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2. Local climate modulates the development of soil nematode communities after glacier retreat

Author

Guerrieri, A, Cantera, I, Marta, S, Bonin, A, Carteron, A, Ambrosini, R, Caccianiga, M, Anthelme, F, Azzoni, R, Almond, P, Alvizgazitua, P, Cauvy-Fraunie, S, Ceballoslievano, J, Chand, P, Chandsharma, M, Clague, J, Cochachinrapre, J, Compostella, C, Cruzencarnacion, R, Dangles, O, Deline, P, Eger, A, Erokhin, S, Franzetti, A, Gielly, L, Gili, F, Gobbi, M, Hagvar, S, Khedim, N, Meneses, R, Peyre, G, Pittino, F, Proietto, A, Rabatel, A, Urseitova, N, Yang, Y, Zaginaev, V, Zerboni, A, Zimmer, A, Taberlet, P, Diolaiuti, G, Poulenard, J, Fontaneto, D, Thuiller, W, Ficetola, G, Guerrieri A., Cantera I., Marta S., Bonin A., Carteron A., Ambrosini R., Caccianiga M., Anthelme F., Azzoni R. S., Almond P., AlvizGazitua P., Cauvy-Fraunie S., CeballosLievano J. L., Chand P., ChandSharma M., Clague J., CochachinRapre J. A., Compostella C., CruzEncarnacion R., Dangles O., Deline P., Eger A., Erokhin S., Franzetti A., Gielly L., Gili F., Gobbi M., Hagvar S., Khedim N., Meneses R. I., Peyre G., Pittino F., Proietto A., Rabatel A., Urseitova N., Yang Y., Zaginaev V., Zerboni A., Zimmer A., Taberlet P., Diolaiuti G. A., Poulenard J., Fontaneto D., Thuiller W., Ficetola G. F., Guerrieri, A, Cantera, I, Marta, S, Bonin, A, Carteron, A, Ambrosini, R, Caccianiga, M, Anthelme, F, Azzoni, R, Almond, P, Alvizgazitua, P, Cauvy-Fraunie, S, Ceballoslievano, J, Chand, P, Chandsharma, M, Clague, J, Cochachinrapre, J, Compostella, C, Cruzencarnacion, R, Dangles, O, Deline, P, Eger, A, Erokhin, S, Franzetti, A, Gielly, L, Gili, F, Gobbi, M, Hagvar, S, Khedim, N, Meneses, R, Peyre, G, Pittino, F, Proietto, A, Rabatel, A, Urseitova, N, Yang, Y, Zaginaev, V, Zerboni, A, Zimmer, A, Taberlet, P, Diolaiuti, G, Poulenard, J, Fontaneto, D, Thuiller, W, Ficetola, G, Guerrieri A., Cantera I., Marta S., Bonin A., Carteron A., Ambrosini R., Caccianiga M., Anthelme F., Azzoni R. S., Almond P., AlvizGazitua P., Cauvy-Fraunie S., CeballosLievano J. L., Chand P., ChandSharma M., Clague J., CochachinRapre J. A., Compostella C., CruzEncarnacion R., Dangles O., Deline P., Eger A., Erokhin S., Franzetti A., Gielly L., Gili F., Gobbi M., Hagvar S., Khedim N., Meneses R. I., Peyre G., Pittino F., Proietto A., Rabatel A., Urseitova N., Yang Y., Zaginaev V., Zerboni A., Zimmer A., Taberlet P., Diolaiuti G. A., Poulenard J., Fontaneto D., Thuiller W., and Ficetola G. F.

Abstract

The worldwide retreat of glaciers is causing a faster than ever increase in ice-free areas that are leading to the emergence of new ecosystems. Understanding the dynamics of these environments is critical to predicting the consequences of climate change on mountains and at high latitudes. Climatic differences between regions of the world could modulate the emergence of biodiversity and functionality after glacier retreat, yet global tests of this hypothesis are lacking. Nematodes are the most abundant soil animals, with keystone roles in ecosystem functioning, but the lack of global-scale studies limits our understanding of how the taxonomic and functional diversity of nematodes changes during the colonization of proglacial landscapes. We used environmental DNA metabarcoding to characterize nematode communities of 48 glacier forelands from five continents. We assessed how different facets of biodiversity change with the age of deglaciated terrains and tested the hypothesis that colonization patterns are different across forelands with different climatic conditions. Nematodes colonized ice-free areas almost immediately. Both taxonomic and functional richness quickly increased over time, but the increase in nematode diversity was modulated by climate, so that colonization started earlier in forelands with mild summer temperatures. Colder forelands initially hosted poor communities, but the colonization rate then accelerated, eventually leveling biodiversity differences between climatic regimes in the long term. Immediately after glacier retreat, communities were dominated by colonizer taxa with short generation time and r-ecological strategy but community composition shifted through time, with increased frequency of more persister taxa with K-ecological strategy. These changes mostly occurred through the addition of new traits instead of their replacement during succession. The effects of local climate on nematode colonization led to heterogeneous but predictable patt

