Forests influence climate and mitigate global change through the storage of carbon in soils.
In turn, these complex ecosystems face important challenges, including increases in carbon …

The global forest carbon (C) stock is estimated at 662 Gt of which 45% is in soil organic
matter. Thus, comprehensive understanding of the effects of forest management practices on …

Forests are essential in regulating global carbon and water cycles and are critical in
mitigating climate change. Water-use efficiency, defined by the ratio of plant productivity per …

Land-based mitigation measures are needed to achieve climate targets. One option is the
mitigation of currently high greenhouse gas (GHG) emissions of nutrient-rich drained …

Continuous-cover forestry (CCF) is increasingly argued as an alternative to clear-cut
harvesting in managed boreal forests to improve water quality and quantity, biodiversity, and …

Restoring peatland ecosystems involves significant uncertainty due to complex ecological
and socio-economic feedbacks as well as alternative stable ecological states. The primary …

Continuous-cover forestry (CCF) is expected to reduce the negative environmental impacts
of peatland forestry in comparison with rotation forestry (RF), but the unknown profitability of …

Tropical peat swamp degradation can modify net peat greenhouse gas (GHG) emissions
even without drainage. However, current Intergovernmental Panel on Climate Change …

We used a simulation model to analyse the effect of continuous-cover forestry on the carbon
dioxide (CO 2) and methane (CH 4) emissions from nutrient-rich drained peatland sites in …

Managed boreal peatlands are widespread and economically important, but they are a large
source of greenhouse gases (GHGs). Peatland GHG emissions are related to soil water …