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This book highlights the impact of climate change on the soil
microbiome and its subsequent effects on plant health, soil-plant
dynamics, and the ecosphere. It also discusses emerging ideas to
counteract these effects, e.g., through agricultural applications
of functional microbes, to ensure a sustainable ecosystem. Climate
change is altering the soil microbiome distributions and thus the
interactions in microbiome and plant-soil microorganism.
Improvement of our understanding of microbe-microbe and
plant-microbe interaction under changing climatic conditions is
essential, because the overall impact of these interactions under
varying adverse environmental conditions is lacking. This book has
been designed to understand the impact of climate change, i.e.,
mainly salt and drought stress, on the soil microbiome and its
impact on plant, yield, and the ecosphere. The book is organized
into four parts: The first part reviews the impact of climate
change on the diversity and richness of the soil microbiome. The
second part addresses effects of climate change on plant health.
The third part discusses effects on soil-plant dynamics and
functionality, e.g., soil productivity. The final part deals with
the effects of climate change on ecosystem functioning and also
discusses potential solutions. The book will appeal to students and
researchers working in the area of soil science, agriculture,
molecular biology, plant physiology, and biotechnology.
This edited compilation explores role of climate change in plant
stresses, their mitigators, their role, mode of action and,
application. The book discusses molecular and physiological
mechanisms involved in plant stress physiology and the working
mechanism of stress mitigators. It collates information from latest
research conducted on plant stress mitigators, and highlights new
strategies related to beneficial microorganisms that support plants
under various stresses. These mitigators have gained attention of
both farmers and industry for their application in organic farming.
Plant stress mitigators have a huge global market. They follow
different action mechanism for enhancing plant growth and stress
tolerance capacity including nutrient solubilizing and mobilizing,
bicontrol activity against plant pathogens, phytohormone
production, soil conditioning and many more unrevealed
mechanisms. This book elaborates stress alleviation action
of different plant stress mitigators on crops grown under optimal
and sub-optimal growing conditions. It addresses mainly three
subthemes -- (1) Climate change impacts on plant and soil health
(2) Microbe mediated plant stress mitigation and (3) Advances in
plant stress mitigation. The book is a relevant reading for Post
graduate students, researchers in the field of plant stress
physiology, Plant-microbe interaction, biochemistry and plant
molecular biology and industries related to seed production,
biofertilizer and biopesticides.
This book highlights the impact of climate change on the soil
microbiome and its subsequent effects on plant health, soil-plant
dynamics, and the ecosphere. It also discusses emerging ideas to
counteract these effects, e.g., through agricultural applications
of functional microbes, to ensure a sustainable ecosystem. Climate
change is altering the soil microbiome distributions and thus the
interactions in microbiome and plant-soil microorganism.
Improvement of our understanding of microbe-microbe and
plant-microbe interaction under changing climatic conditions is
essential, because the overall impact of these interactions under
varying adverse environmental conditions is lacking. This book has
been designed to understand the impact of climate change, i.e.,
mainly salt and drought stress, on the soil microbiome and its
impact on plant, yield, and the ecosphere. The book is organized
into four parts: The first part reviews the impact of climate
change on the diversity and richness of the soil microbiome. The
second part addresses effects of climate change on plant health.
The third part discusses effects on soil-plant dynamics and
functionality, e.g., soil productivity. The final part deals with
the effects of climate change on ecosystem functioning and also
discusses potential solutions. The book will appeal to students and
researchers working in the area of soil science, agriculture,
molecular biology, plant physiology, and biotechnology.
This edited compilation explores role of climate change in plant
stresses, their mitigators, their role, mode of action and,
application. The book discusses molecular and physiological
mechanisms involved in plant stress physiology and the working
mechanism of stress mitigators. It collates information from latest
research conducted on plant stress mitigators, and highlights new
strategies related to beneficial microorganisms that support plants
under various stresses. These mitigators have gained attention of
both farmers and industry for their application in organic farming.
Plant stress mitigators have a huge global market. They follow
different action mechanism for enhancing plant growth and stress
tolerance capacity including nutrient solubilizing and mobilizing,
bicontrol activity against plant pathogens, phytohormone
production, soil conditioning and many more unrevealed mechanisms.
This book elaborates stress alleviation action of different plant
stress mitigators on crops grown under optimal and sub-optimal
growing conditions. It addresses mainly three subthemes -- (1)
Climate change impacts on plant and soil health (2) Microbe
mediated plant stress mitigation and (3) Advances in plant stress
mitigation. The book is a relevant reading for Post graduate
students, researchers in the field of plant stress physiology,
Plant-microbe interaction, biochemistry and plant molecular biology
and industries related to seed production, biofertilizer and
biopesticides.
The book emphasizes role of functional microbes in soil to improve
fertility and plant health in agro-ecosystem. In this compendium
main emphasis is on occurrence and distribution of microbial
communities, In situ active microbial quorum in rhizosphere,
metratranscriptomics for microflora- and fauna, and fnctional
diversity in rhizosphere. The book also highlights the importance
of PGPRs in rhizosphere, root endotrophic microbes, functional
niche under biotic stress, functional niche under abiotic stress,
functional root derived signals, as well as functional microbe
derived signals. Approaches deployed in metatranscriptomics, and
molecular Tools used in rhizosphere are also discussed in detail.
The book presents content is useful for students, academicians,
researchers working on soil rhizosphere and as a policy document on
sustenance of agriculture.
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