Published
2024

4. Heterogeneous changes of soil microclimate in high mountains and glacier forelands

Author

Marta, S, Zimmer, A, Caccianiga, M, Gobbi, M, Ambrosini, R, Azzoni, R, Gili, F, Pittino, F, Thuiller, W, Provenzale, A, Ficetola, G, Marta S., Zimmer A., Caccianiga M., Gobbi M., Ambrosini R., Azzoni R. S., Gili F., Pittino F., Thuiller W., Provenzale A., Ficetola G. F., Marta, S, Zimmer, A, Caccianiga, M, Gobbi, M, Ambrosini, R, Azzoni, R, Gili, F, Pittino, F, Thuiller, W, Provenzale, A, Ficetola, G, Marta S., Zimmer A., Caccianiga M., Gobbi M., Ambrosini R., Azzoni R. S., Gili F., Pittino F., Thuiller W., Provenzale A., and Ficetola G. F.

Abstract

Landscapes nearby glaciers are disproportionally affected by climate change, but we lack detailed information on microclimate variations that can modulate the impacts of global warming on proglacial ecosystems and their biodiversity. Here, we use near-subsurface soil temperatures in 175 stations from polar, equatorial and alpine glacier forelands to generate high-resolution temperature reconstructions, assess spatial variability in microclimate change from 2001 to 2020, and estimate whether microclimate heterogeneity might buffer the severity of warming trends. Temporal changes in microclimate are tightly linked to broad-scale conditions, but the rate of local warming shows great spatial heterogeneity, with faster warming nearby glaciers and during the warm season, and an extension of the snow-free season. Still, most of the fine-scale spatial variability of microclimate is one-to-ten times larger than the temporal change experienced during the past 20 years, indicating the potential for microclimate to buffer climate change, possibly allowing organisms to withstand, at least temporarily, the effects of warming.

Published
2023

5. Functional and Taxonomic Diversity of Anaerobes in Supraglacial Microbial Communities

Author

Pittino, F, Zawierucha, K, Poniecka, E, Buda, J, Rosatelli, A, Zordan, S, Azzoni, R, Diolaiuti, G, Ambrosini, R, Franzetti, A, Pittino F., Zawierucha K., Poniecka E., Buda J., Rosatelli A., Zordan S., Azzoni R. S., Diolaiuti G., Ambrosini R., Franzetti A., Pittino, F, Zawierucha, K, Poniecka, E, Buda, J, Rosatelli, A, Zordan, S, Azzoni, R, Diolaiuti, G, Ambrosini, R, Franzetti, A, Pittino F., Zawierucha K., Poniecka E., Buda J., Rosatelli A., Zordan S., Azzoni R. S., Diolaiuti G., Ambrosini R., and Franzetti A.

Abstract

Cryoconite holes are small ponds present on the surface of most glaciers filled with meltwater and sediment at the bottom. Although they are characterized by extreme conditions, they host bacterial communities with high taxonomic and functional biodiversity. Despite that evidence for a potential niche for anaerobic microorganisms and anaerobic processes has recently emerged, the composition of the microbial communities of the cryoconite reported so far has not shown the relevant presence of anaerobic taxa. We hypothesize that this is due to the lower growth yield of anaerobes compared to aerobic microorganisms. In this work, we aim at evaluating whether the anaerobic bacterial community represents a relevant fraction of the biodiversity of the cryoconite and at describing its structure and functions. We collected sediment samples from cryoconite holes on the Forni Glacier (Italy) and sequenced both 16S rRNA amplicon genes and 16S rRNA amplicon transcripts at different times of the day along a clear summer day. Results showed that a relevant fraction of taxa has been detected only by 16S rRNA transcripts and was undetectable in 16S rRNA gene amplicons. Furthermore, in the transcript approach, anaerobic taxa were overrepresented compared with DNA sequencing. The metatranscriptomics approach was used also to investigate the expression of the main metabolic functions. Results showed the occurrence of syntrophic and commensalism relationships among fermentative bacteria, hydrogenothrophs, and consumers of fermentation end products, which have never been reported so far in cryoconite. IMPORTANCE Recent evidence disclosed the presence of a potential niche for anaerobic microorganisms and anaerobic processes in supraglacial sediments (cryoconite), but a detailed description of the structure and functions of the anaerobic population is still lacking. This work used rRNA and mRNA sequencing and demonstrated that anaerobes are very active in these environments and represent a

Published
2023

6. Geographical variability of bacterial communities of cryoconite holes of Andean glaciers

Author

Pittino, F, Ambrosini, R, Seeger, M, Azzoni, R, Diolaiuti, G, Alviz Gazitua, P, Franzetti, A, Pittino F., Ambrosini R., Seeger M., Azzoni R. S., Diolaiuti G., Alviz Gazitua P., Franzetti A., Pittino, F, Ambrosini, R, Seeger, M, Azzoni, R, Diolaiuti, G, Alviz Gazitua, P, Franzetti, A, Pittino F., Ambrosini R., Seeger M., Azzoni R. S., Diolaiuti G., Alviz Gazitua P., and Franzetti A.

