Article
Fisheries
Jacob E. Lerner, Christian Marchese, Brian P. Hunt
Summary: In coastal marine food webs, food chain length and trophic level distribution are crucial elements of ecosystem-based management. This study evaluates the hypothesis that high primary production leads to lower trophic levels and shorter food chain length in British Columbia coast. The results support this hypothesis, showing a significant inverse relationship between primary production and food chain length as well as trophic level.
ICES JOURNAL OF MARINE SCIENCE
(2022)
Article
Environmental Sciences
Dmitry A. Novikov, Albina A. Khvaschevskaya, Yulia G. Kopylova, Aleksandr N. Pyryaev, Anastasia A. Maksimova, Anton S. Derkachev, Fedor F. Dultsev, Anatoliy Chernykh, Daria Purgina
Summary: The isotope and chemistry analysis of radon-rich thermal waters from the Belokurikha field in Altai, Russia reveals the sources and compositions of these waters. The study also highlights the correlation between the concentration of Th-232 and U-238 in radon-rich mineral waters and the environmental conditions.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2022)
Article
Environmental Sciences
Huijun Ye, Changyuan Tang, Yingjie Cao, Enqing Hou
Summary: This study revealed the close relationship between the sources and fates of particulate organic matter (POM) in a typical Bay in China with complex land use patterns. The results showed that POM in rural areas mainly came from soil, while POM in developing and developed urban areas came from soil, manure, and sewage. POM in the industrial urban area primarily originated from soil and industrial wastewater.
SCIENCE OF THE TOTAL ENVIRONMENT
(2023)
Article
Biodiversity Conservation
Nguyen Dinh Chau, Katarzyna Wator, Piotr Rusiniak, Zbigniew Gorczyca, Duong Van Hao
Summary: This study investigated the chemical composition and isotopic concentrations of water samples from nine therapeutic centers in northern Vietnam. The results showed that the thermal waters primarily originated from infiltration water with high mineralization and radium concentrations. The water temperature was mainly heated by the geogradient of heat energy. From a radiological perspective, the waters were deemed safe for therapeutic and relaxation purposes, but not suitable for drinking.
ECOLOGICAL INDICATORS
(2022)
Article
Engineering, Environmental
Emily S. Choy, Louise K. Blight, John E. Elliott, Keith A. Hobson, Michelle Zanuttig, Kyle H. Elliott
Summary: The shift in diet of glaucous-winged gulls from mainly marine to including more terrestrial/freshwater inputs may have counteracted the increased deposition of mercury from long-range transport. No significant trend was observed in the concentrations of methylmercury and total mercury in glaucous-winged gull feathers from 1887 to 1996. However, the concentrations of total mercury in eggs of two species of cormorants decreased, potentially due to a decrease in local mercury sources.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2022)
Article
Geochemistry & Geophysics
Zhimian Cao, Xinting Rao, Yating Li, Qingquan Hong, Lin Wei, Yang Yu, Claudia Ehlert, Bo Liu, Christopher Siebert, Ed C. Hathorne, Zhouling Zhang, Florian Scholz, Sabine Kasten, Martin Frank
Summary: The development of stable barium (Ba) isotope measurements provides a novel tool to investigate the geochemical cycling of Ba in the ocean and its sediments. Pore water profiles of dissolved stable Ba isotopic signatures (delta Ba-138(pw)) from shallow water sediments covering the entire Pearl River Estuary (PRE) in Southern China showed depth-dependent variations indicating preferential removal of low-mass Ba isotopes from the pore water during solution-solid phase interactions.
GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
(2023)
Article
Geosciences, Multidisciplinary
Hima. J. J. Hassenruck-Gudipati, Christoff Andermann, Sylvia Dee, Camilla. F. F. Brunello, Krishna Pyari Baidya, Dirk Sachse, Hanno Meyer, Niels Hovius
Summary: The Himalayan mountain range produces large rainfall gradients and the Indian Summer Monsoon contributes to most of the precipitation in the central Himalayas. However, the partitioning of moisture into different storage systems and their contribution to river discharge remains unclear. In this study, field data and stable isotope composition of river and rain water were used to understand hydrological variability. The study found that pre-ISM rainfall is distinct from monsoon rain and groundwater. The research highlights the importance of pre-ISM precipitation and groundwater as sources of river discharge in the central Himalayas.
Review
Chemistry, Analytical
Peijie Zuo, Yuming Huang, Jianzhou Bi, Weichao Wang, Wei Li, Dawei Lu, Qinghua Zhang, Qian Liu, Guibin Jiang
Summary: Atmospheric particulate matter (PM) pollution is a severe environmental problem worldwide, associated with various diseases. Stable isotopes have been used as valuable tracers to identify and constrain pollution sources, which is crucial for mitigating the impact of PM.
