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961 found

Holistic Irrigation Strategies for Climate-Smart Agriculture 

Year Awarded  2022

FFAR award amount   $448,339

Location   College Station, TX

Grantee Institution   Texas A&M University

Currently, agriculture decision support tools for water management are unsuitable for climate-smart agriculture because they mostly serve the single purpose of increasing crop productivity. This research is developing water management strategies that not only optimize crop productivity, but also increase carbon sequestration, reduce greenhouse gas emissions and promote soil health and resilience.

FFAR & NPB Focus on Continuous Air Quality Improvement Efforts 

FFAR Awards Grant to Genvax Technologies to Develop African Swine Fever Vaccine 

FFAR Announces New Innovator in Food & Agriculture Research Awardees 

FFAR Names Dr. Saharah Moon Chapotin as Executive Director 

FFAR & OCP North America Open Applications for Fertilizer Efficiency Research Fellowship 

Investigating Natural Nitro-Compounds as a Viable Strategy to Reduce Enteric Methane Emission from Ruminants 

Year Awarded  2022

FFAR award amount   $455,704

Total award amount   $914,543

Location   State College, PA

Program   Seeding Solutions

Matching Funders   Purina Animal Nutrition

Grantee Institution   Penn State University

Enteric methane is the single largest source of direct greenhouse gas (GHG) emissions in the beef and dairy sectors, representing 2.5% of total U.S. GHG emissions. Led by Dr. Alexander N. Hristov, researchers are investigating using a non-synthetic form of an anti-methanogenic compound, 3-nitro-1-propionic acid (3-NPA), derived from plant and fungal sources as a feed additive to reduce enteric methane in ruminants.

Grant Investigates Naturally Occurring Compound to Reduce Enteric Methane Emissions 

Year Awarded  2022

FFAR award amount   $455,704

Total award amount   $914,543

Location   State College, PA

Program   Seeding Solutions

Matching Funders   Purina Animal Nutrition

Grantee Institution   Penn State University

Enteric methane is the single largest source of direct greenhouse gas (GHG) emissions in the beef and dairy sectors, representing 2.5% of total U.S. GHG emissions. Led by Dr. Alexander N. Hristov, researchers are investigating using a non-synthetic form of an anti-methanogenic compound, 3-nitro-1-propionic acid (3-NPA), derived from plant and fungal sources as a feed additive to reduce enteric methane in ruminants.

Grant Protects Florida Corn from Tar Spot Outbreak 

FFAR & GAIN Announce Challenge for Screening Underutilized Crops