PGPR-assisted phytoremediation of cadmium: an advancement towards clean environment

Verma Chhaya; Das Amar Jyoti; Kumar Rajesh

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PGPR-assisted phytoremediation of cadmium: an advancement towards clean environment

机译：PGPR辅助镉的植物修复：对清洁环境的进步

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One of the major problems, that the world is facing today due to rapid industrialization is environmental pollution caused by several factors, including heavy metals. Among the heavy metals, cadmium is a hazardous carcinogenic element. From contaminated soil, cadmium enters the plants through the roots and is accumulated in the harvestable (edible) parts, and thus gains entry into the food cycle. Phytoremediation plays a beneficial role in the remediation of cadmium contamination from soil, but becomes less effective with increasing toxicity. Even hyperaccumulator plants fail to perform under these conditions. Plant growth promoting rhizobacteria (PGPR), inhabitants of the plant rhizosphere, play a supporting role and promote bioremediation of soil by accumulation or transformation of contaminants, thereby enhancing plant growth and development. This article focuses on cadmium contamination and PGPR-assisted phytoremediation of cadmium-contaminated soils.

机译：由于迅速的工业化，世界在今天面临的主要问题之一是由几个因素引起的环境污染，包括重金属。在重金属中，镉是危险的致癌元素。从受污染的土壤中，镉通过根进入植物，并在收获（可食用）部分中积聚，从而进入食物循环。植物化修复在修复土壤中的镉污染中起着有益的作用，但随着毒性的增加而变得较低。甚至超成剖器植物未能在这些条件下进行。植物生长促进植物根际的根瘤菌（PGPR），居民，发挥配套作用，并通过污染物的积累或转化促进土壤的生物修复，从而提高植物生长和发展。本文重点介绍镉污染土壤的镉污染和PGPR辅助植物修复。

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来源
《Current Science: A Fortnightly Journal of Research》 |2017年第4期|共10页
作者
Verma Chhaya; Das Amar Jyoti; Kumar Rajesh;
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作者单位

Babasaheb Bhimrao Ambedkar Univ Sch Environm Sci Dept Environm Microbiol Rhizosphere Biol Lab Lucknow 226025 Uttar Pradesh India;

Babasaheb Bhimrao Ambedkar Univ Sch Environm Sci Dept Environm Microbiol Rhizosphere Biol Lab Lucknow 226025 Uttar Pradesh India;

Babasaheb Bhimrao Ambedkar Univ Sch Environm Sci Dept Environm Microbiol Rhizosphere Biol Lab Lucknow 226025 Uttar Pradesh India;

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原文格式 PDF
正文语种 eng
中图分类自然科学现状及发展;
关键词
Cadmium; phytoremediation; plant growth promoting rhizobacteria; toxicity;

机译：镉;植物症;植物生长促进毒细胞;毒性;

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专利

1. PGPR-assisted phytoremediation of cadmium: an advancement towards clean environment [J] . Verma Chhaya, Das Amar Jyoti, Kumar Rajesh Current Science: A Fortnightly Journal of Research . 2017,第4期

机译：PGPR辅助镉的植物修复：对清洁环境的进步
2. Phytoremediation of two ecotypes cadmium hyperaccumulator Bidens pilosa L. sourced from clean soils [J] . Dai Huiping, Wei Shuhe, Skuza Lidia, Chemosphere . 2021,第Juna期

机译：两种生态型植物修复镉高读数器Bidens Pilosa L.来自清洁土壤
3. Phytoremediation Prospect in Clean Up of Contaminated Environment with Heavy Metals [J] . Usman Umar Zango, Aminu Abubakar, Halima Ibrahim Mukhtar, International Journal of Atmospheric and Oceanic Sciences . 2018,第2期

机译：重金属污染环境下植物修复的前景
4. Phytoremediation Capabilities of Goldcrest (C. Macrocarpa) on Hexavalent Chromium, Cadmium, and Lead [C] . Jake JOHNSTON, Yutaka SAKAKIBARA 日本水環境学会年会 . 2020

机译：Goldcrest（C. Macrocarpa）对六价铬，镉和铅的植物修复能力
5. Detoxification and Accumulation of Cadmium and Arsenic in Plants: Implications for Phytoremediation and Limiting Accumulation in Foods [D] . Jobe, Timothy O. 2013

机译：植物中镉和砷的排毒和积累：对植物修复和限制食物中积累的影响
6. To clean or not to clean: Cleaning mutualism breakdown in a tidal environment [O] . Katie Dunkley, Ashley J. W. Ward, Sarah E. Perkins, 2020

机译：清洁或不清洁：在潮汐环境中清洁共生故障
7. Phytoremediation—From Environment Cleaning to Energy Generation—Current Status and Future Perspectives [O] . Anna Grzegórska, Piotr Rybarczyk, Andrzej Rogala, 2020

机译：植物修复 - 从环境清洁到能源发电 - 当前状态和未来的观点

PGPR-assisted phytoremediation of cadmium: an advancement towards clean environment

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