Add to ORKGNitrogen (N) inputs from fertilizer, biologically-fixed N, feed, and animal manure sustain productive agriculture. Agricultural systems are limited however in their ability to incorporate N into products, and environmental N losses may become local, regional and global concerns. The anticipated increases in global demand for food, especially for animal products, necessitate an urgent search for practices that enhance N use efficiency (NUE) and reduce environmental N loss. The objectives of this study were to determine feed-milk-manure N relationships for the global dairy herd, and to evaluate how well regional and production system determinations of these relationships correspond to measurements made under experimental conditions and on com...
Animal production systems convert plant protein into animal protein. Depending on animal species, ra...
Reducing nitrogen (N) excretion by dairy cattle is the most effective means to reduce N losses (runo...
Animal production systems provide nutritious food for humans, income and survivability for numerous ...
Nitrogen (N) inputs from fertilizer, biologically-fixed N, feed, and animal manure sustain productiv...
Increasing nitrogen (N) efficiency thereby reducing N losses towards air or water and increasing N e...
Manure nitrogen (N) from cattle contributes to nitrous oxide and ammonia emissions and nitrate leach...
Escalating fertilizer and feed costs, declining product prices, and increasing regulations to reduce...
to the significant contribution of the livestock sector to nitrogen (N) losses, improving N use effi...
International attention has focused on agricultural production systems as non-point sources of pollu...
International audienceThe efficiency of nitrogen (N) use in dairy herds is an important challenge du...
The increased nitrogen (N) use efficiency in cattle farming is proposed as a key action to improve N...
In recent decades, the rate of milk production per unit land area and per cow has increased with the...
The nitrogen (N) fertilizer application rate (kg ha−1 year−1) in pastoral dairy systems affects the ...
We developed a procedure to estimate the release of nutrients into the environment on Alpine dairy f...
Environmental legislation has made it necessary for livestock producers to be able to quantify and a...
Animal production systems convert plant protein into animal protein. Depending on animal species, ra...
Reducing nitrogen (N) excretion by dairy cattle is the most effective means to reduce N losses (runo...
Animal production systems provide nutritious food for humans, income and survivability for numerous ...
Nitrogen (N) inputs from fertilizer, biologically-fixed N, feed, and animal manure sustain productiv...
Increasing nitrogen (N) efficiency thereby reducing N losses towards air or water and increasing N e...
Manure nitrogen (N) from cattle contributes to nitrous oxide and ammonia emissions and nitrate leach...
Escalating fertilizer and feed costs, declining product prices, and increasing regulations to reduce...
to the significant contribution of the livestock sector to nitrogen (N) losses, improving N use effi...
International attention has focused on agricultural production systems as non-point sources of pollu...
International audienceThe efficiency of nitrogen (N) use in dairy herds is an important challenge du...
The increased nitrogen (N) use efficiency in cattle farming is proposed as a key action to improve N...
In recent decades, the rate of milk production per unit land area and per cow has increased with the...
The nitrogen (N) fertilizer application rate (kg ha−1 year−1) in pastoral dairy systems affects the ...
We developed a procedure to estimate the release of nutrients into the environment on Alpine dairy f...
Environmental legislation has made it necessary for livestock producers to be able to quantify and a...
Animal production systems convert plant protein into animal protein. Depending on animal species, ra...
Reducing nitrogen (N) excretion by dairy cattle is the most effective means to reduce N losses (runo...
Animal production systems provide nutritious food for humans, income and survivability for numerous ...