Add to ORKGIncorporation of legumes into forage systems has been a widely adopted strategy to increase pasture productivity and forage nutritive value, while reducing N inputs. Considering the population growth, and the diminishing land resources for food production, the need to increase the food supply will have to be balanced with the environmental impact of these systems, particularly their carbon footprint. Enteric methane production represents the largest source of greenhouse gas emissions from livestock. Certain forage legumes have evolved plant secondary compounds, such as tannins and other polyphenols, which have been associated with reductions in enteric methane emissions. Studies were conducted at Utah State University (USU), and at the Univ...
Conventional production of meat products from ruminant animals in the United States requires inputs ...
Methane is a major constituent of greenhouse gas (GHG) emissions from ruminants, and mitigation stra...
Sustainable intensification of livestock systems implies greater efficiency in resource utilization ...
Methane emission from livestock operation is an important source of greenhouse gas and contributes t...
Greenhouse gas emissions from ruminant livestock production systems contribute significantly to the ...
Non-Peer ReviewedIncorporating legumes into a grass based pasture system has multiple benefits. A gr...
Methane is a major constituent of greenhouse gas (GHG) emissions from ruminants, and mitigation stra...
Methane emissions from ruminants are a major contributor to agricultural greenhouse gas emissions. T...
Tesis para obtener el grado de Doctor of Philosophy (PhD), de la Utah State University, en agosto de...
Tannin-containing legumes like birdsfoot trefoil (BFT) and sainfoin (SAIN) may enhance the efficienc...
Non-Peer ReviewedCattle producers may graze animals on mixed pastures of non-bloat legumes and grass...
The inclusion of legumes in diets based on grass has nutritional benefits due to ingestive and diges...
Non-Peer ReviewedPasture grazing systems can act as both sources and sinks for greenhouse gases (GHG...
Enteric methane (CH4) is a main source of agriculture-related greenhouse gasses. Conversely, pasture...
International audienceNutritional strategies, including feed management measures, are promising meth...
Conventional production of meat products from ruminant animals in the United States requires inputs ...
Methane is a major constituent of greenhouse gas (GHG) emissions from ruminants, and mitigation stra...
Sustainable intensification of livestock systems implies greater efficiency in resource utilization ...
Methane emission from livestock operation is an important source of greenhouse gas and contributes t...
Greenhouse gas emissions from ruminant livestock production systems contribute significantly to the ...
Non-Peer ReviewedIncorporating legumes into a grass based pasture system has multiple benefits. A gr...
Methane is a major constituent of greenhouse gas (GHG) emissions from ruminants, and mitigation stra...
Methane emissions from ruminants are a major contributor to agricultural greenhouse gas emissions. T...
Tesis para obtener el grado de Doctor of Philosophy (PhD), de la Utah State University, en agosto de...
Tannin-containing legumes like birdsfoot trefoil (BFT) and sainfoin (SAIN) may enhance the efficienc...
Non-Peer ReviewedCattle producers may graze animals on mixed pastures of non-bloat legumes and grass...
The inclusion of legumes in diets based on grass has nutritional benefits due to ingestive and diges...
Non-Peer ReviewedPasture grazing systems can act as both sources and sinks for greenhouse gases (GHG...
Enteric methane (CH4) is a main source of agriculture-related greenhouse gasses. Conversely, pasture...
International audienceNutritional strategies, including feed management measures, are promising meth...
Conventional production of meat products from ruminant animals in the United States requires inputs ...
Methane is a major constituent of greenhouse gas (GHG) emissions from ruminants, and mitigation stra...
Sustainable intensification of livestock systems implies greater efficiency in resource utilization ...