Abstract

Cryoconite holes, ponds full of melting water with sediment on the bottom, are hotspots of biodiversity on glacier surfaces and host dynamic micro-ecosystems. They have been extensively investigated in different areas of the world (e.g., the Arctic, Antarctic, Alps, and Himalaya), but so far no study has described the bacterial communities of the glaciers in the Andes, the world’s longest mountain range. In this study, we describe the bacterial communities of three small (< 2 km2) high-elevation (< 4200 m a.s.l.) glaciers of the Central Andes (Iver, East Iver and Morado glaciers) and two large (> 85 km2) glaciers of the Patagonian Andes (Exploradores and Perito Moreno glaciers) whose ablation tongues reach low altitude (< 300 m a.s.l.). Results show that the bacterial communities were generally similar to those observed in the cryoconite holes of other continents, but with few cyanobacteria (0.5% of sequences). The most abundant orders were Betaproteobacteriales, Cytophagales, Chitinophagales, Acetobacterales, Frankiales, Armatimonadales, Sphingobacteriales, Rhizobiales, Bacteroidales, Sphingomonadales, and Micrococcales. The bacterial communities differed between glaciers and both water pH and O2 concentration appeared to influence the bacterial community composition. This work thus provides the first description of the bacterial communities in cryoconite holes of South American glaciers.

Published
2023

7. Geographical variability of bacterial communities of cryoconite holes of Andean glaciers

Author

Pittino F., Ambrosini R., Seeger M., Azzoni R. S., Diolaiuti G., Alviz Gazitua P., Franzetti A., Pittino, F, Ambrosini, R, Seeger, M, Azzoni, R, Diolaiuti, G, Alviz Gazitua, P, and Franzetti, A

Subjects
cryoconite
Abstract

Cryoconite holes, ponds full of melting water with sediment on the bottom, are hotspots of biodiversity on glacier surfaces and host dynamic micro-ecosystems. They have been extensively investigated in different areas of the world (e.g., the Arctic, Antarctic, Alps, and Himalaya), but so far no study has described the bacterial communities of the glaciers in the Andes, the world’s longest mountain range. In this study, we describe the bacterial communities of three small (< 2 km2) high-elevation (< 4200 m a.s.l.) glaciers of the Central Andes (Iver, East Iver and Morado glaciers) and two large (> 85 km2) glaciers of the Patagonian Andes (Exploradores and Perito Moreno glaciers) whose ablation tongues reach low altitude (< 300 m a.s.l.). Results show that the bacterial communities were generally similar to those observed in the cryoconite holes of other continents, but with few cyanobacteria (0.5% of sequences). The most abundant orders were Betaproteobacteriales, Cytophagales, Chitinophagales, Acetobacterales, Frankiales, Armatimonadales, Sphingobacteriales, Rhizobiales, Bacteroidales, Sphingomonadales, and Micrococcales. The bacterial communities differed between glaciers and both water pH and O2 concentration appeared to influence the bacterial community composition. This work thus provides the first description of the bacterial communities in cryoconite holes of South American glaciers.

