"Role of mycorrhiza to reduce heavy metal stress"
written by Syeda Asma Bano, Darima Ashfaq,
published by Natural Science, Vol.5 No.12A, 2013
has been cited by the following article(s):
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[2] Mycoremediation affects antioxidative status in winter rye plants grown at Chernobyl exclusion zone site in Ukraine.
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[3] The yield potential and growth responses of licorice (Glycyrrhiza glabra L.) to mycorrhization under Pb and Cd stress
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[4] Effect of Heavy Metals on Plant Growth: An Overview
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[7] Hongos formadores de micorrizas arbusculares (HFMA) como estrategia para reducir la absorción de cadmio en plantas de cacao (Theobroma cacao)
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[8] Phytoremediation of Cadmium-Polluted Water/Sediment by Aquatic Macrophytes: Role of Plant-Induced pH Changes
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[9] Arbuscular mycorrhizal fungi and exogenous glutathione mitigate coal fly ash (CFA)-induced phytotoxicity in CFA-contaminated soil
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[10] 20 Role of Beneficial Microorganisms in Abiotic Stress Tolerance in Plants
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[11] Mycorrhiza: An under earth revolution for sustainable food production
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[12] MIKORIZA INDIGINOUS DI AREA YANG TERKONTAMINASI LOGAM Cr dan Cu
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[13] Magnetopriming Alleviates Adverse Effects of Abiotic Stresses in Plants
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[14] Effect of Mycorrhiza, Zeolite and Superabsorbent on Growth and Primary Establishment of Agropyron desertorum in Mining Field (Case Study: Mashhad′ Shargh …
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[15] Plant-Mycorrhizal and Plant-Rhizobial Interfaces: Underlying Mechanisms and Their Roles in Sustainable Agroecosystems
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[16] Exploring the Role of Mycorrhizae as Soil Ecosystem Engineer
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[17] Hongos formadores de micorrizas arbusculares (HFMA) como estrategia para reducir la absorción de cadmio en plantas de cacao (Theobroma cacao) …
2019
[18] Arbuscular mycorrhizal fungi (AMF) as a strategy to reduce the absorption of cadmium in cocoa (Theobroma cacao) plants
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[19] Native Mycorrhizal Fungi in Land Contaminated Cr, Co and Cu
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[20] STUDYING THE EFFICIENCY OF CANNA GENERALISAFTER BEING INOCULATED WITH MYCORRHIZA FUNGUS (GLOMUS MOSSEA) IN PLANT …
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[21] Localization of calreticulin and calcium ions in mycorrhizal roots of Medicago truncatula in response to aluminum stress
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[22] THE EFFECT OF APPLICATION ACAULOSPORA SP ON THE ROOT GROWTH OF CANAVALIA ENSIFORMIS L AT NICKEL POST-MINE LAND
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[23] The effect of mycorrhiza (Glomus mosseae) on the growth and flowering of Canna generalis cultivated in the soil contaminated with lead and cadmium
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[24] Plant growth promoting rhizobacteria induced Cd tolerance in Lycopersicon esculentum through altered antioxidative defense expression
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[25] Role of Micro-organisms in Modulating Antioxidant Defence in Plants Exposed to Metal Toxicity
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[26] Effect of short-term aluminum stress and mycorrhizal inoculation on nitric oxide metabolism in Medicago truncatula roots
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[27] Biosciences and Plant Biology
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[28] 镧-铅复合污染下 AM 真菌对玉米生长和镧, 铅吸收的影响
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[29] Adaptation Strategies of Plants against Heavy Metal Stress
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[30] Zinc-Arbuscular Mycorrhizal Interactions: Effect on Nutrient Pool, Enzymatic Antioxidants, and Osmolyte Synthesis in Pigeonpea Nodules Subjected to Cd Stress
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[31] Natural amelioration of Zinc oxide nanoparticle toxicity in fenugreek (Trigonella foenum-gracum) by arbuscular mycorrhizal (Glomus intraradices) secretion of glomalin
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[32] Remediation of Mine Tailings and Fly Ash Dumpsites: Role of Poaceae Family Members and Aromatic Grasses
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[33] Transfer of Nickel from Polluted Soil to Pisum sativum L. and Raphanus sativus L. under Composted Green Amendment and Native Soil Microbes
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[34] Symbiotic association between golden berry (Physalis peruviana) and arbuscular mycorrhizal fungi in heavy metal-contaminated soil
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[35] Exogenous GR24 Alleviates Cadmium Toxicity by Reducing Cadmium Uptake in Switchgrass (Panicum virgatum) Seedlings
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[36] Silicon and Rhizophagus irregularis: potential candidates for ameliorating negative impacts of arsenate and arsenite stress on growth, nutrient acquisition and productivity in Cajanus cajan (L.) Millsp. genotypes
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[37] Mycorrhizal contacts can get better adaptability for host plant under metal stress
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[38] Potential impact of microbial consortia in biomining and bioleaching of commercial metals
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[39] Growth and nutrient uptake of Paraserianthes falcataria(L.) as affected by carbonized rice hull and arbuscular mycorrhizal fungi grown in an artificially copper contaminated soil
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[40] Recent Perspectives on Cross Talk Between Cadmium, Zinc, and Arbuscular Mycorrhizal Fungi in Plants
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[41] Studying arbuscular mycorrhiza symbiotic effects on establishment and morphological characteristics of Bromus kopetdaghensis in cadmium contaminated soil
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[42] 丛枝菌根真菌对铈污染土壤上玉米生长和铈吸收的影响
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[43] Assessment of silver nanoparticles contamination on faba bean-Rhizobium leguminosarum bv. viciae-Glomus aggregatum symbiosis: Implications for induction of autophagy process in root nodule
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[44] Contribution of arbuscular mycorrhizal fungi in attenuation of heavy metal impact on Calendula officinalis development
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[45] Tuber borchii Vitt. mycorrhiza protects Cistus creticus L. from heavy metal toxicity
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[46] Contribution of forest floor fractions to carbon storage and abundance patterns of arbuscular mycorrhizal fungal colonisation in a tropical montane forest
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[47] Cultivation of sweet sorghum on heavy metal-contaminated soils by phytoremediation approach for production of bioethanol
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[48] Biochemical characterization and mechanistic study of heavy metal detoxification in the metal resistant bacteria
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[49] Heavy Metal Stress and Some Mechanisms of Plant Defense Response
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[50] Heavy metal detoxification and tolerance mechanisms in plants: Implications for phytoremediation
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[51] Фитоэкстракция никеля и меди и респирометрические показатели состояния микробных сообществ в техногенных грунтах и почвах, загрязненных тяжелыми металлами
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