K
Khalil Kariman
Researcher at University of Western Australia
Publications - 29
Citations - 1139
Khalil Kariman is an academic researcher from University of Western Australia. The author has contributed to research in topics: Shoot & Rhizobacteria. The author has an hindex of 15, co-authored 29 publications receiving 665 citations.
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Mechanisms underlying the protective effects of beneficial fungi against plant diseases
TL;DR: The biocontrol mechanisms in beneficial fungi are explored and the potential practical implications are highlighted by highlighting the possible practical implications.
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Phytoextraction of heavy metals from contaminated soil, water and atmosphere using ornamental plants: mechanisms and efficiency improvement strategies.
Behnam Asgari Lajayer,Nader Khadem Moghadam,Mohammad Reza Maghsoodi,Mansour Ghorbanpour,Khalil Kariman +4 more
TL;DR: The phytoextraction efficiency of OPs can be improved through chemical, microbial, soil amending, and genetic approaches, which primarily target bioavailability, uptake, and sequestration of HMs.
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Engineered nanomaterial-mediated changes in the metabolism of terrestrial plants.
TL;DR: Considering reports on both positive and negative effects of ENMs on plant metabolism, in-depth studies are warranted to figure out the most appropriate ENMs (type, size and optimal concentration) in order to achieve the desirable effect on specific metabolites in a given plant species.
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Physiological and antioxidative responses of medicinal plants exposed to heavy metals stress
TL;DR: This review focuses mainly on the physiological and biochemical responses of medicinal plants to different heavy metals stresses and the detoxification/antioxidative pathways involved, all of which may lead to enhanced yield of secondary metabolites i.e. a desirable consequence of an undesirable environmental factor.
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Nanosilicon-based recovery of barley (Hordeum vulgare) plants subjected to drought stress
TL;DR: In this article, the authors explored the potential impact of silicon nanoparticles (Si NPs), in comparison with their bulk counterpart (silicate), on post-stress recovery performance of barley seedlings under different drought stress intensities during vegetative growth.