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Ketamine, a New (or Old) Kid on the Block: A Comprehensive Three-Year Spatio-Temporal Study in Belgium Through Wastewater-Based Epidemiology Water Res. (IF 11.4) Pub Date : 2025-02-10 Natan Van Wichelen, Tim Boogaerts, Maarten Quireyns, Rania Dermitzaki, Peter Delputte, Noor Ul Hudda, Naomi De Roeck, Bavo Verhaegen, Koenraad Van Hoorde, Hadrien Maloux, Veronik Hutse, Celine Gys, Adrian Covaci, Alexander L.N. van Nuijs
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Superoxide anion radicals mediated degradation of tetrachloropicolinic acid in biochars-FexP@Fe-FexC/O2 system with excellent reactivity durability Water Res. (IF 11.4) Pub Date : 2025-02-10 Hongyun Niu, Shaojie Shi, Siyu Zhu, Yuling He, Qiwen An, Hao Ding, Xuwenqi Zhang, Dongbin Wei, Yaqi Shi, Yaqi Cai
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Response to the commentary on the article 'Fluid energy theory of membrane' in Water Research Water Res. (IF 11.4) Pub Date : 2025-02-10 Ma Zi Jun, Tian C. Zhang, Tian Li
Section snippets CRediT authorship contribution statementMa Zi Jun: Investigation, Resources, Writing – original draft. Tian C. Zhang: Writing – review & editing, Writing – original draft, Data curation. Tian Li: Writing – review & editing, Writing – original draft, Data curation, Conceptualization. Declaration of competing interestThe authors declare that they have no known competing financial interests
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Synthetic microbial community maintains the functional stability of aerobic denitrification under environmental disturbance: Insight into the mechanism of interspecific division of labor Water Res. (IF 11.4) Pub Date : 2025-02-10 Yue He, Hui Yun, Liang Peng, Wenxue Wang, Ting Xu, Wenjie Zhang, Xiangkai Li
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Simultaneous removal of hardness and organic matter from oilfield-produced water by microbially induced calcite precipitation Water Res. (IF 11.4) Pub Date : 2025-02-08 Miao Zhang, Biao Wei, Hao Liu, Daoqing Liu, Geoffrey Michael Gadd, Qianwei Li, Chunmao Chen
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Utilizing national wastewater and sales data to derive and validate the correction factors of five common antidepressants for wastewater-based epidemiology Water Res. (IF 11.4) Pub Date : 2025-02-10 Zeyang Zhao, Jingyi Yuan, Qiuda Zheng, Benjamin J. Tscharke, Tim Boogaerts, Zhe Wang, Shuo Chen, Jake W. O'Brien, Alexander L.N. van Nuijs, Adrian Covaci, Jochen Mueller, Phong K. Thai
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The response of PFAA mobility in highly contaminated sediment to sluice operation: coupled effects of scour behavior and physicochemical properties Water Res. (IF 11.4) Pub Date : 2025-02-10 Ying Lu, Kejian Chu, Zulin Hua, Chang Gao, Yuanyuan Liu
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Whole Genome Sequencing of the Novel Polyvalent Bacteriophage Malk1: A Powerful Biocontrol Agent for Water Pollution Water Res. (IF 11.4) Pub Date : 2025-02-09 Mohamed Ibrahim Azzam, Mohamed A. Nasr-Eldin, Fafy A. Mohammed, Kawthar A. Omran
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Microplastic pollution in Pearl River Networks: characteristic, potential sources, and migration pathways Water Res. (IF 11.4) Pub Date : 2025-02-09 Huan Wang, Tingting Zhu, Jun Wang, Yi Liu
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Building plumbing influences the microdiversity and community assembly of the drinking water microbiome Water Res. (IF 11.4) Pub Date : 2025-02-06 Huanqi He, Linxuan Huo, Solize Oosthuizen-Vosloo, Kelsey J. Pieper, Aron Stubbins, Byungman Yoon, Ameet J. Pinto
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Metal sulfides in aged-coarse sands tailings facilitate naphthenic acids removal from oil sands process water Water Res. (IF 11.4) Pub Date : 2025-02-08 Muhammad Arslan, Muhammad Usman, Mohamed Gamal El-Din
The use of natural substrates for oil sands process water (OSPW) reclamation offers advantages such as onsite availability and scalability. This study evaluated potential of aged and fresh coarse sand tailings (CST) towards removal of classical naphthenic acids (NAs) from a real OSPW obtained from an oil sands’ tailing ponds in Alberta (NAs: 4.87 mg/L). Aged-CST achieved superior removal efficiencies
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Stoichiometric analysis and control strategy of partial nitrification for treating dewatering liquid from food-waste methane fermentation Water Res. (IF 11.4) Pub Date : 2025-02-09 Shen Cui, Shenghao Ji, Wenzhao Zhao, Liguo Wan, Yu-You Li
