Add to ORKGThe intensification of New Zealand pastoral agriculture has led to the use of irrigation, fertiliser and legumes to increase quality and yield of pastures. In order to attain these yields, nitrogen (N) content of pasture has increased beyond animal requirement. This excess to requirement N intake leads to large quantities of N excreted in urine resulting in high levels of N loading per urine patch. Plants cannot uptake all of this N therefore large quantities are lost from the system. N loading from the urine patch is a function of urine volume, urinary N concentration and urine patch area. Plantain (plantago lanceolata) has been identified as a plant species that when fed as forage reduces urinary N concentration without reducing N intake ...
Dairy cow urine is the greatest contributor of nitrate leaching on agricultural systems. This is bec...
Chicory (Chicorum intybus L.) is a high moisture, low fibre forage with the potential to alter urina...
Environmental degradation has been attributed to inefficient nitrogen utilization from pastoral dair...
The use of plantain pasture in dairy systems can potentially reduce nitrogen (N) leaching losses via...
The intensification of the dairy industry in New Zealand has prompted the use of fertiliser and legu...
Urine patches from ruminant livestock are risk areas for soil nitrogen (N) loss from grazed pastures...
Inefficient nitrogen (N) use from pastoral dairy production systems has resulted in environmental de...
The objective of this study was to investigate the effect of diverse silage containing plantain on u...
In grazed agricultural systems, animal urine patches are the major source of nitrogen (N) leaching l...
Urinary nitrogen concentration (UNcc) and urinary N excretion (UN) are directly associated with the ...
The effects of 50% or 100% of a herbage diet of plantain on milk production and urinary nitrogen (N)...
Milk production and urinary nitrogen (N) concentration were measured in late lactation dairy cows gr...
The effect of feeding two different supplements (perennial ryegrass or plantain baleage) on urinary ...
Purpose: The aim of this research was to quantify the effect of plantain (Plantago lanceolata L.) on...
The objective of this study was to determine the effect of feeding plantain and chicory at different...
Dairy cow urine is the greatest contributor of nitrate leaching on agricultural systems. This is bec...
Chicory (Chicorum intybus L.) is a high moisture, low fibre forage with the potential to alter urina...
Environmental degradation has been attributed to inefficient nitrogen utilization from pastoral dair...
The use of plantain pasture in dairy systems can potentially reduce nitrogen (N) leaching losses via...
The intensification of the dairy industry in New Zealand has prompted the use of fertiliser and legu...
Urine patches from ruminant livestock are risk areas for soil nitrogen (N) loss from grazed pastures...
Inefficient nitrogen (N) use from pastoral dairy production systems has resulted in environmental de...
The objective of this study was to investigate the effect of diverse silage containing plantain on u...
In grazed agricultural systems, animal urine patches are the major source of nitrogen (N) leaching l...
Urinary nitrogen concentration (UNcc) and urinary N excretion (UN) are directly associated with the ...
The effects of 50% or 100% of a herbage diet of plantain on milk production and urinary nitrogen (N)...
Milk production and urinary nitrogen (N) concentration were measured in late lactation dairy cows gr...
The effect of feeding two different supplements (perennial ryegrass or plantain baleage) on urinary ...
Purpose: The aim of this research was to quantify the effect of plantain (Plantago lanceolata L.) on...
The objective of this study was to determine the effect of feeding plantain and chicory at different...
Dairy cow urine is the greatest contributor of nitrate leaching on agricultural systems. This is bec...
Chicory (Chicorum intybus L.) is a high moisture, low fibre forage with the potential to alter urina...
Environmental degradation has been attributed to inefficient nitrogen utilization from pastoral dair...