Drained, lowland agricultural peatlands are greenhouse gas (GHG) emission hotspots and a
large but vulnerable store of irrecoverable carbon. They exhibit soil loss rates of~ 2.0 cm yr …

Climate policies encourage the search for greenhouse gas (GHG) mitigation options in all
economic sectors and peatland rewetting is one of the most efficient mitigation measures in …

Drained organic soils are large sources of anthropogenic greenhouse gases (GHG) in many
European and Asian countries. Therefore, these soils urgently need to be considered and …

Drainage has turned peatlands from a carbon sink into one of the world's largest
greenhouse gas (GHG) sources from cultivated soils. We analyzed a unique data set (12 …

Peatlands accumulate organic matter (OM) under anaerobic conditions. After drainage for
forestry or agriculture, microbial respiration and peat oxidation induce OM losses and …

Drainage turns peatlands from natural carbon sinks into hotspots of greenhouse gas (GHG)
emissions from soils due to alterations in hydrological and biogeochemical processes. As a …

© 2015 Macmillan Publishers Limited. All rights reserved as demand grows for greener
forms of energy. Interest in biochar is also growing among scientists, who are quickly …

Amyotrophic lateral sclerosis (ALS) displays considerable clinical and genetic
heterogeneity. Machine learning approaches have previously been utilised for patient …

This report summarises work undertaken on behalf of the Department for Business, Energy
and Industrial Strategy (BEIS) to develop and implement a new method for reporting …

Artificial drainage is prerequisite for conventional agricultural use of peatlands, but causes
high emissions of greenhouse gases (GHG), mainly carbon dioxide (CO 2). Furthermore …