TRAC-TRENDS IN ANALYTICAL CHEMISTRY
(2023)
Article
Environmental Sciences
N. Bada, Z. Da Ros, F. Rindi, S. Busi, E. Azzurro, F. Derbal, E. Fanelli
Summary: The study revealed significant seasonal variations in the diet of the sally lightfoot crab, improving understanding of its trophic plasticity and potential dietary overlaps with other herbivore species. This feeding plasticity is advantageous for the successful spread of the species in the Mediterranean Sea.
MARINE ENVIRONMENTAL RESEARCH
(2022)
Article
Ecology
Anton M. Potapov, Melanie M. Pollierer, Sandrine Salmon, Vladimir Sustr, Ting-Wen Chen
Summary: The study explores the correlation and complementarity of trophic niche parameters tackled by four complementary methodological approaches, highlighting the importance of the power of method combination in complex natural food webs such as soil ecosystems where omnivore species with cryptic feeding habits coexist.
JOURNAL OF ANIMAL ECOLOGY
(2021)
Article
Environmental Sciences
Fajin Chen, Xuan Lu, Zhiguang Song, Chao Huang, Guangzhe Jin, Chunqing Chen, Xin Zhou, Qibin Lao, Qingmei Zhu
Summary: The study found that the POM in western Guangdong waters is significantly influenced by coastal currents in spring and summer, with a higher proportion of terrestrial organic matter in spring and a lower proportion in summer, mainly due to inadequate nutrients brought by the coastal currents.
MARINE POLLUTION BULLETIN
(2021)
Article
Environmental Sciences
Dong-Young Lee, Jung Hyun Kwak, Tae Hee Park, Hee Yoon Kang, Dongyoung Kim, Sungmin Hwang, Hyun Je Park
Summary: The geomorphology of coastal lagoons plays a crucial role in the hydrological balance and biogeochemical properties. This study found that seasonal variations in suspended particulate organic matter (POM) in different lagoon systems were influenced by environmental variability driven by hydrological dynamics. The differences in environmental conditions resulted in significant variations in POM composition between the two lagoon systems.
FRONTIERS IN MARINE SCIENCE
(2022)
Article
Water Resources
Jonathan M. Stelling, Stephen D. Sebestyen, Natalie A. Griffiths, Carl P. J. Mitchell, Mark B. Green
Summary: The new data set from the Marcell Experimental Forest (MEF) compiles water isotope measurements from multiple research catchments, primarily focused on three peatlands (S1, S2, S6) over an 11-year period. These data are publicly available and will be expanded upon in the future.
HYDROLOGICAL PROCESSES
(2021)
Article
Environmental Sciences
Saumya Silori, Haimanti Biswas, Mintu Chowdhury, Diksha Sharma, Mandeng-Yogo Magloire, Damien Cardinal
Summary: The study reveals the factors responsible for spatial and interannual variability in particulate organic matter (POM) and 813CPOC values in the western Indian Shelf waters. The dominance of upwelling in the south leads to higher phytoplankton biomass and POM values, while low nutrient warm waters prevail in the north.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Marine & Freshwater Biology
Edwin B. Pinto, Niall C. Slowey
Summary: The Guayas estuary in Ecuador is the largest estuary system along the western coast of South America, formed by interactions of fresh waters from the Guayas River and marine waters from the Pacific Ocean. The Babahoyo River and to a lesser extent the Daule River are identified as principal sources of fresh water for the entire estuary, with water compositions being more enriched at the end of the dry season. Spatial and temporal variations in the delta O-18-salinity relationships of waters within the estuary regions indicate how river influx, tidal circulation, mixing of waters, and evaporation affect these regions during dry and rainy seasons.
ESTUARINE COASTAL AND SHELF SCIENCE
(2021)
Article
Environmental Sciences
Xin Xu, Hengchen Wei, Grayson Barker, Kylie Holt, Spyder Julian, Tricia Light, Sierra Melton, Ana Salamanca, Kevan B. Moffett, James W. McClelland, Amber K. Hardison
Summary: This study quantified organic matter decomposition rates in surface sediment layers in two south Texas river channels, finding that oxygen consumption rates in TFZ sediments were primarily controlled by organic matter content and temperature. Additionally, sediment organic matter in TFZs was predominantly composed of algal biomass from in situ production.
