Abstract: The reuse of Pteris vittata plants for multiple phytofiltration cycles is a main issue to allow an efficient phytoremediation of arsenic (As)-contaminated groundwater. Here, we as-sessed the capacity of phytofiltration of P.vittata plants grown for two cycles on naturally As-contaminated drinking water (collected in Central Italy), spaced by a growth cycle on non-contaminated water (N cycle). P.vittata young plants, with extensive frond and root devel-opment, were suspended individually in 15 L of water with initial As of 59 µg/L, without any additional treatment or water refilling. During cycle 1, in 45 days P.vittata plants reduced As concentration below 10 µg/L, the allowed EU limits for drinking water. During the subsequent 30 day-N cycle on non-contaminated water, no leaching of As from the roots was observed, while the water pH increased 0.9 Units, but is within the allowed limits. During cycle 2, under the same conditions as cycle 1, As concentration decreased below 10 µg/L in less than seven days. These results show that P.vittata young plants, previously used for the phytofiltration of As, do not ex-trude As and, when reused, remove As much more rapidly. No additional treatments were re-quired during phytofiltration and thus this represents a sustainable, efficient, and scalable strat-egy.
Advanced Drinking Groundwater As Phytofiltration by the Hyperaccumulating Fern Pteris vittata
Davide MarziPrimo
;Maria Luisa Antenozio;Patrizia Brunetti
;
2021
Abstract
Abstract: The reuse of Pteris vittata plants for multiple phytofiltration cycles is a main issue to allow an efficient phytoremediation of arsenic (As)-contaminated groundwater. Here, we as-sessed the capacity of phytofiltration of P.vittata plants grown for two cycles on naturally As-contaminated drinking water (collected in Central Italy), spaced by a growth cycle on non-contaminated water (N cycle). P.vittata young plants, with extensive frond and root devel-opment, were suspended individually in 15 L of water with initial As of 59 µg/L, without any additional treatment or water refilling. During cycle 1, in 45 days P.vittata plants reduced As concentration below 10 µg/L, the allowed EU limits for drinking water. During the subsequent 30 day-N cycle on non-contaminated water, no leaching of As from the roots was observed, while the water pH increased 0.9 Units, but is within the allowed limits. During cycle 2, under the same conditions as cycle 1, As concentration decreased below 10 µg/L in less than seven days. These results show that P.vittata young plants, previously used for the phytofiltration of As, do not ex-trude As and, when reused, remove As much more rapidly. No additional treatments were re-quired during phytofiltration and thus this represents a sustainable, efficient, and scalable strat-egy.File | Dimensione | Formato | |
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Descrizione: Advanced Drinking Groundwater As Phytofiltration by the Hyperaccumulating Fern Pteris vittata
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