Microbiome Under Changing Climate
-10%
portes grátis
Microbiome Under Changing Climate
Implications and Solutions
Kumar, Ajay; Panwar, Joginder Singh; Ferreira, Luiz Fernando Romanholo
Elsevier Science Publishing Co Inc
01/2022
574
Mole
Inglês
9780323905718
15 a 20 dias
1180
Descrição não disponível.
1. Introduction to impact of microbes on climate: An Ocean of opportunities
2. Adapting the changing environment: Microbial way of life
3. Carbon cycle feedback and global warming: A microbial perspective
4. Microbial impact on climate-smart agriculture practices
5. Microbial impact on climate resilient agriculture: A way ahead
6. Microbes in thawing permafrost: A microbial way to regulate climate change
7. Biofuels as a sustainable option to manage climate change
8. Climate change and their impact on global food production
9. Effect of climate change on the resilience of ecosystems with adaptive spatial pattern formation
10. Role of beneficial microbes in alleviating climatic stresses in plants
11. Climate change and soil dynamics: Effects on soil microbes and fertility of soil
12. Soil microbe contributions in the regulation of global carbon cycle
13. Soil microbiome: a key player in conservation of soil health under changing climatic conditions
14. Role of microbes in the global economic development
15. Benefits of plant growth promoting symbiotic microbes in climate change era
16. Contributions of agriculturally important microbes in delivering potential to crops to cope up with climate change
2. Adapting the changing environment: Microbial way of life
3. Carbon cycle feedback and global warming: A microbial perspective
4. Microbial impact on climate-smart agriculture practices
5. Microbial impact on climate resilient agriculture: A way ahead
6. Microbes in thawing permafrost: A microbial way to regulate climate change
7. Biofuels as a sustainable option to manage climate change
8. Climate change and their impact on global food production
9. Effect of climate change on the resilience of ecosystems with adaptive spatial pattern formation
10. Role of beneficial microbes in alleviating climatic stresses in plants
11. Climate change and soil dynamics: Effects on soil microbes and fertility of soil
12. Soil microbe contributions in the regulation of global carbon cycle
13. Soil microbiome: a key player in conservation of soil health under changing climatic conditions
14. Role of microbes in the global economic development
15. Benefits of plant growth promoting symbiotic microbes in climate change era
16. Contributions of agriculturally important microbes in delivering potential to crops to cope up with climate change
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic factors; Abiotic stress; Agriculture; Agroforestry; Agrosilviculture community growers; Agrosystems; Antarctic; Anthropocene; Arbuscular mycorhhizal fungi; Arbuscular mycorrhizal fungi; Artic region; Autotrophic and heterotrophic microorganisms; Bacillus sp; Bacterial symbionts; Beneficial soil microbes; Biochar; Biocontrol; Biodiversity; Biofuels; Biogeochemical cycle; Biogeochemical cycles; Biome; Biomes liveable; Biotic; Biotic stress; Blooms; Carbon; Carbon cycle; Carbon cycling; Carbon footprint; Climate; Climate change; Climate change adaptation; Climate resilence; Climate-smart agriculture; Climatic change; Climatic stresses; Coral reefs; Cost-effectiveness; Crop productivity; Density; Diversity; Drought; Economic; Ecosystem; Ectomycorrhizal fungi; Electricity; Elevated CO2 level; Endophytes; Endophytic fungi; Environment; Environmental crisis; Environmental sustainability; Evolution; Extremophiles; Flux; Food chain; Food security; Forage; Genetic; Global warming; Greenhouse gas; Greenhouse gases; Horizontal gene transfer; Host-microbe interactions; Hydrocarbon; Hydrogen; Hypoxia; Iron; Land use and management; Limpopo Province; Methane; Microbes; Microbial community; Microbial functions; Microbiomes; Microorganisms; Mitigation strategies; Montreal Protocol; Mpumalanga Province and South Africa; Mutation; Mycorrhiza; Nitrogen; Nitrogen cycle; Ocean acidification; Ocean bleaching; Ocean surface heating; Oxygen depletion; PGPR; Phosphorous cycle; Phytoplankton; Plant growth promoting microorganisms; Plant growth-promoting rhizobacteria; Plant growth-promoting rhizobacteria (PGPR); Production; Pseudomonas sp; Recombination; Renewable energy; Rhizobacteria; Rhizosphere
