. "RIV/60460709:41210/01:00002299!RIV/2002/GA0/412102/N" . . . "The modification of zinc mobility in biosolids by amendment of ameliorative compounds and their influence on Zn accumulation in plant biomass" . "5"^^ . "The modification of zinc mobility in biosolids by amendment of ameliorative compounds and their influence on Zn accumulation in plant biomass"@en . "The modification of zinc mobility in biosolids by amendment of ameliorative compounds and their influence on Zn accumulation in plant biomass" . "1"^^ . "[0E922B481B62]" . . . "2001-01-01+01:00"^^ . . "5"^^ . "Wien" . . "Sz\u00E1kov\u00E1, Ji\u0159ina" . "Wien" . "BOKU" . . "0"^^ . "Bal\u00EDk, Ji\u0159\u00ED" . "P(GA526/97/0845)" . "0"^^ . "Proper care of the surface water quality substantially affected amount of produced sewage sludge and subsequently raised task what society can do with waste material. The objective of this comprehensive investigation was focused on the fluctuation of Zn mobility derived from incubated sludge treated by lime, bentonite or organic materials and subsequently applied into soils without and with plants. Results showed substantial dilution of Zn content in sewage sludge treated by different ameliorative materials. Only addition of lime significantly decreased mobility of Zn in soil probably due to maintenance of pH. Availability of Zn played crucial role in Zn accumulation in spinach and oat. Sludge treatments with addition of peat and straw mostly lead to the highest Zn content in biomass of oat as well in spinach in contrast of limed sludge." . . "154" . . "sewage sludge, mobility, Zn, oat, spinach, ameliorative materials"@en . . "RIV/60460709:41210/01:00002299" . . "Intern. Kongress Leben und \u00DCberleben" . . . "The modification of zinc mobility in biosolids by amendment of ameliorative compounds and their influence on Zn accumulation in plant biomass"@en . "41210" . . . "Pavl\u00EDkov\u00E1, Daniela" . . . "687488" . "Vyslou\u017Eilov\u00E1, Mark\u00E9ta" . . . "Tlusto\u0161, Pavel" . "Proper care of the surface water quality substantially affected amount of produced sewage sludge and subsequently raised task what society can do with waste material. The objective of this comprehensive investigation was focused on the fluctuation of Zn mobility derived from incubated sludge treated by lime, bentonite or organic materials and subsequently applied into soils without and with plants. Results showed substantial dilution of Zn content in sewage sludge treated by different ameliorative materials. Only addition of lime significantly decreased mobility of Zn in soil probably due to maintenance of pH. Availability of Zn played crucial role in Zn accumulation in spinach and oat. Sludge treatments with addition of peat and straw mostly lead to the highest Zn content in biomass of oat as well in spinach in contrast of limed sludge."@en . . . .