Soil–Plant–Microbe interactions determine soil biological fertility by altering rhizospheric nutrient cycling and biocrust formation
SS Bhattacharyya, K Furtak - Sustainability, 2022 - mdpi.com
Understanding soil–plant–microbe inter-and intra-interactions are essential for ensuring
proper soil health, quality, and soil-mediated ecosystem services (eg, nutrient cycling) …
proper soil health, quality, and soil-mediated ecosystem services (eg, nutrient cycling) …
Organic practices intensify the microbiome assembly and suppress root-knot nematodes
Roots can recruit beneficial microorganisms to suppress plant pathogens. However,
conventional and organic practices differently shape the soil microbiome and consequently …
conventional and organic practices differently shape the soil microbiome and consequently …
[HTML][HTML] Deciphering bacteria associated with a pre-parasitic stage of the root-knot nematode Meloidogyne hapla in nemato-suppressive and nemato-conducive soils
Nematode-suppressive soils are characterized by the ability of soil microbial communities to
reduce populations of plant-parasitic nematodes (PPN) either directly or by inducing …
reduce populations of plant-parasitic nematodes (PPN) either directly or by inducing …
[HTML][HTML] Fungal enemies isolated from the root and rhizosphere of guava against the root-knot nematode
DL Silva-Riveros, SD Parra-González… - Bragantia, 2024 - SciELO Brasil
The fungal microbiota associated with the roots and rhizosphere of plants represents a
significant source of biocontrol agents against the root-knot nematode Meloidogyne spp …
significant source of biocontrol agents against the root-knot nematode Meloidogyne spp …