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2. Ecological impact of transhumance on the trophic state of alpine lakes in Gran Paradiso National Park

Author

Tiberti R., Rogora M., Tartari G., and Callieri C.

Subjects
livestock grazing, Gran Paradiso National Park, Alps, conservation measures, Aquaculture. Fisheries. Angling, SH1-691
Abstract

Transhumance – the summer transfer of livestock to highland pastures – is a traditional practice in the European Alps and is considered an integral part of the mountain ecosystem. Mountain lakes are generally oligotrophic systems and are particularly sensitive to the nutrient input caused by livestock. The aim of the present study was to quantify the impact of livestock grazing on the trophic state of high-altitude lakes in an area where transhumance is a traditional practice (Gran Paradiso National Park, Western Italian Alps), taking into account its dual value of ecosystem component and potential threat to lakes’ trophic status. The impact of flocks and herds grazing was estimated on sensitive parameters related to the trophic state of alpine lakes: water transparency, nutrient content, bacterial load and chlorophyll-a concentration. Transhumance produced a significant increase in the trophic state of lakes with high grazing pressure, but little or no effect was found at soft-impacted lakes. Even though heavy-impacted lakes represent a minority of the studied lakes (three out of twenty), we indicated conservation measures such as fencing, wastewater treatment and livestock exclosure to be tested in Gran Paradiso National Park.

Published
2014
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3. Assessment of climate change effects on mountain ecosystems through a cross-site analysis in the Alps and Apennines

Author

Rogora, M., Frate, L., Carranza, M. L., Freppaz, M., Stanisci, A., Bertani, I., Bottarin, R., Brambilla, A., Canullo, R., Carbognani, M., Cerrato, C., Chelli, S., Cremonese, E., Cutini, M., Di Musciano, M., Erschbamer, B., Godone, D., Iocchi, M., Isabellon, M., Magnani, A., Mazzola, L., di Cella, U. Morra, Pauli, H., Petey, M., Petriccione, B., Porro, F., Psenner, R., Rossetti, G., Scotti, A., Sommaruga, R., Tappeiner, U., Theurillat, J. -P., Tomaselli, M., Viglietti, D., Viterbi, R., Vittoz, P., Winkler, M., and Matteucci, G.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

Mountain ecosystems are sensitive indicators of climate change. Long-term studies may be extremely useful in assessing the responses of high-elevation ecosystems to climate change and other anthropogenic drivers. Mountain research sites within the LTER (Long-Term Ecosystem Research) network are representative of various types of ecosystems and span a wide bioclimatic and elevational range. Here, we present a synthesis and a review of the main results from long-term ecological studies in mountain ecosystems at 20 LTER sites in Italy, Switzerland and Austria. We analyzed a set of key climate parameters, such as temperature and snow cover duration, in relation to vascular species composition, plant traits, abundance patterns, pedoclimate, nutrient dynamics in soils and water, phenology and composition of freshwater biota. The overall results highlight the rapid response of mountain ecosystems to climate change. As temperatures increased, vegetation cover in alpine and subalpine summits increased as well. Years with limited snow cover duration caused an increase in soil temperature and microbial biomass during the growing season. Effects on freshwater ecosystems were observed, in terms of increases in solutes, decreases in nitrates and changes in plankton phenology and benthos communities. This work highlights the importance of comparing and integrating long-term ecological data collected in different ecosystems, for a more comprehensive overview of the ecological effects of climate change. Nevertheless, there is a need for i) adopting co-located monitoring site networks to improve our ability to obtain sound results from cross-site analysis, ii) carrying out further studies, with fine spatial and temporal resolutions to improve understanding of responses to extreme events, and iii) increasing comparability and standardizing protocols across networks to clarify local from global patterns., Comment: 30 pages plus references, 7 figures, 23 tables Paper from the LTER Europe and ILTER network

Published
2019
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4. Atmospheric deposition and precipitation are important predictors of inorganic nitrogen export to streams from forest and grassland watersheds: a large-scale data synthesis

Author

Templer, P. H., Harrison, J. L., Pilotto, F., Flores-Díaz, A., Haase, P., McDowell, W. H., Sharif, R., Shibata, H., Blankman, D., Avila, A., Baatar, U., Bogena, H. R., Bourgeois, I., Campbell, J., Dirnböck, T., Dodds, W. K., Hauken, M., Kokorite, I., Lajtha, K., Lai, I.-L., Laudon, H., Lin, T. C., Lins, S. R. M., Meesenburg, H., Pinho, P., Robison, A., Rogora, M., Scheler, B., Schleppi, P., Sommaruga, R., Staszewski, T., and Taka, M.

Published
2022
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6. Widespread deoxygenation of temperate lakes