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Comprehensive assessment of antibiotic impacts and risk thresholds on aquatic microbiomes and resistomes Water Res. (IF 11.4) Pub Date : 2025-02-09 Guomin Jin, Xingshuo Wang, Rongxin Cui, Shengyu Yuan, Meilun Wang, Zeyou Chen
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Riverine network size determined major driving factors of the composition and diversity of aquatic invertebrate communities in a multi-tributary mountain river basin Water Res. (IF 11.4) Pub Date : 2025-02-09 Chao Chang, Mi Ren, Han Wang, Sisi Ye, Xiaofeng Tang, Ding He, En Hu, Ming Li, Baozhu Pan
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Enhanced Ice Slurry with Low Oxidant Consumption for Ultrafast In-Situ Removal of Micropollutants Sheltered in Sediments of Water Supply Pipelines Water Res. (IF 11.4) Pub Date : 2025-02-08 Yujing Huang, Chang Liu, Yu Shao, Yiyi Ma, Shuang Song, Feilong Dong, Tuqiao Zhang
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Corrigendum to “Recirculating aquaculture system as microbial community and water quality management strategy: a rearing mode for improved viability of crab larvae” [Water Research Volume 252, Mar 2024] Water Res. (IF 11.4) Pub Date : 2025-02-09 Zhibin Lu, Weichuan Lin, Qiang Li, Qingyang Wu, Zhiming Ren, Changkao Mu, Chunlin Wang, Ce Shi, Yangfang Ye
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Dynamics of nitrogen-transforming microbial populations in wastewater treatment during recirculation of hydrothermal liquefaction process-water. Water Res. (IF 11.4) Pub Date : 2025-02-08 Patrick Skov Schacksen, Williane Vieira Macêdo, Sandeep Rellegadla, Leendert Vergeynst, Jeppe Lund Nielsen
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Self-replenishing Neutral Fenton-like Treatment for Emerging Contaminants through Single Fe atom Electron Configuration Regulation Water Res. (IF 11.4) Pub Date : 2025-02-07 Wen-Min Wang, Wen-Long Wang, Lin Gan, Yuxiong Huang, Danmeng Shuai, Min-Yong Lee, Qian-Yuan Wu
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CO2 agitation combined with magnetized biochar to alleviate “ammonia inhibited steady-state”: Exploring the mechanism by combining metagenomics with macroscopic indicators Water Res. (IF 11.4) Pub Date : 2025-02-07 Jiadong Yu, Muhammad Usman, Fan Liu, Franziska Sch?fer, Yuhan Shen, Zehui Zheng, Yafan Cai
The “ammonia inhibited steady-state” phenomenon is frequently observed in the anaerobic digestion (AD) process of nitrogen-rich substrates. Reconfiguring microbial ecosystems has proven to be an effective strategy for mitigating ammonia inhibition. In the current study, biochars were screened and targeted for modification. CO2 agitation combined with magnetized biochar was used to aid the semi-continuous
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Forest expansion and irrigated agriculture reinforce low river flows in southern Europe during dry years J. Hydrol. (IF 5.9) Pub Date : 2025-02-07 Sergio M. Vicente-Serrano, Ahmed El Kenawy, Dhais Pe?a-Angulo, Jorge Lorenzo-Lacruz, Conor Murphy, Jamie Hannaford, Simon Dadson, Kerstin Stahl, Iván Noguera, Magí Fraquesa, Beatriz Fernández-Duque, Fernando Domínguez-Castro
This study analyses the evolution of annual streamflow across Europe between 1962 and 2017, focusing on the connection of streamflow trends with climate dynamics and physiographic and land cover characteristics and changes. The spatial pattern of trends in streamflow shows strong agreement with the spatial patterns of climate trends, suggesting a climate control of these trends. However, analysing
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Modeling, evaluation and forecasting of suspended sediment load in Kal-e Shur River, Sabzevar Basin, in northeast of Iran Appl. Water Sci. (IF 5.7) Pub Date : 2025-02-06 M. A. Zangeneh Asadi, L. Goli Mokhtari, R. Zandi, M. Naemitabar
Studying sediment transport to rivers is crucial for effective river management, engineering, and environmental preservation. Neglecting this aspect can lead to significant harm to natural ecosystems. This research aims to estimate suspended sediment levels in the Kal-e Shur Sabzevar River using various machine learning algorithms, which have gained popularity in recent years due to their high accuracy
