Lead tolerance in plants: strategies for phytoremediation. Zhang F, Xiao X, Xu K, Cheng X, Xie T, Hu J, Wu X. BMC Genomics. Deng H(1), Ye ZH, Wong MH. Lead uptake, toxicity, and detoxification in plants. Require these words, in this exact order. The aim of the present study was to evaluate the role of SA in the enhancement of lead (Pb) tolerance in wheat (Triticum aestivum) plants. Salicylic acid (SA) acts as a signaling molecule and plays an important role in various physiological and biochemical processes in plants. -, BMC Plant Biol. They were placed on your computer when you launched this website. OH), which are necessary for the correct functioning of plants; however, in excess they caused damage to biomolecules, such as membrane lipids, proteins, and nucleic acids among others. Analysis of transgenic Arabidopsis thaliana plants overexpressing YCF1 showed that YCF1 is functionally active and that the plants have enhanced tolerance of Pb(II) and Cd(II) and accumulated greater amounts of these metals. Environ Sci Pollut Res Int. Plants from dry stands demonstrated the lowest tolerance to lead (Berteroa incana IT = 10%, Helichrysum sp. 1998 Jun;49:643-668 Lead (Pb) is considered a major heavy metal pollutant, which causes toxicity in plants when its H Advances in Agricultural Science 6 (2018), Issue 02, 25-35 Journal homepage: www.aaasjournal.org ISSN: 2588-3801 Exogenous application of salicylic acid improves tolerance of wheat plants to lead ⦠Pb is quite common especially in the soil of roadside fields as a result of emission from the automotive exhaust. (Brassicaceae) from the vicinity of a lead mine and smelter in Slovenia, Nitric oxide reduces aluminum toxicity by preventing oxidative stress in the roots of Cassia tora L, Effect of indole-3-acetic acid on lead accumulation in maize (Zea mays L.) seedlings and the relevant antioxidant response, Wang, H; Shan, X; Wen, B; Owens, G; Fang, J; Zhang, S, The effect of EDDS addition on the phytoextraction efficiency from Pb contaminated soil by Sedum alfredii Hance, Wang, X; Wang, Y; Mahmood, Q; Islam, E; Jin, XF; Li, TQ; Yang, XE; Liu, D, Lead-contaminated soil induced oxidative stress, defense response and its indicative biomarkers in roots of Vicia faba seedlings, Wang, C; Tian, Y; Wang, X; Geng, J; Jiang, J; Yu, H; Wang, C, Evaluation of Pb phytoremediation potential in Buddleja asiatica and B-paniculata, Waranusantigul, P; Kruatrachue, M; Pokethitiyook, P; Auesukaree, C, Isolation and characterization of lead-tolerant Ochrobactrum intermedium and its role in enhancing lead accumulation by Eucalyptus camaldulensis, Waranusantigul, P; Lee, H; Kruatrachue, M; Pokethitiyook, P; Auesukaree, C, Phytoremediation: plant-endophyte partnerships take the challenge, Weyens, N; Lelie, D; Taghavi, S; Vangronsveld, J, Ca2+-dependent plant response to Pb2+ is regulated by LCT1, Wojas, S; Ruszczynska, A; Bulska, E; Wojciechowski, M; Antosiewicz, DM, Sorghum roots are inefficient in uptake of EDTA-chelated lead, Signal interaction between nitric oxide and hydrogen peroxide in heat shock induced hypericin production of Hypericum perforatum suspension cells, Sedum alfredii H: a new Zn hyperaccumulating plant first found in China, Lead-induced nitric oxide generation plays a critical role in lead uptake by Pogonatherum crinitum root cells, Yu, Q; Sun, L; Jin, H; Chen, Q; Chen, Z; Xu, M, Effects of EDTA on phytoextraction of heavy metals (Zn, Mn and Pb) from sludge-amended soil with Brassica napus, Zaier, H; Ghnaya, T; Ben Rejeb, K; Lakhdar, A; Rejeb, S; Jemal, F, Comparative study of Pb-phytoextraction potential in Sesuvium portulacastrum and Brassica juncea: Tolerance and accumulation, Zaier, H; Ghnaya, T; Lakhdar, A; Baioui, R; Ghabriche, R; Mnasri, M; Sghair, S; Lutts, S; Abdelly, C, Characterization of lead-resistant and ACC deaminase-producing endophytic bacteria and their potential in promoting lead accumulation of rape, Zhang, YF; He, LY; Chen, ZJ; Zhang, WH; Wang, QY; Qian, M; Sheng, XF, Effects of lead and EDTA-assisted lead on biomass, lead uptake and mineral nutrients in Lespedeza chinensis and Lespedeza davidii, Zheng, LJ; Liu, XM; Lutz-Meindl, U; Peer, T, Lead tolerance in plants: strategies for phytoremediation, http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png, Environmental Science and Pollution Research, http://www.deepdyve.com/lp/springer-journals/lead-tolerance-in-plants-strategies-for-phytoremediation-upKdUaJMys. 