Page 218 - Plant-Based Remediation Processes
P. 218
Reference Jurkowska et al. (1990) Jasiewicz (1991) Jurkowska et al. (1992) Gorlach and ´ Gambus (1992) Gorlach (1994) Baraniecki and Mankowski (1995)
0.11–018 0.36–0.53 0.38–0.55 0.065–0.995
Mo 0.10 Mo Ni Ni 4.5 1.4 9.2 2.8
6.10–7.31 6.10–7. 01 10–2,000 5.37–7.69 11.65–16.38 0.159–0.249
Cu Cu 5–30 Cu Cu Cu 9.4 5.4 10.9 8.7 Cu 21.3 9.7 41.7
L.)
sativa Zn 127–143 79–127 Zn 60–80 50–100 Zn 83–136 373–532 Zn 1.17–7.69 Zn 132 28 386 71 Zn 64.6 11.6 21.5
(Cannabis 576–896 50–100 10–40 118–481 183–398 0.199–0.354
hemp HMs concentration in plant/plant organs (mg kg 1 DW) Mn 8–21 Mn Mn Pb Pb 6.7 5.5 9.0 3.3 Pb 0.8 2.0 6.0
by Fe 750–882 29–34 Fe 150–270 500–1,800 (approximate values read from graphs) Fe 98–393 536–950 Cd 0.017–0.105 Cd 2.4 1.0 11.0 4.0 Cd 0.17 0.11 0.32
accumulation biomass: biomass: biomass: Plant organs not distinguished (above-ground þ root biomass) Above-ground: I
and Above-ground Roots: Above-ground Roots: Above-ground Roots: Biomass: II Roots: I Root: II Seed: Stem: Root:
uptake experiment) experiment) 4.6 6.6 experiment)
metals HMs concentration in soil/solution (mg kg 1 ) No data (pot FeSO 4 .7H 2 O: 2–7.5 MnSO 4 .H 2 O: 0.25–0.6 ZnSO 4 .7H 2 O: 0.1–0.3 Na 2 MoO 4 .2H 2 O: 0.1–0.3 (water cultures) No data (pot Cd: 1, +8 Cu: 7.8, +30 Ni: 8.4, +50 Pb: 31, +100 Zn: 83.1, +200 (pot experiment) Cd: 1.0 Soil I ¼ pH Cu: 7.6 Soil II ¼
heavy
of and soil moisture content on selected plant growth/yield; effect of liming and phytoavailability phytoavailability accumulation of effect on yield and
summary Aim of study Effect of N-fertilisation on selected microelements uptake Cu effect on the Mn, Zn and Fe uptake (CuSO 4 : 0, 0.05, 0.1, 0.2, 0.5, 1, 2, 5, 10 mg dm 3 ) Effect of N-fertilisation microelements uptake Toxic effect of HMs on P-fertilisation on HMs Effect of liming (CaCO 3 )on of HMs On site experim
The
11.4
Table Hemp variety Not presented Bialobrzeskie Not presented Bialobrzeskie Bialobrzeskie Bialobrzeskie
