Add to ORKGAnthropogenic activities are increasing nutrient inputs to ecosystems worldwide, with consequences for global carbon and nutrient cycles. Recent meta-analyses show that aboveground primary production is often co-limited by multiple nutrients; however, little is known about how root production responds to changes in nutrient availability. At twenty-nine grassland sites on four continents, we quantified shallow root biomass responses to nitrogen (N), phosphorus (P) and potassium plus micronutrient enrichment and compared below- and aboveground responses. We hypothesized that optimal allocation theory would predict context dependence in root biomass responses to nutrient enrichment, given variation among sites in the resources limiting to plan...
<p>Globally, grasslands are a major land cover type and store significant amounts of soil organic ca...
Terrestrial ecosystem productivity is widely accepted to be nutrient limited(1). Although nitrogen (...
The potential of a plant species to acquire nutrients depends on its ability to explore the soil by ...
Anthropogenic activities are increasing nutrient inputs to ecosystems worldwide, with consequences f...
Anthropogenic activities are increasing nutrient inputs to ecosystems worldwide, with consequences f...
Terrestrial ecosystem productivity is widely accepted to be nutrient limited. Although nitrogen is d...
The response of above- and below-ground biomass to soil nutrient availability is crucial for estimat...
Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-li...
Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-li...
Fertilisation experiments have demonstrated that nutrient availability is a key determinant of bioma...
Biomass allocation is a key factor in understanding how ecosystems respond to changing environmental...
Plant stoichiometry, the relative concentration of elements, is a key regulator of ecosystem functio...
Soil stores approximately twice as much carbon as the atmosphere and fluctuations in the size of the...
Plant stoichiometry, the relative concentration of elements, is a key regulator of ecosystem functio...
<p>Globally, grasslands are a major land cover type and store significant amounts of soil organic ca...
Terrestrial ecosystem productivity is widely accepted to be nutrient limited(1). Although nitrogen (...
The potential of a plant species to acquire nutrients depends on its ability to explore the soil by ...
Anthropogenic activities are increasing nutrient inputs to ecosystems worldwide, with consequences f...
Anthropogenic activities are increasing nutrient inputs to ecosystems worldwide, with consequences f...
Terrestrial ecosystem productivity is widely accepted to be nutrient limited. Although nitrogen is d...
The response of above- and below-ground biomass to soil nutrient availability is crucial for estimat...
Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-li...
Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-li...
Fertilisation experiments have demonstrated that nutrient availability is a key determinant of bioma...
Biomass allocation is a key factor in understanding how ecosystems respond to changing environmental...
Plant stoichiometry, the relative concentration of elements, is a key regulator of ecosystem functio...
Soil stores approximately twice as much carbon as the atmosphere and fluctuations in the size of the...
Plant stoichiometry, the relative concentration of elements, is a key regulator of ecosystem functio...
<p>Globally, grasslands are a major land cover type and store significant amounts of soil organic ca...
Terrestrial ecosystem productivity is widely accepted to be nutrient limited(1). Although nitrogen (...
The potential of a plant species to acquire nutrients depends on its ability to explore the soil by ...