Compost is a bio-sustainable material produced by the controlled
decomposition of the organic wastes. Composting can be employed for the urban
organic waste treatment in alternative to incineration or landfill disposal [1]. The
properties of compost are closely related to the presence of humic-like substances
(HS). Both fulvic acids (FA) and humic acids (HA) contain a significant amount of
carboxylic acids and phenolic groups that are responsible for some of their properties
like solubility and ability to complex metal ions [2].
In the scope of the project Res2ValHum [3], composts produced from different
feedstock were analysed and compared regarding the ability of the FA and the HA
extracts to bind Cd2+. The free cadmium ion concentration was measured using the
electroanalytical technique AGNES (absence of gradients and Nernstian equilibrium
stripping) [4]. The cadmium binding by FA and HA extracts of two compost samples:
compost of algae (CA) and compost of sludge sewage (CSS) is illustrated in Figure 1.
Results indicate that the extent of the binding of cadmium by FA is similar despite the
nature of the compost. In opposition, the HA extracts from the algae compost exhibit a
larger capacity to bind cadmium ion in comparison to the extracted from the sludge
sewage compost. These results indicate that the nature of the feedstock seem to affect
more the structure of the HA (in comparison to the FA) formed during the composting
process. The chemical characterization of these extracts by different analytical
techniques are in course in order to fully understand the referred effect.0366_RES2VALHUM_1_P - Valorização de resíduos orgânicos: produção de substâncias húmicas, cofinanciada pelo Fundo Europeu de Desenvolvimento regional (FEDER) através do Programa INTERREG V-A Espanha-Portugal (POCTEP) 2014-202