Author

Jane, S, Hansen, G, Kraemer, B, Leavitt, P, Mincer, J, North, R, Pilla, R, Stetler, J, Williamson, C, Woolway, R, Arvola, L, Chandra, S, Degasperi, C, Diemer, L, Dunalska, J, Erina, O, Flaim, G, Grossart, H, Hambright, K, Hein, C, Hejzlar, J, Janus, L, Jenny, J, Jones, J, Knoll, L, Leoni, B, Mackay, E, Matsuzaki, S, Mcbride, C, Muller-Navarra, D, Paterson, A, Pierson, D, Rogora, M, Rusak, J, Sadro, S, Saulnier-Talbot, E, Schmid, M, Sommaruga, R, Thiery, W, Verburg, P, Weathers, K, Weyhenmeyer, G, Yokota, K, Rose, K, Jane S. F., Hansen G. J. A., Kraemer B. M., Leavitt P. R., Mincer J. L., North R. L., Pilla R. M., Stetler J. T., Williamson C. E., Woolway R. I., Arvola L., Chandra S., DeGasperi C. L., Diemer L., Dunalska J., Erina O., Flaim G., Grossart H. -P., Hambright K. D., Hein C., Hejzlar J., Janus L. L., Jenny J. -P., Jones J. R., Knoll L. B., Leoni B., Mackay E., Matsuzaki S. -I. S., McBride C., Muller-Navarra D. C., Paterson A. M., Pierson D., Rogora M., Rusak J. A., Sadro S., Saulnier-Talbot E., Schmid M., Sommaruga R., Thiery W., Verburg P., Weathers K. C., Weyhenmeyer G. A., Yokota K., Rose K. C., Jane, S, Hansen, G, Kraemer, B, Leavitt, P, Mincer, J, North, R, Pilla, R, Stetler, J, Williamson, C, Woolway, R, Arvola, L, Chandra, S, Degasperi, C, Diemer, L, Dunalska, J, Erina, O, Flaim, G, Grossart, H, Hambright, K, Hein, C, Hejzlar, J, Janus, L, Jenny, J, Jones, J, Knoll, L, Leoni, B, Mackay, E, Matsuzaki, S, Mcbride, C, Muller-Navarra, D, Paterson, A, Pierson, D, Rogora, M, Rusak, J, Sadro, S, Saulnier-Talbot, E, Schmid, M, Sommaruga, R, Thiery, W, Verburg, P, Weathers, K, Weyhenmeyer, G, Yokota, K, Rose, K, Jane S. F., Hansen G. J. A., Kraemer B. M., Leavitt P. R., Mincer J. L., North R. L., Pilla R. M., Stetler J. T., Williamson C. E., Woolway R. I., Arvola L., Chandra S., DeGasperi C. L., Diemer L., Dunalska J., Erina O., Flaim G., Grossart H. -P., Hambright K. D., Hein C., Hejzlar J., Janus L. L., Jenny J. -P., Jones J. R., Knoll L. B., Leoni B., Mackay E., Matsuzaki S. -I. S., McBride C., Muller-Navarra D. C., Paterson A. M., Pierson D., Rogora M., Rusak J. A., Sadro S., Saulnier-Talbot E., Schmid M., Sommaruga R., Thiery W., Verburg P., Weathers K. C., Weyhenmeyer G. A., Yokota K., and Rose K. C.

Abstract

The concentration of dissolved oxygen in aquatic systems helps to regulate biodiversity1,2, nutrient biogeochemistry3, greenhouse gas emissions4, and the quality of drinking water5. The long-term declines in dissolved oxygen concentrations in coastal and ocean waters have been linked to climate warming and human activity6,7, but little is known about the changes in dissolved oxygen concentrations in lakes. Although the solubility of dissolved oxygen decreases with increasing water temperatures, long-term lake trajectories are difficult to predict. Oxygen losses in warming lakes may be amplified by enhanced decomposition and stronger thermal stratification8,9 or oxygen may increase as a result of enhanced primary production10. Here we analyse a combined total of 45,148 dissolved oxygen and temperature profiles and calculate trends for 393 temperate lakes that span 1941 to 2017. We find that a decline in dissolved oxygen is widespread in surface and deep-water habitats. The decline in surface waters is primarily associated with reduced solubility under warmer water temperatures, although dissolved oxygen in surface waters increased in a subset of highly productive warming lakes, probably owing to increasing production of phytoplankton. By contrast, the decline in deep waters is associated with stronger thermal stratification and loss of water clarity, but not with changes in gas solubility. Our results suggest that climate change and declining water clarity have altered the physical and chemical environment of lakes. Declines in dissolved oxygen in freshwater are 2.75 to 9.3 times greater than observed in the world’s oceans6,7 and could threaten essential lake ecosystem services2,3,5,11.

