Add to ORKGThis study examines the effects of simulated whole-ecosystem warming and elevated levels of carbon dioxide on the microbial communities within the root-soil microbiomes of vascular plants in peatlands. Root samples obtained from the SPRUCE site in Minnesota will be used to carefully characterize the microbial communities in the root tissue and the surrounding rhizosphere. The microbial communities can then be examined for any effects of whole ecosystem warming and the enrichment of carbon dioxide in the atmosphere, creating a glimpse into the future of peatlands and the associated effects of climate change drivers. This study marks an important step on a path to a greater understanding of peatland root microbiomes and climate driven...
Globally, major efforts are being made to restore peatlands to maximise their resilience to anthropo...
This is the final version. Available from the Finnish Peatland Society via the DOI in this record. G...
Northern peatlands are large repositories of carbon and little is known about the effect the microbi...
This study examines the effects of simulated whole-ecosystem warming and elevated levels of carbon d...
Northern peatlands store approximately 30% of the world’s soil carbon, and are also responsible for...
Peatlands are important players in climate change–biosphere feedbacks via long-term net carbon (C) a...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
Peatlands are unique areas of study due to their capacity to act as both carbon sinks and sources. T...
Climate warming is predicted to increase heterotrophic metabolism in northern peatland soils leading...
The ongoing expansion of shrub cover in response to climate change represents a unique opportunity t...
Aboveground plants provide resources to the belowground microbial community via plant litter and, in...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
Northern peatlands are large repositories of carbon and little is known about the effect the microbi...
Globally, major efforts are being made to restore peatlands to maximise their resilience to anthropo...
This is the final version. Available from the Finnish Peatland Society via the DOI in this record. G...
Northern peatlands are large repositories of carbon and little is known about the effect the microbi...
This study examines the effects of simulated whole-ecosystem warming and elevated levels of carbon d...
Northern peatlands store approximately 30% of the world’s soil carbon, and are also responsible for...
Peatlands are important players in climate change–biosphere feedbacks via long-term net carbon (C) a...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
Peatlands are unique areas of study due to their capacity to act as both carbon sinks and sources. T...
Climate warming is predicted to increase heterotrophic metabolism in northern peatland soils leading...
The ongoing expansion of shrub cover in response to climate change represents a unique opportunity t...
Aboveground plants provide resources to the belowground microbial community via plant litter and, in...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
1. Peatlands are natural sources of atmospheric methane (CH4), an important greenhouse gas. It is es...
Northern peatlands are large repositories of carbon and little is known about the effect the microbi...
Globally, major efforts are being made to restore peatlands to maximise their resilience to anthropo...
This is the final version. Available from the Finnish Peatland Society via the DOI in this record. G...
Northern peatlands are large repositories of carbon and little is known about the effect the microbi...