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International Journal of Phytoremediation Volume 7, 2005 - Issue 3
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Research Articles

Effects of Arsenic Species and Concentrations on Arsenic Accumulation by Different Fern Species in a Hydroponic System

A. O. Fayiga Soil and Water Science Department, University of Florida, Gainesville, Florida, USA
,
L. Q. Ma Soil and Water Science Department, University of Florida, Gainesville, Florida, USA
,
Jorge Santos Soil and Water Science Department, University of Florida, Gainesville, Florida, USA
,
B. Rathinasabapathi Horticultural Sciences Department, University of Florida, Gainesville, Florida, USA
,
B. Stamps Horticultural Sciences Department, University of Florida, Gainesville, Florida, USA
&
R. C. Littell Statistics Department, University of Florida, Gainesville, Florida, USA
Pages 231-240 | Published online: 18 Jan 2007

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Débora M. de Souza, Jenifer de L. da Silva, Larissa da C. Ludwig, Brunna C. Petersen, Feliciane A. Brehm, Regina C. Espinosa Modolo, Tiago C. De Marchi, Rodrigo Figueiredo & Carlos A. M. Moraes. (2023) Study of the phytoremediation potential of native plant species identified in an area contaminated by volatile organic compounds: a systematic review. International Journal of Phytoremediation 25:11, pages 1524-1541.
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Irene Bavasso, Davide Marzi, Maria Paola Bracciale, Luca Di Palma, Jacopo Tirillò & Fabrizio Sarasini. (2023) Plant Waste as Green Reinforcement for Polymer Composites: A Case Study of Pteris Vittata Roots. Journal of Natural Fibers 20:1.
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Prisca Chinenyenwa Onyia, Daniel Chukwuemeka Ozoko & Stanley Ikenna Ifediegwu. (2021) Phytoremediation of arsenic-contaminated soils by arsenic hyperaccumulating plants in selected areas of Enugu State, Southeastern, Nigeria. Geology, Ecology, and Landscapes 5:4, pages 308-319.
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Zuzanna Magdziak, Piotr Goliński, Monika Gąsecka, Anna Budka & Mirosław Mleczek. (2019) Differentiation in low molecular weight organic acids exudation into rhizosphere and their creation in Ulmus laevis Pall organs treated by As – pot experiment. Chemistry and Ecology 35:1, pages 36-53.
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L. d’Aquino, M. Staiano, E. Gambale, A. Basile & F. Tommasi. (2018) Uptake and distribution of several inorganic ions in Nephrolepis cordifolia (L.) C. Presl grown on contaminated soil. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 152:1, pages 59-69.
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DavidJ. Butcher. (2009) Phytoremediation of Arsenic: Fundamental Studies, Practical Applications, and Future Prospects. Applied Spectroscopy Reviews 44:6, pages 534-551.
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Seenivasan Natarajan, RobertH. Stamps, Uttam K. Saha & Lena Q. Ma. (2008) Phytofiltration of Arsenic-Contaminated Groundwater Using Pteris Vittata L.: Effect of Plant Density and Nitrogen and Phosphorus Levels. International Journal of Phytoremediation 10:3, pages 222-235.
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David J. Butcher. (2007) Environmental Applications of Arsenic Speciation Using Atomic Spectrometry Detection. Applied Spectroscopy Reviews 42:1, pages 1-22.
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Articles from other publishers (23)