Published
2021

7. Global data set of long-term summertime vertical temperature profiles in 153 lakes

Author

Pilla, R, Mette, E, Williamson, C, Adamovich, B, Adrian, R, Anneville, O, Balseiro, E, Ban, S, Chandra, S, Colom-Montero, W, Devlin, S, Dix, M, Dokulil, M, Feldsine, N, Feuchtmayr, H, Fogarty, N, Gaiser, E, Girdner, S, Gonzalez, M, Hambright, K, Hamilton, D, Havens, K, Hessen, D, Hetzenauer, H, Higgins, S, Huttula, T, Huuskonen, H, Isles, P, Joehnk, K, Keller, W, Klug, J, Knoll, L, Korhonen, J, Korovchinsky, N, Koster, O, Kraemer, B, Leavitt, P, Leoni, B, Lepori, F, Lepskaya, E, Lottig, N, Luger, M, Maberly, S, Macintyre, S, Mcbride, C, Mcintyre, P, Melles, S, Modenutti, B, Muller-Navarra, D, Pacholski, L, Paterson, A, Pierson, D, Pislegina, H, Plisnier, P, Richardson, D, Rimmer, A, Rogora, M, Rogozin, D, Rusak, J, Rusanovskaya, O, Sadro, S, Salmaso, N, Saros, J, Sarvala, J, Saulnier-Talbot, E, Schindler, D, Shimaraeva, S, Silow, E, Sitoki, L, Sommaruga, R, Straile, D, Strock, K, Swain, H, Tallant, J, Thiery, W, Timofeyev, M, Tolomeev, A, Tominaga, K, Vanni, M, Verburg, P, Vinebrooke, R, Wanzenbock, J, Weathers, K, Weyhenmeyer, G, Zadereev, E, Zhukova, T, Pilla R. M., Mette E. M., Williamson C. E., Adamovich B. V., Adrian R., Anneville O., Balseiro E., Ban S., Chandra S., Colom-Montero W., Devlin S. P., Dix M. A., Dokulil M. T., Feldsine N. A., Feuchtmayr H., Fogarty N. K., Gaiser E. E., Girdner S. F., Gonzalez M. J., Hambright K. D., Hamilton D. P., Havens K., Hessen D. O., Hetzenauer H., Higgins S. N., Huttula T. H., Huuskonen H., Isles P. D. F., Joehnk K. D., Keller W. B., Klug J., Knoll L. B., Korhonen J., Korovchinsky N. M., Koster O., Kraemer B. M., Leavitt P. R., Leoni B., Lepori F., Lepskaya E. V., Lottig N. R., Luger M. S., Maberly S. C., MacIntyre S., McBride C., McIntyre P., Melles S. J., Modenutti B., Muller-Navarra D. C., Pacholski L., Paterson A. M., Pierson D. C., Pislegina H. V., Plisnier P. -D., Richardson D. C., Rimmer A., Rogora M., Rogozin D. Y., Rusak J. A., Rusanovskaya O. O., Sadro S., Salmaso N., Saros J. E., Sarvala J., Saulnier-Talbot E., Schindler D. E., Shimaraeva S. V., Silow E. A., Sitoki L. M., Sommaruga R., Straile D., Strock K. E., Swain H., Tallant J. M., Thiery W., Timofeyev M. A., Tolomeev A. P., Tominaga K., Vanni M. J., Verburg P., Vinebrooke R. D., Wanzenbock J., Weathers K., Weyhenmeyer G. A., Zadereev E. S., Zhukova T. V., Pilla, R, Mette, E, Williamson, C, Adamovich, B, Adrian, R, Anneville, O, Balseiro, E, Ban, S, Chandra, S, Colom-Montero, W, Devlin, S, Dix, M, Dokulil, M, Feldsine, N, Feuchtmayr, H, Fogarty, N, Gaiser, E, Girdner, S, Gonzalez, M, Hambright, K, Hamilton, D, Havens, K, Hessen, D, Hetzenauer, H, Higgins, S, Huttula, T, Huuskonen, H, Isles, P, Joehnk, K, Keller, W, Klug, J, Knoll, L, Korhonen, J, Korovchinsky, N, Koster, O, Kraemer, B, Leavitt, P, Leoni, B, Lepori, F, Lepskaya, E, Lottig, N, Luger, M, Maberly, S, Macintyre, S, Mcbride, C, Mcintyre, P, Melles, S, Modenutti, B, Muller-Navarra, D, Pacholski, L, Paterson, A, Pierson, D, Pislegina, H, Plisnier, P, Richardson, D, Rimmer, A, Rogora, M, Rogozin, D, Rusak, J, Rusanovskaya, O, Sadro, S, Salmaso, N, Saros, J, Sarvala, J, Saulnier-Talbot, E, Schindler, D, Shimaraeva, S, Silow, E, Sitoki, L, Sommaruga, R, Straile, D, Strock, K, Swain, H, Tallant, J, Thiery, W, Timofeyev, M, Tolomeev, A, Tominaga, K, Vanni, M, Verburg, P, Vinebrooke, R, Wanzenbock, J, Weathers, K, Weyhenmeyer, G, Zadereev, E, Zhukova, T, Pilla R. M., Mette E. M., Williamson C. E., Adamovich B. V., Adrian R., Anneville O., Balseiro E., Ban S., Chandra S., Colom-Montero W., Devlin S. P., Dix M. A., Dokulil M. T., Feldsine N. A., Feuchtmayr H., Fogarty N. K., Gaiser E. E., Girdner S. F., Gonzalez M. J., Hambright K. D., Hamilton D. P., Havens K., Hessen D. O., Hetzenauer H., Higgins S. N., Huttula T. H., Huuskonen H., Isles P. D. F., Joehnk K. D., Keller W. B., Klug J., Knoll L. B., Korhonen J., Korovchinsky N. M., Koster O., Kraemer B. M., Leavitt P. R., Leoni B., Lepori F., Lepskaya E. V., Lottig N. R., Luger M. S., Maberly S. C., MacIntyre S., McBride C., McIntyre P., Melles S. J., Modenutti B., Muller-Navarra D. C., Pacholski L., Paterson A. M., Pierson D. C., Pislegina H. V., Plisnier P. -D., Richardson D. C., Rimmer A., Rogora M., Rogozin D. Y., Rusak J. A., Rusanovskaya O. O., Sadro S., Salmaso N., Saros J. E., Sarvala J., Saulnier-Talbot E., Schindler D. E., Shimaraeva S. V., Silow E. A., Sitoki L. M., Sommaruga R., Straile D., Strock K. E., Swain H., Tallant J. M., Thiery W., Timofeyev M. A., Tolomeev A. P., Tominaga K., Vanni M. J., Verburg P., Vinebrooke R. D., Wanzenbock J., Weathers K., Weyhenmeyer G. A., Zadereev E. S., and Zhukova T. V.

Abstract

Climate change and other anthropogenic stressors have led to long-term changes in the thermal structure, including surface temperatures, deepwater temperatures, and vertical thermal gradients, in many lakes around the world. Though many studies highlight warming of surface water temperatures in lakes worldwide, less is known about long-term trends in full vertical thermal structure and deepwater temperatures, which have been changing less consistently in both direction and magnitude. Here, we present a globally-expansive data set of summertime in-situ vertical temperature profiles from 153 lakes, with one time series beginning as early as 1894. We also compiled lake geographic, morphometric, and water quality variables that can influence vertical thermal structure through a variety of potential mechanisms in these lakes. These long-term time series of vertical temperature profiles and corresponding lake characteristics serve as valuable data to help understand changes and drivers of lake thermal structure in a time of rapid global and ecological change.

Published
2021

9. Responses to local and global stressors in the large southern perialpine lakes: Present status and challenges for research and management

Author

Salmaso, N, Buzzi, F, Capelli, C, Cerasino, L, Leoni, B, Lepori, F, Rogora, M, Salmaso N., Buzzi F., Capelli C., Cerasino L., Leoni B., Lepori F., Rogora M., Salmaso, N, Buzzi, F, Capelli, C, Cerasino, L, Leoni, B, Lepori, F, Rogora, M, Salmaso N., Buzzi F., Capelli C., Cerasino L., Leoni B., Lepori F., and Rogora M.

