Eriona Canga | Nature-based Solutions | Research Excellence Award Published on 28/11/202528/11/2025 by Environmental Scientists Dr. Eriona Canga | Nature-based Solutions | Research Excellence Award Researcher | Alchemia-Nova Research and Innovation | Austria Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Dr. Eriona Canga is an environmental researcher whose work centers on innovative, science-driven approaches to water management, nutrient removal, and sustainable eco-technologies. With extensive international research experience, she has developed strong expertise in hydro-geochemistry, constructed wetlands, and nature-based solutions for circular and climate-resilient urban systems. Her research focuses especially on wastewater treatment using multifunctional constructed wetlands and the optimization of phosphorus and nitrogen removal through advanced filter materials. She has contributed to major European and international research initiatives addressing sustainable agriculture, water circularity, biorefinery concepts, biochemical processes, and resource recovery in cities. Eriona’s scientific work demonstrates a deep understanding of hydro-physical behavior, solute transport, hydraulic conductivity, and nutrient retention in granular media and drainage filters. She has authored a body of peer-reviewed work that has achieved 199 citations across 186 documents, with 11 publications contributing to an h-index of 7. Her contributions extend to laboratory experimentation, field-scale assessments, and modeling approaches such as advection–dispersion, stream tube models, and transfer-function methods. She has presented her findings at international conferences focused on wetland systems, water pollution control, hydrology, and environmental technology, helping advance sustainable water treatment strategies. Dr. Eriona Canga is also active in multidisciplinary collaborations involving green chemistry, groundwater protection, and climate-related impacts on Mediterranean and European water systems. With strong capabilities in scientific coordination, laboratory management, project development, and academic supervision, she continues to advance research integrating ecological engineering, circular resource management, and innovative environmental technologies to support sustainable and resilient water infrastructures. Profile: Scopus | Orcid | Google Scholar
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Featured Publications Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.
Kisser, J., Wirth, M., De Gusseme, B., Van Eekert, M., Zeeman, G., … (2020). A review of nature-based solutions for resource recovery in cities. Blue-Green Systems, 2(1), 138–172. Canga, E., Dal Santo, S., Pressl, A., Borin, M., & Langergraber, G. (2011). Comparison of nitrogen elimination rates of different constructed wetland designs. Water Science and Technology, 64(5), 1122–1129. Canga, E., Heckrath, G., & Kjaergaard, C. (2016). Agricultural drainage filters. II. Phosphorus retention and release at different flow rates. Water, Air, & Soil Pollution, 227(276). Megyesi, B., Gholipour, A., Cuomo, F., Canga, E., Tsatsou, A., Zihlmann, V., … (2024). Perceptions of stakeholders on nature-based solutions in urban planning: A thematic analysis in six European cities. Urban Forestry & Urban Greening, 96, 128344. Canga, E., Iversen, B. V., & Kjaergaard, C. (2014). A simplified transfer function for estimating saturated hydraulic conductivity of porous drainage filters. Water, Air, & Soil Pollution, 225(1), 1794.