Drained peatlands emit large amounts of greenhouse gases and cause downstream nutrient
pollution. Rewetting aids in restoring carbon storage and sustaining unique biodiversity …

The decarbonisation of the energy sector through major renewable energy developments in
rural areas is one the requirements for sustainable development and future carbon-neutral …

Rewetting drained agricultural peatlands aids in restoring their original ecosystem functions,
including carbon storage and sustaining unique biodiversity. 30–60 cm of topsoil removal …

Temmink et al.(2023) champion the case for restoring the world's peatlands to concomitantly
address shared climate and nature goals. We share this view and consider that restoration …

Global peatland degradation is a major emission source (2 Gt CO 2 eq/yr), but it is often
excluded from product carbon footprints or consumption-based emission inventories. The …

Draining peatlands to create agricultural land has been the norm in Europe, but in the
context of climate change and the loss of biodiversity, these rich ecosystems may reactivate …

In our paper (Temmink et al. 2023), we argue that only integrated wetscapes (wet peatland
landscapes) allow sustainable and complementary land-use functions. Wetscapes are an …

Objective: The substratum or mineral material under the peat layer is the material taken at
the end of the drill; it can be quartz sand, clay, pyrite sediment, granite, lime, or others. One …

The paper provides original data on accumulation capabilities of bryophytes typical of
peatland ecosystems with different degree of anthropogenic transformation occurring in the …

Abstract The Kampar Peninsula, a significant peatland region in Riau, Indonesia, is vital for
its carbon re-serves and biodiversity, including the Sumatran tiger. Covering approximately …