• Corpus ID: 196564225

Croissance et nutrition du thuya de Berbérie (Tetraclinis articulata [Vahl] Mast.) mis en culture dans différents sols rhizosphériques de peuplement de thuya

@article{Abbas2013CroissanceEN,
  title={Croissance et nutrition du thuya de Berb{\'e}rie (Tetraclinis articulata [Vahl] Mast.) mis en culture dans diff{\'e}rents sols rhizosph{\'e}riques de peuplement de thuya},
  author={Younes Abbas and Salah Eddine Bakkali Yakhlef and Yves Prin and Moustapha Arahou and Mohamed Abourouh and Robin Duponnois},
  journal={Biotechnologie, Agronomie, Soci{\'e}t{\'e} et Environnement},
  year={2013},
  volume={17},
  pages={3-11}
}
Cinq especes vegetales (Withania frutescens Pauquy, Lavandula multifida L., Pistacia atlantica Desf., Olea europaea L. subsp. oleaster (Hoffmanns. & Link) Negodi et Tetraclinis articulata [Vahl] Mast.), rencontrees au niveau de l'ecosysteme tetraclinaie au Maroc ont ete selectionnees afin d'evaluer leur potentiel mycorhizien et de comparer l'impact de leur sol rhizospherique sur la croissance et la nutrition des jeunes plants de thuya (Tetraclinis articulata). Les racines des plantes… 
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TLDR
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References

SHOWING 1-10 OF 11 REFERENCES
Mycorrhizal dependency of a representative plant species in mediterranean shrublands (Lavandula spica L.) as a key factor to its use for revegetation strategies in desertification-threatened areas
Analysis of the mycorrhizal potential in the rhizosphere of representative plant species from desertification-threatened Mediterranean shrublands
The mycorrhizal status, root anatomy, and phenology of plants in a sugar maple forest
TLDR
Most trees were associated with VAM, although several ectomycorrhizal species occurred in low numbers, and many species had periods of root growth that did not parallel their aboveground activity.
The improvement of plant N acquisition from an ammonium-treated, drought-stressed soil by the fungal symbiont in arbuscular mycorrhizae
TLDR
A direct effect of arbuscular mycorrhizal fungi on N acquisition in relatively dry soils is indicated, mainly under waterstressed conditions using 15N.
Improved nitrogen uptake and transport from 15N‐labelled nitrate by external hyphae of arbuscular mycorrhiza under water‐stressed conditions
TLDR
Evidence of hyphal transport of N from a nitrate source is provided, supporting the view that arbuscular mycorrhiza can be important for the N-nutrition of plants in relatively dry agricultural soil where nitrate is actually the predominant nitrogen form.
Mycorrhizas in Natural Ecosystems
USE OF VESICULAR‐ARBUSCULAR MYCORRHIZAL ROOTS, INTRARADICAL VESICLES AND EXTRARADICAL VESICLES AS INOCULUM *
TLDR
Intraradical vesicles separated from the colonized roots remained highly infective but hyphae and cell debris from the same roots were not, and mycorrhizal fungi in root pieces treated for short times in sodium hypochlorite were apparently killed.
Patterns and regulation of mycorrhizal plant and fungal diversity
TLDR
It is suggested that the physiology and genetics of the fungi themselves, along with their responses to the plant and the environment, regulates their diversity, and that even within a single “functional group” of microorganisms, mycorrhizal fungi, considerable diversity exists.
Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity
TLDR
It is shown that below-ground diversity of arbuscular mycorrhizal fungi (AMF) is a major factor contributing to the maintenance of plant biodiversity and to ecosystem functioning, and that microbial interactions can drive ecosystem functions such as plant biodiversity, productivity and variability.
The future of deserts
Abstract Major changes are likely to be experienced in the arid and semi-arid lands in the next few decades. The most important changes will be induced by increasing human pressure of various kinds:
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