Soil moisture plays an important role in predicting the fate of soil carbon accumulation in boreal forests, particularly in the face of climate change. Several key factors regulate soil carbon storage such as net primary production (NPP) and rate of decomposition but also several environmental conditions come into play in regulating carbon cycling. In this study, we test how different environmental factors affect the magnitude of soil carbon storage. We focus on two important environmental factors such as climate and soil texture. Sites: Boreal needle leaf forest sites in Norway (Hurdal: 60.366N/11.066E, Tingvoll: 63.007N/8.02E, Loeten: 60.858N/11.435E) Model: Community Land Model version 5 (CLM5) Experiment 1: Precipitation is benchmarked ...
In a future warmer climate, extremely dry, warm summers might become more common. Soil weathering is...
Climate change and land management practices are projected to significantly affect soil organic carb...
It is important that climate models can accurately simulate the terrestrial carbon cycle in the Arct...
Soil moisture plays an important role in predicting the fate of soil carbon accumulation in boreal f...
A typical feature of the boreal forest landscape is a gradient from dry to wet sites, with associate...
Abstract Boreal forests sequester and store vast carbon (C) pools that may be subject to significant...
Soil organic carbon (C), accumulated over millennia, comprise more than half the C stored in boreal ...
Boreal forests, and especially boreal forest soils, are of considerable importance in global carbon ...
Large amounts of carbon are stored in boreal soils as soil organic matter. Aim of the research prese...
With the use of a process-orientated ecosystem model andmeasurements conducted at different Swedish ...
The expansion of the treeline into the currently treeless alpine tundra may have considerable impact...
Forest soils represents the largest terrestrial carbon (C) pool and thus play a critical role in the...
Soil organic carbon (SOC) is the largest carbon pool in terrestrial ecosystems, which plays an impor...
Storing large amounts of organic carbon, soils are a key but uncertain component of the global carbo...
Relationships between soil C and N stocks and soil formation, climate and vegetation were investigat...
In a future warmer climate, extremely dry, warm summers might become more common. Soil weathering is...
Climate change and land management practices are projected to significantly affect soil organic carb...
It is important that climate models can accurately simulate the terrestrial carbon cycle in the Arct...
Soil moisture plays an important role in predicting the fate of soil carbon accumulation in boreal f...
A typical feature of the boreal forest landscape is a gradient from dry to wet sites, with associate...
Abstract Boreal forests sequester and store vast carbon (C) pools that may be subject to significant...
Soil organic carbon (C), accumulated over millennia, comprise more than half the C stored in boreal ...
Boreal forests, and especially boreal forest soils, are of considerable importance in global carbon ...
Large amounts of carbon are stored in boreal soils as soil organic matter. Aim of the research prese...
With the use of a process-orientated ecosystem model andmeasurements conducted at different Swedish ...
The expansion of the treeline into the currently treeless alpine tundra may have considerable impact...
Forest soils represents the largest terrestrial carbon (C) pool and thus play a critical role in the...
Soil organic carbon (SOC) is the largest carbon pool in terrestrial ecosystems, which plays an impor...
Storing large amounts of organic carbon, soils are a key but uncertain component of the global carbo...
Relationships between soil C and N stocks and soil formation, climate and vegetation were investigat...
In a future warmer climate, extremely dry, warm summers might become more common. Soil weathering is...
Climate change and land management practices are projected to significantly affect soil organic carb...
It is important that climate models can accurately simulate the terrestrial carbon cycle in the Arct...