Published
2023

8. The retreat of mountain glaciers since the little ice age: A spatially explicit database

Author

Marta, S, Azzoni, R, Fugazza, D, Tielidze, L, Chand, P, Sieron, K, Almond, P, Ambrosini, R, Anthelme, F, Alviz Gazitua, P, Bhambri, R, Bonin, A, Caccianiga, M, Cauvy-Fraunie, S, Lievano, J, Clague, J, Rapre, J, Dangles, O, Deline, P, Eger, A, Encarnacion, R, Erokhin, S, Franzetti, A, Gielly, L, Gili, F, Gobbi, M, Guerrieri, A, Hagvar, S, Khedim, N, Kinyanjui, R, Messager, E, Morales-Martinez, M, Peyre, G, Pittino, F, Poulenard, J, Seppi, R, Sharma, M, Urseitova, N, Weissling, B, Yang, Y, Zaginaev, V, Zimmer, A, Diolaiuti, G, Rabatel, A, Ficetola, G, Marta S., Azzoni R. S., Fugazza D., Tielidze L., Chand P., Sieron K., Almond P., Ambrosini R., Anthelme F., Alviz Gazitua P., Bhambri R., Bonin A., Caccianiga M., Cauvy-Fraunie S., Lievano J. L. C., Clague J., Rapre J. A. C., Dangles O., Deline P., Eger A., Encarnacion R. C., Erokhin S., Franzetti A., Gielly L., Gili F., Gobbi M., Guerrieri A., Hagvar S., Khedim N., Kinyanjui R., Messager E., Morales-Martinez M. A., Peyre G., Pittino F., Poulenard J., Seppi R., Sharma M. C., Urseitova N., Weissling B., Yang Y., Zaginaev V., Zimmer A., Diolaiuti G. A., Rabatel A., Ficetola G. F., Marta, S, Azzoni, R, Fugazza, D, Tielidze, L, Chand, P, Sieron, K, Almond, P, Ambrosini, R, Anthelme, F, Alviz Gazitua, P, Bhambri, R, Bonin, A, Caccianiga, M, Cauvy-Fraunie, S, Lievano, J, Clague, J, Rapre, J, Dangles, O, Deline, P, Eger, A, Encarnacion, R, Erokhin, S, Franzetti, A, Gielly, L, Gili, F, Gobbi, M, Guerrieri, A, Hagvar, S, Khedim, N, Kinyanjui, R, Messager, E, Morales-Martinez, M, Peyre, G, Pittino, F, Poulenard, J, Seppi, R, Sharma, M, Urseitova, N, Weissling, B, Yang, Y, Zaginaev, V, Zimmer, A, Diolaiuti, G, Rabatel, A, Ficetola, G, Marta S., Azzoni R. S., Fugazza D., Tielidze L., Chand P., Sieron K., Almond P., Ambrosini R., Anthelme F., Alviz Gazitua P., Bhambri R., Bonin A., Caccianiga M., Cauvy-Fraunie S., Lievano J. L. C., Clague J., Rapre J. A. C., Dangles O., Deline P., Eger A., Encarnacion R. C., Erokhin S., Franzetti A., Gielly L., Gili F., Gobbi M., Guerrieri A., Hagvar S., Khedim N., Kinyanjui R., Messager E., Morales-Martinez M. A., Peyre G., Pittino F., Poulenard J., Seppi R., Sharma M. C., Urseitova N., Weissling B., Yang Y., Zaginaev V., Zimmer A., Diolaiuti G. A., Rabatel A., and Ficetola G. F.

Abstract

Most of the world’s mountain glaciers have been retreating for more than a century in response to climate change. Glacier retreat is evident on all continents, and the rate of retreat has accelerated during recent decades. Accurate, spatially explicit information on the position of glacier margins over time is useful for analyzing patterns of glacier retreat and measuring reductions in glacier surface area. This information is also essential for evaluating how mountain ecosystems are evolving due to climate warming and the attendant glacier retreat. Here, we present a non-comprehensive spatially explicit dataset showing multiple positions of glacier fronts since the Little Ice Age (LIA) maxima, including many data from the pre-satellite era. The dataset is based on multiple historical archival records including topographical maps; repeated photographs, paintings, and aerial or satellite images with a supplement of geochronology; and own field data. We provide ESRI shapefiles showing 728 past positions of 94 glacier fronts from all continents, except Antarctica, covering the period between the Little Ice Age maxima and the present. On average, the time series span the past 190 years. From 2 to 46 past positions per glacier are depicted (on average: 7.8).

Published
2021

9. Topsoil organic matter build-up in glacier forelands around the world

Author

Khedim, N, Cecillon, L, Poulenard, J, Barre, P, Baudin, F, Marta, S, Rabatel, A, Dentant, C, Cauvy-Fraunie, S, Anthelme, F, Gielly, L, Ambrosini, R, Franzetti, A, Azzoni, R, Caccianiga, M, Compostella, C, Clague, J, Tielidze, L, Messager, E, Choler, P, Ficetola, G, Khedim N., Cecillon L., Poulenard J., Barre P., Baudin F., Marta S., Rabatel A., Dentant C., Cauvy-Fraunie S., Anthelme F., Gielly L., Ambrosini R., Franzetti A., Azzoni R. S., Caccianiga M. S., Compostella C., Clague J., Tielidze L., Messager E., Choler P., Ficetola G. F., Khedim, N, Cecillon, L, Poulenard, J, Barre, P, Baudin, F, Marta, S, Rabatel, A, Dentant, C, Cauvy-Fraunie, S, Anthelme, F, Gielly, L, Ambrosini, R, Franzetti, A, Azzoni, R, Caccianiga, M, Compostella, C, Clague, J, Tielidze, L, Messager, E, Choler, P, Ficetola, G, Khedim N., Cecillon L., Poulenard J., Barre P., Baudin F., Marta S., Rabatel A., Dentant C., Cauvy-Fraunie S., Anthelme F., Gielly L., Ambrosini R., Franzetti A., Azzoni R. S., Caccianiga M. S., Compostella C., Clague J., Tielidze L., Messager E., Choler P., and Ficetola G. F.

