Irene Bollati

Assessment and Selection of Geomorphosites and Trails in the Miage Glacier Area (Western Italian Alps)

Glacial environments are considered geomorphosites because they exhibit all of the features that characterise sites of geomorphological interest. The Miage Glacier, in particular, is the most important debris-covered glacier of the Italian Alps, and it has been extensively studied since the 18th century because of its scientific features. In this area, the geomorphological and geological attributes are evaluated at 11 sites that have been individuated along the three main touristic trails, which allow an exploration of the surroundings of the glacial tongue and its two main lobes. Using a methodology previously tested in a fluvial environment, single sites and trails are quantitatively assessed to determine the most suitable trail for educational purposes. Hazards that could potentially affect the trails are considered in terms of both risk education and final selection of the most suitable trails for the various possible user groups. The richness of scientific data in this area should increase its importance as a geomorphosite by increasing the educational value of the Miage Glacier and the Veny Valley.

Landforms and geomorphosites ongoing changes: concepts and implications for geoheritage promotion.

Abstract The promotion of geological and geomorphological heritage is growing in importance for educational initiatives. The constantly increasing interest towards changing landforms due to changing climate conditions asks not only for improving the values of the cultural proposals but also for précising the subject of the discussion. Cultural trails and natural resources valorisation are more and more frequently based on the concept of geomorphosite, which is strictly linked to landform typology definitions. In sensitive areas, changing geomorphosites are considered of great interest as a typical response to changes in climate. In this paper, on the basis of recent research, we discuss the definitions of landforms and geomorphosites activity in relation to surface processes dynamics. In addition, we discuss the implications of geomorphological surface processes for geomorphosite evolution and degradation and their consequent impact on related valorisation activities. We indicate how both active and passive landforms, and therefore geomorphosites, are of great interest for scientific, educational and tourism purposes.

The role of Ecological Value in Geomorphosite assessment for the Debris-Covered Miage Glacier (Western Italian Alps) based on a review of 2.5 centuries of scientific study

Ecological attributes of geomorphosites play a significant role as one of the characteristic components of their scientific value, hence influencing their global value. Ecological attributes can, however, act independently and inform other attributes which characterise scientific and additional values and the sites potential for use. Within the framework of active geomorphosites, environmental changes and recent dynamics can be reconstructed through tree-ring analysis. Glacial geomorphosites are one of the most significant examples of this biotic–abiotic relationship. Among glacial geomorphosites, debris-covered glaciers represent key sites at which to evaluate an ecological attribute. The Miage Glacier, the most representative Italian debris-covered glacier, is an important site for multidisciplinary scientific research, enhancing its global value as a complex geomorphosite. The Miage Glacier has been selected as a study site, firstly to characterise the evolution of scientific research across the last 250 years and then to quantify the ecological support role (ESR) and its influence on the other attributes. The ESR’s importance in assessing global geomorphosite values was estimated by studying its variation and the variation of the related attributes as a consequence of an increase in scientific knowledge over time. The ESR variation displays a positive effect on scientific value, in particular, and generates more differentiation between defined sites and visitor trails, thus influencing site selection.

Runoff Impact on Active Geomorphosites in Unconsolidated Substrate. A Comparison Between Landforms in Glacial and Marine Clay Sediments: Two Case Studies from the Swiss Alps and the Italian Apennines

