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Tiny Microbes, Big Yields: enhancing food crop production with biological solutions
by
Wallenstein, Matthew D.
, Schenk, Peer M.
, Trivedi, Pankaj
, Singh, Brajesh K.
in
Agricultural management
/ Agricultural production
/ Agriculture
/ Bacteria - genetics
/ Bacteria - growth & development
/ Bacteria - metabolism
/ Biodiversity
/ Biofertilizers
/ Biopesticides
/ Consortia
/ Crop diseases
/ Crop Production
/ Crop yield
/ Crops
/ Crops, Agricultural - growth & development
/ Crops, Agricultural - microbiology
/ Farming systems
/ Fertilizers
/ Food
/ Food production
/ Food security
/ Genes
/ Genomes
/ Metabolism
/ Metabolites
/ Microbiomes
/ Microbiota
/ Microorganisms
/ Nutrient uptake
/ Optimization
/ Pest control
/ Pesticides
/ Pests
/ Plant breeding
/ Plant stress
/ Productivity
/ SDG 2: End hunger, achieve food security and improved nutrition and promote sustainable agriculture
/ Soil Microbiology
/ Sustainable development
2017
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Tiny Microbes, Big Yields: enhancing food crop production with biological solutions
by
Wallenstein, Matthew D.
, Schenk, Peer M.
, Trivedi, Pankaj
, Singh, Brajesh K.
in
Agricultural management
/ Agricultural production
/ Agriculture
/ Bacteria - genetics
/ Bacteria - growth & development
/ Bacteria - metabolism
/ Biodiversity
/ Biofertilizers
/ Biopesticides
/ Consortia
/ Crop diseases
/ Crop Production
/ Crop yield
/ Crops
/ Crops, Agricultural - growth & development
/ Crops, Agricultural - microbiology
/ Farming systems
/ Fertilizers
/ Food
/ Food production
/ Food security
/ Genes
/ Genomes
/ Metabolism
/ Metabolites
/ Microbiomes
/ Microbiota
/ Microorganisms
/ Nutrient uptake
/ Optimization
/ Pest control
/ Pesticides
/ Pests
/ Plant breeding
/ Plant stress
/ Productivity
/ SDG 2: End hunger, achieve food security and improved nutrition and promote sustainable agriculture
/ Soil Microbiology
/ Sustainable development
2017
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Do you wish to request the book?
Tiny Microbes, Big Yields: enhancing food crop production with biological solutions
by
Wallenstein, Matthew D.
, Schenk, Peer M.
, Trivedi, Pankaj
, Singh, Brajesh K.
in
Agricultural management
/ Agricultural production
/ Agriculture
/ Bacteria - genetics
/ Bacteria - growth & development
/ Bacteria - metabolism
/ Biodiversity
/ Biofertilizers
/ Biopesticides
/ Consortia
/ Crop diseases
/ Crop Production
/ Crop yield
/ Crops
/ Crops, Agricultural - growth & development
/ Crops, Agricultural - microbiology
/ Farming systems
/ Fertilizers
/ Food
/ Food production
/ Food security
/ Genes
/ Genomes
/ Metabolism
/ Metabolites
/ Microbiomes
/ Microbiota
/ Microorganisms
/ Nutrient uptake
/ Optimization
/ Pest control
/ Pesticides
/ Pests
/ Plant breeding
/ Plant stress
/ Productivity
/ SDG 2: End hunger, achieve food security and improved nutrition and promote sustainable agriculture
/ Soil Microbiology
/ Sustainable development
2017
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Tiny Microbes, Big Yields: enhancing food crop production with biological solutions
Journal Article
Tiny Microbes, Big Yields: enhancing food crop production with biological solutions
2017
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Overview
Summary Plant‐associated microbiomes have tremendous potential to improve plant resilience and yields in farming systems. There is increasing evidence that biological technologies that use microbes or their metabolites can enhance nutrient uptake and yield, control pests and mitigate plant stress responses. However, to fully realize the potential of microbial technology, their efficacy and consistency under the broad range of real‐world conditions need to be improved. While the optimization of microbial biofertilizers and biopesticides is advancing rapidly to enable use in various soils, crop varieties and environments, crop breeding programmes have yet to incorporate the selection of beneficial plant–microbe interactions to breed ‘microbe‐optimized plants’. Emerging efforts exploring microbiome engineering could lead to microbial consortia that are better suited to support plants. The combination of all three approaches could be integrated to achieve maximum benefits and significantly improved crop yields to address food security. Emerging microbiome approaches potentially can significantly increase farm productivity and hence can contribute to meet several sustainable development goals.
Publisher
John Wiley & Sons, Inc,John Wiley and Sons Inc
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