[HTML][HTML] Diversity and applications of endophytic actinobacteria of plants in special and other ecological niches
Actinobacteria are wide spread in nature and represent the largest taxonomic group within
the domain Bacteria. They are abundant in soil and have been extensively explored for their …
the domain Bacteria. They are abundant in soil and have been extensively explored for their …
Climate change effects on beneficial plant–microorganism interactions
S Compant, MGA Van Der Heijden… - FEMS microbiology …, 2010 - academic.oup.com
It is well known that beneficial plant-associated microorganisms may stimulate plant growth
and enhance resistance to disease and abiotic stresses. The effects of climate change …
and enhance resistance to disease and abiotic stresses. The effects of climate change …
[HTML][HTML] Differential growth responses of soil bacterial taxa to carbon substrates of varying chemical recalcitrance
Soils are immensely diverse microbial habitats with thousands of co-existing bacterial,
archaeal, and fungal species. Across broad spatial scales, factors such as pH and soil …
archaeal, and fungal species. Across broad spatial scales, factors such as pH and soil …
Plant-soil-microbe interactions in maintaining ecosystem stability and coordinated turnover under changing environmental conditions
Ecosystem functions directly depend upon biophysical as well as biogeochemical reactions
occurring at the soil-microbe-plant interface. Environment is considered as a major driver of …
occurring at the soil-microbe-plant interface. Environment is considered as a major driver of …
Plant diversity improves protection against soil‐borne pathogens by fostering antagonistic bacterial communities
Rhizosphere bacteria antagonistic to fungal pathogens improve plant performance by
preventing infection. In temperate grasslands, primary productivity often increases with plant …
preventing infection. In temperate grasslands, primary productivity often increases with plant …
Soil organisms and global climate change
SG Pritchard - Plant Pathology, 2011 - Wiley Online Library
Climate changes will influence soil organisms both directly (warming) and indirectly
(warming and elevated CO2) via changes in quantity and quality of plant‐mediated soil C …
(warming and elevated CO2) via changes in quantity and quality of plant‐mediated soil C …
[HTML][HTML] Temperatures beyond the community optimum promote the dominance of heat-adapted, fast growing and stress resistant bacteria in alpine soils
Alpine soils are warming strongly, leading to profound alterations in carbon cycling and
greenhouse gas budgets, mediated via the soil microbiome. To explore microbial responses …
greenhouse gas budgets, mediated via the soil microbiome. To explore microbial responses …
[HTML][HTML] Shifts in microbial communities in soil, rhizosphere and roots of two major crop systems under elevated CO2 and O3
Rising atmospheric concentrations of CO2 and O3 are key features of global environmental
change. To investigate changes in the belowground bacterial community composition in …
change. To investigate changes in the belowground bacterial community composition in …
Elevated CO2 shifts soil microbial communities from K‐ to r‐strategists
Aims Soil microbes are key to myriad processes in terrestrial ecosystems. Elevated CO2
represents a dominant driver of global climate change; however, it remains unclear to what …
represents a dominant driver of global climate change; however, it remains unclear to what …
The impact of elevated carbon dioxide on the phosphorus nutrition of plants: a review
Background Increasing attention is being focused on the influence of rapid increases in
atmospheric CO2 concentration on nutrient cycling in ecosystems. An understanding of how …
atmospheric CO2 concentration on nutrient cycling in ecosystems. An understanding of how …