Search Results - biofertilizer

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Microbiome-Leveraged Organic Herbicide
Invention Summary: At present, all herbicides are deleterious to human health. There is an unmet need to develop herbicides that are not harmful to people. Ethylene is a microbe-produced hormone that stimulates plant cell growth. However, in excess, ethylene causes stress in plants due to overproduction of superoxide, a highly potent form of reactive...
Published: 12/8/2021   |   Inventor(s): James White, Kathryn Kingsley, Kurt Kowalski, Xiaoqian (Ivy) Chang
Keywords(s): Biofertilizer
Category(s): Technology Classifications > Ag Biotech, Technology Classifications > Agriculture, Technology Classifications > Plants, Seeds, Berries, Fruit
Novel Biofertilizer for Improving Plant Growth and Tolerance to Stress
Improved tomato root biomass after 21 days of salinity test Invention Summary: Rutgers University scientists have identified two new bacterial strains that can express 1-aminocyclopropane-1-carboxylate (ACC) deaminase, and a plant growth hormone. Its efficacy has been tested to benefit maize, tomato, and creeping bentgrass, a type of turfgrass....
Published: 12/8/2021   |   Inventor(s): Bingru Huang, Ning Zhang, William Errickson
Keywords(s): Biofertilizer
Category(s): Technology Classifications > Agriculture, Technology Classifications > Plants, Seeds, Berries, Fruit, Technology Classifications > Ag Biotech
Novel Bioherbicides that Suppress Weeds and Promote Plant Growth
Stunted growth of invasive Japanese knotweed when inoculated (Right panel) with Micrococcus luteus. Left panel: untreated Japanese knotweed; Right panel: bioherbicide treated Japanese knotweed Invention Summary: Rutgers University scientists have identified novel compositions of endophytic yeast and bacteria that reduce aggressive growth of invasive...
Published: 7/28/2022   |   Inventor(s): James White, Kathryn Kingsley, Matthew Elmore, Kurt Kowalski
Keywords(s): Biofertilizer
Category(s): Technology Classifications > Plants, Seeds, Berries, Fruit, Technology Classifications > Agriculture, Technology Classifications > Ag Biotech
Growth Promoting Properties of Newly Identified Root Fungi A. panicicola for Agricultural Applications
Invention Summary:Rutgers scientists identified a new root endophytic fungal species, Acidomelania panicicola, which significantly increases growth and stress tolerance of different plant species. A. panicicola was identified from switchgrass and other grass roots from the New Jersey Pine Barrens, where the soil content is nutrient poor, acidic, dry...
Published: 12/8/2021   |   Inventor(s): Ning Zhang
Keywords(s): Biofertilizer
Category(s): Technology Classifications > Agriculture, Technology Classifications > Ag Biotech
New Class of Biofertilizer Promoting Growth and Stress Tolerance
Invention Summary:Rutgers scientists have identified ACC-deaminase-producing bacterial strains that have advantageous effects on overall plant growth, in particular, turfgrass. Plants infected with ACC-deaminase-producing bacteria are exposed to less ethylene, and thus exhibit better overall growth. Indeed, plants inoculated with these bacteria species...
Published: 12/8/2021   |   Inventor(s): Bingru Huang, Ning Zhang
Keywords(s): Biofertilizer
Category(s): Technology Classifications > Agriculture, Technology Classifications > Ag Biotech
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