In the current context of declining forest health, forest carbon (C) uptake and stocks are expected to decline due to an increase in tree mortality and autotrophic respiration. However, it remains unclear whether the amount of terrestrial C stock exported through runoff (mainly as CO2 and dissolved organic carbon (DOC)), which represents a significant fraction of the annual C balance of headwater catchments, and the underlying processes will also be altered. This is because a clear assessment of the sources of CO2 and DOC, the related biogeochemical pathways and the associated timescales are still to be fully resolved.
In the FORFUS-RT1.4 project, we will investigate how C export, its sources and biogeochemical pathways change under drought conditions in a forested headwater catchment in Luxembourg. The work will be carried out in the Weierbach catchment, where the water fluxes and physico-chemical parameters of soil, ground and stream water are intensively monitored. Water sources will be sampled for a radiocarbon (14C) characterization of CO2 and DOC, and particulate matter for C and nitrogen stable isotope analyses. The DC will be involved in the rain exclusion experiment in collaboration with FORFUS-RT1.2.
The scientific knowledge generated in this project will help determine the effect of drought and heat-related forest decay on stream carbon export.
About Nuria Martinez Carreras
I am a Senior Researcher in experimental hydrology. My work primarily focuses on deciphering water, solutes and sediment mobilization and transport processes from headwaters to downstream locations. I aim to contribute to better understanding rainfall runoff transformation processes at catchment scale and I have a growing interest in the role of streams in the carbon (C) cycle. I believe my expertise in catchment hydrology and sediment transport can help decipher some of the unanswered questions we have about the transfer of particulate, dissolved and gaseous C in headwater streams.
Skills & Expertise