Abstract

Here, we review the state-of-the-art of limnological investigations in the large and deep lakes south of the Alps (DSLs), lakes Garda, Maggiore, Como, Iseo and Lugano. In the pre-industrial age, these lakes were ultra- or oligotrophic. Increasing anthropogenic pressure and the impact of global warming has led to an acceleration of eutrophication and a decrease in the frequency of full mixing episodes, which have induced a state of meromixis in lakes Lugano and Iseo. In the last two decades, other changes have been identified, including fundamental variations in the long-term dynamics and structure of phytoplankton communities, identification of new toxigenic cyanobacteria and cyanotoxins, increases in the introduction and establishment of allochthonous species, and continuous detection of new, emerging chemical pollutants. Overall, these fundamental changes are quickly transforming the features of the DSLs. The ability to document and reconstruct changes in lake aquatic biota and micropollutants was strongly dependent on both research efforts and the availability of technologies to appraise these changes. In this context, the ongoing adoption of new technological tools, such as high-frequency monitoring and high throughput sequencing, is opening the way to a new level of comprehension of physical, chemical and biological processes, and aquatic biodiversity. New outlooks and new conceptual frameworks are necessary to cope with the huge dimensions of high-throughput data and analysis of big data.

Published
2020

11. Impacts of air pollution on human and ecosystem health, and implications for the National Emission Ceilings Directive: Insights from Italy

Author

De Marco, A, Proietti, C, Anav, A, Ciancarella, L, D'Elia, I, Fares, S, Fornasier, M, Fusaro, L, Gualtieri, M, Manes, F, Marchetto, A, Mircea, M, Paoletti, E, Piersanti, A, Rogora, M, Salvati, L, Salvatori, E, Screpanti, A, Vialetto, G, Vitale, M, Leonardi, C, De Marco A., Proietti C., Anav A., Ciancarella L., D'Elia I., Fares S., Fornasier M. F., Fusaro L., Gualtieri M., Manes F., Marchetto A., Mircea M., Paoletti E., Piersanti A., Rogora M., Salvati L., Salvatori E., Screpanti A., Vialetto G., Vitale M., Leonardi C., De Marco, A, Proietti, C, Anav, A, Ciancarella, L, D'Elia, I, Fares, S, Fornasier, M, Fusaro, L, Gualtieri, M, Manes, F, Marchetto, A, Mircea, M, Paoletti, E, Piersanti, A, Rogora, M, Salvati, L, Salvatori, E, Screpanti, A, Vialetto, G, Vitale, M, Leonardi, C, De Marco A., Proietti C., Anav A., Ciancarella L., D'Elia I., Fares S., Fornasier M. F., Fusaro L., Gualtieri M., Manes F., Marchetto A., Mircea M., Paoletti E., Piersanti A., Rogora M., Salvati L., Salvatori E., Screpanti A., Vialetto G., Vitale M., and Leonardi C.

Abstract

Across the 28 EU member states there were nearly half a million premature deaths in 2015 as a result of exposure to PM2.5, O3 and NO2. To set the target for air quality levels and avoid negative impacts for human and ecosystems health, the National Emission Ceilings Directive (NECD, 2016/2284/EU) sets objectives for emission reduction for SO2, NOx, NMVOCs, NH3 and PM2.5 for each Member State as percentages of reduction to be reached in 2020 and 2030 compared to the emission levels into 2005. One of the innovations of NECD is Article 9, that mentions the issue of “monitoring air pollution impacts” on ecosystems. We provide a clear picture of what is available in term of monitoring network for air pollution impacts on Italian ecosystems, summarizing what has been done to control air pollution and its effects on different ecosystems in Italy. We provide an overview of the impacts of air pollution on health of the Italian population and evaluate opportunities and implementation of Article 9 in the Italian context, as a case study beneficial for all Member States. The results showed that SO42− deposition strongly decreased in all monitoring sites in Italy over the period 1999–2017, while NO3− and NH4+ decreased more slightly. As a consequence, most of the acid-sensitive sites which underwent acidification in the 1980s partially recovered. The O3 concentration at forest sites showed a decreasing trend. Consequently, AOT40 (the metric identified to protect vegetation from ozone pollution) showed a decrease, even if values were still above the limit for forest protection (5000 ppb h−1), while PODy (flux-based metric under discussion as new European legislative standard for forest protection) showed an increase. National scale studies pointed out that PM10 and NO2 induced about 58,000 premature deaths (year 2005), due to cardiovascular and respiratory diseases. The network identified for Italy contains a good number of monitoring sites (6 for terrestrial ecosystem monitoring

Published
2019

14. IT08-A Laghi sudalpini

Author

Salmaso, N., Bresciani, M., Buzzi, F., Ciampittiello, M., Leoni, B., Piscia, R., Rogora, M., Austoni, M., Beltrami, M., Bertoni, R., Boggero, A., Boscaini, A., Brivio, P.A., Callieri, C., Cerutti, I., Cappelletti, C., Carrara, P., Cerasino, L., Ciutti, F., Corno, G., Crippa, E., Di Cesare, A., Dresti, C., Eckert, E., Foglini, C., Fontaneto, D., Galafassi, S., Giacomotti, P., Giardino, C., Guilizzoni, P., Iaia, M., Lami, A., Lella, S., Manca, D., Manca, M., Marchetto, A., Mosello, R., Musanti, M., Nava, V., Oggioni, A., Orrù, A., Patelli, M., Riccardi, N., Saidi, H., Sala, P., Soler, V., Tartari, G.A., Tolotti, M., Volta, P., and Zaupa, S.

Subjects
Biodiversità, Ricerca ecologica a lungo termine, Long Term Ecological Research (LTER), Settore BIO/07 - ECOLOGIA, Limnology, Laghi subalpini, Biodiversity, Environmental change, Limnologia, Subalpine lakes, Cambiamento ambientale
Published
2021

