"NL - Nizozemsko" . . "1"^^ . "9"^^ . "Accumulation, Adsorption, Fixation, Traits, Uptake"@en . "Ecological Engineering" . "41330" . "Retention of resources (metals, metalloids and rare earth elements) by autochthonously/allochthonously dominated wetlands: A review" . "00031715870001" . "S" . . "102724" . . . . . . "Vymazal, Jan" . "[17A7C71B1D23]" . "RIV/60460709:41330/13:60887" . . . "Brackhage, Carsten" . . "53" . "Retention of resources (metals, metalloids and rare earth elements) by autochthonously/allochthonously dominated wetlands: A review"@en . . . . . "Schaller, J\u00F6rg" . "The rapid increase of shortages in resources of chemical elements (and ores) used for an increasing industrial production raises the question of alternative strategies for their acquisition. Simultaneously, the elemental load in aquatic ecosystems increases by anthropogenic activities. Polluted waters are purged actively by technical treatment plants or passively by wetlands. Wetlands are known to eliminate/fix pollutants with a potentially high efficiency. Regarding this elimination/fixation potential less is known about different types of wetlands for elemental recovery. This paucity of information prompted to us to assess the impact of main processes in different types of wetlands on the recovery potential of chemical elements showing advantages and disadvantages of autochthonous and allochthonous wetlands and possible solutions. We show that autochthonous as well as allochthonous wetlands are able to accumulate high amounts of elements, but it is suggested that combining autochthonous/al"@en . . "3"^^ . "Retention of resources (metals, metalloids and rare earth elements) by autochthonously/allochthonously dominated wetlands: A review" . "0925-8574" . . "RIV/60460709:41330/13:60887!RIV14-MSM-41330___" . "The rapid increase of shortages in resources of chemical elements (and ores) used for an increasing industrial production raises the question of alternative strategies for their acquisition. Simultaneously, the elemental load in aquatic ecosystems increases by anthropogenic activities. Polluted waters are purged actively by technical treatment plants or passively by wetlands. Wetlands are known to eliminate/fix pollutants with a potentially high efficiency. Regarding this elimination/fixation potential less is known about different types of wetlands for elemental recovery. This paucity of information prompted to us to assess the impact of main processes in different types of wetlands on the recovery potential of chemical elements showing advantages and disadvantages of autochthonous and allochthonous wetlands and possible solutions. We show that autochthonous as well as allochthonous wetlands are able to accumulate high amounts of elements, but it is suggested that combining autochthonous/al" . "2013" . "Retention of resources (metals, metalloids and rare earth elements) by autochthonously/allochthonously dominated wetlands: A review"@en . .