Herbivores are reported to slow down as well as enhance nutrient cycling in grasslands. These conflicting results may be explained by differences in herbivore type. In this study we focus on herbivore body size as a factor that causes differences in herbivore effects on N cycling. We used an exclosure set-up in a floodplain grassland grazed by cattle, rabbits and common voles, where we subsequently excluded cattle and rabbits. Exclusion of cattle lead to an increase in vole numbers and a 1.5-fold increase in net annual N mineralization at similar herbivore densities (corrected to metabolic weight). Timing and height of the mineralization peak in spring was the same in all treatments, but mineralization in the vole-grazed treatment showed a ...
Nitrogen (N) is an essential nutrient for plants and animals, and N may be limiting in many western ...
Grasslands are subject to considerable alteration due to human activities globally, including widesp...
Soil net N-mineralization rate was measured along a successional gradient in salt-marsh sites that w...
Herbivores are reported to slow down as well as enhance nutrient cycling in grasslands. These confli...
Herbivores are reported to slow down as well as enhance nutrient cycling in grasslands. These confli...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
Studies addressing the role of large herbivores on nitrogen cycling in grasslands have suggested tha...
Large herbivores are key drivers of nutrient cycling in ecosystems worldwide, and hence they have an...
Studies addressing the role of large herbivores on nitrogen cycling in grasslands have suggested tha...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
<FONT FACE="Arial">Regarding the scale at which grasslands are grazed and the use of large grazers a...
Herbivores may influence the nitrogen (N) recycling rates and consequently increase or decrease the ...
Herbivores can directly increase nitrogen mobility by increasing the quality of organic matter enter...
Nitrogen (N) is an essential nutrient for plants and animals, and N may be limiting in many western ...
Grasslands are subject to considerable alteration due to human activities globally, including widesp...
Soil net N-mineralization rate was measured along a successional gradient in salt-marsh sites that w...
Herbivores are reported to slow down as well as enhance nutrient cycling in grasslands. These confli...
Herbivores are reported to slow down as well as enhance nutrient cycling in grasslands. These confli...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
Studies addressing the role of large herbivores on nitrogen cycling in grasslands have suggested tha...
Large herbivores are key drivers of nutrient cycling in ecosystems worldwide, and hence they have an...
Studies addressing the role of large herbivores on nitrogen cycling in grasslands have suggested tha...
Aboveground herbivores have strong effects on grassland nitrogen (N) cycling. They can accelerate or...
<FONT FACE="Arial">Regarding the scale at which grasslands are grazed and the use of large grazers a...
Herbivores may influence the nitrogen (N) recycling rates and consequently increase or decrease the ...
Herbivores can directly increase nitrogen mobility by increasing the quality of organic matter enter...
Nitrogen (N) is an essential nutrient for plants and animals, and N may be limiting in many western ...
Grasslands are subject to considerable alteration due to human activities globally, including widesp...
Soil net N-mineralization rate was measured along a successional gradient in salt-marsh sites that w...