughly half of the human population lives near the coast, and coastal water pollution (CWP) is widespread. Coastal waters along Tijuana, Mexico, and Imperial Beach (IB), USA, are frequently polluted by millions of gallons of untreated sewage and stormwater runoff. Entering coastal waters causes over 100 million global annual illnesses, but CWP has the potential to reach many more people on land via transfer in sea spray aerosol (SSA). Using 16S rRNA gene amplicon sequencing, we found sewage-associated bacteria in the polluted Tijuana River flowing into coastal waters and returning to land in marine aerosol. Tentative chemical identification from non-targeted tandem mass spectrometry identified anthropogenic compounds as chemical indicators of aerosolized CWP, but they were ubiquitous and present at highest concentrations in continental aerosol. Bacteria were better tracers of airborne CWP, and 40 tracer bacteria comprised up to 76% of the bacteria community in IB air. These findings confirm that CWP transfers in SSA and exposes many people along the coast. Climate change may exacerbate CWP with more extreme storms, and our findings call for minimizing CWP and investigating the health effects of airborne exposure.

Published

2023

248. Captive-reared Delta Smelt (Hypomesus transpacificus) exhibit high survival in natural conditions using in situ enclosures.

Author

Baerwald, Melinda R, Kwan, Nicole, Pien, Catarina, Auringer, Grace, Carson, Evan W, Cocherell, Dennis E, Ellison, Luke, Fangue, Nann A, Finger, Amanda J, Gille, Daphne A, Hudson, Haley, Hung, Tien-Chieh, Sommer, Ted, Stevenson, Troy, and Schreier, Brian M

Subjects

Animals, Osmeriformes, Ecosystem, Rivers, San Francisco, Endangered Species, Life on Land, General Science & Technology

Abstract

Conservation of endangered fishes commonly includes captive breeding, applied research, and management. Since 1996, a captive breeding program has existed for the federally threatened and California endangered Delta Smelt Hypomesus transpacificus, an osmerid fish endemic to the upper San Francisco Estuary. Although this program serves as a captive refuge population, with experimental releases being initiated to supplement the wild population, it was uncertain how individuals would survive, feed, and maintain condition outside hatchery conditions. We evaluated this and the effects of three enclosure designs (41% open, 63% open, and 63% open with partial outer mesh wrap) on growth, survival, and feeding efficacy of cultured Delta Smelt at two locations (Sacramento River near Rio Vista, CA and in Sacramento River Deepwater Ship Channel) in the wild. Enclosures exposed fish to semi-natural conditions (ambient environmental fluctuations and wild food resources) but prevented escape and predation. After four weeks, survival was high for all enclosure types (94-100%) at both locations. The change in condition and weight was variable between sites, increasing at the first location but decreasing at the second location. Gut content analysis showed that fish consumed wild zooplankton that came into the enclosures. Cumulatively, results show that captive-reared Delta Smelt can survive and forage successfully when housed in enclosures under semi-natural conditions in the wild. When comparing enclosure types, we observed no significant difference in fish weight changes (p = 0.58-0.81 across sites). The success of housing captive-reared Delta Smelt in enclosures in the wild provides preliminary evidence that these fish may be suitable to supplement the wild population in the San Francisco Estuary. Furthermore, these enclosures are a new tool to test the efficacy of habitat management actions or to acclimate fish to wild conditions as a soft release strategy for recently initiated supplementation efforts.

Published

2023

249. Thinking about life in COVID-19: An exploratory study on the influence of temporal framing on streams-of-consciousness.

Author

Bainbridge, Constance M and Dale, Rick

Subjects

Humans, Anxiety, Consciousness, Rivers, Linguistics, COVID-19, Behavioral and Social Science, Basic Behavioral and Social Science, Mental Health, Good Health and Well Being, General Science & Technology

Abstract

The COVID-19 global pandemic led to major upheavals in daily life. As a result, mental health has been negatively impacted for many, including college students who have faced increased stress, depression, anxiety, and social isolation. How we think about the future and adjust to such changes may be partly mediated by how we situate our experiences in relation to the pandemic. To test this idea, we investigate how temporal framing influences the way participants think about COVID life. In an exploratory study, we investigate the influence of thinking of life before versus during the pandemic on subsequent thoughts about post-pandemic life. Participants wrote about their lives in a stream-of-consciousness style paradigm, and the linguistic features of their thoughts are extracted using Linguistic Inquiry and Word Count (LIWC). Initial results suggest principal components of LIWC features can distinguish the two temporal framings just from the content of their post-pandemic-oriented texts alone. We end by discussing theoretical implications for our understanding of personal experience and self-generated narrative. We also discuss other aspects of the present data that may be useful for investigating these thought processes in the future, including document-level features, typing dynamics, and individual difference measures.

Published

2023

250. ALTERAÇÕES NO TRANSPORTE HIDROVIÁRIO EM TEMPOS DE PANDEMIA NA TRAVESSIA BELÉM-MARAJÃ' /CHANGES IN WATERWAY TRANSPORT DURING PANDEMIC IN BELÉM-MARAJÃ' CROSSING /CAMBIOS EN EL TRANSPORTE HIDROVIAL EN TIEMPOS DE PANDEMIA EN LA TRAVESÍA BELÉM-MARAJÃ'

Author

Fiedler, Luan Carlos Paiva, Tobias, Maisa Sales Gama, da Silva, Thayana Lima, and de Paiva Junior, Humberto

Published

2023