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GIS-based multi-criteria decision making for identifying rainwater harvesting sites Appl. Water Sci. (IF 5.7) Pub Date : 2025-02-06 Waqed H. Hassan, Karrar Mahdi, Zahraa K. Kadhim
The Middle East region, with its arid and semi-arid climate, is one of the regions most affected by climate change and water scarcity. To address the severe issue of water scarcity in the western region of Iraq, this study identifies optimal potential rainwater harvesting (RWH) locations. Geographic Information System (GIS) and multi-criteria decision-making (MCDM) techniques were employed to generate
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Developed a solar still unit for saltwater desalination: numerical prediction and performance verification Appl. Water Sci. (IF 5.7) Pub Date : 2025-02-06 Ayman Ibrahim, Nahed El Mahallawy, Islam Elsebaee, Hebatullah Megahed, Galal Aboelasaad, Abdelalim El-Bediwy, Osama Dewedar
In the globe, there is a rise in water demand for agricultural, industrial, and domestic purposes. Single-basin solar stills (SBSS) have been a subject of research in various countries, particularly in regions with water scarcity or limited access to clean drinking water. In this work, SBSS for desalinating high-salinity water were developed, tested, and evaluated based on a developed numerical model
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Exploring carbon dynamics in a slow sand filter using stable isotopes Water Res. (IF 11.4) Pub Date : 2025-02-06 Bayan Khojah, Salima Sadeghi, Lubos Polerecky, Jack J. Middelburg, Dick van Oevelen, Marcel T.J. van der Meer, Thilo Behrends
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Faulty assumptions: Groundwater modeling through anisotropic fault zones J. Hydrol. (IF 5.9) Pub Date : 2025-02-06 Jun-Hong Lin, Ying-Fan Lin
This study introduces a new condition for representing groundwater flow through fault zones in an aquifer-fault-aquifer system. A mathematically rigorous framework, based on the theory of imperfect interfaces, is employed to model groundwater flow at the fault-aquifer interface, replacing the simplified source-term approximations commonly used in previous analytical models. By incorporating the anisotropic
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Integrated application of nanoscale zero-valent iron for sulfide and methane control in sewers and improved wastewater treatment Water Res. (IF 11.4) Pub Date : 2025-02-05 Xiaotong Cen, Zhetai Hu, Zhigang Yu, Xin Huang, Zhiqiang Zuo, Jianhua Guo, Zhiguo Yuan, Min Zheng
Sewer systems are critical water infrastructures for sewage collection and transportation services but are frequently challenged by odour nuisance, corrosion and greenhouse gas emissions, primarily driven by sulfide and methane production. This study investigated the effectiveness of multifunctional nanoscale zero-valent iron (nZVI) in controlling sulfide and methane, along with its downstream impacts
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Integrating network and in-silico simulation insights into the ecological interactions shaped by carbon sources in partial denitrification and anammox system Water Res. (IF 11.4) Pub Date : 2025-02-05 Depeng Wang, Jialei Li, Yujie Zhang, Xinchun Ding, Wuqiang Wang, Kailong Huang, Xu-Xiang Zhang
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Stable isotope composition of surface waters across the Pamir, Central Asia: Implications of precipitation seasonality J. Hydrol. (IF 5.9) Pub Date : 2025-02-05 Shenqiang Chen, Jeremy K.C. Rugenstein, Andreas Mulch
The Pamir range, located in Central Asia, mainly receives moisture from the mid-latitude westerlies, but its western side (i.e., Tajikistan Pamir) receives much of its precipitation in the winter and spring and its eastern side (i.e., Chinese Pamir) in the summer. Thus, the Pamir provides a natural laboratory to study the distribution of surface water stable isotopes across a large mountain range that
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Quantile-based bias-correction of extreme rainfall: Pros & cons of popular methods for climate signal preservation J. Hydrol. (IF 5.9) Pub Date : 2025-02-05 R. Padulano, L.A. Gomez-Mogollon, L. Napolitano, G. Rianna
Bias correction is a common practice in climate sciences. However, bias-corrected climate projections do not necessarily preserve signals in moments and quantiles compared to raw climate models. Focusing on extreme rainfall and Depth-Frequency curves, the goal of this paper is to demonstrate the efficacy of three popular techniques in preserving signals in the first- and second-order moments and in
