Gaillard, JeremieChanudet, VincentCunillera, GuillaumeDambrine, Etienne2022-07-042022-07-042022-07-042021-10-0110.3390/w13192783https://infoscience.epfl.ch/handle/20.500.14299/188857WOS:000809874000001Transport of coarse particulate organic matter (CPOM) derived from forest litterfall has been hardly studied in rivers, unlike fine particulate organic matter (FPOM) or dissolved organic matter (DOM). Yet, many rivers are dammed or run into lakes, and there is growing evidence that CPOM accumulation in river delta participates substantially in ecological processes such as greenhouse gas emissions of lakes and reservoirs. We investigated the transport of CPOM and FPOM by the Leysse River (discharge from 0.2 to 106 m(3) s(-1)) to Lake Bourget (France) in relation to aerial litter deposition, river network length, and discharge. Over a 19-month study period, the volume-weighted mean CPOM and FPOM concentrations were 1.3 and 7.7 g m(-3,) respectively. Most CPOM and FPOM transport occurred during major flood events, and there were power relationships between maximum discharge and particulate organic matter (POM) transport during these events. The annual export of CPOM (190 t AFDM) was 85% of the litter accumulation in autumn on permanent sections of the riverbed (224 t AFDM), which suggests that export is a major process compared to breakdown. Export of CPOM was 1.25 t yr(-1) km(-2) of the forested catchment area. This study highlights the need to account for long-range CPOM transport to describe the fate of litter inputs to streams and to quantify the organic matter input and processing in lakes and reservoirs.Environmental SciencesWater ResourcesEnvironmental Sciences & Ecologyforest litterfallcpomfpomrivertransportlakeleaf-litter breakdownallochthonous inputforestcarbondecompositionretentiondynamicsexporttemperatureparticlestext::journal::journal article::research article