Carlo Alberto Garzonio

Groundwater Modeling of Fractured Aquifers in Mines: The Case Study of Gavorrano (Tuscany, Italy)

In this paper, we describe the hydrogeological problems related to the closure of the mine at Gavorrano (Tuscany, Italy). The geological and geo-structural settings of the Gavorrano area affect the groundwater flow systems and their chemical composition; hence, the settings also affect the chance and modalities to rehabilitate and re-utilize these water resources. This paper reports the results of studies, analyses of existing data and the consequent implementation of preliminary numerical models with particular reference to the effects of controlled water recovery and the complex measures required for stopping dewatering. The study incorporates recent data and the available historical records in an analysis of the hydrodynamic impact of water recovery and an assessment of the consequences of water recovery for water resources restoration. The applied numerical simulations have been demonstrated to be a promising and effective tool for planning and managing the future applications of groundwater recovery in the Gavorrano mining area. Using these applications, it will be possible to implement mitigation measures and types of re-use that consider thermal, chemical and discharge features.

Geomorphology of Mount Ararat/Ağri Daği (Ağri Daği Milli Parki, Eastern Anatolia, Turkey)

ABSTRACT This paper presents a geomorphological map of Mount Ararat/Ağri Daği in Eastern Anatolia (Turkey). Mount Ararat/Ağri Daği is a volcanic complex covered by a unique ice cap in the Near East. The massif is the result of multiple volcanic phases, and present day landforms are the result of subsequent and overlapping glacial, periglacial, and slope processes. The geomorphological mapping of Mount Ararat/Ağri Daği was firstly performed on the basis of desktop studies, by applying remote-sensing investigations using high-resolution satellite imagery (PLEIADES and SPOT images). A preliminary draft of the map was crosschecked and validated in the field as part of an interdisciplinary campaign carried out in the 2014 summer season. All the collected data suggest that the Mount Ararat/Ağri Daği glaciation played a crucial role in the evolution of the landscape and that even today glaciers are significant features in this area. Currently, ice bodies cover 7.28 km2 and include peculiar glacier types. Among these are three well-developed debris-covered glaciers, flowing down along the flanks of the volcano.

Restoration of a Sandstone Facade: From the Project to the Monitoring

This work describes the restoration of a facade of an historical building, constructed from typical local sandstone, characterized by different subsequent decay phenomena and subjected in the past to a conservation treatment. The sandstone was characterized, the quarry of provenance was identified, and the causes of the different decay phenomena were investigated. Potential commercial products for the restoration were tested first in the laboratory, then in situ selected products were applied and the effectiveness of treatment was subsequently monitored. Analytical methodologies such as x-ray diffraction (XRD), observation of thin sections under polarized microscope (OM), Fourier transform infrared spectroscopy (FT-IR), micro-Raman spectroscopy, and water absorption tests were employed in the laboratory, while nondestructive tests, performed with portable instrumentation such as colorimeter and sponge contact, were carried out in situ.

Erratum to: Contemporary Reviews of Mine Water Studies in Europe, Part 1

Erratum to: Mine Water and the Environment (2004)23:162–182DOI 10.1007/s10230-004-0060-0The names of some of the authors of this section wereinadvertently omitted in the original publication. We regretthis omission and provide all of the authors’ names here:Wolkersdorfer, Christian; Bowell, Rob; Amezaga, JaimeM.; Kroll, Adeline; Jarvis, Adam P.; Rees, Ben; Puura,Erik; Misere´, Wiel M. H.; Wings, Roy W. M. G.; Bajto,Peter; Weber, Leopold; Sa´rva´ryne´-Szentkatolnay, Blanka;Garzonio, Carlo Alberto; Younger, Paul L.

Bacterial diversity in snow from mid-latitude mountain areas: Alps, Eastern Anatolia, Karakoram and Himalaya

ABSTRACT Snow can be considered an independent ecosystem that hosts active microbial communities. Snow microbial communities have been extensively investigated in the Arctic and in the Antarctica, but rarely in mid-latitude mountain areas. In this study, we investigated the bacterial communities of snow collected in four glacierized areas (Alps, Eastern Anatolia, Karakoram and Himalaya) by high-throughput DNA sequencing. We also investigated the origin of the air masses that produced the sampled snowfalls by reconstructing back-trajectories. A standardized approach was applied to all the analyses in order to ease comparison among different communities and geographical areas. The bacterial communities hosted from 25 to 211 Operational Taxonomic Units (OTUs), and their structure differed significantly between geographical areas. This suggests that snow bacterial communities may largely derive from ‘local’ air bacteria, maybe by deposition of airborne particulate of local origin that occurs during snowfall. However, some evidences suggest that a contribution of bacteria collected during air mass uplift to snow communities cannot be excluded, particularly when the air mass that originated the snow event is particularly rich in dust.