2011;213:113-36. doi: 10.1007/978-1-4419-9860-6_4. Read and print from thousands of top scholarly journals. 2014;232:1-44. doi: 10.1007/978-3-319-06746-9_1. Leadplant can occur in soils that are somewhat acidic to alkaline and can tolerate some salinity. that matters to you. 2006 Feb;163(3):319-32 Start a 14-Day Trial for You and Your Team. from heavy metal-contaminated paddy field soil and its potential in promoting plant growth and heavy metal accumulation in metal-polluted soil, A comprehensive overview of elements in bioremediation, AtATM3 is involved in heavy metal resistance in Arabidopsis, Kim, DY; Bovet, L; Kushnir, S; Noh, EU; Martinoia, E; Lee, Y, Distribution of lead in lead-accumulating pteridophyte Blechnum niponicum, measured by synchrotron radiation micro X-ray fluorescence, Kodera, H; Nishioka, H; Muramatsu, Y; Terada, Y, Characterization of a novel gene family of putative cyclic nucleotide and calmodulin-regulated ion channels in Arabidopsis thaliana, Localization and chemical speciation of Pb in roots of signal grass (Brachiaria decumbens) and Rhodes grass (Chloris gayana), Kopittke, PM; Asher, CJ; Blamey, FP; Auchterlonie, GJ; Guo, YN; Menzies, NW, Alleviation of Cu and Pb rhizotoxicities in Cowpea (Vigna unguiculata) as related to ion activities at root-cell plasma membrane surface, Kopittke, PM; Kinraide, TB; Wang, P; Blarney, FPC; Reichman, SM; Menzies, NW, Nitric oxide stimulates seed germination and counteracts the inhibitory effect of heavy metals and salinity on root growth of Lupinus luteus, Genetically modified plants in phytoremediation of heavy metal and metalloid soil and sediment pollution, Kotrba, P; Najmanova, J; Macek, T; Ruml, T; Mackova, M, Pectinous cell wall thickenings formationâA response of moss protonemata cells to lead, Krzeslowska, M; Lenartowska, M; Mellerowicz, EJ; Samardakiewicz, S; Wozny, A, Lead deposited in the cell wall of Funaria hygrometrica protonemata is not stable-A remobilization can occur, Krzeslowska, M; Lenartowska, M; Samardakiewicz, S; Bilski, H; Wozny, A, Nitric oxide protects sunflower leaves against Cd-induced oxidative stress, Laspina, NV; Groppa, MD; Tomaro, ML; Benavides, MP, AtPDR12 contributes to lead resistance in Arabidopsis, Arsenic triggers the nitric oxide (NO) and S-nitrosoglutathione (GSNO) metabolism in Arabidopsis, Leterrier, M; Airaki, M; Palma, JM; Chaki, M; Barroso, JB; Corpas, FJ, Soil amendment application frequency contributes to phytoextraction of lead by sunflower at different nutrient levels, Lin, CC; Liu, J; Liu, L; Zhu, TC; Sheng, LX; Wang, DL, Comparison of synthetic chelators and low molecular weight organic acids in enhancing phytoextraction of heavy metals by two ecotypes of Sedum alfredii Hance, Liu, D; Islam, E; Li, TQ; Yang, X; Jin, XF; Mahmood, Q, Transcriptional profiling of Arabidopsis seedlings in response to heavy metal lead (Pb), Liu, T; Liu, S; Guan, H; Ma, L; Chen, Z; Gu, H, Synchrotron-based techniques for plant and soil science: Opportunities, challenges and future perspectives, Gibberellic acid, kinetin, and the mixture indole-3-acetic acid-kinetin assisted with EDTA-induced lead hyperaccumulation in alfalfa plants, Lopez, ML; Peralta-Videa, JR; Parsons, JG; Benitez, T; Gardea-Torresdey, JL, Hydrogen peroxide induces a rapid production of nitric oxide in mung vean (Phaseolus aureus), Metal tolerance and hyperaccumulation: costs and trade-offs between traits and environment, Maestri, E; Marmiroli, M; Visioli, G; Marmiroli, N, Accumulation of lead in root cells of Pisum sativum, MaÅecka, A; Piechalak, A; Morkunas, I; Tomaszewska, B, Phytoremediation of