Abstract is: William Mitsch, born March 29, 1947 in Wheeling, West Virginia USA, is an ecosystem ecologist and ecological engineer who was co-laureate of the 2004 Stockholm Water Prize in August 2004 as a result of a career in wetland ecology and restoration, ecological engineering, and ecological modelling.
human | Q5 |
P2381 | Academic Tree ID | 393670 |
P268 | Bibliothèque nationale de France ID | 12323521f |
P11496 | CiNii Research ID | 1140563741639492992 |
P1280 | CONOR.SI ID | 31357539 |
P2450 | Encyclopædia Britannica contributor ID | 4203 |
P646 | Freebase ID | /m/05mw9tg |
P227 | GND ID | 138659311 |
P269 | IdRef ID | 087641755 |
P213 | ISNI | 0000000109238304 |
P244 | Library of Congress authority ID | n80023239 |
P271 | NACSIS-CAT author ID | DA02599839 |
P8189 | National Library of Israel J9U ID | 987007444463905171 |
P1006 | Nationale Thesaurus voor Auteursnamen ID | 069472564 |
P691 | NL CR AUT ID | jcu2010572024 |
P1207 | NUKAT ID | n96100609 |
P496 | ORCID iD | 0000-0001-8348-3172 |
P1153 | Scopus author ID | 55657021500 |
P214 | VIAF ID | 90925422 |
P10832 | WorldCat Entities ID | E39PBJk4ChRR6cGXQrqVVCBMfq |
P166 | award received | Thousand Talents Program | Q25345281 |
Stockholm Water Prize | Q10680486 | ||
P27 | country of citizenship | United States of America | Q30 |
P1343 | described by source | Obálky knih | Q67311526 |
P69 | educated at | University of Notre Dame | Q178848 |
University of Florida | Q501758 | ||
P108 | employer | Ohio State University | Q309331 |
University of Louisville | Q1317143 | ||
Illinois Institute of Technology | Q659706 | ||
Florida Gulf Coast University College of Arts and Sciences | Q101020105 | ||
P101 | field of work | wetland | Q170321 |
P735 | given name | William | Q12344159 |
William | Q12344159 | ||
P1412 | languages spoken, written or signed | English | Q1860 |
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P106 | occupation | engineer | Q81096 |
ecologist | Q15839134 | ||
P21 | sex or gender | male | Q6581097 |
Q46244266 | A mangrove creek restoration plan utilizing hydraulic modeling |
Q56805681 | A new vision for New Orleans and the Mississippi delta: applying ecological economics and ecological engineering |
Q112783055 | Above- and Below-Ground Carbon Storage of Hydrologically Altered Mangrove Wetlands in Puerto Rico after a Hurricane |
Q36189079 | Applying science to conservation and restoration of the world's wetlands |
Q53688950 | Author Correction: Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots. |
Q56912045 | Benefits of ecological engineering practices |
Q60645127 | Biogeochemical aspects of ecosystem restoration and rehabilitation |
Q56805709 | Carbon sequestration in different wetland plant communities in the Big Cypress Swamp region of southwest Florida |
Q45786185 | Carbon sequestration in two created riverine wetlands in the midwestern United States |
Q60644963 | Characterization of bacterial communities in soil and sediment of a created riverine wetland complex using high-throughput 16S rRNA amplicon sequencing |
Q43346030 | Chemical analysis of soil and leachate from experimental wetland mesocosms lined with coal combustion products |
Q60645108 | Climate regulation by free water surface constructed wetlands for wastewater treatment and created riverine wetlands |
Q56805688 | Coastal protection from tsunamis and cyclones provided by mangrove wetlands – a review |
Q56805680 | Comparing carbon sequestration in temperate freshwater wetland communities |
Q56805695 | Creating Wetlands: Primary Succession, Water Quality Changes, and Self-Design over 15 Years |
Q56912258 | Creating a sustainable and desirable New Orleans |
Q56805702 | Creating and Restoring Wetlands |
Q112786444 | Creating riverine wetlands: Ecological succession, nutrient retention, and pulsing effects |
Q112595116 | Current state of knowledge regarding the world’s wetlands and their future under global climate change: a synthesis |
Q51197728 | Denitrification and a nitrogen budget of created riparian wetlands. |
Q56805683 | Denitrification in created riverine wetlands: Influence of hydrology and season |
Q79534669 | Denitrification potential and organic matter as affected by vegetation community, wetland age, and plant introduction in created wetlands |
Q113083881 | Design of Experimental Streams for Simulating Headwater Stream Restoration1 |
Q110872401 | EcoSummit 2012 and Ecohydrology & Hydrobiology |
Q56805706 | Ecological Engineering A Cooperative Role with the Planetary Life-Support System |
Q110871861 | Ecological and hydrological responses to changing environmental conditions in China’s river basins |
Q113099052 | Ecological engineering applied to river and wetland restoration |
Q56805697 | Ecological engineering of floodplains |
