| Description |
1 online resource (xi, 382 pages : illustrations (some color)) |
| Series |
Climate change management, 1610-2010 |
|
Climate change management (Springer (Firm)), 1610-2010
|
| Contents |
Diversity and Biogeography of Soil Bacterial Communities -- Microbial Consortium: A Boon for a Sustainable Agriculture -- Overview of Soil Microbe Dynamics in Different Biosystems -- Microbial Community Dynamics Due to Land Use Change: Some Circumstances in the Tropical Rain Forest of Indonesia -- Climate Change and Microbes: Mechanisms of Action in Terrestrial and Aquatic Biosystems -- Plant Exudates and Microbial Interaction—A Change in Dynamics -- Climate Change:- General Overview and Implications on Agriculture and Allied Sectors -- Soil Microbial Community and Climate Change Drivers -- Impact of Climate Change on Soil Activity (Nitrifying, Denitrifying) and Other Interactions -- Soil Microbial Biochemical Activity and Influence of Climate Change -- Climate Change Drivers and Soil Microbe-Plant Interactions -- Climate Changing Impact on Microbes and Their Interactions with Plants: An Overview -- Soil Salinity and Climate Change: Microbiome-Based Strategies for Mitigation of Salt Stress to Sustainable Agriculture -- Over View of Symbiosis Mechanisms and Soil Quality Management Practices to Combat Environmental Changes -- Symbiosis Mechanisms and Usage of Other Additives Like Biochar in Soil Quality Management -- Methanogenesis and Its Role in Climate-Change Alleviation -- Potency of Three Cruciferous Plants Extracts as Agro-Phyto-Remidiator Against Root Knot Nematode Meloidogyne spp. in Daucus carota (Carrot) Under Climate Stress Conditions -- Heavy Metals Pollution and Role of Soil PGPR: A Mitigation Approach -- The Utilization of Arbuscular Mycorrhiza to Support Revegetation on Degraded Tropical Peatland of Central Kalimantan |
| Summary |
The book provides an overview relevant to various biological mechanisms that regulate carbon exchanges between the major components and their response to climate change. Climate change has a significant impact on people's lives, energy demand, food security, etc. The soil microbial ecology is vital for assessing terrestrial and aquatic carbon cycles and climate feedback. However, the primary concern is the complexity of the soil microbial community and its severely affected functions due to the climate and other global changes. Global warming comprises an assessment of the dynamic interactions and feedback between microbes, plants, and their physical environment due to climate change. The book will address the need to use a multifactor experimental approach to understand how soil microorganisms and their activities adapt to climate change and the implications of carbon cycle feedback. The most pressing concern is a clearer understanding of the biological factors that regulate carbon exchanges between land, oceans, and the atmosphere and how these exchanges will respond to climate change via climate-ecosystem feedbacks, which could augment or quell regional and global climate change. Terrestrial ecosystems play an important role in climate feedback as they produce and absorb greenhouse gases like carbon dioxide, methane, and nitrous oxides. They also strongly contribute to storing enormous amounts of carbon in living vegetation and soils, rendering them a significant global carbon sink. If climate change projections are realistic, such a rapid increase in carbon loss from soil could exacerbate the soil carbon cycle feedback. The book will determine the role of microbial feedback in regulating soil-land-atmosphere carbon exchange under changing climatic conditions at the regional and global levels. The current book will also focus on recent research designed to use beneficial microbes such as plant growth-promoting microorganisms, fungi, endophytic microbes, and others to improve understanding of the interaction and their potential role in promoting advanced management for sustainable agricultural solutions. Understanding the influence on the native microbiome, such as the distribution of methanogens and methanotrophs, nutritional content, microbial biomass, and other factors, is becoming increasingly crucial to establishing climate-resilient agriculture. |
| Bibliography |
References |
| Notes |
Online resource; title from PDF title page (SpringerLink, viewed January 12, 2023) |
| Subject |
Soil microbiology.
|
|
Soils and climate.
|
|
Climatic changes.
|
|
climate change.
|
|
Climatic changes
|
|
Soil microbiology
|
|
Soils and climate
|
| Form |
Electronic book
|
| Author |
Parray, Javid Ahmad, editor.
|
| ISBN |
9783031210792 |
|
3031210794 |
|
