Microfungal‐community diversity in Zygophyllum dumosum and Hammada scoparia root zones in the northern Negev Desert
@article{Yu2013MicrofungalcommunityDI,
title={Microfungal‐community diversity in Zygophyllum dumosum and Hammada scoparia root zones in the northern Negev Desert},
author={Jun Yu and Isabella Grishkan and Yosef Steinberger},
journal={Journal of Basic Microbiology},
year={2013},
volume={53}
}The soil dilution plate method was used to determine the influences of perennial shrubs on the species diversity and density of cultivable microfungal communities inhabiting the root zones of two perennial shrubs, Zygophyllum dumosum and Hammada scoparia, in the northern Negev Desert, Israel. Soil samples were collected under the canopies of shrubs and the open spaces between them (serving as control) from five depths (0–10, 10–20, 20–30, 30–40, and 40–50 cm) during the wet and dry seasons of…
Topics from this paper
8 Citations
A survey of the microbial community in the rhizosphere of two dominant shrubs of the Negev Desert highlands, Zygophyllum dumosum (Zygophyllaceae) and Atriplex halimus (Amaranthaceae), using cultivation-dependent and cultivation-independent methods.
- Environmental ScienceAmerican journal of botany
- 2013
A snapshot of the microbial communities in the Negev Desert, giving an insight in its natural state, identified a number of PGPB, both epiphytes and endophytes, which fix nitrogen, chelate iron, solubilize phosphate, and secrete cellulase, thereby providing a profile of the microbiomes that support the growth of two desert perennials.
Desert Perennial Shrubs Shape the Microbial-Community Miscellany in Laimosphere and Phyllosphere Space
- Environmental ScienceMicrobial Ecology
- 2016
Overall, the findings suggest a link between plant ecophysiological adaptation as a “temporary host” and the biotic-community parameters in extreme xeric environments.
Metagenomic Approach in Relation to Microbe–Microbe and Plant–Microbiome Interactions
- BiologyMicrobiome in Plant Health and Disease
- 2019
This study helps to identify the sequences of uncultured microbes present in the plant rhizosphere and their diversity in the environment through quicker and less expensive methods.
Spatial and temporal diversity and abundance of ammonia oxidizers in semi-arid and arid soils: indications for a differential seasonal effect on archaeal and bacterial ammonia oxidizers.
- Environmental ScienceFEMS microbiology ecology
- 2013
The results indicate the resistance of AOB and AOA community structure to arid conditions, albeit with seasonal variations in their abundance, and suggest the resilience of nitrification activity to increased aridity level.
The plant microbiome
- BiologyGenome Biology
- 2013
High-throughput technologies are revealing interactions between these complex communities and their hosts in unprecedented detail, with significant implications for plant health and productivity.
References
SHOWING 1-10 OF 55 REFERENCES
Microfungal community associated with rhizosphere soil of Zygophyllum qatarense in arid habitats of Bahrain
- Environmental Science
- 2002
Comparison of species richness among samples suggests that small plants inhabiting nonsaline habitats during the wet and dry season were richest in species composition, and it is proposed that inter- and intra-specific variation in fungal community between the above habitats reflect not only the influence of plant age and season but also extends to critical multi-soil edaphic and biotic factors involving essentially soil moisture, salinity and root growth dynamic and exudates.
Adaptive spatiotemporal distribution of soil microfungi in ‘Evolution Canyon’ II, Lower Nahal Keziv, western Upper Galilee, Israel
- Environmental Science
- 2003
A microscale adaptive spatiotemporal inter- and intraslope divergence in soil mycobiota structure is demonstrated and microclimatic natural selection appears to be the major factor affecting soil fungus diversity patterns.
Spatiotemporal distribution of soil microfungi in the Makhtesh Ramon area, central Negev desert, Israel
- Environmental Science
- 2010
Mycoflora associated with Hyoscyamus muticus growing under an extremely arid desert environment (Aswan region, Egypt)
- Environmental ScienceJournal of basic microbiology
- 2008
Fungal diversity analysis revealed that these two locations have higher fungal diversity compared to other two locations and a higher number of fungal species were isolated from rhizosphere soil and rhizoplane than from non‐rhizosphere and other plant organs.
Diversity and composition of ectomycorrhizal community on seedling roots: the role of host preference and soil origin
- Environmental ScienceMycorrhiza
- 2011
Results of indicator species analysis demonstrated that 14 out of 19 common ECM fungal species showed significant preference to host plant species, suggesting that the host preference of ECM fungi was one of the most important mechanisms in structuring ECMfungal community.
Adaptive spatiotemporal distribution of soil microfungi in 'Evolution Canyon' III, Nahal Shaharut, extreme southern Negev Desert, Israel
- Environmental Science
- 2007
A clear effect of harsh desert climatic and edaphic selection on the adaptive variation of the mycobiota studied is demonstrated, with the lowest biodiversity indices estimated in localities under shrubs and in the most stressful summer and spring.
Role of perennial plants in determining the activity of the microbial community in the Negev Desert ecosystem
- Environmental Science
- 2008
Soil fungal community structure in a temperate upland grassland soil.
- Biology, MedicineFEMS microbiology ecology
- 2003