1 We studied the effects of elevated atmospheric CO2 and increased N deposition on the plant species composition of a Sphagnum-dominated bog ecosystem in the Netherlands. Large peat monoliths (surface area 1 m2, depth 0.6 m) with intact bog vegetation were kept outdoors in large containers and were exposed to elevated CO2 or increased N deposition for three growing seasons. Elevated CO2 conditions (target concentration 560 ?mol CO2 mol1) were created using MiniFACE technology. In a separate experiment, N deposition was increased by 5 g N m2 year1 by adding dissolved NH4NO3 at 3 week intervals during the growing season. 2 Elevated atmospheric CO2 increased height growth of Sphagnum magellanicum, the dominant Sphagnum species, in the second a...
The competition between peat mosses (Sphagnum) and vascular plants as affected by raised CO2 and inc...
Northern peatlands are important stores of carbon and reservoirs of biodiversity that are vulnerable...
1. In many ombrotrophic bog areas the invasion of grass (e.g. Molinia caerulea) and tree (e.g. Betul...
Ombrotrophic bogs are important long-term sinks for atmospheric carbon. Changes in species compositi...
The response of plant growth to rising CO2 levels appears to depend on nutrient availability, but it...
Part of the missing sink in the global CO2 budget has been attributed to the positive effects of CO2...
Sphagnum bogs play an important role when considering the impacts of global change on global carbon ...
Boreal and subarctic peatlands contain 20-30 f the world's soil organic carbon, and if growing, they...
We determined evapotranspiration in three experiments designed to study the effects of elevated CO2 ...
The free air carbon dioxide enrichment (FACE) and N deposition experiments on four ombrotrophic bogs...
Previous studies have shown atmospheric (N) deposition to be detrimental to Sphagna, a genera import...
Peatlands are a critical carbon store comprising 30% of the Earth’s terrestrial soil carbon. Sphagnu...
S phagnum bogs harbour a wealth of rare vascular plant and bryophyte species, preserve an amazing po...
Atmospheric CO2-C sequestration is directly related to the formation of peat which in turn is depend...
1 Significant areas of temperate bogs have been damaged by peat harvesting but may regenerate. These...
The competition between peat mosses (Sphagnum) and vascular plants as affected by raised CO2 and inc...
Northern peatlands are important stores of carbon and reservoirs of biodiversity that are vulnerable...
1. In many ombrotrophic bog areas the invasion of grass (e.g. Molinia caerulea) and tree (e.g. Betul...
Ombrotrophic bogs are important long-term sinks for atmospheric carbon. Changes in species compositi...
The response of plant growth to rising CO2 levels appears to depend on nutrient availability, but it...
Part of the missing sink in the global CO2 budget has been attributed to the positive effects of CO2...
Sphagnum bogs play an important role when considering the impacts of global change on global carbon ...
Boreal and subarctic peatlands contain 20-30 f the world's soil organic carbon, and if growing, they...
We determined evapotranspiration in three experiments designed to study the effects of elevated CO2 ...
The free air carbon dioxide enrichment (FACE) and N deposition experiments on four ombrotrophic bogs...
Previous studies have shown atmospheric (N) deposition to be detrimental to Sphagna, a genera import...
Peatlands are a critical carbon store comprising 30% of the Earth’s terrestrial soil carbon. Sphagnu...
S phagnum bogs harbour a wealth of rare vascular plant and bryophyte species, preserve an amazing po...
Atmospheric CO2-C sequestration is directly related to the formation of peat which in turn is depend...
1 Significant areas of temperate bogs have been damaged by peat harvesting but may regenerate. These...
The competition between peat mosses (Sphagnum) and vascular plants as affected by raised CO2 and inc...
Northern peatlands are important stores of carbon and reservoirs of biodiversity that are vulnerable...
1. In many ombrotrophic bog areas the invasion of grass (e.g. Molinia caerulea) and tree (e.g. Betul...
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