1. Introduction to impact of microbes on climate: An Ocean of opportunities
2. Adapting the changing environment: Microbial way of life
3. Carbon cycle feedback and global warming: A microbial perspective
4. Microbial impact on climate-smart agriculture practices
5. Microbial impact on climate resilient agriculture: A way ahead
6. Microbes in thawing permafrost: A microbial way to regulate climate change
7. Biofuels as a sustainable option to manage climate change
8. Climate change and their impact on global food production
9. Effect of climate change on the resilience of ecosystems with adaptive spatial pattern formation
10. Role of beneficial microbes in alleviating climatic stresses in plants
11. Climate change and soil dynamics: Effects on soil microbes and fertility of soil
12. Soil microbe contributions in the regulation of global carbon cycle
13. Soil microbiome: a key player in conservation of soil health under changing climatic conditions
14. Role of microbes in the global economic development
15. Benefits of plant growth promoting symbiotic microbes in climate change era
16. Contributions of agriculturally important microbes in delivering potential to crops to cope up with climate change
2. Adapting the changing environment: Microbial way of life
3. Carbon cycle feedback and global warming: A microbial perspective
4. Microbial impact on climate-smart agriculture practices
5. Microbial impact on climate resilient agriculture: A way ahead
6. Microbes in thawing permafrost: A microbial way to regulate climate change
7. Biofuels as a sustainable option to manage climate change
8. Climate change and their impact on global food production
9. Effect of climate change on the resilience of ecosystems with adaptive spatial pattern formation
10. Role of beneficial microbes in alleviating climatic stresses in plants
11. Climate change and soil dynamics: Effects on soil microbes and fertility of soil
12. Soil microbe contributions in the regulation of global carbon cycle
13. Soil microbiome: a key player in conservation of soil health under changing climatic conditions
14. Role of microbes in the global economic development
15. Benefits of plant growth promoting symbiotic microbes in climate change era
16. Contributions of agriculturally important microbes in delivering potential to crops to cope up with climate change
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic factors; Abiotic stress; Agriculture; Agroforestry; Agrosilviculture community growers; Agrosystems; Antarctic; Anthropocene; Arbuscular mycorhhizal fungi; Arbuscular mycorrhizal fungi; Artic region; Autotrophic and heterotrophic microorganisms; Bacillus sp; Bacterial symbionts; Beneficial soil microbes; Biochar; Biocontrol; Biodiversity; Biofuels; Biogeochemical cycle; Biogeochemical cycles; Biome; Biomes liveable; Biotic; Biotic stress; Blooms; Carbon; Carbon cycle; Carbon cycling; Carbon footprint; Climate; Climate change; Climate change adaptation; Climate resilence; Climate-smart agriculture; Climatic change; Climatic stresses; Coral reefs; Cost-effectiveness; Crop productivity; Density; Diversity; Drought; Economic; Ecosystem; Ectomycorrhizal fungi; Electricity; Elevated CO2 level; Endophytes; Endophytic fungi; Environment; Environmental crisis; Environmental sustainability; Evolution; Extremophiles; Flux; Food chain; Food security; Forage; Genetic; Global warming; Greenhouse gas; Greenhouse gases; Horizontal gene transfer; Host-microbe interactions; Hydrocarbon; Hydrogen; Hypoxia; Iron; Land use and management; Limpopo Province; Methane; Microbes; Microbial community; Microbial functions; Microbiomes; Microorganisms; Mitigation strategies; Montreal Protocol; Mpumalanga Province and South Africa; Mutation; Mycorrhiza; Nitrogen; Nitrogen cycle; Ocean acidification; Ocean bleaching; Ocean surface heating; Oxygen depletion; PGPR; Phosphorous cycle; Phytoplankton; Plant growth promoting microorganisms; Plant growth-promoting rhizobacteria; Plant growth-promoting rhizobacteria (PGPR); Production; Pseudomonas sp; Recombination; Renewable energy; Rhizobacteria; Rhizosphere