Q60645091 | Ecological engineering of sustainable landscapes |
Q112786446 | Ecological engineering: A field whose time has come |
Q113103017 | Ecological restoration design of a stream on a college campus in central Ohio |
Q56805682 | Ecology in Times of Scarcity |
Q56805707 | Ecosystem Dynamics and a Phosphorus Budget of an Alluvial Cypress Swamp in Southern Illinois |
Q56773869 | Effect of Hydrologic Restoration andLonicera maackiiRemoval on Herbaceous Understory Vegetation in a Bottomland Hardwood Forest |
Q110872461 | Effects of hydrology and nutrients on seedling emergence and biomass of aquatic macrophytes from natural and artificial seed banks |
Q43342125 | Effects of recycled FGD liner material on water quality and macrophytes of constructed wetlands: a mesocosm experiment |
Q60644965 | Effects of soil chemical characteristics and water regime on denitrification genes (nirS, nirK, and nosZ) abundances in a created riverine wetland complex |
Q37103891 | Enhancing the ecological risk assessment process |
Q111289892 | Estimating biogeochemical and biotic interactions between a stream channel and a created riparian wetland: A medium-scale physical model |
Q126009213 | Estimating the Effects of a Hurricane on Carbon Storage in Mangrove Wetlands in Southwest Florida |
Q120143311 | Estimating the Importance of Hydrologic Conditions on Nutrient Retention and Plant Richness in a Wetlaculture Mesocosm Experiment in a Former Lake Erie Basin Swamp |
Q126009214 | Eutrophication effects on CH4 and CO2 fluxes in a highly urbanized tropical reservoir (Southeast, Brazil) |
Q58320910 | From the Corn Belt to the Gulf |
Q60343237 | Global Boundary Lines of N2O and CH4 Emission in Peatlands |
Q60644964 | Greenhouse gas emission in constructed wetlands for wastewater treatment: A review |
Q59478770 | How effective are created or restored freshwater wetlands for nitrogen and phosphorus removal? A systematic review |
Q59304628 | How effective are created or restored freshwater wetlands for nitrogen and phosphorus removal? A systematic review protocol |
Q46787449 | Human health-related ecosystem services of avian-dense coastal wetlands adjacent to a Western Lake Erie swimming beach |
Q110871643 | Hurricane and seasonal effects on hydrology and water quality of a subtropical urban stormwater wetland |
Q110869874 | Hydrology and nutrient biogeochemistry in a created river diversion oxbow wetland |
Q110868346 | Hydrology, Physiochemistry, and Amphibians in Natural and Created Vernal Pool Wetlands |
Q56429086 | Impact of mine drainage on a mountain stream in Pennsylvania |
Q113103064 | Implications of global climatic change and energy cost and availability for the restoration of the Mississippi delta |
Q56805703 | Improving the Success of Wetland Creation and Restoration with Know-How, Time, and Self-Design |
Q115452079 | Influence of hydrologic conditions on nutrient retention, and soil and plant development in a former central Ohio swamp: A wetlaculture mesocosm experiment |
Q113102741 | Investigating sources and transformations of nitrogen using dual stable isotopes for Lake Okeechobee restoration in Florida |
Q56805694 | Landscape and climate change threats to wetlands of North and Central America |
Q113099062 | Large-scale coastal wetland restoration on the Laurentian Great Lakes: Determining the potential for water quality improvement |
Q57233161 | Lessons learned: An assessment of the effectiveness of a National Technical Review Committee for oversight of the plan for the restoration of the Mississippi Delta |
Q110872460 | Macrophyte productivity and community development in created freshwater wetlands under experimental hydrological conditions |
Q110789685 | Management Approaches to Address Water Quality and Habitat Loss Problems in Coastal Ecosystems and Their Watersheds: Ecotechnology and Ecological Engineering |
Q115456507 | Metabolism and methane flux of dominant macrophyte communities in created riverine wetlands using open system flow through chambers |
Q81754838 | Methane and carbon dioxide dynamics in wetland mesocosms: effects of hydrology and soils |
Q56805685 | Methane emissions from created and restored freshwater and brackish marshes in southwest Florida, USA |
Q110871439 | Methane emissions from five wetland plant communities with different hydroperiods in the Big Cypress Swamp region of Florida Everglades |
Q60645131 | Methane emissions from freshwater riverine wetlands |
Q115456586 | Methane emissions from wetlands: An in situ side-by-side comparison of two static accumulation chamber designs |
Q113355349 | Modeling of power plant impacts on fish populations |
Q56805686 | Modeling phosphorus retention at low concentrations in Florida Everglades mesocosms |
