The need to mitigate the effects of climate change is accelerating the development of novel
technologies such as floating photovoltaics (FPV). Despite FPV being identified as an …

Abstract Methane (CH 4), one of the key long-lived atmospheric greenhouse gases, is
primarily produced from organic matter. Accordingly, net primary production of organic …

Lakes are significant emitters of methane to the atmosphere, and thus are important
components of the global methane budget. Methane is typically produced in lake sediments …

Lakes are important sources of greenhouse gases (GHGs) to the atmosphere. Factors
controlling CO 2, CH 4 and N 2 O fluxes include eutrophication and warming, but the …

Methane is an important greenhouse gas with growing atmospheric concentrations.
Freshwater lakes and reservoirs contribute substantially to atmospheric methane …

Shallow eutrophic lakes contribute disproportional to the emissions of CO 2 and CH 4 from
inland waters. The processes that contribute to these fluxes, their environmental controls …

Net methane (CH 4) emission from lakes depends on two antagonistic processes: CH 4
production (methanogenesis) and CH 4 oxidation (methanotrophy). It is unclear how climate …

Freshwater reservoirs are an important source of the greenhouse gas methane (CH4) to the
atmosphere, but global emission estimates are poorly constrained (13.3–52.5 Tg C yr− 1) …

The contribution of oxic methane production to greenhouse gas emissions from lakes is
globally relevant, yet uncertainties remain about the levels up to which methanogenesis can …

The highest CH4 production rates can be found in anoxic inland water surface sediments
however no model quantifies CH4 production following fresh particular organic matter …