@article{fdi:010076509,
  title = {{P}hosphate solubilizing and {PGR} activities of ericaceous shrubs microorganisms isolated from {M}editerranean forest soil},
  author = {{H}amim, {A}. and {B}oukeskasse, {A}. and {O}uhdouch, {Y}. and {F}arrouki, {A}. and {B}arrijal, {S}. and {M}iche, {L}. and {M}rabet, {R}. and {D}uponnois, {R}obin and {H}afidi, {M}.},
  editor = {},
  language = {{ENG}},
  abstract = {{M}any soil microorganisms are able to transform insoluble forms of phosphorus into an accessible soluble form, thus contributing to plant nutrition through exhibiting other beneficial traits such as production of organic acids, siderophore indole acetic acid ({IAA}) and production of hydrogen cyanide ({HCN}). {A}chieving this purpose, ericoid fungi and actinobacteria were isolated from roots and rhizospheric soil of {C}alluna vulgaris {L}., belonging to the ericaceous family. {A}ll isolates were shown to be able to solubilize insoluble phosphate in liquid cultures and to produce transparent halos of solubilization on {PVK} solid medium. {T}he actinobacteria isolate {AH}6 was the most efficient compared to others, producing 145.5 mg/{L} of phosphate and 141 mu g/{L} of {IAA}. {H}owever, fungi isolate {S}2 and {S}3 had high solubilization capacity and produced a high concentration of {IAA} in comparison with {S}1, which was a good siderophore producer. {W}e applied a sequencing approach by amplifying the {ITS} region for fungi and 16{S} for actinobacteria. {M}ost of the actinobacteria isolates belong to the {S}treptomyces genus while fungi were identified as related to ericoid mycorrhizal fungi. {T}o evaluate the effectiveness of selected rhizobacteria and symbiotic fungi isolates and to confirm their role as biofertilizers, inoculation experimentations on plants are required.},
  keywords = {{P}hosphate solubilization ; {A}ctinomycetes ; {E}ricoid fungi ; {C}alluna vulgaris ; {PGP} activities ; {F}orest soil ; {MAROC} ; {ZONE} {MEDITERRANEENNE}},
  booktitle = {},
  journal = {{B}iocatalysis and {A}gricultural {B}iotechnology},
  volume = {19},
  numero = {},
  pages = {art. 101128 [8 p.]},
  year = {2019},
  DOI = {10.1016/j.bcab.2019.101128},
  URL = {https://www.documentation.ird.fr/hor/fdi:010076509},
}