GEOBASI: The geochemical Database of Tuscany Region (Italy)

Autor: Giuseppe Protano, Stefano Menichetti, Barbara Nisi, Stefano Romanelli, Manuela Corongiu, Patrizia Macera, Guido Lavorini, Riccardo Mari, Giulio Masetti, Antonella Buccianti, Brunella Raco, Francesco Manetti
Rok vydání: 2015
Předmět:
Zdroj: Acque Sotterranee, Vol 4, Iss 1 (2015)
Acque sotterranee 4 (2015): 7–18. doi:10.7343/AS-100-15-0127
info:cnr-pdr/source/autori:Raco B.[2], Buccianti A.[1], Corongiu M.[3], Lavorini G.[7], Macera P.[8], Manetti F.[3], Mari R.[4], Masetti G.[2], Menichetti S.[5], Nisi B.[2], Protano G.[6], Romanelli S.[3]/titolo:GEOBASI: The geochemical Database of Tuscany Region (Italy)/doi:10.7343%2FAS-100-15-0127/rivista:Acque sotterranee/anno:2015/pagina_da:7/pagina_a:18/intervallo_pagine:7–18/volume:4
ISSN: 2280-6458
1828-454X
DOI: 10.7343/as-100-15-0127
Popis: In this study the new Regional Geochemical Database (RGDB), called GEOBASI, is presented and illustrated in the framework of a joint collaboration among the three Tuscan universities (Florence, Pisa and Siena), CNR-IGG (Institute of Geosciences and Earth Resources of Pisa), ARPAT (Regional Agency for the Environmental Protection), LAMMA (Environmental Modelling and Monitoring Laboratory for Sustainable Development) Consortium and S.I.R.A. (Territorial and Environmental Informative System of Tuscany). The database has permitted the construction of a repository where the geochemical information (compositional and isotopic) has been stored in a structured way so that it can be available for different groups of users (e.g. institutional, public and private companies). The information contained in the database can in fact be downloaded freely and queried to correlate geochemistry to other non compositional variables. The first phase of the project was aimed at promoting the use of the geochemical data already available from previous investigations through a powerful Web-GIS interface to implement the exploratory statistics graphical-numerical tools used to: 1) analyse the spatial variability of the investigated context, 2) highlight the geographic location of data pertaining to classes of values or single cases, 3) compare the results of different analytical methodologies applied to the determination of the same element and/or chemical species, 4) extract the geochemical data related to specific monitoring plans and/or geographical areas, and finally 5) recover information about data below the detection limit to understand their impact on the behaviour of the investigated variable. Developments of this project will be focused on the definition of rules and standardized methods in a way that external users could also interactively pursue the RGDB. Furthermore, a detailed investigation of the Scarlino-Follonica plain will permit the improvement and test of statistical and geostatistical methods, using open source software (QGIS and R) to support the process of evaluation of the geochemical baseline.
Databáze: OpenAIRE