21. Widespread diminishing anthropogenic effects on calcium in freshwaters

Author

Weyhenmeyer, G.A., Hartmann, J., Hessen, D.O., Kopácek, J., Hejzlar, J., Jacquet, S., Hamilton, S.K., Verburg, P., Leach, T.H., Schmid, M., Flaim, G., Nõges, T., Nõges, P., Wentzky, V.C., Rogora, M., Rusak, J.A., Kosten, S., Paterson, A.M., Teubner, K., Higgins, S.N., Lawrence, Genica, Kangur, K., Kokorite, I., Cerasino, L., Funk, C., Harvey, R., Moatar, Florentina, de Wit, H.A., Zechmeister, T., Uppsala Universitet [Uppsala], UNIVERSITY OF HAMBURG DEU, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), University of Oslo (UiO), INSTITUTE OF HYDROBIOLOGY CZE, Centre Alpin de Recherche sur les Réseaux Trophiques et Ecosystèmes Limniques (CARRTEL), Institut National de la Recherche Agronomique (INRA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), MICHIGAN STATE UNIVERSITY USA, National Institute of Water and Atmospheric Research [Auckland] (NIWA), RENSSELAER POLYTECHNIC INSTITUTE TROY USA, EAWAG SWISS FEDERAL INSTITUTE OF AQUATIC SCIENCE AND TECHNOLOGY CHE, FONDAZIONE EDMUND MACH SAN MICHELE ALL ADIGE ITA, ESTONIAN UNIVERSITY OF LIFE SCIENCES TARTU EST, HELMHOLTZ CENTRE FOR ENVIRONMENTAL RESEARCH MAGDEBURG DEU, CNR Water Research Institute (IRSA), Consiglio Nazionale delle Ricerche (CNR), DORSET ENVIRONMENTAL SCIENCE CENTRE DORSET CAN, RADBOUD UNIVERSITY NIJMEGEN NLD, UNIVERSITY OF VIENNA AUT, IISD EXPERIMENTAL LAKES AREA CAN, US GEOLOGICAL SURVEY TROY USA, UNIVERSITY OF LATVIA LVA, U.S. ENVIRONMENTAL PROTECTION AGENCY USA, VERMONT DEPARTMENT OF ENVIRONMENTAL SERVICES USA, RiverLy (UR Riverly), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Norwegian Institute for Water Research (NIVA), BIOLOGICAL STATION LAKE NEUSIEDL ILLMITZ AUT, Swedish Research Council 2016-04153, European Union 643052, Knut and Alice Wallenberg Foundation (KAW project), and Deutsche Forschungsgemeinschaft (DFG) under Germany's Excellence Strategy - EXC 20 2037 'Climate, Climatic Change, and Society' 390683824

Subjects
[SDE]Environmental Sciences
Abstract

Calcium (Ca) is an essential element for almost all living organisms. Here, we examined global variation and controls of freshwater Ca concentrations, using 440 599 water samples from 43 184 inland water sites in 57 countries. We found that the global median Ca concentration was 4.0 mg L-1 with 20.7% of the water samples showing Ca concentrations ≤ 1.5 mg L-1, a threshold considered critical for the survival of many Ca-demanding organisms. Spatially, freshwater Ca concentrations were strongly and proportionally linked to carbonate alkalinity, with the highest Ca and carbonate alkalinity in waters with a pH around 8.0 and decreasing in concentrations towards lower pH. However, on a temporal scale, by analyzing decadal trends in >200 water bodies since the 1980s, we observed a frequent decoupling between carbonate alkalinity and Ca concentrations, which we attributed mainly to the influence of anthropogenic acid deposition. As acid deposition has been ameliorated, in many freshwaters carbonate alkalinity concentrations have increased or remained constant, while Ca concentrations have rapidly declined towards or even below pre-industrial conditions as a consequence of recovery from anthropogenic acidification. Thus, a paradoxical outcome of the successful remediation of acid deposition is a globally widespread freshwater Ca concentration decline towards critically low levels for many aquatic organisms.

Published
2019

27. Numerical modelling forecasts of mixing regime evolution under climate change scenarios for deep subalpine Lake Maggiore

Author

Fenocchi A., Sibilla S., Dresti C., and Rogora M.

Subjects
Climate change scenarios, Hydrodynamic modelling, Full turnover
Abstract

The evolution in the mixing regime of Lake Maggiore with climate change is forecast through 1D hydrodynamic simulations. Future endure lack of mixing could be avoided only if global GHG emissions were reduced starting from the next few years.

Published
2018

29. Climatic effects on vertical mixing and deep-water oxygen content in the subalpine lakes in Italy

Author

Rogora, M, Buzzi, F, Dresti, C, Leoni, B, Lepori, F, Mosello, R, Patelli, M, Salmaso, N, Rogora, M, Buzzi, F, Dresti, C, Leoni, B, Lepori, F, Mosello, R, Patelli, M, and Salmaso, N

Abstract

Deep lakes south of the Alps (DSL: Maggiore, Lugano, Como, Iseo and Garda) are characterised by varying trophic states and dissolved oxygen (DO) concentrations. Some of these lakes experience anoxic conditions in deep waters. We hypothesised that the increase in temperature and water-column stability observed in these lakes during recent decades influenced the deep-water DO concentration. In particular, we tested whether the thermal regime of the lakes and the depth of mixing affect oxygen replenishment during winter-spring turnover. To this aim, we analysed long-term trends and seasonal variability of oxygen levels in the DSL during 1992-2016. We included in our analysis the effects of environmental variables, such as winter air temperature and atmospheric modes of variability. Our results showed a recent decrease in the deep-water oxygen content in lakes Maggiore, Como and Garda and an increase of the extent of anoxic conditions in lakes Lugano and Iseo. Our results suggest that, beside cultural eutrophication, rising environmental pressures, such as global warming, can influence the future trends of the oxygen levels and ecological states of deep lakes., Deep lakes south of the Alps (DSL: Maggiore, Lugano, Como, Iseo and Garda) are characterised by varying trophic states and dissolved oxygen (DO) concentrations. Some of these lakes experience anoxic conditions in deep waters. We hypothesised that the increase in temperature and water-column stability observed in these lakes during recent decades influenced the deep-water DO concentration. In particular, we tested whether the thermal regime of the lakes and the depth of mixing affect oxygen replenishment during winter–spring turnover. To this aim, we analysed long-term trends and seasonal variability of oxygen levels in the DSL during 1992–2016. We included in our analysis the effects of environmental variables, such as winter air temperature and atmospheric modes of variability. Our results showed a recent decrease in the deep-water oxygen content in lakes Maggiore, Como and Garda and an increase of the extent of anoxic conditions in lakes Lugano and Iseo. Our results suggest that, beside cultural eutrophication, rising environmental pressures, such as global warming, can influence the future trends of the oxygen levels and ecological states of deep lakes.