metals, metalloids, and radionuclides, Chemically assisted phytoextraction: a review of potential soil amendments for increasing plant uptake of heavy metals, Meers, E; Tack, FMG; Slycken, S; Ruttens, A; Laing, GD; Vangronsveld, J; Verloo, MG, Uptake and localisation of lead in the root system of Brassica juncea, Meyers, DER; Auchterlonie, GJ; Webb, RI; Wood, B, Hyperaccumulators, arbuscular mycorrhizal fungi and stress of heavy metals, Lead detoxification by coontail (Ceratophyllum demersum L.) involves induction of phytochelatins and antioxidant system in response to its accumulation, Mishra, S; Srivastava, S; Tripathi, RD; Kumar, R; Seth, CS; Gupta, DK, AtHMA3, a P(1B)-ATPase allowing Cd/Zn/Co/Pb vacuolar storage in Arabidopsis, Morel, M; Crouzet, J; Gravot, A; Auroy, P; Leonhardt, N; Vavasseur, A; Richaud, P, Bacteria and phytoremediation: new uses for endophytic bacteria in plants, Correlation of growth inhibition with accumulation of Pb in cell wall and changes in response to oxidative stress in Arabidopsis thaliana seedlings, Phang, IC; Leung, DWM; Taylor, HH; Burritt, DJ, The protective effect of sodium nitroprusside (SNP) treatment on Arabidopsis thaliana seedlings exposed to toxic level of Pb is not linked to avoidance of Pb uptake, Phang, IC; Leung, DW; Taylor, HH; Burritt, DJ, Investigation of Pb(II) binding to pectin in Arabidopsis thaliana, Polec-Pawlak, K; Ruzik, R; Lipiec, E; Ciurzynska, M; Gawronska, H, Potential role of NADPH-oxidase in early steps of lead-induced oxidative burst in Vicia faba roots, Pourrut, B; Perchet, G; Silvestre, J; Cecchi, M; Guiresse, M; Pinelli, E, Lead uptake, toxicity, and detoxificaion in plants, Pourrut, B; Shahid, M; Dumat, C; Winterton, P; Pinelli, E, Symbiotic role of Glomus mosseae in phytoextraction of lead in vetiver grass [Chrysopogon zizanioides (L.)], Punamiya, P; Datta, R; Sarkar, D; Barber, S; Patel, M; Das, P. Heavy metal hyperaccumulating plants: how and why do they do it? IT = 15%), those from damp stands had higher tolerance, and those from wet ⦠Find any of these words, separated by spaces, Exclude each of these words, separated by spaces, Search for these terms only in the title of an article, Most effective as: LastName, First Name or Lastname, FN, Search for articles published in journals where these words are in the journal name, /lp/springer-journals/lead-tolerance-in-plants-strategies-for-phytoremediation-upKdUaJMys, Phytotreatment of soil contaminated with used lubricating oil using Hibiscus cannabinus, Detection and quantification of S-nitrosoglutathione (GSNO) in pepper (Capsicum annuum L.) plant organs by LC-ES/MS, Airaki, M; Sánchez-Moreno, L; Leterrier, M; Barroso, JB; Palma, JM; Corpas, FJ, Synthesis of phytochelatins in vetiver grass upon lead exposure in the presence of phosphorus, Andra, SS; Datta, R; Sarkar, D; Makris, KC; Mullens, CP; Sahi, SV; Bach, SBH, Study of calcium-dependent lead-tolerance on plants differing in their level of Ca-deficiency tolerance, A tobacco plasma membrane calmodulin-binding transporter confers Ni2+ tolerance and Pb2+ hypersensitivity in transgenic plants, Effects of Glomus deserticola inoculation on Prosopis: enhancing chromium and lead uptake and translocation as confirmed by X-ray mapping, ICP-OES and TEM techniques, Arias, JA; Peralta-Videa, JR; Ellzey, JT; Ren, MH; Viveros, MN; Gardea-Torresdey, JL, A field study of lead phytoextraction by various scented Pelargonium cultivars, Arshad, M; Silvestre, J; Pinelli, E; Kallerhoff, J; Kaemmerer, M; Tarigo, A; Shahid, A; Guiresse, M; Pradere, P; Dumat, C, Localization of lead in root tip of Dianthus carthusianorum, Nitric oxide contributes to cadmium toxicity in Arabidopsis by promoting cadmium accumulation in roots and by up-regulating genes related to iron uptake, Besson-Bard, A; Gravot, A; Richaud, P; Auroy, P; Duc, C; Gaymard, F; Taconnat, L; Renou, JP; Pugin, A; Wendehenne, D, Overexpression of AtATM3 in Brassica juncea confers enhanced heavy metal tolerance and