ESTUARIES AND COASTS
(2021)
Article
Multidisciplinary Sciences
Scott Zolkos, Alexander V. Zhulidov, Tatiana Yu. Gurtovaya, Vyacheslav V. Gordeev, Sergey Berdnikov, Nadezhda Pavlova, Evgenia A. Kalko, Yana A. Kuklina, Danil A. Zhulidov, Lyudmila S. Kosmenko, Alexander I. Shiklomanov, Anya Suslova, Benjamin M. Geyman, Colin P. Thackray, Elsie M. Sunderland, Suzanne E. Tank, James W. McClelland, Robert G. M. Spencer, David P. Krabbenhoft, Richard Robarts, Robert M. Holmes
Summary: High levels of methylmercury accumulation in marine biota in the Arctic are a concern. Recent research on Russian rivers shows a decline in particulate mercury concentrations and suspended solids, resulting in a significant reduction in mercury export to the Arctic Ocean.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
(2022)
Article
Environmental Sciences
Hengchen Wei, Xin Xu, Allan E. Jones, Amber K. Hardison, Kevan B. Moffett, James W. McClelland
Summary: This study sheds light on the role of tidal freshwater zones (TFZs) in modifying the timing and forms of nitrogen (N) inputs to estuaries. The research found that median concentrations of dissolved inorganic N (DIN) were lower in TFZs compared to upstream non-tidal river reaches, and exhibited spatial gradients. The forms of N also changed within TFZs, with DIN transforming into organic N. Comparisons of discharge and N flux in the Aransas River TFZ showed that tidal patterns influenced the timing of N export, with export exceeding input in winter and being relatively balanced in summer.
ESTUARIES AND COASTS
(2022)
Article
Cell Biology
Brayon J. Fremin, Ami S. Bhatt, Nikos C. Kyrpides
Summary: This study used a large-scale comparative genomics approach to discover that small genes are more prevalent in phage genomes than in host prokaryotic genomes. These small genes may have important functions, such as encoding anti-CRISPR proteins and antimicrobial proteins.
Article
Environmental Sciences
Dawn R. URycki, Maoya Bassiouni, Stephen P. Good, Byron C. Crump, Bonan Li
Summary: This study assessed the extent to which microbial communities encode information about catchment hydrology across scales and found that many microbial taxa shared information with hydrologic metrics. The results demonstrate that microbial communities are rich sources of information that may contribute fresh insight to unresolved hydrologic questions.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Biotechnology & Applied Microbiology
Clara L. Mackenzie, Christopher M. Pearce, Sarah Leduc, Daniel Roth, Colleen T. E. Kellogg, Rute B. G. Clemente-Carvalho, Timothy J. Green
Summary: Shellfish industries worldwide are threatened by summer mortality events, often associated with Vibrio disease outbreaks. This study examines the impact of seawater pH buffering on the larval microbiome and subsequent adult susceptibility to mortality events. Findings show that even minimal buffering results in a changed microbiome and increased mortality under stressors, emphasizing the importance of hatchery practices in shaping resilience.
APPLIED AND ENVIRONMENTAL MICROBIOLOGY
(2022)
Article
Marine & Freshwater Biology
Rose-Lynne Savage, Jacqueline L. Maud, Colleen T. E. Kellogg, Brian P. Hunt, Vera Tai
Summary: The eukaryotic microbiomes of dominant crustacean zooplankton from the Strait of Georgia were characterized using metabarcoding. Alveolates, predominantly ciliates and dinoflagellates, were found to be the dominant protists in all examined zooplankton. Symbiont lineages showed host preference, with Pseudocolliniidae ciliate parasites being associated with ostracods. Free-living protists, including diatoms and hydrozoans, were inferred to be part of the zooplankton diet, suggesting an underestimated pathway of carbon cycling.
JOURNAL OF PLANKTON RESEARCH
(2023)
Review
Ecology
Robert H. Hilderbrand, Ted Bambakidis, Byron C. Crump
Summary: The goods and services provided by riverine systems are vital for humanity, but these systems are degrading worldwide despite restoration efforts. Designing restorations to promote microbial communities could enhance restoration effectiveness. Focusing on microbial diversity and function can improve resilience and assess restoration suitability. Advancements in next-generation sequencing allow the use of microbial 'omics techniques to assess river ecological conditions and advance assessment capabilities.
Article
Microbiology
Jan F. Finke, Colleen T. E. Kellogg, Curtis A. Suttle
Summary: Deep6 is a deep learning model that accurately classifies short metatranscriptomic sequences into prokaryotes, eukaryotes, or viral realms, without the need for reference or alignment. The average accuracies range from 0.87 to 0.97, depending on the length of the sequences.
