DProf. Prof. Miklas Scholz, cand ing, BEng (equiv), PgC, MSc, PhD, DSc, CWEM, CEnv, CSci, CEng, FHEA, FIEMA, FCIWEM, FICE, Fellow of IWA, Fellow of IETI is a Senior Expert in Water Management at atene KOM, Germany and a Distinguished Professor at Johannesburg University, South Africa. Miklas holds the Chair in Civil Engineering as a Professor at The University of Salford, United Kingdom, and is a Senior Researcher at the South Ural State University, The Russian Federation. He is also a Technical Specialist for Nexus by Sweden and a Hydraulic Engineer at Kunststoff-Technik Adams, Germany. He has published 8 books and 314 journal articles. Prof. Scholz has total citations of about 13718 (8569 citations since 2018), resulting in an h-index of 57 and an i10-Index of 227. He belongs to the top 2% academics regarding the i10-index in the past five years. Miklas also belongs to the World's Top 2% Scientists by Stanford University. A bibliometric analysis of all constructed wetland-related publications and corresponding authors with a minimum number of 20 publications and 100 citations indicates that Miklas is on place 5 in the world of about 70 authors (including those who have sadly passed away). In 2019, Prof. Scholz was awarded EURO 7M for the EU H2020 REA project Water Retention and Nutrient Recycling in Soils and Streams for Improved Agricultural Production (WATERAGRI). He received EURO 1.52M for the JPI Water 2018 project Research-based Assessment of Integrated approaches to Nature-based SOLUTIONS (RAINSOLUTIONS). Author's expertise: Sustainability; civil engineering; environmental engineering; agricultural engineering; environmental science; water resources engineering; agricultural water management; nature-based solution; pollution control; biological filtration; wastewater treatment; decision support system; treatment wetland; integrated constructed wetland; engineering hydrology; storm water management; sustainable flood retention basin; dam risk failure; sustainable drainage system; climate change adaptation; permeable pavement system; pond; capillary suction time.