accumulation, Bhuiyan, MSU; Min, SR; Jeong, WJ; Sultana, S; Choi, KS; Lee, Y; Liu, JR, Overexpression of a yeast cadmium factor 1 (YCF1) enhances heavy metal tolerance and accumulation in Brassica juncea, Bhuiyan, MSU; Min, SR; Jeong, WJ; Sultana, S; Choi, KS; Song, WY; Lee, Y; Lim, YP; Liu, JR, Accumulation of lead in the roots of grass pea (Lathyrus sativus L.) plants triggers systemic variation in gene expression in the shoots, Brunet, J; Varrault, G; Zuily-Fodil, Y; Repellin, A, The Arabidopsis Ethylene-Insensitive 2 gene is required for lead resistance, Cao, SQ; Chen, ZY; Liu, GQ; Jiang, L; Yuan, HB; Ren, G; Bian, XH; Jian, HY; Ma, XL, Lead enrichment in different genotypes of rice grains, Lead phytotoxicity in soil and nutrient solutions is related to lead induced phosphorus deficiency, Chevns, K; Peeters, S; Delcourt, D; Smolders, E, Evolution and function of phytochelatin synthases, Nitric oxide imbalance provokes a nitrosative response in plants under abiotic stress, Corpas, FJ; Leterrier, M; Valderrama, R; Airaki, M; Chaki, M; Palma, JM; Barroso, JB, Mineralogy of Pb-P grains in the roots of Agrostis capillaris L-by ATEM and EXAFS, Cotter-Howells, JD; Champness, PE; Charnock, JM, Expression of the phytochelatin synthase TaPCS1 in transgenic aspen, insight into the problems and qualities in phytoremediation of Pb, Couselo, JL; Navarro-Avino, J; Ballester, A, Role of ethylenediaminetetraacetic acid on lead uptake and translocation by tumbleweed (Salsola kali L.), Rosa, G; Peralta-Videa, JR; Cruz-Jimenez, G; Duarte-Gardea, M; Martinez-Martinez, A; Cano-Aguilera, I; Sharma, NC; Sahi, SV; Gardea-Torresdey, JL, Characterization of Cd- and Pb-resistant fungal endophyte Mucor sp. It is resistant to occurrences of fire and can tolerate a moderate amount of grazing. Lead in Soil. You can change your cookie settings through your browser. Do heavy metals and metalloids influence the detoxification of organic xenobiotics in plants? DeepDyve's default query mode: search by keyword or DOI. Solidago canadensis as a bioaccumulator and phytoremediator of Pb and Zn. And what makes them so interesting? To get new article updates from a journal on your personalized homepage, please log in first, or sign up for a DeepDyve account if you don’t already have one. In plants, Pb uptake and translocation occurs, causing toxic effects resulting in decrease of biomass production. Currently, phytoremediation is an effective and affordable technological solution used to extract or remove inactive metals and metal pollutants from contaminated soil and water. Its tolerance and accumulation of zinc, lead, copper, iron, manganese and magnesium as well as sulphur have been studied and compared with similar phenomena in two other local metal-tolerant grasses, Cynodon dactylon and Trachypogon spicatus, as well as 2016). 2006 Mar;140(3):922-32 ⢠Pb-induced enzymatic and non-enzymatic tolerance ⦠Plant defense strategies play important roles in the survival of plants as they are fed upon by many different types of herbivores, especially insects, ⦠Ying Yong Sheng Tai Xue Bao. Plant disease resistance protects plants from pathogens in two ways: by pre-formed structures and chemicals, and by infection-induced responses of the immune system. Author information: (1)Biology Department and Croucher Institute for Environmental Sciences, Hong Kong Baptist University, Kowloon, Hong Kong SAR, PR China. 2010 Mar 02;10:40 Pourrut B, Shahid M, Dumat C, Winterton P, Pinelli E. Rev Environ Contam Toxicol. Tolerance ranges of species. NLM Coincidently, flood resistant species such as Eriophorum angustifolium and J. effusus being very tolerant to Fe ( Snowden and Wheeler, 1993 ) are also proved to be highly tolerant to Zn ( Matthews et al., 2005 ). Itâs your single place to instantly Two independent trials were conducted to examine the involvement of nitric oxide (NO) in MT-mediated tolerance to Cd toxicity in wheat plants. 