Published
2018

30. Regional assessment of the current extent of acidification of surface waters in Europe and North America

Author

Austnes, K., Aherne, J., Arle, J., Čičendajeva, M., Couture, S., Fölster, J., Garmo, O., Hruška, J., Monteith, D., Posch, M., Rogora, M., Sample, J., Skjelkvåle, B., Steingruber, S., Stoddard, J., Ulańczyk, R., van Dam, H., Velasco, M., Vuorenmaa, J., Wright, R., de Wit, H., Austnes, K., Aherne, J., Arle, J., Čičendajeva, M., Couture, S., Fölster, J., Garmo, O., Hruška, J., Monteith, D., Posch, M., Rogora, M., Sample, J., Skjelkvåle, B., Steingruber, S., Stoddard, J., Ulańczyk, R., van Dam, H., Velasco, M., Vuorenmaa, J., Wright, R., and de Wit, H.

Abstract

The current status of surface water acidification related to air pollution in Europe and North America has been assessed using country reports, monitoring data, critical loads and exceedance data, acid sensitivity and deposition maps, and data reported under the European Commission’s Water Framework Directive (WFD). Acidification is still observed in many countries, but the extent and severity vary. Maps of acid sensitivity and deposition suggest that surface water acidification is present in regions and countries for which no data or reports were delivered for the current assessment. Existing national monitoring varies in the ability to assess the spatial extent of acidification and the recovery responses of acidified sites. The monitoring requirements under the European Union’s National Emission Ceilings Directive are expected to reverse the recent decline in the number of monitoring sites observed in some countries. The information reported under the WFD is currently of limited value in assessing the extent of acidification of surface waters in Europe. Chemical recovery in response to reductions in acid deposition can be slow, and biological recovery can lag severely behind. Despite large and effective efforts across Europe and North America to reduce surface water acidification, air pollution still constitutes a threat to freshwater ecosystems.

Published
2018

31. La Scienza cammina, l'esperienza della Rete LTER Italia

Author

Bergami C., Campanaro A., D'Alelio D., L'Astorina A., Matteucci G., Oggioni A., Pugnetti A., and Rogora M.

Subjects
Long-Term Ecological Research, science communication
Abstract

I Cammini della "Rete Italiana per la Ricerca Ecologica di Lungo Termine" (Rete LTER-Italia, dove LTER sta per Long Term Ecological Research) sono stati ideati nel 2015 da un gruppo di ricercatori e ricercatrici interessati a far conoscere le proprie attività a un pubblico vasto. Carta geografica alla mano, hanno dato vita a una serie di itinerari tra i luoghi in cui essi stessi svolgono ricerche ecologiche: i siti della Rete LTER-Italia...

Published
2017

32. Travelling through ecosystems and biodiversity: Long-term ecological research for citizens

Author

Bergami C., Campanaro A., D'Alelio D., L'Astorina A., Matteucci G., Oggioni A., Pugnetti A., and Rogora M.

Subjects
long term ecological research, science communication
Abstract

Since 2015 Italian ecologists, active in long -term ecological research (LTER -Italy) and in biodiversity study (LifeWatch -Italy), started a process of informal public science communication, through walking and cycling together with citizens along itineraries connecting a number of LTER -Italy sites. The trails, named "CAMMINI LTER", aimed at offering citizens an opportunity to familiarize with the components and conditions of Italian biodiversity and ecosystems, from the sea to alpine tundra. This initiative was conceived to share the research results among a large public, by creating a physical and visible movement of researchers towards and with citizens, relying as well on the slow rhythm of walking and cycling that allow to create an intimate link with people and nature. Cammini LTER intended, in particular, to promote LTER and Life Watch activities to a not- expert audience and to increase ecological awareness and literacy, moving beyond communication deficit to dialogue, sharing scientific views as well as experiences and emotions. The trails were also an invaluable opportunity for scientists to understand the need to adopt a different cultural approach for more effective interactions with citizens, since communicating and sharing science is an important step for researchers to make their activity more visible and understandable. Actually, the trails produced unexpected effects on the scientists, evidencing the need of a cultural shift: they generated mutual learning by public and scientists and induced profound changes, vivid debates and critical considerations among researchers themselves, about some relevant aspects and needs of science communication. We report here some evaluations and perspectives coming form this experience that has recently crossed the national boundaries, becoming in 2016 the International initiative "TRAIL", selected and launched by the International Long- Term Ecological Research Network (ILTER)

Published
2017

33. Il contributo della citizen science allo studio dei laghi nelle Terre Alte

Author

Rogora, M., Oggioni, A., and Flaim, G.

Subjects
Lago di Tovel, Lake Tovel, Citizen Science, Settore BIO/07 - ECOLOGIA, Hardware_INTEGRATEDCIRCUITS, ComputingMilieux_LEGALASPECTSOFCOMPUTING, Hardware_PERFORMANCEANDRELIABILITY, NETLAKE, LTER, Limnologia, Hardware_REGISTER-TRANSFER-LEVELIMPLEMENTATION, Hardware_LOGICDESIGN
Abstract

La Citizen Science (CS), letteralmente "scienza dei cittadini", può essere definita come una tecnica di ricerca che prevede il coinvolgimento del pubblico nella raccolta di dati scientifici, o più in generale l'impiego di volontari in progetti di ricerca. Negli anni più recenti la comunità scientifica internazionale, efficacemente supportata dalla tecnologia e dagli strumenti di comunicazione, sta vivendo un rafforzamento della collaborazione tra pubblico e ricercatori, tra amatori e specialisti tematici.

