AI Article Synopsis
- This study tested how well 19 different plant species, including various Pteris accessions, could absorb arsenic in a hydroponic setting with a high concentration of arsenic.
- The findings showed that Pteris vittata from China was the best at accumulating arsenic while the one from the UK was the least effective; some non-Pteris species performed similarly to the least efficient P. vittata.
- Arsenic levels in the fronds of P. vittata ranged from 59% to 89%, and the study concluded that higher arsenic accumulation was linked to reduced phosphorus uptake, indicating a competitive relationship between these two elements in the plants.
Article Abstract
This study evaluated the ability and mechanisms of 19 Pteris and non-Pteris species to accumulate arsenic (As) in a hydroponic system spiked with 300 microM As. The study included four Pteris vittata accessions (China, India, Poland, and the United Kingdom), P. biaurita and 17 non-Pteris species. Among the accessions, P. vittata from China and UK were the most and the least efficient in terms of As accumulation. The non-Pteris species Chielanthes sinuta, Adiantum raddianum, Polystichum acrostichoides, Actiniopteris radiata, Pellaea rotundifolia, and Nephrolepis cordifolia concentrated As as effectively as the least efficient P. vittata ascension. As (III) in the fronds of P. vittata accessions ranged from 59% to 89% and for non-Pteris species it ranged from 47% to 65%. Maximum As accumulation coincided with highest percentage of As (III) in the fronds. The phosphorus (P) uptake of P. vittata accessions was 12-15 and 6-12 times greater than the As-uptake in the roots and fronds, respectively. In contrast, the P-uptake of non-Pteris species ranged from 9 to 151 and from 4 to 162 times the As-uptake, in the roots and fronds, respectively. Arsenic accumulation occurs at the expense of root and frond P-uptake. Root P-reduction is lower than frond and the P:As in the plant acquisition part (roots) is 1-3 times greater than that in accumulation part (fronds). A. radiata, C. sinuta, and P. acrostichoides were identified as potential As accumulators.
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| http://dx.doi.org/10.1016/j.biortech.2009.11.070 | DOI Listing |
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Article Synopsis
- This study tested how well 19 different plant species, including various Pteris accessions, could absorb arsenic in a hydroponic setting with a high concentration of arsenic.
- The findings showed that Pteris vittata from China was the best at accumulating arsenic while the one from the UK was the least effective; some non-Pteris species performed similarly to the least efficient P. vittata.
- Arsenic levels in the fronds of P. vittata ranged from 59% to 89%, and the study concluded that higher arsenic accumulation was linked to reduced phosphorus uptake, indicating a competitive relationship between these two elements in the plants.
Arsenic accumulation by ferns: a field survey in southern China.
Environ Geochem Health
June 2007
Institute of Geographical Sciences and Natural Resources Research, Chinese Academy of Sciences, A11 Datun Road, Anwai, Chaoyang District, Beijing, 100101, China.
The objective of this study reported here was to characterize arsenic (As) accumulation by Pteris ferns by comparing 3 of the ferns of this genus with each other as well as with four non-Pteris ferns growing on seven sites in southern China with different As levels. A total of 112 samples, including 78 Pteris vittata, 13 P. cretica, 3 P.
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