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Reversed trends in pan and actual evaporation in China during 1960–2019 J. Hydrol. (IF 5.9) Pub Date : 2025-02-05 Sutong Mao, Han Lu, Lu Zhang, Pan Liu, Lei Cheng
The hydrological cycle is expected to intensify with global warming. Pan evaporation is an indicator of atmospheric evaporative demand; downward trends of pan evaporation have been reported in several regions over the past several decades. However, the impact of recent acceleration in climate change on trends in atmospheric evaporative demand remains unclear. This study analyzes the long-term daily
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Tracking California’s striking water storage gains attributed to intensive atmospheric rivers J. Hydrol. (IF 5.9) Pub Date : 2025-02-05 Zhongshan Jiang, Hui Zhang, Miao Tang, Xinghai Yang, Linguo Yuan, Yuan Yuan, Wei Feng, Min Zhong
California is highly vulnerable to extreme precipitation events due to the dense landfall of atmospheric rivers (ARs) during the winter months, often resulting in catastrophic consequences such as widespread floods, mudslides, and landslides. This study focuses on the recovery of daily variations in AR-driven terrestrial water storage (TWS), which produces geodetically detectable ground subsidence
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How do varying nitrogen fertilization rates affect crop yields and riverine N2O emissions? A hybrid modeling study Water Res. (IF 11.4) Pub Date : 2025-02-03 Diego Panique-Casso, Nelson F. Pacheco-Bueno, Marie Anne Eurie Forio, Peter Goethals, Long Ho
Headwater streams in agricultural areas constitute significant sources of nitrous oxide (N2O) due to nutrient enrichment; however, their emissions are often overlooked in current environmental impact assessments. This scarcity highlights the importance of developing advanced decision tools to evaluate these contributions and create effective mitigation strategies. Our study establishes the first integrated
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Optimization of AAO process for reduced N2O emissions and enhanced nitrogen removal in municipal wastewater treatment: Exploring carbon supplementation and DO control strategies Water Res. (IF 11.4) Pub Date : 2025-02-04 Zeming An, Qiong Zhang, Xinjie Gao, Baishuo Shao, Yongzhen Peng
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Improving river surface flow velocity measurement by coupling adaptive flow direction search algorithm with space-time image velocimetry J. Hydrol. (IF 5.9) Pub Date : 2025-02-04 Nie Zhou, Hua Chen, Chong-Yu Xu, Bingyi Liu, Jing Yang
Space-time image velocimetry (STIV) is a video-based technique for measuring river surface flow velocities and is widely used owing to its simplicity, efficiency, and safety. However, a key limitation of traditional STIV is its reliance on a preset velocity measurement line, which can lead to significant errors when the actual flow direction deviates from this predefined line. To overcome this limitation
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Estimation of standardized flow Duration curve for gauged and ungauged basins J. Hydrol. (IF 5.9) Pub Date : 2025-02-04 Pegah Palizban, Banafsheh Zahraie, Neda Dolatabadi
In this study, H2018 function, which was proposed as a suitable function for simulating Flow Duration Curves (FDC) in the previous studies, was fitted to 1915 hydrometric gauges across the United States. The observed streamflow for all these gauges during the 1984–2016 period were partitioned into three intervals (1984–1994, 1995–2005, and 2006–2016) and separate Random Forest (RF) models were trained
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A deep adaptive bidirectional generative adversarial neural network (Bi-GAN) for groundwater contamination source estimation J. Hydrol. (IF 5.9) Pub Date : 2025-02-04 Zidong Pan, Zhilin Guo, Kewei Chen, Wenxi Lu, Chunmiao Zheng
Groundwater contaminant source estimation (GCSE) plays a vital role in the risk assessment and remediation of groundwater contamination. GCSE involves determining the optimal values of unknown variables that result in the observed contaminant concentrations at monitoring wells. This can be achieved by establishing an inverse mapping from the observed concentrations to the unknown variables characterizing