Published
2017

34. Assessment of climate change effects on mountain ecosystems through a cross-site analysis in the Alps and Apennines

Author

Rogora, M., primary, Frate, L., additional, Carranza, M.L., additional, Freppaz, M., additional, Stanisci, A., additional, Bertani, I., additional, Bottarin, R., additional, Brambilla, A., additional, Canullo, R., additional, Carbognani, M., additional, Cerrato, C., additional, Chelli, S., additional, Cremonese, E., additional, Cutini, M., additional, Di Musciano, M., additional, Erschbamer, B., additional, Godone, D., additional, Iocchi, M., additional, Isabellon, M., additional, Magnani, A., additional, Mazzola, L., additional, Morra di Cella, U., additional, Pauli, H., additional, Petey, M., additional, Petriccione, B., additional, Porro, F., additional, Psenner, R., additional, Rossetti, G., additional, Scotti, A., additional, Sommaruga, R., additional, Tappeiner, U., additional, Theurillat, J.-P., additional, Tomaselli, M., additional, Viglietti, D., additional, Viterbi, R., additional, Vittoz, P., additional, Winkler, M., additional, and Matteucci, G., additional

Published
2018
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35. Influenza delle fluttuazioni climatiche sui grandi laghi a sud delle Alpi: implicazioni nel contesto del riscaldamento globale

Author

Salmaso, N, Buzzi, F, Cerasino, L, Garibaldi, L, Leoni, B, Manca, M, Morabito, G, Rogora, M, Simona, M, Rogora, M., Simona, M., LEONI, BARBARA, Salmaso, N, Buzzi, F, Cerasino, L, Garibaldi, L, Leoni, B, Manca, M, Morabito, G, Rogora, M, Simona, M, Rogora, M., Simona, M., and LEONI, BARBARA

Abstract

Influence of climatic fluctuations on the large lakes south of the Alps: implications in the context of global warming Synoptic analyses carried out in the largest lakes south of the Alps demonstrated a tight coupling between deep mixing dynamics and winter climatic fluctuations strictly controlled by atmospheric modes of variability relevant for the Mediterranean region, namely the East Atlantic pattern and the Eastern Mediterranean Pattern. In winter, the EA and EMP modes are associated with an intense northeasterly airûow bringing cold air from continental Europe over the Mediterranean basin. In turn, harsh winters had a strong impact on the lake water temperatures, deep lake circulation episodes, higher replenishment of epilimnetic phosphorus and hypolimnetic oxygen at spring overturn. Fertilisation was greatly enhanced in the meromictic and more eutrophic lakes. The effects of such a linked chain of events on phytoplankton were studied in Lake Garda where harsh winters and higher P-replenishment had a positive impact on the development of diatoms in spring and cyanobacteria in summer and autumn. Timing of Daphnia population density peak in lakes Garda, Maggiore and Iseo was directly correlated with water temperatures, while the level of peak density was mediated by the extent of spring mixing and food availability. It was hypothesized that an increase in the winter temperatures could cause a decrease in the occurrence of complete overturn episodes. In the short period, this should improve water quality, decreasing the replenishment of phosphorus and – as demonstrated in Lake Garda– the development of cyanobacteria. On the long-term, the lake warming could increase the risk of triggering meromictic conditions.

Published
2014

36. Ecosistemi di acque interne e di transizione

Author

Viaroli, P, Basset, A, Bartoli, M, Boggero, A, Cantonati, M, Ciampittiello, M, Fontaneto, D, Galassi, DMP, Guilizzoni, P, Lorenzoni, M, Ludovisi, A, Lugliè, A, Magni, P, Manca, M, Morabito, G, Padedda, BM, Riccardi, N, Rogora, M, Rossetti, G, Rossi, L, Salmaso, N, Sechi, N, Stoch, F, Tagliapietra, D, Volta, P., NASELLI FLORES, Luigi, Castellari, S, Venturini, S, Ballarin Denti, A, Bigano, A, Bindi, M, Bosello, F, Carrera, L, Chiriaco, MV, Danovaro, R, Desiato, F, Filpa, A, Gatto, M, Gaudioso, D, Giovanardi, O, Giupponi, C, Gualdi, S, Guzzetti, F, Lapi, M, Luise, A, Marino, G, Mysiak, J, Montanari, A, Ricchiuti, A, Rudari, R, Sabbioni, C, Sciortino, M, Sinisi, L, Valentini, R, Viaroli, P, Vurro, M, Zavatarelli, M, Basset, A, Bartoli, M, Boggero, A, Cantonati, M, Ciampittiello, M, Fontaneto, D, Galassi, DMP, Guilizzoni, P, Lorenzoni, M, Ludovisi, A, Lugliè, A, Magni, P, Manca, M, Morabito, G, Naselli Flores, L, Padedda, BM, Riccardi, N, Rogora, M, Rossetti, G, Rossi, L, Salmaso, N, Sechi, N, Stoch, F, Tagliapietra, D, and Volta, P

Subjects
Settore BIO/07 - Ecologia, Settore BIO/03 - Botanica Ambientale E Applicata, Strategia Nazionale di Adattamento al Cambiamento Climatico
Abstract

