The rhizosphere-associated microbiome impacts plant performance and tolerance to abiotic and biotic stresses. Despite increasing recognition of the enormous functional role of the rhizomicrobiome on the survival of wild plant species growing under harsh environmental conditions, such as nutrient, water, temperature, and pathogen stresses, the utilization of the rhizosphere microbial community in domesticated rice production systems has been limited. Better insight into how this role of the rhizomicrobiome for the performance and survival of wild plants has been changed during domestication and development of present domesticated crops, may help to assess the potential of the rhizomicrobial community to improve the sustainable production of ...
International audienceA host-plant and its associated microbiota depend on one another. However, the...
Plants depend upon beneficial interactions between roots and microbes for nutrient availability, gro...
Bais, Harsh P.The natural interactions between plant roots and their rhizospheric microbiome are vi...
The rhizosphere-associated microbiome impacts plant performance and tolerance to abiotic and biotic ...
Plant-associated microbes form complex interactions within their microbial community as well as with...
Microbial communities from rhizosphere (rhizomicrobiomes) have been significantly impacted by domest...
Aims: Specific soil bacteria can sense and respond to the selective rhizosphere recruitment of root ...
The rhizosphere fungal community affects the ability of crops to acquire nutrients and their suscept...
The plant rhizosphere microbiota plays multiple roles in plant growth. We investigated the taxonomic...
BackgroundSoils are a key component of agricultural productivity, and soil microbiota determine the ...
Abstract Background Exploiting soil microorganisms in the rhizosphere of plants can significantly im...
Rice is the third most important crop worldwide. Unfortunately, in most rice-producing countries, cr...
Facultative mutualisms between plants and microbes might benefit the hosts including growth enhancem...
Rice, the main staple food for about half of the world’s population, has had the growth of its prod...
Roots represent the primary site of direct interaction between rice plants and soil microorganisms. ...
International audienceA host-plant and its associated microbiota depend on one another. However, the...
Plants depend upon beneficial interactions between roots and microbes for nutrient availability, gro...
Bais, Harsh P.The natural interactions between plant roots and their rhizospheric microbiome are vi...
The rhizosphere-associated microbiome impacts plant performance and tolerance to abiotic and biotic ...
Plant-associated microbes form complex interactions within their microbial community as well as with...
Microbial communities from rhizosphere (rhizomicrobiomes) have been significantly impacted by domest...
Aims: Specific soil bacteria can sense and respond to the selective rhizosphere recruitment of root ...
The rhizosphere fungal community affects the ability of crops to acquire nutrients and their suscept...
The plant rhizosphere microbiota plays multiple roles in plant growth. We investigated the taxonomic...
BackgroundSoils are a key component of agricultural productivity, and soil microbiota determine the ...
Abstract Background Exploiting soil microorganisms in the rhizosphere of plants can significantly im...
Rice is the third most important crop worldwide. Unfortunately, in most rice-producing countries, cr...
Facultative mutualisms between plants and microbes might benefit the hosts including growth enhancem...
Rice, the main staple food for about half of the world’s population, has had the growth of its prod...
Roots represent the primary site of direct interaction between rice plants and soil microorganisms. ...
International audienceA host-plant and its associated microbiota depend on one another. However, the...
Plants depend upon beneficial interactions between roots and microbes for nutrient availability, gro...
Bais, Harsh P.The natural interactions between plant roots and their rhizospheric microbiome are vi...
_by_Augustus_Binu.jpg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG