Enhanced tolerance of industrial hemp (Cannabis sativa L.) plants on abandoned mine land soil leads to overexpression of cannabinoids
Rabab Husain,Hannah Weeden,Daniel Bogush,Michihito Deguchi,Mario Soliman,Shobha Potlakayala,Ramesh Katam,Stephen L. Goldman,Sairam Rudrabhatla +8 more
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TLDR
The data indicates a high tolerance to heavy metals as indicated from the physiological and metabolites analysis and Molecular analysis indicated an 18-fold increase in the expression of the cannabidiolic acid synthase gene in plants grown on mine land soil.Abstract:
Industrial activities have a detrimental impact on the environment and health when high concentrations of pollutants are released. Phytoremediation is a natural method of utilizing plants to remove contaminants from the soil. The goal of this study was to investigate the ability of Cannabis sativa L. to sustainably grow and remediate abandoned coal mine land soils in Pennsylvania. In this study, six different varieties of industrial hemp (Fedora 17, Felina 32, Ferimon, Futura 75, Santhica 27, and USO 31) were grown on two different contaminated soil types and two commercial soils (Miracle-Gro Potting Mix and PRO-MIX HP Mycorrhizae High Porosity Grower Mix). Plants growing in all soil types were exposed to two environmental conditions (outside and in the greenhouse). Seed germination response and plant height indicated no significant differences among all hemp varieties grown in different soils, however on an average, the height of the plants grown in the greenhouse exceeded that of the plants grown outdoors. In addition, heavy metal analysis of Arsenic, Lead, Nickel, Mercury, and Cadmium was performed. The concentration of Nickel was 2.54 times greater in the leaves of hemp grown in mine land soil outdoors when compared to greenhouse conditions. No differences were found between expression of heavy metal transporter genes. Secondary metabolite analysis of floral buds from hemp grown in mine land soil displayed a significant increase in the total Cannabidiol content (2.16%, 2.58%) when compared to Miracle-Gro control soil (1.08%, 1.6%) for outdoors and in the greenhouse, respectively. Molecular analysis using qRT-PCR indicated an 18-fold increase in the expression of the cannabidiolic acid synthase gene in plants grown on mine land soil. The data indicates a high tolerance to heavy metals as indicated from the physiological and metabolites analysis.read more
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Potential of hemp (Cannabis sativa L.) for paired phytoremediation and bioenergy production
TL;DR: Hemp is a multi-use crop that has been investigated for its potential use in phytoremediation of heavy metals, radionuclides, and organic contaminants, and as a feedstock for bioenergy production.
Journal ArticleDOI
Potential of Industrial Hemp for Phytoremediation of Heavy Metals
Dante F. Placido,Charles C. Lee +1 more
TL;DR: The recent availability of an annotated genome sequence provides a powerful tool for the bioengineering of C. sativa for better phytoremediation, where plants are used to capture metals from the environment.
Journal ArticleDOI
Metabolic Engineering Strategies of Industrial Hemp (Cannabis sativa L.): A Brief Review of the Advances and Challenges
Michihito Deguchi,Shriya Kane,Shobha Potlakayala,Hannah George,Renata Proano,Vijay Sheri,Wayne R. Curtis,Sairam Rudrabhatla +7 more
TL;DR: Three distinct approaches to expedite phytochemical yield are discussed, which enable environment-friendly metabolic engineering to increase the production of desirable hemp phytochemicals while eliminating the psychoactive compounds, such as tetrahydrocannabinol (THC).
Journal ArticleDOI
Phytoremediation of contaminants of emerging concern from soil with industrial hemp (Cannabis sativa L.): a review
TL;DR: In this paper, the potential of industrial hemp as a renewable resource to biodegrade and/or decontaminate contaminants of emerging concern (CECs) in wastewater treatment plant effluents is explored.
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Fertility management for industrial hemp production: Current knowledge and future research needs
TL;DR: In this paper, the current state of peer-reviewed industrial hemp fertility research is reviewed and summarized, and the authors pose ideas for future fertility studies necessary for the development of industrial hemp fertilizer recommendations.
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Grégory Vert,Natasha Grotz,Fabienne Dédaldéchamp,Frédéric Gaymard,Mary Lou Guerinot,Jean-François Briat,Catherine Curie +6 more
TL;DR: Genetic evidence is presented that IRT1 is essential for the uptake of iron from the soil, and it is shown that I RT1 is expressed in the external cell layers of the root, specifically in response to iron starvation.
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A Review on Heavy Metals (As, Pb, and Hg) Uptake by Plants through Phytoremediation
Bieby Voijant Tangahu,Siti Rozaimah Sheikh Abdullah,Hassan Basri,Mushrifah Idris,Nurina Anuar,Muhammad Mukhlisin +5 more
TL;DR: In this article, the authors compile some information about heavy metals of arsenic, lead, and mercury (As, Pb, and Hg) sources, effects and their treatment and also review deeply about phytoremediation technology, including the heavy metal uptake mechanisms and several research studies associated about the topics.
Journal ArticleDOI
Phytoremediation of soil metals
TL;DR: Little molecular understanding of plant activities critical to phytoremediation has been achieved, but recent progress in characterizing Fe, Cd and Zn uptake by Arabidopsis and yeast mutants indicates strategies for developing transgenic improved phytOREmediation cultivars for commercial use.
Journal ArticleDOI
Phytoremediation of contaminated soils
TL;DR: Two contrasting approaches to remediation are being pursued: pollutant-stabilization and containment, where soil conditions and vegetative cover are manipulated to reduce the environmental hazard; and decontamination, where plants and their associated microflora are used to eliminate the contaminant from the soil as discussed by the authors.