Hanhao Li, Yongtao Li, Xing Li, Xun Wen Chen, Aoyu Chen, Li Wu, Ming Hung Wong & Hui Li. (2023) Low-Arsenic Accumulating Cabbage Possesses Higher Root Activities against Oxidative Stress of Arsenic. Plants 12:8, pages 1699.
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Leone Mazzeo, Davide Marzi, Irene Bavasso, Vincenzo Piemonte & Luca Di Palma. (2023) Removal of Methylene Blue from Wastewater by Waste Roots from the Arsenic-Hyperaccumulator Pteris vittata: Fixed Bed Adsorption Kinetics. Materials 16:4, pages 1450.
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Lalichetti Sagar, Sultan Singh, Meenakshi Attri, Sagar Maitra, Tanmoy Shankar, Masina Sairam, Tariq Aftab & Akbar Hossain. 2023. Global Arsenic Hazard. Global Arsenic Hazard 533 560 .
Leone Mazzeo, Davide Marzi, Irene Bavasso, Maria Paola Bracciale, Vincenzo Piemonte & Luca Di Palma. (2022) Characterization of waste roots from the as hyperaccumulator Pteris vittata as low-cost adsorbent for methylene blue removal. Chemical Engineering Research and Design 186, pages 13-21.
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Davide Marzi, Maria Luisa Antenozio, Sara Vernazzaro, Clara Sette, Enrico Veschetti, Luca Lucentini, Giancarlo Daniele, Patrizia Brunetti & Maura Cardarelli. (2021) Advanced Drinking Groundwater As Phytofiltration by the Hyperaccumulating Fern Pteris vittata. Water 13:16, pages 2187.
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Teruhiko Kashiwabara, Nobuyuki Kitajima, Ryoko Onuma, Naoki Fukuda, Satoshi Endo, Yasuko Terada, Tomoko Abe, Akiko Hokura & Izumi Nakai. (2021) Synchrotron micro-X-ray fluorescence imaging of arsenic in frozen-hydrated sections of a root of Pteris vittata . Metallomics 13:4.
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H B Setyawan, R Yulianto, W D Santoso & N Suryandari. (2021) Fern plant (Pteris vittata) as a phytoremediator of arsenic heavy metal and its effect to the growth and quality of Kale (Ipomea reptans Poir). IOP Conference Series: Earth and Environmental Science 637:1, pages 012066.
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Fabrizio Pietrini, Valentina Iori, Lucia Pietrosanti, Massimo Zacchini & Angelo Massacci. (2020) Evaluation of Multiple Responses Associated with Arsenic Tolerance and Accumulation in Pteris vittata L. Plants Exposed to High As Concentrations under Hydroponics. Water 12:11, pages 3127.
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Sylwia Budzyńska, Zuzanna Magdziak, Piotr Goliński, Przemysław Niedzielski & Mirosław Mleczek. (2018) Arsenic forms in phytoextraction of this metalloid in organs of 2-year-old Acer platanoides seedlings. Environmental Science and Pollution Research 25:27, pages 27260-27273.
Crossref
Lunbo Duan, Jian Chen, Ying Jiang, Xiaole Li, Philip Longhurst & Mei Lei. (2016) Experimental and kinetic study of thermal decomposition behaviour of phytoremediation derived Pteris vittata. Journal of Thermal Analysis and Calorimetry 128:2, pages 1207-1216.
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Xuemei Zhang, Xiaoyan Yang, Hongbin Wang, Qinchun Li, Haijuan Wang & Yanyan Li. (2017) A significant positive correlation between endogenous trans-zeatin content and total arsenic in arsenic hyperaccumulator Pteris cretica var. nervosa. Ecotoxicology and Environmental Safety 138, pages 199-205.
Crossref
Abioye O. Fayiga & Uttam K. Saha. (2016) Arsenic hyperaccumulating fern: Implications for remediation of arsenic contaminated soils. Geoderma 284, pages 132-143.
Crossref
Smita Kumar, Rama Shanker Dubey, Rudra Deo Tripathi, Debasis Chakrabarty & Prabodh Kumar Trivedi. (2015) Omics and biotechnology of arsenic stress and detoxification in plants: Current updates and prospective. Environment International 74, pages 221-230.
Crossref
Mirza Hasanuzzaman, Kamrun Nahar, Khalid Rehman Hakeem, Münir Öztürk & Masayuki Fujita. 2015. Soil Remediation and Plants. Soil Remediation and Plants 433 501 .
Jia−Yi Xu, Hong−Bo Li, Shuang Liang, Jun Luo & Lena Q. Ma. (2014) Arsenic enhanced plant growth and altered rhizosphere characteristics of hyperaccumulator Pteris vittata. Environmental Pollution 194, pages 105-111.
Crossref
Mohammad PessarakliPallavi Sharma, Ambuj Jha & Rama Dubey. 2014. Handbook of Plant and Crop Physiology, Third Edition. Handbook of Plant and Crop Physiology, Third Edition 733 782 .
Mei Lei, Xiao-ming Wan, Xue-wen Li, Tong-bin Chen, Ying-ru Liu & Ze-chun Huang. (2013) Impacts of sulfur regulation in vivo on arsenic accumulation and tolerance of hyperaccumulator Pteris vittata. Environmental and Experimental Botany 85, pages 1-6.
Crossref
Sabah Abdul-Wahab & Fouzul Marikar. (2012) The environmental impact of gold mines: pollution by heavy metals. Open Engineering 2:2.
Crossref
Qing Bao Gu, Chang Sheng Peng, Qian Zhang & Fa Sheng Li. (2011) Growth Effect and Accumulation of as on / in Two Vegetables in Three Types of Chinese Soil. Advanced Materials Research 347-353, pages 2048-2053.
Crossref
Jason M. Abercrombie, Melanie Stewart, Murali R. Rao, Michael E. Essington & C. Neal Stewart Jr.. (2011) Aluminium accumulation in Pteris cretica and trace element uptake in vegetation growing on an abandoned aluminium smelter site in Knoxville, TN, USA. International Journal of Environment and Pollution 45:4, pages 310.
Crossref
Sun Hwa Hong, Sun Ah Choi, Hyeon Yoon & Kyung-Suk Cho. (2010) Screening of Cucumis sativus as a new arsenic-accumulating plant and its arsenic accumulation in hydroponic culture. Environmental Geochemistry and Health 33:S1, pages 143-149.
Crossref
Teruhiko Kashiwabara, Sakiko Mitsuo, Akiko Hokura, Nobuyuki Kitajima, Tomoko Abe & Izumi Nakai. (2010) In vivo micro X-ray analysis utilizing synchrotron radiation of the gametophytes of three arsenic accumulating ferns, Pteris vittata L., Pteris cretica L. and Athyrium yokoscense, in different growth stages. Metallomics 2:4, pages 261.
Crossref
Paula A. Shelmerdine, Colin R. Black, Steve P. McGrath & Scott D. Young. (2009) Modelling phytoremediation by the hyperaccumulating fern, Pteris vittata, of soils historically contaminated with arsenic. Environmental Pollution 157:5, pages 1589-1596.
Crossref

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