Application of surface analytical methods for hazardous situation in the Adriatic Sea: monitoring of organic matter dynamics and oil pollution

Surface analytical methods are applied to examine the environmental status of seawaters. The present overview emphasizes advantages of combining surface analytical methods, applied to a hazardous situation in the Adriatic Sea, such as monitoring of the first aggregation phases of dissolved organic m...

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Bibliographic Details
Published in:Natural hazards and earth system sciences 2017-01, Vol.17 (1), p.31-44
Main Authors: Pletikapić, Galja, DeNardis, Nadica Ivošević
Format: Article
Language:English
Subjects:
Aggregation
Analytical methods
Atomic force microscopy
Bioavailability
Chemical analysis
Coastal management
Coastal zone
Coastal zone management
Decades
Dissolved organic matter
Electrochemistry
Electrolytes
Environmental aspects
Environmental cleanup
Environmental management
Environmental protection
Fisheries
Fourier transforms
Hazardous substances
Knowledge management
Marine environment
Mathematical analysis
Measurement techniques
Mercury
Microscopy
Mucilage
Mucilages
Oil pollution
Oil spills
Organic constituents
Pollution monitoring
Seawater
Tourism
Visualization
Water analysis
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Summary:Surface analytical methods are applied to examine the environmental status of seawaters. The present overview emphasizes advantages of combining surface analytical methods, applied to a hazardous situation in the Adriatic Sea, such as monitoring of the first aggregation phases of dissolved organic matter in order to potentially predict the massive mucilage formation and testing of oil spill cleanup. Such an approach, based on fast and direct characterization of organic matter and its high-resolution visualization, sets a continuous-scale description of organic matter from micro- to nanometre scales. Electrochemical method of chronoamperometry at the dropping mercury electrode meets the requirements for monitoring purposes due to the simple and fast analysis of a large number of natural seawater samples enabling simultaneous differentiation of organic constituents. In contrast, atomic force microscopy allows direct visualization of biotic and abiotic particles and provides an insight into structural organization of marine organic matter at micro- and nanometre scales. In the future, merging data at different spatial scales, taking into account experimental input on micrometre scale, observations on metre scale and modelling on kilometre scale, will be important for developing sophisticated technological platforms for knowledge transfer, reports and maps applicable for the marine environmental protection and management of the coastal area, especially for tourism, fishery and cruiser trafficking.
ISSN:1684-9981
1561-8633
1684-9981
DOI:10.5194/nhess-17-31-2017