The cultural value of geomorphological heritage (i.e., geomorphosites) is universally recognised and at the same time the interest on its mutability, as a consequence of both natural-climate and human pressure, is growing. In some cases a sudden increase in the velocity of processes can cause irreversible modifications threatening the survival of sites as well as their scientific value in terms of integrity. The focus of this paper is put on two types of geomorphosites (active geomorphosites and evolving passive geomorphosites), in which it is possible to observe and quantify the geomorphological processes varying mainly as a response to climate change. The study cases are runoff-derived landforms on unconsolidated deposits in two morphoclimatic contexts: ‘calanchi’ on marine originated clays in the Italian Apennines in Mediterranean climatic context (Crete d’Arbia and Radicofani, Tuscany) and earth pyramids formed in glacial deposits in continental Alpine environment (Pyramides d’Euseigne, Canton Valais, Switzerland). In both sites, human activities have strongly contributed to landscape evolution. To investigate erosion rates, dendrogeomorphological analysis (i.e. stress indicators and root exposure analysis) were combined with traditional quantitative geomorphological techniques. Analysis of the roots exposure, well correlated with the climatic data (denudation rates are higher during wet period), show that denudation rates are lower at Pyramides d’Euseigne due to the different texture of the deposits. Unfortunately, at the moment, a comparison between the two sites based on geomorphological monitoring data is not possible due to the different time interval of analysis, and only conclusions on denudation rates coming from roots exposure are allowed. Both geomorphosites have a high scientific value (representativeness and educational exemplarity) and are characterised by dynamicity. Providing data for modelling the sites evolution and possible decrease of their scientific value, caused by proceeding of the process itself, may be particularly significant.

Geomorphological mapping for the valorization of the alpine environment. A methodological proposal tested in the Loana Valley (Sesia Val Grande Geopark, Western Italian Alps)

Geomorphological mapping plays a key role in landscape representation: it is the starting point for many applications and for the realization of thematic maps, such as hazard and risk maps, geoheritage and geotourism maps. Traditional geomorphological maps are useful for scientific purposes but they need to be simplified for different aims as management and education. In tourism valorization, mapping of geomorphological resources (i.e., geosites, and geomorphosites), and of geomorphic evidences of past hazardous geomorphological events, is important for increasing knowledge about landscape evolution and active processes, potentially involving geomorphosites and hiking trails. Active geomorphosites, as those widespread in mountain regions, testify the high dynamicity of geomorphic processes and their link with climatic conditions. In the present paper, we propose a method to produce and to update cartographic supports (Geomorphological Boxes) realized starting from a traditional geomorphological survey and mapping. The Geomorphological Boxes are geomorphological representation of single, composed or complex landforms drawn on satellite images, using the official Italian geomorphological legend (ISPRA symbols). Such cartographic representation is also addressed to the analysis (identification, evaluation and selection) of Potential Geomorphosites and Geotrails. The method has been tested in the upper portion of the Loana Valley (Western Italian Alps), located within the borders of the Sesia Val Grande Geopark, recognized by UNESCO in 2013. The area has a good potential for geotourism and for educational purposes. We identified 15 Potential Geomorphosites located along 2 Geotrails; they were ranked according to specific attributes also in relation with a Reference Geomorphosite located in the Loana hydrographic basin and inserted in official national and regional databases of geosites (ISPRA; Regione Piemonte). Finally, the ranking of Potential Geomorphosites allowed to select the most valuable ones for valorization or geoconservation purposes. In this framework, examples of Geomorphological Boxes are proposed as supports to geo-risk education practices.

Geoheritage and sport climbing activities: using the Montestrutto cliff (Austroalpine domain, Western Alps) as an example of scientific and educational representativeness

Numerous sites of geological and geomorphological interest (i.e., geosites or geomorphosites) have been recently individuated around the Alps, testifying to the great geodiversity that characterises this mountain range. Some rock cliffs that have been locally equipped as sport climbing sites may also be considered as sites of geological and geomorphological interest: the combination of features such as educational exemplarity and geohistorical importanceincrease the scientific value of these sites. Progression along climbing routes is intimately connected with the geological and geomorphological features of the cliff; thus, it may be possible to interest typical climbers in the area of the Earth Sciences.A research study was conducted at the Montestrutto climbing wall (Western Alps, Italy), which is located in the Eclogitic Micaschist Complex of the Austroalpine Domain, with the following objectives: i) to reconstruct the deformation stages at local scales along the sport climbing wall and in the surroundings; ii) to analysehow geological elements are related to the physical elements needed for vertical progression to strengthen the link among geology, morphology and the grade of the routes, and finally iii) to use previous results to evaluate the potential of Montestrutto as a geosite. The detailed study consisted of the quantitative analysis of five routes of varying degrees of difficulty, which produced an interesting relationship among the level of difficulty of the routes and the geological and geomorphological features of the sport climbing wall. The Montestrutto cliff is considered to be a valuable geosite because of the scientific importance (e.g., representativeness, educational exemplarity and geohistorical importance) associated with its high cultural and socio-economic value and high potential for use. Sport climbing in sites such as Montestrutto, which are both scientifically significant and accessible, also in terms of the level of climbing difficulty, could be considered as a possible vehicle for stimulating public interest in the Earth Sciences.