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Enhancing the accuracy and reliability of non-online metered demand allocation in water distribution systems through dynamic spatiotemporal population distribution Water Res. (IF 11.4) Pub Date : 2025-02-03 Qingzhou Zhang, Hao Jiang, Jun Liu, Weiping Zhang
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Light-enhanced ion transport and fouling resistance properties of metal/semiconductor heterojunction nanochannel membranes for osmotic energy recovery in real-world conditions Water Res. (IF 11.4) Pub Date : 2025-02-03 Haochen Lu, Jin Wang, Derong Zhang, Tongxin Liao, Shangzhen Li, Lei Lei, Zhiyan Liu, Bingjie Du, Xudong Wang, Lei Wang
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A chloride threshold to identify the onset of seawater/saltwater intrusion and a novel categorization of groundwater in coastal aquifers J. Hydrol. (IF 5.9) Pub Date : 2025-02-03 M.D. Fidelibus, G. Balacco, M.R. Alfio, M. Arfaoui, D. Bassukas, C. Güler, F. Hamzaoui-Azaza, C. Külls, A. Panagopoulos, A. Parisi, E. Sachsamanoglou, E. Tziritis
Seawater intrusion is the primary cause of groundwater salinisation in coastal aquifers. However, attributing salinisation solely to seawater intrusion may not always be accurate, given the likely presence of other sources. To understand if salinisation comes from seawater intrusion and its onset is crucial for groundwater management, but there are no definite threshold values for common indicators
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Optimizing green roof rainwater harvesting systems: A modified selfish Herds algorithm approach J. Hydrol. (IF 5.9) Pub Date : 2025-02-03 Haowen Xie, Yawen Wu, Sylvana Melo dos Santos
Green roofs (GRs) have gained global attention and promotion for their social and environmental benefits. However, their limited capacity to retain rainwater leads to water runoff and wastage. Enhancing the collection and utilization capacity of rainwater from GRs is a current research trend. This paper aims to explore the potential of adding rooftop rainwater harvesting (RWH) systems to GRs as a solution
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Deciphering key traits and dissemination of antibiotic resistance genes and degradation genes in pharmaceutical wastewater receiving environments Water Res. (IF 11.4) Pub Date : 2025-02-02 Lu-Kai Qiao, Liang-Ying He, Fang-Zhou Gao, Zheng Huang, Hong Bai, Yi-Chun Wang, Yi-Jing Shi, You-Sheng Liu, Jian-Liang Zhao, Guang-Guo Ying
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Human-induced N-P imbalances will aggravate GHG emissions from lakes and reservoirs under persisting eutrophication Water Res. (IF 11.4) Pub Date : 2025-02-02 Wei Yu, Fali Liu, Xianglan Jiao, Pingping Fan, Haiquan Yang, Yongmei Zhang, Jie Li, Jingan Chen, Xuede Li
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Hydrochar-nanocomposite membrane combined hydrothermal pretreatment for nutrient upcycling from anaerobic digestate Water Res. (IF 11.4) Pub Date : 2025-02-02 Runhao Zhang, Chujie Qi, Jiaxin Bai, Li Gao, Stephen Gray, Chenhao Ma, Qiao Zhou, Bo Bian
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From bias to accuracy: Transforming satellite precipitation data in arid regions with machine learning and topographical insights J. Hydrol. (IF 5.9) Pub Date : 2025-02-02 Faisal Baig, Luqman Ali, Muhammad Abrar Faiz, Haonan Chen, Mohsen Sherif
This paper presents a comprehensive approach to refine satellite precipitation estimates over the mountainous regions of the United Arab Emirates (UAE) using Long Short-Term Memory (LSTM). The primary aim is to address and correct biases in the CMORPH and IMERG satellite precipitation products by incorporating elevation, minimum temperature, and distance to coast covariates. The study is relying upon
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Adsorptive removal of phosphate and nitrate by layered double hydroxides through the memory effect and in situ synthesis Appl. Water Sci. (IF 5.7) Pub Date : 2025-02-01 Sarah Mariska, Zhang Jin-Wei, Hoang Huu Chien, Duong Minh Ngoc, Nguyen Duy Hai, Huan-Ping Chao
This research examines the efficacy of layered double hydroxides (LDHs) in removing phosphate and nitrate from wastewater, enhanced by the memory effect and in situsynthesis techniques. LDHs were synthesized hydrothermally, initially creating carbonate-based CO?–LDHs, which were then converted to chloride-based Cl–LDHs through anion exchange. These LDHs underwent calcination at 300?°C, 400?°C, and
