Nitrogen (N) deposition rates are increasing globally due to anthropogenic activities. Plant community responses to N are often attributed to altered competitive interactions between plants, but may also be a result of microbial responses to N, particularly root-associated fungi (RAF), which are known to affect plant fitness. In response to N, Deschampsia cespitosa, a codominant plant in the alpine tundra at Niwot Ridge (CO), increases in abundance, while Geum rossii, its principal competitor, declines. Importantly, G. rossii declines with N even in the absence of its competitor. We examined whether contrasting host responses to N are associated with altered plant–fungal symbioses, and whether the effects of N are distinct from effects of a...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Nitrogen (N) deposition rates are increasing globally due to anthropogenic activities. Plant communi...
Nitrogen (N) deposition rates are increasing globally due to anthropogenic activities. Plant communi...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Although ecologists have documented the effects of nitrogen enrichment on productivity, diversity an...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Although ecologists have documented the effects of nitrogen enrichment on productivity, diversity an...
Numerous studies have shown that nitrogen (N) deposition decreases biodiversity in terrestrial ecosy...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
Numerous studies have shown that nitrogen (N) deposition decreases biodiversity in terrestrial ecosy...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Nitrogen (N) deposition rates are increasing globally due to anthropogenic activities. Plant communi...
Nitrogen (N) deposition rates are increasing globally due to anthropogenic activities. Plant communi...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Although ecologists have documented the effects of nitrogen enrichment on productivity, diversity an...
Nitrogen (N) deposition in many areas of the world is over an order of magnitude greater than it wou...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...
Although ecologists have documented the effects of nitrogen enrichment on productivity, diversity an...
Numerous studies have shown that nitrogen (N) deposition decreases biodiversity in terrestrial ecosy...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
Numerous studies have shown that nitrogen (N) deposition decreases biodiversity in terrestrial ecosy...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
1. Under increasing anthropogenic nitrogen (N) deposition, some plant species will thrive while othe...
Human activity has more than doubled the amount of nitrogen entering the global nitrogen cycle, and ...