Dynamics of Soil CO2 Efflux and Vertical CO2 Production in a European Beech and a Scots Pine Forest

Abstract: The conversion of coniferous forest to deciduous forest is accompanied by changes in the vertical distribution of fine roots and soil organic carbon (SOC) content. It is unclear how these changes affect soil CO2 efflux and vertical soil CO2 production, considering changing climate. Here, we present the results of a 6-year study on CO2 efflux, covering relatively warm-dry and cool-wet years. A combination of the flux-gradient method and closed chamber measurements was used to study the CO2 efflux and the vertic… Show more

“…Rising temperatures are expected to stimulate CO 2 efflux by their effect on the plant-soil system (Bond-Lamberty and Thomson, 2010;Jochheim et al, 2022;Nottingham et al, 2020) and the magnitude of these responses are likely controlled by water availability (Védère et al, 2022). Water regulates plant and microbial activity, substrate availability, and soil gas diffusivity (Chen et al, 2016;McGrath et al, 2022;Wood et al, 2013).…”

Management Impacts on Whole Soil Warming Responses of Co2 Production and Efflux in Temperate Climate

“…Rising temperatures are expected to stimulate CO 2 efflux by their effect on the plant-soil system (Bond-Lamberty and Thomson, 2010;Jochheim et al, 2022;Nottingham et al, 2020) and the magnitude of these responses are likely controlled by water availability (Védère et al, 2022). Water regulates plant and microbial activity, substrate availability, and soil gas diffusivity (Chen et al, 2016;McGrath et al, 2022;Wood et al, 2013).…”

Management Impacts on Whole Soil Warming Responses of Co2 Production and Efflux in Temperate Climate

Wet and dry spell induced changes in the soil CO2 effluxes of Pine and Oak ecosystems of Central Himalaya: a comparative assessment for monsoon and winter seasons

Management impacts on whole soil warming responses of CO2 production and efflux in temperate climate