Abstract

Since the last glacial maximum, soil formation related to ice-cover shrinkage has been one major sink of carbon accumulating as soil organic matter (SOM), a phenomenon accelerated by the ongoing global warming. In recently deglacierized forelands, processes of SOM accumulation, including those that control carbon and nitrogen sequestration rates and biogeochemical stability of newly sequestered carbon, remain poorly understood. Here, we investigate the build-up of SOM during the initial stages (up to 410 years) of topsoil development in 10 glacier forelands distributed on four continents. We test whether the net accumulation of SOM on glacier forelands (i) depends on the time since deglacierization and local climatic conditions (temperature and precipitation); (ii) is accompanied by a decrease in its stability and (iii) is mostly due to an increasing contribution of organic matter from plant origin. We measured total SOM concentration (carbon, nitrogen), its relative hydrogen/oxygen enrichment, stable isotopic (13C, 15N) and carbon functional groups (C-H, C=O, C=C) compositions, and its distribution in carbon pools of different thermal stability. We show that SOM content increases with time and is faster on forelands experiencing warmer climates. The build-up of SOM pools shows consistent trends across the studied soil chronosequences. During the first decades of soil development, the low amount of SOM is dominated by a thermally stable carbon pool with a small and highly thermolabile pool. The stability of SOM decreases with soil age at all sites, indicating that SOM storage is dominated by the accumulation of labile SOM during the first centuries of soil development, and suggesting plant carbon inputs to soil (SOM depleted in nitrogen, enriched in hydrogen and in aromatic carbon). Our findings highlight the potential vulnerability of SOM stocks from proglacial areas to decomposition and suggest that their durability largely depends on the relative contributio

Published
2021

11. Effects of locality and stone surface structure on the distribution of Collembola inhabiting a novel habitat – the stone-ice border on an alpine glacier

Author

Buda, J, Azzoni, R, Ambrosini, R, Franzetti, A, Zawierucha, K, Buda J., Azzoni R. S., Ambrosini R., Franzetti A., Zawierucha K., Buda, J, Azzoni, R, Ambrosini, R, Franzetti, A, Zawierucha, K, Buda J., Azzoni R. S., Ambrosini R., Franzetti A., and Zawierucha K.

Abstract

Supraglacial zones worldwide serve as suitable habitats for psychrophiles, including metazoans. The present study investigates whether the occurrence and abundance of springtails in water films under stones on the Forni Glacier in the Alps is affected by: a) the stone's location (on bare ice, in supraglacial streams, in the glacier forefield, on the medial moraine), b) the stone's distance from the glacier terminus, c) the roughness of the stone's surface, and d) the stone's position with respect to the surface of the ice (inclination). The Forni Glacier is inhabited by representatives of dark-pigmented Isotomidae. The study demonstrates that the density of springtails inhabiting the underside of stones located on the ice came to 155,000 individuals per one square meter of a stone surface with their abundance showing no relation to the stones' distance from the glacier terminus. Moreover, springtails occurred more frequently and more abundantly under stones located on bare ice than under those in supraglacial streams, the medial moraine or the glacier forefield. The roughness of stone surface facing the ice had a positive effect on animal counts, while its inclination had no strong effect. We estimated that the total abundance of springtails under stones on the Forni Glacier's tongue may reach 10.8 million individuals. Since many springtails are hidden in supraglacial gravel and medial moraine, the dry biomass of animals visible under stones comprises at least 105.7 g.

Published
2020

12. Early ecological succession patterns of bacterial, fungal and plant communities along a chronosequence in a recently deglaciated area of the Italian Alps

Author

Franzetti, A, Pittino, F, Gandolfi, I, Azzoni, R, Diolaiuti, G, Smiraglia, C, Pelfini, M, Compostella, C, Turchetti, B, Buzzini, P, Ambrosini, R, Franzetti A., Pittino F., Gandolfi I., Azzoni R. S., Diolaiuti G., Smiraglia C., Pelfini M., Compostella C., Turchetti B., Buzzini P., Ambrosini R., Franzetti, A, Pittino, F, Gandolfi, I, Azzoni, R, Diolaiuti, G, Smiraglia, C, Pelfini, M, Compostella, C, Turchetti, B, Buzzini, P, Ambrosini, R, Franzetti A., Pittino F., Gandolfi I., Azzoni R. S., Diolaiuti G., Smiraglia C., Pelfini M., Compostella C., Turchetti B., Buzzini P., and Ambrosini R.

