[2025.9.5]

Ultrafine Bubbles (UFB) Alleviate Toxicity of Fluxametamide-Based Insecticides to Nontarget Freshwater Species, Daphnia　magna,Environmental Quality Management,35:e70180,August 2025

​

[2025.8.27]

Qualitative and quantitative microstructural investigation of Moringa oleifera wood through X-ray computed tomography, Holzforschung,August 2025[2025.7.29]

​

[2025.7.2]

Interactive Effects of Ionophore Antibiotic Monensin and Polystyrene Microplastics on the Growth and Physiology of Microcystis aeruginosa, Stresses,5(3):43​, July 2025

​

[2025.5.12]

Efficient Removal of Cyanobacteria Using Integrated Electrocoagulation-Flotation and Moringa Seed Coagulant: Optimization via Response Surface Methodology (RSM), ​Water Conservation Science and Engineering,10:49,May 2025

​

[2025.4.23]

Air Pollution and its Control Governance in Chinese Provinces in the Post-COVID-19 Era: Panel Estimations of Provincial Environmental Kuznets Curves, Sustainability of Economic Growth in East Asia,82:123-148, Springer, April 2025 (共著本）

​

[2025.4.9]
Co-Application of Bokashi and Biochar Alleviates Water Stress, Improves Soil Fertility and Enhances Wheat Production Under Water-Deficit Conditions, 9(2):33, Soil Syst. April 2025,

doi.org/10.3390/soilsystems9020033

​

[2025.4.3]
DNA barcoding of the invasive alien aquatic weed Heteranthera reniformis Ruiz and Pavon using chloroplast DNA markers,

Limnology,April 2025

10.1007/s10201-025-00792-x

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[2025.4.2]
Inactivating Antimicrobial Resistance in Bacteria via Advanced Oxidation Processes: Uncovering Genomic Information in Resistance Genes, Environmental Quality Management,Feb. 2025

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[2025.4.2]
Effect of Moringa oleifera seed husk and extraction techniques on coagulation efficiency for cyanobacteria removal, Water Practice & Technology,Mar. 2025

​

[2025.4.2]

Optimizing Nitrogen and Water Use Efficiency in Wheat Cropping Systems Through Integrated Application of Biochar and Bokashi Under Different Irrigation Regimes, Nitrogen,Mar. 2025

​

[2025.4.2]

Effect of lighting setup on Microcystis aeruginosa in a shallow water column and classification of results using random forest model, Hydrobiologia,Feb. 2025

​

[2025.4.2]

The Vertical Migration Dynamic of Microcystis aeruginosa in a Water Column,Journal of Applied Phycology, April 2024

​

[2025.3.12]
Characterizing the water quality of hot springs in southeastern Myanmar,

Limnology,March 2025

https://doi.org/10.1007/s10201-025-00789-6.

​

[2025.1.7]

Cellular and Morphological Effects of Ultrafine Bubbles on Rice Root Development During Seedling Growth, Journal of Plant Growth Regulation, Published: 27 December 2024.

​

[2024.12.12]

Prediction of arsenic (III) adsorption from aqueous solution using non-neural network algorithms, Water Emerg Contam Nanoplastics,3(24),Dec,2024

​

[2024.11.25]

Gypsum-based Porous Media Filter with Solid Waste: A Novel Composite for Removing Arsenic (III) from Aqueous Solution Water&Science Technology, International Journal of Engineering,38(4):735-743,April,2025

​

[2024.11.6]

Individual and combined effects of ionophore antibiotics monensin and lasalocid on growth, oxidative stress and antioxidant responses of Microcystis aeruginosa, Water&Science Technology,  ,October,2024

https://doi.org/10.2166/wst.2024.356

​

[2024.10.21]

Physiological characteristics of microbial transformation during chronic exposure to triclosan as a hydrophobic antibacterial agent and post-antibacterial cessation, Journal of Water, Sanitation and Hygiene for Development, 14(9),October,2024

https://doi.org/10.2166/washdev.2024.095

​

[2024.8.1]

Development of a Pyrone‑Fused Tricyclic Scafold‑based Ratiometric Fluorescent Probe for Al3+ Detection, ​Journal of Fluorescence,23 July,2024

DOI: 10.1007/s10895-024-03864-w

​

[2024.7.8]