Earth Sciences on the field: educational applications for the comprehension of landscape evolution

The aim of this paper is to collect and present some educational applications dedicated to the observation and comprehension of the relief and physical landscape evolution at different temporal and spatial scales. The activities were based on the direct contact with the geological-geomorphological contexts. The presented proposals, some of which have been already tested on students of the secondary school of first level, concern: i) the realization of open-air laboratory activities in the alpine environment; in particular simplified dendrochronological procedures were used on scanned wood samples of trees located on deposits and landforms from different origin, to achieve a better comprehension of the modelling process and evolution during time of the physical landscape; ii) the analysis of the fluvial landforms and deposits in educational valued sites to highlight concepts of structural control on fluvial landscape and paleogeography; iii) the observation of sport-climbing walls and of the dependence of progression on the geological and geomorphological structures in order to approach lithotypes and glacial erosion landforms. The link with the concept of geomorphological hazard represented finally an occasion for education to risk. The educational activities herein illustrated represent pilot proposals where fieldwork demonstrated to be essential to fix geological and geomorphological concepts.

High-Resolution Monthly Precipitation Fields (1913–2015) over a Complex Mountain Area Centred on the Forni Valley (Central Italian Alps)

Mountain environments are extremely influenced by climate change but are also often affected by the lack of long and high-quality meteorological data, especially in glaciated areas, which limits the ability to investigate the acting processes at local scale. For this reason, we checked a method to reconstruct high-resolution spatial distribution and temporal evolution of precipitation. The study area is centred on the Forni Glacier area (Central Italian Alps), where an automatic weather station is present since 2005. We set up a model based on monthly homogenised precipitation series and we spatialised climatologies and anomalies on a 30-arc-second-resolution DEM, using Local Weighted Linear Regression (LWLR) and Regression Kriging (RK) of precipitation versus elevation, in order to test the most suitable approach for this complex terrain area. The comparison shows that LWLR has a better reconstruction ability for winter while RK slightly prevails during summer. The results of precipitation spatialisation were compared with station observations and with data collected at the weather station on Forni Glacier, which were not used to calibrate the model. A very good agreement between observed and modelled precipitation records was pointed out for most station sites. The agreement is lower, but encouraging, for Forni Glacier station data.

Landscapes of Northern Lombardy: From the Glacial Scenery of Upper Valtellina to the Prealpine Lacustrine Environment of Lake Como

In the region between Valtellina and Lake Como in the Central Italian Alps, one can visit, in a relatively small area, some of the best examples of mountain geomorphological landscapes of Italy. Eight specific sites—showing peculiar glacial, periglacial, structural, gravity-induced and erosional landforms—have been selected to illustrate how different landscapes may originate from geomorphological modelling of different lithotypes in different morphogenetic systems. These eight sites are exemplary cases in which significant evidence of past and current climatic and structural conditions characterising this region is exhibited.

Directions in Geoheritage Studies: Suggestions from the Italian Geomorphological Community

In recent years, more and more attention has been focused on geological and geomorphological heritage. This has led to several investigations within the framework of conservation projects, both at administrative and scientific levels, involving national and international research groups whose purposes are the promotion of Earth Sciences knowledge and the conservation of geological heritage. This paper presents an overview of research and conservation projects in Italy, focusing mainly on geomorphological heritage. Members of the AIGeo Working Group on “Geomorphosites and cultural landscape” analysed the historical development of these research projects in order to identify possible innovation strategies to improve the awareness and knowledge of geodiversity and geoheritage of a wider public.