253 research outputs found
Biodiversity in Metal-Contaminated Sites – Problem and Perspective – A Case Study
Summary 1. Introduction. 1.1 Biodiversity in metal-contaminated sites. 1.2 Selecting native fungi and plants for bioremediation. 2. Case study \u2013 Multidisciplinary investigations on biodiversity into a sulphide-rich waste-rock dump. Conclusion: The enormous potential of native fungi and plants that are able to colonize metal-contaminated soils need to be studied in-depth in order to preserve the natural genetic resources of metalliferous habitats and to increase our basic knowledge about the natural adaptation mechanisms of hyperaccumulators in order to employ them in phytoremediation purposes
Tomato (Solanum lycopersicum L.) accumulation and allergenicity in response to nickel stress
Vegetables represent a major source of Ni exposure. Environmental contamination and cultural practices can increase Ni amount in tomato posing significant risk for human health. This work assesses the tomato (Solanum lycopersicum L.) response to Ni on the agronomic yield of fruits and the related production of allergens. Two cultivars were grown in pots amended with Ni 0, 30, 60, 120, and 300 mg kg 121, respectively. XRF and ICP-MS analyses highlighted the direct increase of fruit Ni content compared to soil Ni, maintaining a stable biomass. Leaf water content increased at Ni 300 mg kg 121. Total protein content and individual allergenic components were investigated using biochemical (RP-HPLC and N-terminal amino acid sequencing) and immunological (inhibition tests of IgE binding by SPHIAa assay on the FABER testing system) methodologies. Ni affected the fruit tissue concentration of pathogenesis-related proteins and relevant allergens (LTP, profilin, Bet v 1-like protein and TLP). This study elucidates for the first time that tomato reacts to exogenous Ni, uptaking the metal while changing its allergenic profiles, with potential double increasing of exposure risks for consumers. This evidence highlighted the importance of adequate choice of low-Ni tomato cultivars and practices to reduce Ni uptake by potentially contaminated matrices
Mineralogical and geochemical characterisation of open-air tailing and waste-rock dumps from the Libiola Fe-Cu sulphide mine (Eastern Liguria, Italy)
Active acid mine drainage (AMD) processes at
the Libiola Fe-Cu sulphides mine are mainly triggered by
water–rock interaction occurring within open-air tailing
and waste-rock dumps. These processes are mainly controlled
by exposure to weathering agents, the grain size of
the dumped materials, and by the quantity of sulphides, the
sulphide types, and their mode of occurrence. Due to these
factors, several paragenetic stages of evolution have been
recognised at different depths at different sites and within
the same site. The dump samples were investigated with
mineralogical (reflected- and transmitted-light optical
microscopy, XRPD, and SEM-EDS) and geochemical
(ICP-AES, Leco) techniques. The AMD evaluation of the
tailing and waste-rock samples was performed by calculating
the Maximum Potential Acidity, the Acid Neutralising
Capacity, (and the Net Acid Producing Potential. The
results allowed us to demonstrate that the open-air tailings
had already superseded their AMD apex and are now
practically inert material composed mainly of stable goethite
± lepidocrocite ± hematite assemblages. On the contrary,
the sulphide-rich waste rocks still have a strong
potential to produce long term AMD, causing the acidification
of circulating waters and the release of several
hazardous elements
Glucose and Fatty Acid Metabolism in a 3 Tissue In-Vitro Model Challenged with Normo- and Hyperglycaemia
Nutrient balance in the human body is maintained through systemic signaling between different cells and tissues. Breaking down this circuitry to its most basic elements and reconstructing the metabolic network in-vitro provides a systematic method to gain a better understanding of how cross-talk between the organs contributes to the whole body metabolic profile and of the specific role of each different cell type. To this end, a 3-way connected culture of hepatocytes, adipose tissue and endothelial cells representing a simplified model of energetic substrate metabolism in the visceral region was developed. The 3-way culture was shown to maintain glucose and fatty acid homeostasis in-vitro. Subsequently it was challenged with insulin and high glucose concentrations to simulate hyperglycaemia. The aim was to study the capacity of the 3-way culture to maintain or restore normal circulating glucose concentrations in response to insulin and to investigate the effects these conditions on other metabolites involved in glucose and lipid metabolism. The results show that the system’s metabolic profile changes dramatically in the presence of high concentrations of glucose, and that these changes are modulated by the presence of insulin. Furthermore, we observed an increase in E-selectin levels in hyperglycaemic conditions and increased IL-6 concentrations in insulin-free-hyperglycaemic conditions, indicating, respectively, endothelial injury and proinflammatory stress in the challenged 3-way system
- …