Urban Planning with Rational Green Infrastructure Placement Using a Critical Area Detection Method,Geomatics 2024, 4(3), 253-270, 5 July, 2024

​https://doi.org/10.3390/geomatics4030014 

​

[2024.6.20]

・Aqueous arsenic (III) removal using a novel solid waste based porous filter media block: Traditional and machine learning (ML) approaches,Desalination and Water Treatment,319,100536,July,2024

​

[2024.4.4] 

【研究論文掲載】

・Micro and Nano Plastics Efect on Growth and Development of Rice (Oryza sativa L.): A Review,Springer,18;32,2024

link.springer.com/article/10.1007/s41742-024-00588-4

​

[2024.3.27] 

・Smallholder palm oil production sector in African countries: State of the art, practices, constraints, and opportunities in Littoral and Centre regions of Cameroon,African Journal of Agricultural Research,20(3),251-271,March,2024

​

[2024.3.15] 

・Effect of Irrigation Regime and Soil Nutrients on the Growth of the Paddy Weed Heteranthera reniformis and Rice Grain Yield ,Environments, 11(3), 56,2024

​

[2024.3.6] 

​・Development of a water-soluble fluorescent Al3+ probe based on phenylsulfonyl-2-pyrone in biological systems,Analytica Chimica Acta,1299,April 2024

doi.org/10.1016/j.aca.2024.342436

​​

[2024.1.20] 

​・Cytogenotoxicity of raw and treated dairy manure slurry by two-stage chemical and electrocoagulation: An application of the Allium cepa bioassay,Science of The Total Environment:915,2024

​

[2023.12.26] 

​・Egeria densa organic extracts: an eco-friendly approach to suppress Microcystis aeruginosa growth through allelopathy,Water Science&Technology,88 (11): 2955–2973,2023

​​

[2023.11.24] 

・Effects of Humic Acids on the Toxicity and Accumulation of Zinc and Cadmium to Chironomid Larvae, Rheocricotopus spp.,Water Air & Soil Pollution, 234:737 (2023)
https://doi.org/10.1007/s11270-023-06732-8

​

[2023.11.10] 

・Effects of rainfall on fluvial discharge and suspended sediment transport in the Central Himalayan region, Nepal,Theoretical and Applied Climatology (2023.10)

​

[2023.9.19]

​・Inhibitory Effect of Aqueous Extracts from Egeria densa Planch. on Cyanobacteria Microcystis aeruginosa (Kützing) Lemmermann Growth,Hydrobiology 2023, 2(3), 491-506; https://doi.org/10.3390/hydrobiology2030033

・Toxicity of triclosan, an antimicrobial agent, to a nontarget freshwater zooplankton species, Moina macrocopa,EnvironmentalToxicology,2023;1‐15, doi:10.1002/tox.23950

​

[2023.6.28]

​・Response surface optimization of chemical coagulation for solid–liquid separation of dairy manure slurry through Box–Behnken design with desirability function,Heliyon,9(7): e17632,2023

​

[2023.6.16]

・Detectability of the trend and hysteresis in rainfall across Kali Gandaki River Basin, Central Himalaya, Nepal, Theoretical and Applied Climatology, 2023 (2023.6.14)

・Modulation of phytotoxic and cytogenetic effects of cadmium by humic acid: Findings from a short-term plant-based bioassay, Water Science & Technology,(2023.6.8)

​​

[2023.3.23]

Synergetic Effect of Chemical Coagulation and Electroflotation on Synthetic Palm Oil Mill Effluent Treatment, Sustain. Chem. 2023, 4(2), 127-142; https://doi.org/10.3390/suschem4020010

​

[2023.3.1]

Detection of Zn2+ ions using a high-affinity low-molecular-weight fluorescence probe in two freshwater organisms, Toxicology and Environmental Health Sciences (2023),Springer

​

[2023.2.28]

Individual and combined effects of humic acid on life‑history characteristics of the water flea Moina macrocopa upon whole‑lifespan cadmium exposure, Hydrobiologia(2023),DOI10.1007/s10750-023-05170-1,Springer

​

[2023.2.24]

Water Pollution and Pollution–Control Capacity in Chinese Provinces: Panel Estimations of Provincial Environmental Kuznets Curves, Sustainability 2023, 15(5), 3979; https://doi.org/10.3390/su15053979

