Optical resilience of the Paraíba do Sul River (Brazil) during a toxic spill of a wood-pulping factory: the Cataguazes accident.

This study investigates the inherent optical properties (IOP) of a Brazilian river during a non-natural, anthropogenically mediated, toxic spill of a wood-pulping factory (the 'Cataguazes accident'). The results indicated an outstanding transformation in the river water chromophoric dissolved organic matter (CDOM) pools. For instance, increases in CDOM absorption coefficients, a(CDOM)(lambda), which were averaged at specific spectral intervals, [see text], ranged from 58-fold at the UV-B and UV-A ranges to 95-fold at the PAR range. As a result, the water color expressed as CDOM absorption at 440 nm, a(CDOM (440), varied from 4.16 to 365.03 m(-1). For S-coefficient, the variations ranged from approximately 1.1 to 5.6-fold, respectively, at the 300-650 nm and UV-B range. The variability of S as a proxy of dissolved chromophores was thus clearly influenced by the spectral range used. Optical proportions were also investigated through the use of [see text] and S ratios at the UV-B, UV-A, and PAR ranges and, in the case of [see text], also at the NIR range. This approach also showed clear variations between the water samples, likely reflecting changes in the composition of optically active substances in the river system. As a whole, the findings obtained here indicated that both the quantity and quality of the chromophoric material dissolved in the river water were greatly altered by the toxic spill. The changes in the optical properties of the river water, although extreme and likely with no parallel in the literature, were quite rapid as indicated by the optical resilience of the system. Overall, this study indicates that IOP might be thought, and possibly used, as a metric tool for monitoring the state of waters and aquatic ecosystems.