Abstract

In this study, the early ecological succession patterns of Forni Glacier (Ortles-Cevedale group, Italian Alps) forefield along an 18-year long chronosequence (with a temporal resolution of 1 year) has been reported. Bacterial and fungal community structures were inferred by high-throughput sequencing of 16S rRNA gene and ITS, respectively. In addition, the occurrence of both herbaceous and arboreous plants was also recorded at each plot. A significant decrease of alpha-diversity in more recently deglaciated areas was observed for both bacteria and plants. Time since deglaciation and pH affected the structure of both fungal and bacterial communities. Pioneer plants could be a major source of colonization for both bacterial and fungal communities. Consistently, some of the most abundant bacterial taxa and some of those significantly varying with pH along the chronosequence (Polaromonas, Granulicella, Thiobacillus, Acidiferrobacter) are known to be actively involved in rock-weathering processes due to their chemolithotrophic metabolism, thus suggesting that the early phase of the chronosequence could be mainly shaped by the biologically controlled bioavailability of metals and inorganic compounds. Fungal communities were dominated by ascomycetous filamentous fungi and basidiomycetous yeasts. Their role as cold-adapted organic matter decomposers, due to their heterotrophic metabolism, was suggested.

Published
2020

14. Water bears dominated cryoconite hole ecosystems: densities, habitat preferences and physiological adaptations of Tardigrada on an alpine glacier

Author

Zawierucha, K, Buda, J, Azzoni, R, Niskiewicz, M, Franzetti, A, Ambrosini, R, Zawierucha K., Buda J., Azzoni R. S., Niskiewicz M., Franzetti A., Ambrosini R., Zawierucha, K, Buda, J, Azzoni, R, Niskiewicz, M, Franzetti, A, Ambrosini, R, Zawierucha K., Buda J., Azzoni R. S., Niskiewicz M., Franzetti A., and Ambrosini R.

Abstract

We investigated the Forni Glacier and the surrounding area in the Alps in terms of habitat preferences, densities, dispersal and desiccation tolerance of glacier tardigrades, which are one of the most common faunal representatives and top consumers in supraglacial ecosystems. To do so, we sampled supraglacial environments (cryoconite holes, debris from ice surface, dirt cones and moraine, mosses from supraglacial stones) and non-glacial habitats (mosses, freshwater sediments and algae), and we installed air traps on the glacier and the nearby area. We found that cryoconite holes on the Forni Glacier are exclusively dominated by one metazoan group of tardigrades, representing one species, Hypsibius klebelsbergi (identified by morphological and molecular approaches). Tardigrades were found in 100% of cryoconite holes and wet supraglacial sediment samples and reached up to 172 ind./ml. Additionally, we found glacier tardigrades in debris from dirt cones and sparsely in supraglacial mosses. Glacier tardigrades were absent from freshwater and terrestrial samples collected from non-glacial habitats. Despite the fact that H. klebelsbergi is a typical aquatic species, we showed it withstands desiccation in sediments, but in low temperatures only. Treatments conducted in higher temperatures and water only showed low or no recovery. We suspect successful dispersal with wind might have taken place only when tardigrades desiccated in sediments and were passively transported by cold wind. Limited ability to withstand high temperatures and desiccation may be potential barriers preventing glacier tardigrades inhabiting new, even apparently suitable high mountain water bodies like temporary rock pools.

Published
2019

15. First evidence of microplastic contamination in the supraglacial debris of an alpine glacier

Author

Ambrosini, R, Azzoni, R, Pittino, F, Diolaiuti, G, Franzetti, A, Parolini, M, Ambrosini R., Azzoni R. S., Pittino F., Diolaiuti G., Franzetti A., Parolini M., Ambrosini, R, Azzoni, R, Pittino, F, Diolaiuti, G, Franzetti, A, Parolini, M, Ambrosini R., Azzoni R. S., Pittino F., Diolaiuti G., Franzetti A., and Parolini M.

Abstract

Contamination by plastic debris has been documented in most regions of the world, but their occurrence in high mountain areas has not been investigated to date. Here we present the first report of the occurrence and amount of microplastic in any terrestrial glacier environment. In the supraglacial debris of the Forni Glacier (Italian Alps), we observed the occurrence of (mean ± standard error) 74.4 ± 28.3 items kg−1 of sediment (dry weight). This amount is within the range of variability of microplastic contamination observed in marine and coastal sediments in Europe. Most plastic items were made by polyesters, followed by polyamide, polyethylene and polypropylene. We estimated that the whole ablation area of Forni Glacier should host 131–162 million plastic items. Microplastic can be released directly into high elevation areas by human activities in the mountain or be transported by wind to high altitude. The occurrence of microplastic on Forni Glacier may be due to the gathering of debris coming from the large accumulation area into the relatively smaller ablation area of the glacier, as a consequence of its flow and melting.