2020 Feb 10;21(1):139. doi: 10.1186/s12864-020-6558-4. New localities lead to new biodiversity. Many houses today were once painted with paints that contained lead â unless the paint was removed, that paint will still be there under layers of newer paint. Lead in the soil can settle on or be absorbed by plants grown for fruits or vegetables or plants used as ingredients in food, including dietary supplements. Cadmium toxicity considerably led to a decrease in plant growth, total chlorophyll, PSII maximum efficiency (Fv/Fm), leaf water potential, potassium (K + ⦠In this review, it will discuss recent advancement and potential application of plants for lead removal from the environment. Epub 2009 May 22. Why biodiversity is distributed unevenly. Phytoextraction of lead by plants Phytoremediation has been suggested as an inexpensive and Damage to soil texture, i.e., pH of soil, presence of different elements, and accumulation of heavy metals cause direct and/or indirect reduction of plant growth by adversely affecting vari⦠Epub 2019 Nov 19. Get unlimited, online access to over 18 million full-text articles from more than 15,000 scientific journals. The lead tolerance of these species correlated with their water requirements. Environ Sci Pollut Res Int. Save any article or search result from DeepDyve, PubMed, and Google Scholar... all in one place. eCollection 2020. Impact of salicylic acid on the growth and physiological activities of parsley plants under lead toxicity. Lead and zinc accumulation and tolerance in populations of six wetland plants. L14, Guo, H; Luo, S; Chen, L; Xiao, X; Xi, Q; Wei, W; Zeng, G; Liu, C; Wan, Y; Chen, J; He, Y, Antioxidant defence mechanism in hydroponically grown Zea mays seedlings under moderate lead stress, Gupta, DK; Nicoloso, FT; Schetinger, MRC; Rossato, LV; Pereira, LB; Castro, GY; Srivastava, S; Tripathi, RD, The detoxification of lead in Sedum alfredii H. is not related to phytochelatins but the glutathione, Gupta, DK; Huang, HG; Yang, XE; Razafindrabe, BHN; Inouhe, M, Lead induced responses of Pfaffia glomerata, an economically important Brazilian medicinal plant, under in vitro culture conditions, Gupta, DK; Nicoloso, FT; Schetinger, MRC; Rossato, LV; Huang, HG; Srivastava, S; Yang, XE, Tolerance and accumulation of lead by species of Iris L, Han, YL; Huang, SZ; Gu, JG; Qiu, S; Chen, JM, Studying the enhanced phytoremediation of lead contaminated soils via laser induced breakdown spectroscopy, Hassan, M; Sighicelli, M; Lai, A; Colao, F; Ahmed, AHH; Fantoni, R; Harith, MA, Sedum alfredii: a new lead-accumulating ecotype, He, B; Yang, XE; Ni, WZ; Wei, YZ; Long, XX; Ye, ZQ, Increased cadmium and lead uptake of a cadmium hyperaccumulator tomato by cadmium-resistant bacteria, He, LY; Chen, ZJ; Ren, GD; Zhang, YF; Qian, M; Sheng, XF, Role of EDTA in alleviating lead toxicity in accumulator species of Sedum alfredii H, Huang, HG; Li, TX; Tian, SK; Gupta, DK; Zhang, XZ; Yang, XE, Lead tolerance and physiological adaptation mechanism in roots of accumulating and non-accumulating ecotypes of Sedum alfredii, Huang, HG; Gupta, DK; Tian, SK; Yang, XE; Li, TX, Promising role of plant hormones in translocation of lead in Sesbania drummondii shoots, Phytoremediation of heavy metals: Physiological and molecular mechanisms, Pb-induced cellular defense system in the root meristematic cells of Allium sativum L, Isolation and characterization of a heavy metal-resistant Burkholderia sp. Phytoremediation: A Promising Approach for Revegetation of Heavy Metal-Polluted Land. Environ Sci Pollut Res Int. To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one. exposure to lead, the difference in the tolerance index between adventitious and seedling roots was 24% on average (7-61% depending on the plant variety and the dose of lead), which was significant. To limit the detrimental impact of Pb, efficient strategies like phytoremediation are required. Do not surround your terms in double-quotes ("") in this field. Clipboard, Search History, and several other advanced features are temporarily unavailable. From the words âlead tolerance in plantsâ itâs pretty easy to deduce that some plants have some kind