Enhancement of growth and Cannabinoids content of hemp (Cannabis sativa) using arbuscular mycorrhizal fungi

This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R....

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Published in	Frontiers in plant science Vol. 13; p. 845794
Main Authors	Seemakram, Wasan, Paluka, Jakkapat, Suebrasri, Thanapat, Lapjit, Chanon, Kanokmedhakul, Somdej, Kuyper, Thomas W., Ekprasert, Jindarat, Boonlue, Sophon
Format	Journal Article
Language	English
Published	Frontiers Media S.A 26.07.2022
Subjects	Cannabis sativa KKU05 organic agriculture plant growth promotion Plant Science Rhizophagus aggregatus Rhizophagus prolifer
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Abstract	This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R. aggregatus BM-3 g3 were selected as inocula and compared with two non-mycorrhizal controls, one without synthetic fertilizer and one with synthetic NPK fertilizer. The unfertilized non-mycorrhizal plants had the lowest performance, whereas plants inoculated with R. aggregatus BM-3 g3 performed best, both in terms of plant biomass and concentrations of CBD and THC. There were no significant differences in plant biomass and cannabinoid concentrations between non-mycorrhizal plants that received synthetic fertilizer and mycorrhizal plants with inoculum of R. prolifer PC2-2. Our data demonstrate the great potential for cannabis cultivation without risking deterioration of soil structure, such as soil hardening and increased acidity, which might be induced by long-term use of synthetic fertilizer.
AbstractList	This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R. aggregatus BM-3 g3 were selected as inocula and compared with two non-mycorrhizal controls, one without synthetic fertilizer and one with synthetic NPK fertilizer. The unfertilized non-mycorrhizal plants had the lowest performance, whereas plants inoculated with R. aggregatus BM-3 g3 performed best, both in terms of plant biomass and concentrations of CBD and THC. There were no significant differences in plant biomass and cannabinoid concentrations between non-mycorrhizal plants that received synthetic fertilizer and mycorrhizal plants with inoculum of R. prolifer PC2-2. Our data demonstrate the great potential for cannabis cultivation without risking deterioration of soil structure, such as soil hardening and increased acidity, which might be induced by long-term use of synthetic fertilizer. This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R. aggregatus BM-3 g3 were selected as inocula and compared with two non-mycorrhizal controls, one without synthetic fertilizer and one with synthetic NPK fertilizer. The unfertilized non-mycorrhizal plants had the lowest performance, whereas plants inoculated with R. aggregatus BM-3 g3 performed best, both in terms of plant biomass and concentrations of CBD and THC. There were no significant differences in plant biomass and cannabinoid concentrations between non-mycorrhizal plants that received synthetic fertilizer and mycorrhizal plants with inoculum of R. prolifer PC2-2. Our data demonstrate the great potential for cannabis cultivation without risking deterioration of soil structure, such as soil hardening and increased acidity, which might be induced by long-term use of synthetic fertilizer. This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R. aggregatus BM-3 g3 were selected as inocula and compared with two non-mycorrhizal controls, one without synthetic fertilizer and one with synthetic NPK fertilizer. The unfertilized non-mycorrhizal plants had the lowest performance, whereas plants inoculated with R. aggregatus BM-3 g3 performed best, both in terms of plant biomass and concentrations of CBD and THC. There were no significant differences in plant biomass and cannabinoid concentrations between non-mycorrhizal plants that received synthetic fertilizer and mycorrhizal plants with inoculum of R. prolifer PC2-2. Our data demonstrate the great potential for cannabis cultivation without risking deterioration of soil structure, such as soil hardening and increased acidity, which might be induced by long-term use of synthetic fertilizer.This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A completely randomized design (CRD) was conducted with six replications for 60 days. Two different species of AMF, Rhizophagus prolifer PC2-2 and R. aggregatus BM-3 g3 were selected as inocula and compared with two non-mycorrhizal controls, one without synthetic fertilizer and one with synthetic NPK fertilizer. The unfertilized non-mycorrhizal plants had the lowest performance, whereas plants inoculated with R. aggregatus BM-3 g3 performed best, both in terms of plant biomass and concentrations of CBD and THC. There were no significant differences in plant biomass and cannabinoid concentrations between non-mycorrhizal plants that received synthetic fertilizer and mycorrhizal plants with inoculum of R. prolifer PC2-2. Our data demonstrate the great potential for cannabis cultivation without risking deterioration of soil structure, such as soil hardening and increased acidity, which might be induced by long-term use of synthetic fertilizer.
Author	Suebrasri, Thanapat Paluka, Jakkapat Kuyper, Thomas W. Kanokmedhakul, Somdej Seemakram, Wasan Boonlue, Sophon Lapjit, Chanon Ekprasert, Jindarat
AuthorAffiliation	2 Natural Products Research Unit, Department of Chemistry and Center of Excellence for Innovation in Chemistry, Faculty of Science, Khon Kaen University , Khon Kaen , Thailand 4 Department of Horticulture, Faculty of Agriculture, Khon Kaen University , Khon Kaen , Thailand 1 Department of Microbiology, Faculty of Science, Khon Kaen University , Khon Kaen , Thailand 3 Department of Medical Science, Faculty of Allied Health Sciences , Nakhon Ratchasima , Thailand 6 Soil Biology Group, Wageningen University and Research , Wageningen , Netherlands 5 Cannabis Research Institute, Khon Kaen University , Khon Kaen , Thailand
AuthorAffiliation_xml	– name: 1 Department of Microbiology, Faculty of Science, Khon Kaen University , Khon Kaen , Thailand – name: 6 Soil Biology Group, Wageningen University and Research , Wageningen , Netherlands – name: 2 Natural Products Research Unit, Department of Chemistry and Center of Excellence for Innovation in Chemistry, Faculty of Science, Khon Kaen University , Khon Kaen , Thailand – name: 5 Cannabis Research Institute, Khon Kaen University , Khon Kaen , Thailand – name: 3 Department of Medical Science, Faculty of Allied Health Sciences , Nakhon Ratchasima , Thailand – name: 4 Department of Horticulture, Faculty of Agriculture, Khon Kaen University , Khon Kaen , Thailand
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Copyright	Copyright © 2022 Seemakram, Paluka, Suebrasri, Lapjit, Kanokmedhakul, Kuyper, Ekprasert and Boonlue. Copyright © 2022 Seemakram, Paluka, Suebrasri, Lapjit, Kanokmedhakul, Kuyper, Ekprasert and Boonlue. 2022 Seemakram, Paluka, Suebrasri, Lapjit, Kanokmedhakul, Kuyper, Ekprasert and Boonlue
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Snippet	This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A... This study aimed to investigate the efficiency of arbuscular mycorrhizal fungi (AMF) to promote growth and cannabinoid yield of Cannabis sativa KKU05. A...
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SubjectTerms	Cannabis sativa KKU05 organic agriculture plant growth promotion Plant Science Rhizophagus aggregatus Rhizophagus prolifer
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Title	Enhancement of growth and Cannabinoids content of hemp (Cannabis sativa) using arbuscular mycorrhizal fungi
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