Peatlands store nearly one third of the soil global carbon, and approximately 10% of the world\u27s drinkable water on only 3% of the land surface. Peatlands store large amounts of carbon from the organic matter due to the reduced decomposition rates in the soil allowing the accumulation of new plant growth each year. Rising temperatures and increasing nutrient inputs from human activities can accelerate decomposition rates in the soil transforming peatlands from sinks to sources of carbon, and reducing their ability to regulate the local hydrological cycles. To identify how rising temperatures and increasing human originated disturbances have peatlands, I studied the current vegetation patterns and related them to elevation, temperature an...
Extreme climate events are predicted to become more frequent and intense. Their ecological impacts, ...
The long-term carbon (C) dynamics in tropical mountain peatlands are poorly understood. Here I prese...
Northern peatlands occupy over 3 million km2 globally and contain the largest carbon (C) pool (typic...
Climate change has altered precipitation and temperature patterns in the tropical Andes. As a result...
Peatlands have been important terrestrial carbon reservoirs throughout the Holocene, yet whether the...
The tropical Andes store and regulate water outflow that serves nearly 60 million people. Most of th...
Peatlands are important components of boreal and subarctic landscapes, and can be regionally importa...
Many tropical mountain peatlands in the Andes are formed by cushion plants. These unique cushion pla...
Peatlands are an important component of the global carbon (C) cycle, accounting for around 20-30 % o...
The response of peatlands to changes in the climatic water budget is crucial to predicting potential...
The 21st century climate change and land-use pressure are likely to subject northern peatlands to cl...
Peatlands occupy a relatively small fraction of the Earth’s land area, but they are a globally impor...
Northern peatlands are the world’s most efficient terrestrial ecosystems at storing carbon. The eff...
Amazonian peatlands store a large amount of soil organic carbon (SOC), and its fate under a future c...
In 2008, the very extensive tropical peats were estimated to be about 182 million ha spanning South ...
Extreme climate events are predicted to become more frequent and intense. Their ecological impacts, ...
The long-term carbon (C) dynamics in tropical mountain peatlands are poorly understood. Here I prese...
Northern peatlands occupy over 3 million km2 globally and contain the largest carbon (C) pool (typic...
Climate change has altered precipitation and temperature patterns in the tropical Andes. As a result...
Peatlands have been important terrestrial carbon reservoirs throughout the Holocene, yet whether the...
The tropical Andes store and regulate water outflow that serves nearly 60 million people. Most of th...
Peatlands are important components of boreal and subarctic landscapes, and can be regionally importa...
Many tropical mountain peatlands in the Andes are formed by cushion plants. These unique cushion pla...
Peatlands are an important component of the global carbon (C) cycle, accounting for around 20-30 % o...
The response of peatlands to changes in the climatic water budget is crucial to predicting potential...
The 21st century climate change and land-use pressure are likely to subject northern peatlands to cl...
Peatlands occupy a relatively small fraction of the Earth’s land area, but they are a globally impor...
Northern peatlands are the world’s most efficient terrestrial ecosystems at storing carbon. The eff...
Amazonian peatlands store a large amount of soil organic carbon (SOC), and its fate under a future c...
In 2008, the very extensive tropical peats were estimated to be about 182 million ha spanning South ...
Extreme climate events are predicted to become more frequent and intense. Their ecological impacts, ...
The long-term carbon (C) dynamics in tropical mountain peatlands are poorly understood. Here I prese...
Northern peatlands occupy over 3 million km2 globally and contain the largest carbon (C) pool (typic...
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