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Endocrine disruptor (17 β-estradiol) removal by poly pyrrole-based molecularly imprinted polymer: kinetic, isotherms and thermodynamic studies Appl. Water Sci. (IF 5.7) Pub Date : 2025-02-01 Samaneh Mohebbi, Aram Dokht Khatibi, Davoud Balarak, Maryam Khashij, Edris Bazrafshan, Mohammad Mehralian
This study focuses on the synthesis and characterization of the molecularly imprinted polymer (PPy-MIP) to remove 17β-Estradiol (E2) from aqueous solutions. The MIP was synthesized using a non-covalent procedure, incorporating the target compound, E2. To synthesis PPy-MIP, a mixture of 300?μl pyrrole and 50?ml distilled water was stirred for 30 min. After adding 3?g ferric chloride as an oxidant, the
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Accounting for model parameter uncertainty provides more robust projections of dissolved organic carbon dynamics to aid drinking water management Water Res. (IF 11.4) Pub Date : 2025-02-01 Ricardo Paíz, Donald C. Pierson, Klara Lindqvist, Pamela S. Naden, Elvira de Eyto, Mary Dillane, Valerie McCarthy, Suzanne Linnane, Eleanor Jennings
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The association between estrogenic activity evolution and the formation of different products during the photochemical transformation of parabens in water Water Res. (IF 11.4) Pub Date : 2025-02-01 Xiaolin Niu, Guanhui Chen, Na Luo, Mei Wang, Mei Ma, Xinping Hui, Yanpeng Gao, Guiying Li, Taicheng An
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Fluoride-induced stress shapes partial denitrification granules to sustain microbial metabolism Water Res. (IF 11.4) Pub Date : 2025-02-01 Shenbin Cao, Jinxin Fang, Konrad Koch, Xiaoyan Fan, Hussein E. Al-Hazmi, Rui Du, George F Wells
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The transition from macrophyte-dominated to algae-dominated lake systems enhances arsenic release from sediments Water Res. (IF 11.4) Pub Date : 2025-02-01 Xiangyu He, Wenming Yan, Xiang Chen, Yan Wang, Minjuan Li, Qi Li, Junliang Jin, Zhongbo Yu, Tingfeng Wu
Declining macrophytes in eutrophic lakes are altering material cycling in sediments. However, the transformation of arsenic (As) in response to these changes remains poorly understood. In this study, high-resolution dialysis was used to measure dissolved As in sediments from macrophyte-dominated (MD) and algae-dominated (AD) zones across different seasons. The relationship between sedimentary As fractionation
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Recovery of sulfur, generation of electricity and hydrogen peroxide from sulfion-rich wastewater using a novel self-driving photocatalytic fuel cell Water Res. (IF 11.4) Pub Date : 2025-02-01 Yong Chen, Yong Liu, Xiaobo Gong, Jianlong Wang
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Ecological drought is globally driven by soil characteristics rather than climate aridity J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Xinrong Zhu, Lu Wang, Liang Shi, Lu Wu, Boyi Liang, Hongyan Liu
Although the distribution of vegetation growth is largely determined by soil moisture availability, what determines the use of soil water at different depths by vegetation still requires investigation. Here, we used remote sensing proxy of global vegetation growth and soil moisture data to link gridded layered soil water use patterns with climate aridity, soil texture, root depth and soil water distribution
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Enhancing regional-scale simulation accuracy of paddy runoff by coupling water balance models with remote sensing J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Housheng Wang, Rui Ren, Xiang Gao, Huazhan Zhang, Wei Jiang, Xuerong Lang, Xian Hu, Xiaosan Jiang, Kun Zhao, Bin Zhang, Zhipeng Liu, Wenjuan Zheng, Xuelei Wang, Yu Jiang, Songhan Wang, Ganghua Li, Yue Mu, Yanfeng Ding
Precisely modeling the dynamics of paddy water loss, including evapotranspiration, infiltration, and runoff, plays a pivotal role in optimizing water resource management. However, existing approaches for simulating paddy water loss have not accounted for the spatial heterogeneity in irrigation management practices driven by smallholder agriculture in China, leading to significant uncertainty in water
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A global perspective on the development and application of glacio-hydrological model J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Chengde Yang, Xin Wang, Shichang Kang, Min Xu, Yong Zhang, Junfeng Wei, Congsheng Fu