Published
2019

16. Geomorphological map of the Val Viola Pass (Italy-Switzerland)

Author

Bollati, I. M., Cerrato, R., Lenz, B. C., Vezzola, L., Giaccone, E., Viani, C., Zanoner, T., Azzoni, R. S., Masseroli, A., Pellegrini, M., Scapozza, C., Zerboni, A., and Guglielmin, M.

Subjects
Deglaciation, Val Viola Pass (Central Alps), High mountain landscape, Paradisin rock glacier, Electrical Resistivity Tomography, Geomorphological mapping
Published
2018

17. Temporal trends in bacterial communities of cryoconite holes

Author

Pittino, F, Maglio, M, Azzoni, R. S, Gandolfi, I, Diolaiuti, G, Ambrosini, R, Franzetti, A, Pittino, F, Maglio, M, Azzoni, R, Gandolfi, I, Diolaiuti, G, Ambrosini, R, and Franzetti, A

Subjects
Bacteria, Glacier, Cryoconite, Temporal trends
Published
2018

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

Author

Azzoni, R, Tagliaferri, I, Franzetti, A, Mayer, C, Lambrecht, A, Compostella, C, Caccianiga, M, Minora, U, Garzonio, C, Meraldi, E, Smiraglia, C, Diolaiuti, G, Ambrosini, R, Azzoni R. S., Tagliaferri I., Franzetti A., Mayer C., Lambrecht A., Compostella C., Caccianiga M., Minora U. F., Garzonio C. A., Meraldi E., Smiraglia C., Diolaiuti G. A., Ambrosini R., Azzoni, R, Tagliaferri, I, Franzetti, A, Mayer, C, Lambrecht, A, Compostella, C, Caccianiga, M, Minora, U, Garzonio, C, Meraldi, E, Smiraglia, C, Diolaiuti, G, Ambrosini, R, Azzoni R. S., Tagliaferri I., Franzetti A., Mayer C., Lambrecht A., Compostella C., Caccianiga M., Minora U. F., Garzonio C. A., Meraldi E., Smiraglia C., Diolaiuti G. A., and Ambrosini R.

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.

Published
2018

22. Biodegradation of pollutants in cryoconite holes on Alpine glaciers

Author

Pittino, F, Ferrario, C, Azzoni, R. S, Tagliaferri, I, Gandolfi, I, Bestetti, G, Diolaiuti, G, Pittino, F, Ferrario, C, Azzoni, R, Tagliaferri, I, Gandolfi, I, Bestetti, G, and Diolaiuti, G

Subjects
Cryoconite, Biodegradation, Glaciers, Bacteria
Published
2017

24. Rates and mechanisms of organophosphorus pesticide biodegradation on glaciers

Author

STELLA, TATIANA, FERRARIO, CLAUDIA, Pittino, F, Tagliaferri, I, Gandolfi, I, Bestetti, G, Azzoni, R. S, Diolaiuti, G, Franzetti, A, Ambrosini, R, Villa, S, Stella, T, Ferrario, C, Pittino, F, Tagliaferri, I, Gandolfi, I, Bestetti, G, Azzoni, R, Diolaiuti, G, Franzetti, A, Ambrosini, R, and Villa, S

Subjects
Bacteria, Cryoconite , Biodegradation, Glaciers
Published
2017

25. Bacterial communities changes in cryoconite on an alpine glacier

Author

Pittino, F, Franzetti, A, NAVARRA, FEDERICA, Tagliaferri, I, Gandolfi, I, Bestetti, G, Minora, U, Azzoni, R. S, Diolaiuti, G, Smiraglia, C, Ambrosini, R, Pittino, F, Franzetti, A, Navarra, F, Tagliaferri, I, Gandolfi, I, Bestetti, G, Minora, U, Azzoni, R, Diolaiuti, G, Smiraglia, C, and Ambrosini, R

Subjects
Bacteria, Cryoconite, Glacier, Italian Alps
Abstract

Cryoconite holes are small pits present on the glacier surface containing a fine-grained sediment on the bottom. They are a biologically active and protected microhabitat in the glacial ecosystem. In this study it has been studied the temporal variation of bacterial communities in crioconite holes on the Forni Glacier (Stelvio National Park, Italian Alps). The results showed a temporal trend characterized by a predominant autotrophic Cyanobacteria population in the first part of the ablation season, followed by an increasing in abundance of heteroptrophic Sphingobacteriales populations. Also some hole feature explained a fraction of the variation of bacterial communities, but less than temporal variation.

