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Journal of Plant Nutrition Volume 32, 2009 - Issue 7
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Original Articles

Effect of Zero-Valent Iron Application on Cadmium Uptake in Rice Plants Grown in Cadmium-Contaminated Soils

Toshihiro Watanabe Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
,
Yasutoshi Murata Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
,
Takashi Nakamura Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
,
Yuki Sakai Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
&
Mitsuru Osaki Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
Pages 1164-1172 | Received 23 Jan 2008, Accepted 16 Feb 2009, Published online: 06 Jun 2009

Citations (22)

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Takashi Nakamura, Mitsuru Osaki & Toshihiro Watanabe. (2024) Zero-valent iron reduces cadmium and arsenic accumulation in spinach (Spinacia oleracea L.). Journal of Plant Nutrition 47:4, pages 646-655.
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Articles from other publishers (21)

Priyanka Prakash & Smitha Chandran S. (2023) Nano-Phytoremediation of Heavy Metals from Soil: A Critical Review. Pollutants 3:3, pages 360-380.
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Bilal Ahmad, Abbu Zaid, Faisal Zulfiqar, Fatemeh Bovand & Tariq Ahmad Dar. (2022) Nanotechnology: a novel and sustainable approach towards heavy metal stress alleviation in plants. Nanotechnology for Environmental Engineering 8:1, pages 27-40.
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Samavia Mubeen, Wenjuan Ni, Chuntao He & Zhongyi Yang. (2023) Agricultural Strategies to Reduce Cadmium Accumulation in Crops for Food Safety. Agriculture 13:2, pages 471.
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C. O. Ogunkunle, M. A. Jimoh, E. F. Adegboye, A. B. Rufai, O. A. Olatunji, G. O. Okunlola & C. O. Adenipekun. 2023. Phytoremediation. Phytoremediation 549 570 .
Sanjida Akter, Golum Kibria Muhammad Mustafizur Rahman, Mirza Hasanuzzaman, Zakaria Alam, Toshihiro Watanabe & Tofazzal Islam. (2021) Zerovalent Iron Modulates the Influence of Arsenic-Contaminated Soil on Growth, Yield and Grain Quality of Rice. Stresses 1:2, pages 90-104.
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Hui Huang, Di Zhao & Peng Wang. (2021) Biogeochemical Control on the Mobilization of Cd in Soil. Current Pollution Reports 7:2, pages 194-200.
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Titir Guha, Sandip Barman, Amitava Mukherjee & Rita Kundu. (2020) Nano-scale zero valent iron modulates Fe/Cd transporters and immobilizes soil Cd for production of Cd free rice. Chemosphere 260, pages 127533.
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Vinita Khum-in, Jirapon Suk-in, Papop In-ai, Kitsanateen Piaowan, Yanapat Phaimisap, Wisa Supanpaiboon & Tanapon Phenrat. (2020) Combining biochar and zerovalent iron (BZVI) as a paddy field soil amendment for heavy cadmium (Cd) contamination decreases Cd but increases zinc and iron concentrations in rice grains: a field-scale evaluation. Process Safety and Environmental Protection 141, pages 222-233.
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Hamid Mohammadi, Ali Reza Amani-Ghadim, Amir Abbas Matin & Mansour Ghorbanpour. (2019) Fe0 nanoparticles improve physiological and antioxidative attributes of sunflower (Helianthus annuus) plants grown in soil spiked with hexavalent chromium. 3 Biotech 10:1.
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T. M. Salem Attia & N. I. Elsheery. 2020. Sustainable Agriculture Reviews 41. Sustainable Agriculture Reviews 41 1 39 .
Mostafa Emadi, Mohaddeseh Savasari, Mohammad Ali Bahmanyar & Pourya Biparva. (2016) Application of stabilized zero valent iron nanoparticles for immobilization of lead in three contrasting spiked soils. Research on Chemical Intermediates 45:9, pages 4261-4274.
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Yijia He, Lichao Qian, Ke Zhou, Ruirui Hu, Meirong Huang, Min Wang, Guoke Zhao, Yule Liu, Zhiping Xu & Hongwei Zhu. (2019) Graphene Oxide Promoted Cadmium Uptake by Rice in Soil. ACS Sustainable Chemistry & Engineering 7:12, pages 10283-10292.
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Bilal Ahmad, Abbu Zaid, Hassan Jaleel, M. Masroor A. Khan & Mansour Ghorbanpour. 2019. Advances in Phytonanotechnology. Advances in Phytonanotechnology 315 327 .
Sajid Mehmood, Muhammad Rizwan, Saqib Bashir, Allah Ditta, Omar Aziz, Li Zhe Yong, Zhihua Dai, Muhammad Akmal, Waqas Ahmed, Muhammad Adeel, Muhammad Imtiaz & Shuxin Tu. (2017) Comparative Effects of Biochar, Slag and Ferrous–Mn Ore on Lead and Cadmium Immobilization in Soil. Bulletin of Environmental Contamination and Toxicology 100:2, pages 286-292.
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Mahya Tafazoli, Seyyed Mohammad Hojjati, Pourya Biparva, Yahya Kooch & Norbert Lamersdorf. (2017) Reduction of soil heavy metal bioavailability by nanoparticles and cellulosic wastes improved the biomass of tree seedlings. Journal of Plant Nutrition and Soil Science 180:6, pages 683-693.
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Toshihiro Watanabe, Eriko Maejima, Tomoko Yoshimura, Masaru Urayama, Aiko Yamauchi, Masako Owadano, Ryosuke Okada, Mitsuru Osaki, Yoshinori Kanayama & Takuro Shinano. (2016) The Ionomic Study of Vegetable Crops. PLOS ONE 11:8, pages e0160273.
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Yohey Hashimoto, Mitsuhiro Furuya, Noriko Yamaguchi & Tomoyuki Makino. (2016) Zerovalent Iron with High Sulfur Content Enhances the Formation of Cadmium Sulfide in Reduced Paddy Soils. Soil Science Society of America Journal 80:1, pages 55-63.
Crossref
Xuan Li, Yuechao Yang, Bin Gao & Min Zhang. (2015) Stimulation of Peanut Seedling Development and Growth by Zero-Valent Iron Nanoparticles at Low Concentrations. PLOS ONE 10:4, pages e0122884.
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Kiyoharu Nakatani, Yuichi Makino, Yuki Shimura, Tomohiro Furumura, Keiichi Mizusawa, Jun Ushiku, Hisayo Fukushima, Tomonori Kaneko, Ayako Tsuda & Masaru Sakai. (2013) Insolubilization of Cadmium in Paddy Field Using Atomized Iron Powder and Extracting Reagent. Analytical Sciences 29:11, pages 1103-1106.
Crossref
Yohey Hashimoto & Noriko Yamaguchi. (2013) Chemical Speciation of Cadmium and Sulfur K‐Edge XANES Spectroscopy in Flooded Paddy Soils Amended with Zerovalent Iron. Soil Science Society of America Journal 77:4, pages 1189-1198.
Crossref
Ruiqiang Liu & Rattan Lal. (2012) Nanoenhanced Materials for Reclamation of Mine Lands and Other Degraded Soils: A Review. Journal of Nanotechnology 2012, pages 1-18.
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