Q110872441 | Modelling nutrient retention of a freshwater coastal wetland: estimating the roles of primary productivity, sedimentation, resuspension and hydrology |
Q56805699 | Nitrate-nitrogen retention in wetlands in the Mississippi River Basin |
Q51146547 | Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots. |
Q93208982 | Nutrient retention via sedimentation in a created urban stormwater treatment wetland |
Q79696468 | Optimizing ecosystem services in China |
Q42693556 | Patterns of short-term sedimentation in a freshwater created marsh |
Q110711705 | Periphyton productivity on artificial and natural surfaces in constructed freshwater wetlands under different hydrologic regimes |
Q56805705 | Phosphorus Retention in Constructed Freshwater Riparian Marshes |
Q60645095 | Planning and establishment principles for constructed wetlands and riparian buffer zones in agricultural catchments |
Q60645155 | Pollution control by wetlands |
Q115456309 | Predicting river aquatic productivity and dissolved oxygen before and after dam removal |
Q56805692 | Protecting the Florida Everglades wetlands with wetlands: Can stormwater phosphorus be reduced to oligotrophic conditions? |
Q110873774 | Pulsing hydrology, methane emissions and carbon dioxide fluxes in created marshes: A 2-year ecosystem study |
Q113104612 | Restoration and creation of wetlands — providing the science and engineering basis and measuring success |
Q113067872 | Restoration of our lakes and rivers with wetlands – an important application of ecological engineering |
Q33279732 | Restoration of the Mississippi Delta: lessons from Hurricanes Katrina and Rita |
Q112786443 | Restoration of wetlands in the Mississippi–Ohio–Missouri (MOM) River Basin: Experience and needed research |
Q56805691 | Restoring the greater Florida Everglades, once and for all |
Q113900373 | Role of emergent and submerged vegetation and algal communities on nutrient retention and management in a subtropical urban stormwater treatment wetland |
Q113103042 | Salt marsh vegetation recovery at salt hay farm wetland restoration sites on Delaware Bay |
Q112786422 | Seasonal and spatial variations of denitrification and denitrifying bacterial community structure in created riverine wetlands |
Q56943639 | Seasonal and storm event nutrient removal by a created wetland in an agricultural watershed |
Q110871840 | Seasonal methanotrophy across a hydrological gradient in a freshwater wetland |
Q56270846 | Solving Lake Erie’s harmful algal blooms by restoring the Great Black Swamp in Ohio |
Q42022074 | Temporal and spatial development of surface soil conditions at two created riverine marshes |
Q53536545 | The effect of river pulsing on sedimentation and nutrients in created riparian wetlands. |
Q59757238 | The genetic potential of N2 emission via denitrification and ANAMMOX from the soils and sediments of a created riverine treatment wetland complex |
Q56805700 | Thinking big with whole-ecosystem studies and ecosystem restoration—a legacy of H.T. Odum |
Q113877604 | Towards sustainability of engineered processes: Designing self-reliant networks of technological–ecological systems |
Q113055935 | Treatment of Hypolimnion Water on Mineral Aggregates as the Second Step of the Hypolimnetic Withdrawal Method Used for Lake Restoration |
Q56805698 | Tropical wetlands for climate change research, water quality management and conservation education on a university campus in Costa Rica |
Q56805696 | Tropical wetlands: seasonal hydrologic pulsing, carbon sequestration, and methane emissions |
Q109466633 | UN Decade on Ecosystem Restoration 2021–2030—What Chance for Success in Restoring Coastal Ecosystems? |
Q33973961 | Using Ecotechnology to address water quality and wetland habitat loss problems in the Mississippi basin: a hierarchical approach |
Q56805693 | Validation of the ecosystem services of created wetlands: Two decades of plant succession, nutrient retention, and carbon sequestration in experimental riverine marshes |
Q112826724 | Vegetation productivity of planted and unplanted created riverine wetlands in years 15–17 |
Q113103054 | Wetland creation, restoration, and conservation: A Wetland Invitational at the Olentangy River Wetland Research Park |
Q113318355 | Wetland restoration and ecological engineering: International Conference of Wetland Restoration and Ecological Engineering |
Q56805684 | Wetlands |
Q60645090 | Wetlands and carbon revisited |
Q55932682 | Wetlands, carbon, and climate change |
Q106412313 | Wetlands: Second Edition |
Q55966650 | What is ecological engineering? |
Q115456529 | When will ecologists learn engineering and engineers learn ecology? |
azb | ویلیام جی متیچ | wikipedia |
William J. Mitsch | wikipedia |
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