Published
2017

27. Rates and mechanisms of organophosphorus pesticide biodegradation on glaciers

Author

Stella, T, Ferrario, C, Pittino, F, Tagliaferri, I, Gandolfi, I, Bestetti, G, Azzoni, R, Diolaiuti, G, Franzetti, A, Ambrosini, R, Villa, S, STELLA, TATIANA, FERRARIO, CLAUDIA, Azzoni, R. S, Stella, T, Ferrario, C, Pittino, F, Tagliaferri, I, Gandolfi, I, Bestetti, G, Azzoni, R, Diolaiuti, G, Franzetti, A, Ambrosini, R, Villa, S, STELLA, TATIANA, FERRARIO, CLAUDIA, and Azzoni, R. S

Published
2017

28. Potential degradation of chlorpyrifos in remote high-altitude cold sites: microcosm experiment on Forni Glacier, Italian Alps

Author

Ferrario, C, Franzetti, A, Tagliaferri, I, Pittino, F, Azzoni, R, Diolaiuti, G, Ambrosini, R, Villa, S, FERRARIO, CLAUDIA, FRANZETTI, ANDREA, AMBROSINI, ROBERTO, VILLA, SARA, Tagliaferri, I., Pittino, F., Azzoni, R. S., Diolaiuti, G. A., Ferrario, C, Franzetti, A, Tagliaferri, I, Pittino, F, Azzoni, R, Diolaiuti, G, Ambrosini, R, Villa, S, FERRARIO, CLAUDIA, FRANZETTI, ANDREA, AMBROSINI, ROBERTO, VILLA, SARA, Tagliaferri, I., Pittino, F., Azzoni, R. S., and Diolaiuti, G. A.

Published
2016

30. A methodology for monitoring and modeling of high altitude Alpine catchments.

Author

Soncini, A., Bocchiola, D., Azzoni, R. S., and Diolaiuti, G.

Subjects
MOUNTAIN watersheds, HYDROLOGY, DATA, CLIMATOLOGY, SNOW, ALTITUDES
Abstract

Hydrological monitoring and modeling of high altitude Alpine catchments is of paramount importance. This is difficult, however, given the complex logistics of field campaigns and the need for long-term data. Here, we present a method for long term monitoring of high altitude catchments, which we tested within the Alps of Italy. This includes i) extensive gathering of climate data and hydrological fluxes, ii) high altitude field campaigns, and iii) robust physically based glacio-hydrological modeling, providing full account of ice flow, ice and snow ablation, and stream flows. We present an application of this method based on six years (2009-2014) of field monitoring in the Dosdè catchment, in the Italian Alps (17 km², average altitude 2858 masl, outlet 2133 masl), nesting 1.90 km² of glaciers. We demonstrate that i) high altitude Alpine catchments can be monitored in spite of geographical complexity, and ii) a data based approach delivers accurate stream flow estimates and improves our knowledge of flow components in the high altitudes. We then provide some estimates of the recent glaciers' dynamics, and water resources from this high-altitude catchment, paradigmatic of the recent cryospheric evolution in the Alps of Italy. We estimated an average ice mass loss nearby -1.76E8 m³yr-1, i.e. -20% of the ice mass in 2009, possibly pointing to accelerated glaciers' down wasting. Instream discharges increased (+0.12 m³s-1y-1); however, this requires further monitoring. We then benchmark our findings against recent studies in the Alps, and other glacierized areas worldwide, displaying similarities in present glaciers' dynamics. We suggest that our robust, yet flexible approach can be used for glacio-hydrological investigation in Alpine (and generally mountain) rivers, and for conjectures of potential future hydrological cycle under climate scenarios. [ABSTRACT FROM AUTHOR]

Published
2017
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32. Atmospheric nitrogen deposition in a highly human impacted area in northern Italy

Author

S. Stevenazzi, M. Masetti, C. Camera, M. Tiepolo, E. S. Ferrari, R. S. Azzoni, L. Alberti, T. Bonomi, M. Masetti, M. Faggioli, S. Stevenazzi, Stevenazzi, S., Masetti, M., Camera, C., Tiepolo, M., Ferrari, E. S., and Azzoni, R. S.

Subjects
ammonium, nitrate, air pollution, precipitation
Abstract

Nitrogen can enter the water cycle through atmospheric depositions on ground and water surfaces, leakages from point and diffuse sources (i.e., sewage treatment plants or sewage systems, fertilizer and manure applications), and erosion processes affecting nitrogen rich soils (EEA, 2005). However, integrating all nitrogen forms, processes and scales is still a major challenge for the understanding and the management of the nitrogen cycle.

Published
2019

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