Hyperaccumulators table – 3

This list covers hyperaccumulators, plant species which accumulate, or are tolerant of, radionuclides (Cd, Cs-137, Co, Pu-238, Ra, Sr, U-234, 235, 238), hydrocarbons and organic solvents (Benzene, BTEX, DDT, Dieldrin, Endosulfan, Fluoranthene, MTBE, PCB, PCNB, TCE and by-products), and inorganic compounds (Potassium ferrocyanide). See also: Hyperaccumulators table – 1 : Ag, Al, As, Be, Cr, Cu, Hg, Mn, Mo, Naphthalene, Pb, Pd, Se, Zn Hyperaccumulators table – 2 : Nickel == Notes == Uranium: The symbol for Uranium is sometimes given as Ur instead of U. According to Ulrich Schmidt and others, plants' concentration of uranium is considerably increased by an application of citric acid, which solubilizes the uranium (and other metals).

Source: Wikipedia — Hyperaccumulators table – 3 (CC BY-SA 4.0)

Hyperaccumulators table – 3

This list covers hyperaccumulators, plant species which accumulate, or are tolerant of, radionuclides (Cd, Cs-137, Co, Pu-238, Ra, Sr, U-234, 235, 238), hydrocarbons and organic solvents (Benzene, BTEX, DDT, Dieldrin, Endosulfan, Fluoranthene, MTBE, PCB, PCNB, TCE and by-products), and inorganic compounds (Potassium ferrocyanide). See also: Hyperaccumulators table – 1 : Ag, Al, As, Be, Cr, Cu, Hg, Mn, Mo, Naphthalene, Pb, Pd, Se, Zn Hyperaccumulators table – 2 : Nickel == Notes == Uranium: The symbol for Uranium is sometimes given as Ur instead of U. According to Ulrich Schmidt and others, plants' concentration of uranium is considerably increased by an application of citric acid, which solubilizes the uranium (and other metals).

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Source: Wikipedia "Hyperaccumulators table – 3" · CC BY-SA 4.0

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