​

[2023.1.11]

 研究論文電子版8月掲載分の冊子が発行されました。

Limnology, Volume 24, Issue 1, January 2023, 

https://link.springer.com/journal/10201/volumes-and-issues/24-1

pages9–23

Cadmium uptake and oxidative-stress-induced DNA alterations in the freshwater cladoceran  Moina macrocopa (Straus 1820) following consecutive short-term exposure assessments

短期暴露評価によるタマミジンコMoina macrocopa (Straus 1820)のカドミウム取込みと酸化ストレ スに誘発されたDNA変化

​

[2023.1.10]

Solid–Liquid Separation of Dairy Barn by Electrocoagulation with Cationic Polymer Coagulant, IOP Science

 

[2023.1.10]

A Review of Emerging Scientific Discussions on Green Infrastructure (GI)-Prospects towards Effective Use of Urban Flood Plains, MDPI.

​

[2022.8.9更新　2022.7.17]

Cadmium uptake and oxidative-stress-induced DNA alterations in the freshwater cladoceran Moina macrocopa (Straus 1820) following consecutive short-term exposure assessments, Limnology (Springer).

​

[2022.7.13]

【研究報告掲載】Separation of suspended solids in cow manure effluent particles by electrocoagulation as a pre-treatment, International Journal of Earth & Environmental Sciences.

​

[2022.5.12]

Optimization of electrocoagulation–flotation treatment with an aluminum anode to enhance Microcystis aeruginosa cell removal efficiency​, Journal of Water Process Engineering.

​

[2022.2.25]

Root adsorption of microplastic particles affects the submerged freshwater macrophyte Egeria densa, Water, Air & Soil Pollution, 233:80. https://doi.org/10.1007/s11270-022-05556-2 (February 2022)

​

[2022.2.16]

「High-Affinity Ratiometric Fluorescence Probe Based on  6-Amino-2,2′-Bipyridine Scaffold for Endogenous Zn2+ and Its Application to Living Cells , MDPI Journal

​

[2021.8.11]

Japan Society on Water Environment (2021.8.10)

“Dam-Induced Alteration in Seasonal Fluvial Discharge Time Series in Kali Gandaki Hydropower Dam, Syangja, Nepal: An Application of Wavelet Analysis” by Mahendra B. Baniya, Takeshi Fujino, Arjun Baniya, Shivaram K.C., Biswo Jha, Journal of Water and Environment Technology, 19(4):198-211(2021)

​

[2021.7.30]

(2021.7.28)

“Greenhouse gas emission from palm oil industry in Thailand and its countermeasures” by JJ Ma, T Fujino, Y Lim, W Niyommaneerat and O Chavalparit, Int J of Earth & Environmental Sciences, 6: 184 (2021)

​

[2021.7.25]

Springer (2021.5.24)

“Stress and recovery responses of Microcystis aeruginosa exposed to extreme light for different durations” by MDHJ Senavirathna, G Muhetaer, H Yan, B Aihemaiti & T Fujino, Water, Air, & Soil Pollution, 232: 229 (2021)

​

[2021.7.25]

Springer (2021.7.23)

“Assessment of the applicability of a low-cost sensor–based methane monitoring system for continuous multi-channel sampling” by ISP Nagahage, EAAD Nagahage, and T Fujino, Environmental Monitoring and Assessment, 193: 509 (2021)

​

[2021.5.28]

“Selective cadmium fluorescence probe based on bis-heterocyclic　molecule and its imaging in cells” by M Hagimori, Y Karimine, N Mizuyama,F Hara, T Fujino, H Saji and T Mukai,Journal of Fluorescence, 30(3):33983566 (2021).

​

[2021.5.28]

“Copper contaminated water mediated biochemical changes on　charophyte species Chara braunii” by V P Ranawakage, T Fujino and A Herbst,

Earth and Environmental Science 776 (2021) 012005.

​

[2021.4.10]

 "Visualization and Quantification of the Impact of Humic Acid on Zinc　Accumulation　in Aquatic Plants Using a Low-Molecular-Weight Fluorescent Probe ", by Thenuwara A.O.K. Meetiyagoda,　Kabul Fadilah, Masayori Hagimori, Mudalige D.H.J. Senavirathna and Takeshi Fujino　(April, 2021)J（JWET19_20-110）

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