| Title | : | Microbiology for Sustainable Agriculture, Soil Health, and Environmental Protection |
| Author | : | Deepak Kumar Verma |
| Language | : | en |
| Rating | : | 4.90 out of 5 stars |
| Type | : | PDF, ePub, Kindle |
| Uploaded | : | Apr 06, 2021 |
Read Microbiology for Sustainable Agriculture, Soil Health, and Environmental Protection - Deepak Kumar Verma | PDF
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To use microorganisms effectively, microbial engineered processes require will continue to play a crucial role to pursue the sustainable development goals.
25 jan 2019 a sustainable future: the role of microbiology in achieving the un sustainable development goals.
Supported by cutting-edge synthetic biology approaches, our main goal is to push the boundaries of bacterial metabolism towards the sustainable bioproduction.
Pure (single) cultures of microorganisms and mixed microbial communities (microbiomes) have been important for centuries in providing renewable energy, clean water and food products to human.
1 jul 2011 agricultural microbiology is presented as a synthetic research field responsible for knowledge transfer from general microbiology and microbial.
With contributions from a broad range of experts in the field, this volume, microbiology for sustainable agriculture, soil health, and environmental protection, focuses on important areas of microbiology related to soil and environmental microbiology associated with agricultural importance.
A sustainable future: the role of microbiology in achieving the un sustainable development goals. Microbiologists are involved in finding solutions to urgent problems, such as new and emerging diseases, through to long-term issues, like antimicrobial drug resistance, food security and environmental sustainability.
Pure (single) cultures of microorganisms and mixed microbial communities (microbiomes) have been important for centuries in providing renewable energy, clean water and food products to human society and will continue to play a crucial role to pursue the sustainable development goals.
The major goal of microbiology and biotechnology for sustainable environment is to emphasize all the disciplines from the subject of environmental microbiology and biotechnology. This book fills a long felt gap in the field of environmental sustainability and presents chapters authored by most active researchers in this area.
This should include a thorough look at the microbiology of nitrogen-fixing bacteria, plant and root physiology, nutrient cycling and uptake in plants, chemical processes and cellular respiration in plants and fertilization methods.
Human microbiome function involves a life-long mutualism with the host, a relationship sculpted by co-evolution for mutual benefit, but sensitive to habitual diet, medication and lifestyle. Appreciation of these aspects of human health should foster a more sensitive approach to the planet’s supporting systems.
Consideration is also given to prospects for the management of soil micro- organisms in sustainable agricultural systems and the potential of using microbial.
The contributions of microbial biotechnology to sustainable development goals. Microbial diversity and microbial technology are critical to achieve a majority of sustainable development goals (sdgs), mainly due to the central role of microbes in the provision and regulation of ecosystem services.
The conversion of organic waste and residual biomass into biogas using.
With contributions from a broad range of experts in the field, this volume, microbiology for sustainable agriculture, soil health, and environmental protection,.
Colorifix has developed a revolutionary dyeing process to help the textile industry dramatically reduce its environmental impact in a cost-effective manner using.
The role of microbiology in achieving the united nations sustainable development goals.
Plant growth promoting rhizobacteria (pgpr): an eco-friendly approach for sustainable agriculture and improved crop production. Beneficial uses and application of plant growth promoting rhizobacteria (pgpr) in sustainable agriculture. Microbial control: a potential solution for plant disease management in sustainable environments and agriculture.
Microbiology for sustainable agriculture, soil health, and environmental protection 1st edition at last agriculture is one of the main sectors benefitted from.
Synthetic biology solutions can be implemented in many sectors of cities and municipalities to address current challenges in sustainable fuel production, waste and carbon emissions recycling, improvement of crop yields, and for the production of high-nutrient foods.
With contributions from a broad range of experts in the field, this volume, microbiology for sustainable agriculture, soil health, and environmental protection, focuses on important areas of microbiology related to soil and environmental microbiology associated with agricultural importance. The information and research on soil and environmental microbiology presented here seeks to act as a gateway to sustaining and improving agriculture and environmental security.
Microbiology has a direct link to achieving sdgs addressing food security, health and wellbeing, clean energy, environmental degradation and climate change.
Buy microbiology for sustainable agriculture, soil health, and environmental protection (hardcover) at walmart.
The united nations sustainable development goals (sdgs) are being integrated into bioeconomy strategies around the world, including the european green deal.
Realizing the future potential of synthetic biology to benefit people and the planet requires revisiting what types of societal transformations we desire. Synthetic biology global future council discussions identify that revisiting our visions for the future should begin by centring values: equity, sustainability, solidarity and humility.
These intimate and often complex inter-relationships are being explored with increasing success providing exciting opportunities for increasing crop yields and quality in sustainable harmony with the populations of beneficial soil microbes and to the detriment of pathogens.
In environmental microbiology from department of microbiology, at babasaheb bhimrao ambedkar university (a central university), lucknow india.
Microbiology is the study of microscopic living organisms are recognized for their ubiquitous presence, diverse metabolic activity, and unique survival strategies under extreme conditions.
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