MICROBIOLOGY RESOURCE ANNOUNCEMENTS
(2023)
Article
Engineering, Environmental
Cheng Shi, Gouri Mahadwar, Emmanuel Davila-Santiago, Ted Bambakidis, Byron C. Crump, Gerrad D. Jones
Summary: We investigated the factors that influence the variability in non-target chemical composition in riverine systems in Oregon. We found that the influence of microbial communities and environmental variables on chemical composition was greater than that of landscape gradients. Contrary to our hypothesis, there was little evidence to suggest that chemical variability was related to landscape gradients, but rather it was controlled by microbial and seasonal hydrologic processes. The results suggest the importance of ecosystem processes in shaping aquatic chemistry.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2023)
Article
Multidisciplinary Sciences
Megan I. Behnke, Suzanne E. Tank, James W. McClelland, Robert M. Holmes, Negar Haghipour, Timothy I. Eglinton, Peter A. Raymond, Anya Suslova, Alexander Zhulidov, Tatiana Gurtovaya, Nikita Zimov, Sergey Zimov, Edda A. Mutter, Edwin Amos, Robert G. M. Spencer, Andrea Rinaldo
Summary: Arctic rivers are important channels for transmitting signals of change from the changing landscape to the ocean. This study reveals a previously overlooked contribution from aquatic biomass in the particulate organic matter (POM) flux. It also suggests that climate change-induced warming and increasing CO2 concentrations could enhance soil destabilization and aquatic biomass production, leading to increased POM fluxes to the ocean.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
(2023)
Article
Environmental Sciences
M. Kelsey Lane, Jennifer S. Fehrenbacher, Jennifer L. Fisher, Melanie R. Fewings, Byron C. Crump, Craig M. Risien, Grace M. L. Meyer, Faith Schell
Summary: Under future climate scenarios, it is predicted that marine heatwaves (MHW) will become more frequent and intense. However, little is known about the impact of these events on planktonic foraminifera, which are commonly used as paleoproxies. This study found that the composition and abundance of planktonic foraminifera in the Northern California Current varied during MHWs, suggesting that fossil foraminiferal assemblages may provide insights into past MHWs.
FRONTIERS IN MARINE SCIENCE
(2023)
Article
Marine & Freshwater Biology
Hengchen Wei, Xin Xu, Ally Savoie, Elizabeth Schattle, Amber K. Hardison, Deana L. Erdner, James W. Mcclelland
Summary: This study assessed the contribution of diverse phytoplankton groups to chlorophyll a biomass in tidal freshwater zones (TFZs) and investigated their relation with temperature, DIN, SRP, and DIN/SRP ratios. The results showed higher chl a levels in TFZs compared to the upstream river and downstream estuary, with cyanobacteria prominently contributing to chl a biomass, especially in the lower TFZ sections. This highlights the role of prolonged residence times and nutrient enrichment in TFZs, which result in elevated chl a concentrations and shape phytoplankton community composition, with implications for downstream estuaries.
Article
Geosciences, Multidisciplinary
Suzanne E. Tank, James W. McClelland, Robert G. M. Spencer, Alexander I. Shiklomanov, Anya Suslova, Florentina Moatar, Rainer M. W. Amon, Lee W. Cooper, Greg Elias, Vyacheslav V. Gordeev, Christopher Guay, Tatiana Yu. Gurtovaya, Lyudmila S. Kosmenko, Edda A. Mutter, Bruce J. Peterson, Bernhard Peucker-Ehrenbrink, Peter A. Raymond, Paul F. Schuster, Lindsay Scott, Robin Staples, Robert G. Striegl, Mikhail Tretiakov, Alexander V. Zhulidov, Nikita Zimov, Sergey Zimov, Robert M. Holmes
Summary: Rivers are sensitive indicators of watershed changes and regulate ecosystem function across the land-ocean continuum. A study on major Arctic rivers found that alkalinity and associated ion fluxes to the ocean increased significantly, while nitrate and other inorganic nutrient fluxes declined. Dissolved organic carbon fluxes showed no overall trend. This indicates disturbance of multiple land processes, with implications for coastal ocean biogeochemical cycling.
Article
Ecology
Karl J. Romanowicz, Byron C. Crump, George W. Kling
Summary: This study used quantitative metabarcoding and metagenomic sequencing to investigate the changes in microbiome composition and functional gene abundance during thaw incubations of wet sedge tundra in northern Alaska. The findings reveal that iron redox metabolism dominates microbial carbon degradation during permafrost thaw, leading to increased microbial respiration and suppression of methanogenesis.
ISME COMMUNICATIONS
(2023)
