Add to ORKGThe effects of nitrogen, phosphorus, and nitrogen+phosphorus fertilization on phenology of alpine plants was examined. This was a preliminary study to determine if the phenologies of dry meadow plants were affected by nutrient amendments, and if they were, which species responded most to the treatments. Times of emergence, senescence, and other key vegetative and reproductive "events" were recorded
Nitrogen (N) deposition can affect grassland ecosystems by altering biomass production, plant specie...
Bowman et al. (1993) have demonstrated that alpine tundra is sensitive to nitrogen and phosphorus a...
To determine whether there are differences in the relative capacity of communities to accumulate nu...
The effects of nitrogen, phosphorus, and nitrogen+phosphorus fertilization on phenology of alpine pl...
The warming-induced increase in nutrient mineralization and the further increase in atmospheric nitr...
The warming-induced increase in nutrient mineralization and the further increase in atmospheric nitr...
Among the various plant traits, phenology is one of the most sensitive to environmental changes. Nit...
Background: There have been few studies on the effects on alpine flora and vegetation of an increase...
Phenology is one of the most sensitive plant processes in response to global change. Anthropogenic a...
The aim of the study was to investigate how plant species’ composition, soil parameters and nutrient...
Considering their sensitivity to change, alpine plant communities are useful systems in studying the...
We investigated the response of an alpine lichen heath plant community to an increase in soil nutrie...
Nitrogen as the fourth most educated element of living organisms and the limiting factor of the aqua...
An experiment on the very poor alpine pasture, the Geo montani-Nardetum, was started in 1930. Fertil...
The interactive effects of five seasonal precipitation distribution patterns and two levels of N dep...
Nitrogen (N) deposition can affect grassland ecosystems by altering biomass production, plant specie...
Bowman et al. (1993) have demonstrated that alpine tundra is sensitive to nitrogen and phosphorus a...
To determine whether there are differences in the relative capacity of communities to accumulate nu...
The effects of nitrogen, phosphorus, and nitrogen+phosphorus fertilization on phenology of alpine pl...
The warming-induced increase in nutrient mineralization and the further increase in atmospheric nitr...
The warming-induced increase in nutrient mineralization and the further increase in atmospheric nitr...
Among the various plant traits, phenology is one of the most sensitive to environmental changes. Nit...
Background: There have been few studies on the effects on alpine flora and vegetation of an increase...
Phenology is one of the most sensitive plant processes in response to global change. Anthropogenic a...
The aim of the study was to investigate how plant species’ composition, soil parameters and nutrient...
Considering their sensitivity to change, alpine plant communities are useful systems in studying the...
We investigated the response of an alpine lichen heath plant community to an increase in soil nutrie...
Nitrogen as the fourth most educated element of living organisms and the limiting factor of the aqua...
An experiment on the very poor alpine pasture, the Geo montani-Nardetum, was started in 1930. Fertil...
The interactive effects of five seasonal precipitation distribution patterns and two levels of N dep...
Nitrogen (N) deposition can affect grassland ecosystems by altering biomass production, plant specie...
Bowman et al. (1993) have demonstrated that alpine tundra is sensitive to nitrogen and phosphorus a...
To determine whether there are differences in the relative capacity of communities to accumulate nu...