RESUMO
We examined long-term response (2008-2017) of the macrobenthos to the Hebei Spirit oil spill that occurred around the Taean coast, Korea, in December 2007. Oil concentrations were below the Korea/US environmental standards as of January 2008. Organic matter, chlorophyll-a, and zooplankton abundance dominated by Noctiluca scintillans were higher after the spill. Macrobenthic diversity recovered to pre-incident (2007) level in 2011. Biomass exceeded that level in 2011 and the increase prolonged for 5 years. Cross-correlation and regression analyses showed that chlorophyll-a at year t and zooplankton abundance at t-2 had a significant relationship with macrobenthic biomass at t (p < 0.05 for both), suggesting the transfer of increased organic matter (transformed from crude oil within the pelagic ecosystem) into the benthic ecosystem. Coastal wetlands around the incident area, vulnerable to oil pollution and slowly remobilizing accumulated oil, seemed to affect pelagic ecosystem processes and the unexpectedly increased and sustained biomass.
Assuntos
Poluição por Petróleo , Petróleo , Poluição por Petróleo/análise , Ecossistema , Estudos Longitudinais , Coreia (Geográfico) , Clorofila/análise , Clorofila A/análise , Petróleo/análise , República da CoreiaRESUMO
Hyperpigmentation is caused by excessive production of melanin in melanocytes. Mannosylerythritol lipids (MELs) are glycolipid biosurfactants that are abundantly produced by yeasts and used commercially in cosmetics. However, the potential depigmenting efficacy of MELs has not been evaluated. In this study, the depigmentary effect of MELs was tested in primary normal human melanocytes (NHMs), α-melanocyte-stimulating hormone (MSH)-stimulated B16 cells (murine melanoma cells) and a human skin equivalent (MelanoDerm) using photography, Fontana-Masson (F&M) staining and two-photon microscopy. Mannosylerythritol lipids significantly decreased the melanin contents in NHMs and α-MSH-stimulated B16 cells. Consistent with these findings, MELs treatment had a clear whitening effect in a human skin equivalent, brightening the tissue colour and reducing the melanin content. The molecular mechanism underlying the anti-melanogenic effect of MELs treatment was examined by real-time PCR and Western blotting. Mechanistically, MELs clearly suppressed the gene expression levels of representative melanogenic enzymes, including tyrosinase, Tyrp-1 and Tyrp-2, by inhibiting the ERK/CREB/MiTF signalling pathway in NHMs. This work demonstrates for the first time that MELs exert whitening effects on human melanocytes and skin equivalent. Thus, we suggest that MELs could be developed as a potent anti-melanogenic agent for effective whitening, beyond their use as a biosurfactant in cosmetics.