Glacio-hydrological models have been increasingly utilized to evaluate hydrological responses to climate change in glacierized regions, particularly at the catchment and basin scales. However, comprehensive global assessments remain inadequate. This review investigates the fundamental processes and structures of glacio-hydrological models, summarizes their applications, and discusses the prevailing
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Response of nitrogen removal performance of bioretention cells to rainfall based on Chicago method J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Jiajia Zhou, Jiaqing Xiong, Fanghong Zhang
In actual rainfall events, the intensity of the rainfall will vary over time. To better reflect actual rainfall characteristics, a process line based on the Chicago composite rainstorm method was developed to simulate actual rainfall. Two groups of bioretention cells were constructed, one filled with modified loess (CS) and one with sand (SA), and subjected to both a constant flow rate (CSR) and a
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A refined method for the simulation of catchment rainfall–runoff based on satellite–precipitation downscaling J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Jihao Jian, Siming He, Wei Liu, Shuang Liu, Liping Guo
Precipitation exhibits significant localized characteristics within the complex terrain of small watersheds and serves as a key factor in runoff processes. Fine-resolution precipitation estimates are crucial for the refined runoff simulations in mountainous catchments. We propose a novel, refined method for rainfall–runoff simulation that combines a modified downscaling model with a two-dimensional
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Spatial pattern of amount effect of daily precipitation isotopes in China: A consideration of seasonality based on observation and simulation J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Yuqing Qian, Shengjie Wang, Mingjun Zhang, Kei Yoshimura, Hayoung Bong, Gahong Yang, Hongyang Li
The negative correlation between precipitation amount and precipitation δ18O, also known as the amount effect, is considered one of the main environmental controls of precipitation isotopes. As isotope observations increase, there is a debate about the spatial patterns of amount effect especially on a daily scale. Based on observations at 150 sampling stations and an isotope-enabled climate model,
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Groundwater hydrogeochemical changes predating and following the November 9, 2022 Mw 5.5 Adriatic offshore earthquake (central Italy) J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Lorenzo Chemeri, Marco Taussi, Davide Fronzi, Jacopo Cabassi, Stefano Mazzoli, Alberto Tazioli, Alberto Renzulli, Orlando Vaselli
We report the results from a pre- and post-seismic water monitoring carried out in the Mt. Conero area (central Italy) to evaluate the earthquake-related variations on the water hydrogeochemistry related to the November 9, 2022 Adriatic offshore seismic sequence. This latter was characterized by two main events of Mw 5.5 and 5.2. The monitoring network included two wells and one piezometer located
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Quantifying lake heat storage’s impacts on lake evaporation for an alpine deep lake lacking water-temperature-profile observation J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Fang Zhang, Xueqin Zhang
Lake heat storage is essential in regulating lake evaporation’s magnitude and seasonal variation. However, its impacts on lake evaporation are inadequately investigated, mainly due to the limited lake-water-temperature-profile observations used to calculate lake heat storage, challenging the accurate quantification of lake evaporation. Hence, we integrate multiple-source observations and multiple-model
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Role of strike-slip faults on the regional groundwater flow in the complex aquifer system of Lake Suwa watershed, Japan J. Hydrol. (IF 5.9) Pub Date : 2025-02-01 Koichi Sakakibara, Mizuki Hori, Yoshitake Nagahata, Yuichi Miyabara, Atsushi Urai, Keisuke Suzuki
Strike-slip faults can largely influence regional groundwater flow systems by acting as hydraulic barriers or conduits. However, their role in shaping the regional groundwater flow in watersheds with pull-apart basins remains poorly understood. This study aimed to clarify the hydrological impacts of a strike-slip fault within a watershed featuring a pull-apart basin at its lowest point. To achieve