of tolerance for lead. It is hoped that this information may shed further light on lead endur-ance and plant detoxification mechanisms, helping to devel-op new methods for phyto-remediating lead contaminated environments. Interactions between lead (Pb) with different plant species. | Email. Lead is also used in a number of alloys, flashing, solder and some batteries. Bookmark this article. Plant hormones are currently being used to induce stress tolerance in a variety of plants. This site needs JavaScript to work properly. From classic methodologies to application of nanomaterials for soil remediation: an integrated view of methods for decontamination of toxic metal(oid)s. Genome-wide association study (GWAS) reveals genetic loci of lead (Pb) tolerance during seedling establishment in rapeseed (Brassica napus L.). NIH All DeepDyve websites use cookies to improve your online experience. On similar waste tips in Scotland, A. tenuis is replaced by Festuca ovina and Deschampsia flexuosa, and a method has been worked out for the measurement of lead tolerance in F. ovina from soils of different lead contents. All the latest content is available, no embargo periods. Environ Sci Pollut Res Int. Snowden and Wheeler (1993) have indicated that Fe 2+ tolerance in wetland plants is significantly related to root porosity, root oxidizing ability and flood tolerance. This suggested that some plants of A. tenuis were inherently more tolerant of the lead and zinc in the soil than others. Nowadays extensive industrialization imparts detrimental effects on soil as well as on crop productivity by accumulating heavy metals (Shahid et al., 2015). Yan A, Wang Y, Tan SN, Mohd Yusof ML, Ghosh S, Chen Z. These results suggest that transgenic plants expressing YCF1 may be useful for phytoremediation of lead and cadmium. Front Plant Sci. Biogeography. Heavy metals are among the most important sorts of contaminant in the environment. | Several methods already used to clean up the environment from these kinds of contaminants, but most of them are costly and difficult to get optimum results. Lead (Pb) is the most common heavy metal contaminant in the environment. Zinc, lead and cadmium tolerance in four populations of Typha latifolia raised from seed collected from metalâcontaminated and uncontaminated sites were investigated. Lead (Pb) is naturally occurring element whose distribution in the environment occurs because of its extensive use in paints, petrol, explosives, sludge, and industrial wastes. Epub 2020 Jun 5. Among the hundreds of native plants screened, research done earlier by the group shortlisted three plants. [Research advances in plant lead tolerance and detoxification mechanism]. -. 2020 Apr;27(10):10205-10227. doi: 10.1007/s11356-020-08032-8. Huang HG, Li TX, Yang XE, Zhang XZ, Wu DY. Lead tolerance in Festuca ovina is an inherited characteristic, evolved by the production of compounds within the plants, speciï¬cally for protection against the toxic effects of heavy metals. Tolerance ranges of species. The negative effects of environmental stresses, such as low temperature, high temperature, salinity, drought, heavy metal stress, and biotic stress significantly decrease crop productivity. Implications of metal accumulation mechanisms to phytoremediation. Tolerance is the ability of plants to mitigate the negative fitness effects caused by herbivory. Leadplant is native to areas in Manitoba and Ontario. | But what does it mean? Commonly plants may prevent the toxic effect of heavy metals by induction of various celular ⦠Shahid M, Pourrut B, Dumat C, Nadeem M, Aslam M, Pinelli E. Rev Environ Contam Toxicol. In all cases, the seedlings contained more lead in their tissues than the plants that had developed from bulbs. To limit the detrimental impact of Pb, efficient strategies like phytoremediation are required. Epub 2020 Feb 17. sis of plants involved in Pb tolerance in plants. – Springer Journals. Uptake and accumulation of lead by plants from the Bo Ngam lead mine area in