Addition of Zeolites to Improve the Functional Characteristics of the Hen of the Wood or Maitake Medicinal Mushroom, Grifola frondosa (Agaricomycetes).

@article{Vunduk2016AdditionOZ,
  title={Addition of Zeolites to Improve the Functional Characteristics of the Hen of the Wood or Maitake Medicinal Mushroom, Grifola frondosa (Agaricomycetes).},
  author={Jovana Vunduk and Anita S. Klaus and Maja S. Kozarski and Radovan Dordevic and Zoran Miladinovi{\'c} and Ljubinko Jovanovi{\'c} and Miomir P Nik{\vs}i{\'c} and Leonardus Johannes Lambertus Donatus Van Griensven},
  journal={International journal of medicinal mushrooms},
  year={2016},
  volume={18 9},
  pages={781-792}
}
Kaolinite and the modified natural zeolite minazel plus (M+) were used as supplements in substrate used for the production of the medicinal mushroom Grifola frondosa. Growth stimulation, expressed as yield and biological efficiency, was observed when M+ (1%) was added. The production cycle was shortened by half as a result of the zeolites' ion-exchange ability, stimulation of enzyme activity, and water retain capacity. Inductively coupled plasma optical emission spectrometry of fruiting bodies… CONTINUE READING

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ArsenicNo subtypeCadmium
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
CadmiumNo subtypeArsenic
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
MetalsNo subtypeCalcium
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
MetalsNo subtypeMagnesium
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
Inductively coupled plasma optical emission spectrometry of fruiting bodies showed the absence of heavy metals ( arsenic , cadmium , and lead ) , whereas the concentration of calcium increased greatly and the concentrations of iron , magnesium , and zinc increased moderately under the influence of M+ .
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