Two hydroponic experiments were conducted to evaluate factors affecting plant arsenic (As) hyperaccumulation. In the first experiment, two As hyperaccumulators (Pteris vittata and P. cretica mayii) were exposed to 1 and 10 mg L−1 arsenite (AsIII) and monomethyl arsenic acid (MMA) for 4 wk. Total As concentrations in plants (fronds and roots) and solution were determined. In the second experiment, P. vittata and Nephrolepis exaltata (a non-As hyperaccumulator) were exposed to 5 mg L−1 arsenate (AsV) and 20 mg L−1 AsIII for 1 and 15 d. Total As and AsIII concentrations in plants were determined. Compared to P. cretica mayii, P. vittata was more efficient in arsenic accumulation (1075–1666 vs. 249–627 mg kg−1 As in the fronds) partially because it is more efficient in As translocation. As translocation factor (As concentration ratio in fronds to roots) was 3.0–5.6 for P. vittata compared to 0.1 to 4.8 for P. cretica. Compared to N. exaltata, P. vittata was significantly more efficient in arsenic accumulation (38–542 vs. 4.8–71 mg kg−1 As in the fronds) as well as As translocation (1.3–5.6 vs. 0.2–0.5). In addition, P. vittata was much more efficient in As reduction from AsV to AsIII (83–84 vs. 13–24% AsIII in the fronds). Little As reduction occurred after 1-d exposure to AsV in both species indicates that As reduction was not instantaneous even in an As hyperaccumulator. Our data were consistent with the hypothesis that both As translocation and As reduction are important for plant As hyperaccumulation.
ACKNOWLEDGEMENT
This research was supported in part by the National Science Foundation (Grant BES-0132114). The authors gratefully acknowledge the assistance provided by Mr. Tom Luongo in sample analysis.
Notes
*MMA = Monomethyl arsenic acid;
**Three replicates; Means within the horizontal rows followed by the same lower case letter are not significantly different at P < 0.05 and means on the vertical followed by capital letter compare fern type and similar letters are not significantly different at P < 0.05.
*MMA = monomethyl arsenic acid;
**Transfer factor = ratio of arsenic concentration in frond to in root and bioconcentration factor = ratio of As concentration in plant tissue to solution;
***Mean of three replicates; Means with the same letter are not significantly different at P < 0.05.
*Transfer factor = ratio of As concentration in frond to in root.
**Mean of three replicates; means with the same letter are not significantly different at P < 0.05.
*BD—below detection;
**Mean of four replicates.