Thailand, Rotkittikhun, P; Kruatrachue, M; Chaiyarat, R; Ngernsansaruay, C; Pokethitiyook, P; Paijitprapaporn, A; Baker, AJM, Characterization of a lead hyperaccumulator shrub, Sesbania drummondii, Sahi, SV; Bryant, NL; Sharma, NC; Singh, SR, Saifullah, ME; Qadir, M; Caritat, P; Tack, FMG; Laing, G; Zia, MH, Chelant-aided enhancement of lead mobilization in residential soils, Sarkar, D; Andra, SS; Saminathan, SKM; Datta, R, Distribution and toxic effects of cadmium and lead on maize roots, Characterization of plant growth-promoting Bacillus edaphicus NBT and its effect on lead uptake by Indian mustard in a lead-amended soil, Characterization of heavy metal-resistant endophytic bacteria from rape (Brassica napus) roots and their potential in promoting the growth and lead accumulation of rape, Sheng, XF; Xia, JJ; Jiang, CY; He, LY; Qian, M, Use of vetiver and three other grasses for revegetation of Pb/Zn mine tailings: Field experiment, Shu, WS; Xia, HP; Zhang, ZQ; Lan, CY; Wong, MH, Role of nitric oxide in tolerance of plants to abiotic stress, Engineering tolerance and accumulation of lead and cadmium in transgenic plants, Song, WY; Sohn, EJ; Martinoia, E; Lee, YJ; Yang, YY; Jasinski, M; Forestier, C; Hwang, I; Lee, Y, Pb hyperaccumulation and tolerance in common buckwheat (Fagopyrum esculentum Moench), Lead, zinc, cadmium hyperaccumulation and growth stimulation in Arabis paniculata Franch, Tang, YT; Qiu, RL; Zeng, XW; Ying, RR; Yu, FM; Zhou, XY, Effects of soil amendments and EDTA on lead uptake by Chromolaena odorata: Greenhouse and field trial experiments, Tanhan, P; Pokethitiyook, P; Kruatrachue, M; Chaiyarat, R; Upatham, S, Spatial imaging and speciation of lead in the accumulator plant Sedum alfredii by microscopically focused synchrotron X-ray investigation, Tian, SK; Lu, LL; Yang, XE; Webb, SM; Du, YH; Brown, PH, The impact of EDTA on lead distribution and speciation in the accumulator Sedum alfredii by synchrotron X-ray investigation, Tian, SK; Lu, LL; Yang, XE; Huang, HG; Brown, P; Labavitch, J; Liao, HB; He, ZL, Uptake and localization of lead in corn (Zea mays L.) seedlings: a study by histochemical and electron microscopy, Study of lead phytoavailability for atmospheric industrial micronic and sub-micronic particles in relation with lead speciation, Uzu, G; Sobanska, S; Aliouane, Y; Pradere, P; Dumat, C, Zn, Cd and Pb accumulation and arbuscular mycorrhizal colonisation of pennycress Thlaspi praecox Wulf. Lead tolerance in plants: strategies for phytoremediation Lead (Pb) is naturally occurring element whose distribution in the environment occurs because of its extensive use in paints, petrol, explosives, sludge, and industrial wastes. Please enable it to take advantage of the complete set of features! The aim of the present study is to verify whether other common wetland plants such as Alternanthera philoxeroides and Beckmannia syzigachne, also possess the same characteristics. 2019 Dec;26(36):36942-36951. doi: 10.1007/s11356-019-06690-x. HHS Those are the interesting questions. Google Classroom Facebook Twitter. CBRF59 isolated from rapes (Brassica chinensis) in a metal-contaminated soil, Deng, Z; Cao, L; Huang, H; Jiang, X; Wang, W; Shi, Y; Zhang, R, The Pb-hyperaccumulator aquatic fern Salvinia minima Baker, responds to Pb2+ by increasing phytochelatins via changes in SmPCS expression and in phytochelatin synthase activity, Estrella-Gomez, N; Mendoza-Cozatl, D; Moreno-Sanchez, R; Gonzalez-Mendoza, D; Zapata-Perez, O; Martinez-Hernandez, A; Santamaria, JM, The use of NTA for lead phytoextraction from soil from a battery recycling site, Metal and proton binding onto the roots of Fescue rubra, A plant genetically modified that accumulates Pb is especially promising for phytoremediation, Gisbert, C; Ros, R; Haro, A; Walker, DJ; Bernal, MP; Serrano, R; Navarro-Avino, J, Bioremediation of heavy metals by growing hyperaccumulaor endophytic bacterium Bacillus sp. , Xie T, Hu J, Wu X. BMC Genomics clipboard search... 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