La valutazione dello stato di conservazione di biodiversità, funzioni e servizi degli ecosistemi di acque interne e la stima della loro vulnerabilità ai cambiamenti climatici sono affrontate considerando tipologie omogenee di ecosistemi acquatici, alla scala integrata del bacino idrografico e della zona di transizione adiacente. Gli ecosistemi acquatici sono ripartiti, secondo uno schema tradizionale, in: bacini fluviali, laghi, zone umide e acque lentiche85 di piccole dimensioni, ecosistemi dipendenti dalle acque sotterranee (Groundwater Dependent Ecosystems - GDE) e ambienti di transizione a mare. I bacini fluviali e i laghi sono inoltre analizzati nel contesto della regione geografica cui appartengono, assumendo che vi siano associate diverse pressioni e minacce derivanti dai cambiamenti climatici. I cambiamenti climatici hanno effetti diretti sulla fenologia e sulla distribuzione delle specie che si manifestano in seguito a modificazioni della durata delle fasi di crescita, anticipazione o ritardo nelle migrazioni, sfasamento dei cicli vitali di predatore e preda, e migrazione verso nord e verso monte delle specie sensibili all’aumento di temperatura. Negli ecosistemi acquatici queste perturbazioni sono causate non solo dall’aumento della temperatura, ma anche dalle variazioni del regime idrologico e delle proprietà fisiche delle masse d’acqua. Tra gli ecosistemi a maggiore vulnerabilità si annoverano le acque lentiche di piccole dimensioni, i GDE e i laghi d’alta quota, e i corsi d’acqua appenninici e delle isole maggiori, sui quali già insistono pressioni importanti per l’elevato tasso di sfruttamento del territorio e delle risorse idriche. La vulnerabilità dei grandi corsi d’acqua dipende dall’interazione tra le pressioni locali (uso del suolo, urbanizzazione, alterazioni idro-morfologiche), le variazioni del regime idrologico e la gestione delle risorse idriche. Attualmente si segnalano problemi legati al dissesto idromorfologico dei corsi d’acqua, al deflusso residuo a valle delle derivazioni idriche, alle variazioni improvvise e intense delle portate dovute all’esercizio delle centrali idroelettriche (hydropeaking), all’inquinamento delle acque, alla perdita di specie indigene e alla crescente diffusione di specie aliene. Queste situazioni potrebbero essere amplificate dalle variazioni del regime idrologico indotte dai cambiamenti climatici. I grandi laghi subalpini profondi sono regolati e costituiscono la più importante riserva di acqua dolce in Italia. Negli ultimi decenni si sono osservate condizioni critiche per il bilancio termico e la conseguente stratificazione della colonna d’acqua: l’aumento della temperatura atmosferica ha già causato una notevole riduzione della frequenza del rimescolamento delle intere masse d’acqua (oligomissi) e potrebbe portare a un rimescolamento limitato ai soli strati superficiali (meromissi). Le condizioni di meromissi sono in genere accompagnate dall’esaurimento dell’ossigeno disciolto nelle acque di fondo e da notevoli alterazioni della composizione delle comunità lacustri. Nel lungo termine, la diminuzione degli apporti nivali e glaciali e l’aumento dei prelievi potrebbero determinare oscillazioni del livello idrico con gravi impatti anche sulle zone litoranee di basso fondale. Condizioni di particolare vulnerabilità sono previste per i laghi dell’Italia centrale, in particolare per quelli poco profondi come il Lago Trasimeno, nei quali si stanno verificando l’interramento delle zone litoranee, l’aumento delle concentrazioni dei soluti e il riscaldamento delle acque. Nei laghi artificiali dell’Italia meridionale e delle isole, la diminuzione delle precipitazioni e l’aumento della temperatura, combinate con un maggiore consumo idrico, potrebbero accentuare le variazioni di livello, favorendo così il peggioramento della qualità delle acque e l’affermazione di specie invasive e di cianobatteri tossici. Le acque di transizione (foci fluviali e lagune costiere) sono esposte alle variazioni del regime idrologico dei bacini di monte, all’innalzamento del livello marino e all’aumento della temperatura. Trattandosi di sistemi a bassa profondità, sono attesi effetti particolarmente marcati nelle comunità bentoniche, con comparsa di fioriture di macroalghe, microalghe tossiche e cianobatteri e scomparsa delle specie animali maggiormente sensibili. Le opere di difesa idraulica a protezione dei centri abitati e delle zone agricole subsidenti potrebbero fare aumentare il confinamento delle aree lagunari interne, con rischi crescenti di stagnazione e anossia delle acque, condizioni che comportano la perdita di specie sensibili al tenore di ossigeno e alla temperatura. Complessivamente, si ritiene che le tendenze evolutive degli ecosistemi lagunari possano essere sfavorevoli per le specie native a vantaggio di quelle esotiche, con possibili impatti anche sulle attività di pesca e acquacoltura. Nelle foci fluviali, nei periodi di secca si potrà verificare la risalita del cuneo salino, un fenomeno che si è già manifestato in modo significativo in anni particolarmente siccitosi, ad esempio dal 2003 al 2007. Nella maggior parte degli ambienti acquatici considerati, al crescere della temperatura e della durata della stagnazione delle masse idriche potranno aumentare il metabolismo microbico e l’eterotrofia, con possibili retroazioni sulle emissioni di gas clima-alteranti (CO2, N2O e CH4).

Published
2014

37. Influenza delle fluttuazioni climatiche sui grandi laghi a sud delle Alpi: implicazioni nel contesto del riscaldamento globale

Author

Nico Salmaso, Buzzi, F., leonardo cerasino, Garibaldi, L., Leoni, B., Manca, M., Morabito, G., Rogora, M., Simona, M., Salmaso, N, Buzzi, F, Cerasino, L, Garibaldi, L, Leoni, B, Manca, M, Morabito, G, Rogora, M, and Simona, M

Subjects
Eastern Mediterranean Pattern, Laghi sudalpini, Settore BIO/07 - ECOLOGIA, deep perialpine lakes / eutrophication / climatic change / East Atlantic pattern / Eastern Mediterranean Pattern, East Atlantic pattern, Cambiamenti climatici, Eutrofizzazione
Abstract

Influence of climatic fluctuations on the large lakes south of the Alps: implications in the context of global warming Synoptic analyses carried out in the largest lakes south of the Alps demonstrated a tight coupling between deep mixing dynamics and winter climatic fluctuations strictly controlled by atmospheric modes of variability relevant for the Mediterranean region, namely the East Atlantic pattern and the Eastern Mediterranean Pattern. In winter, the EA and EMP modes are associated with an intense northeasterly airûow bringing cold air from continental Europe over the Mediterranean basin. In turn, harsh winters had a strong impact on the lake water temperatures, deep lake circulation episodes, higher replenishment of epilimnetic phosphorus and hypolimnetic oxygen at spring overturn. Fertilisation was greatly enhanced in the meromictic and more eutrophic lakes. The effects of such a linked chain of events on phytoplankton were studied in Lake Garda where harsh winters and higher P-replenishment had a positive impact on the development of diatoms in spring and cyanobacteria in summer and autumn. Timing of Daphnia population density peak in lakes Garda, Maggiore and Iseo was directly correlated with water temperatures, while the level of peak density was mediated by the extent of spring mixing and food availability. It was hypothesized that an increase in the winter temperatures could cause a decrease in the occurrence of complete overturn episodes. In the short period, this should improve water quality, decreasing the replenishment of phosphorus and – as demonstrated in Lake Garda– the development of cyanobacteria. On the long-term, the lake warming could increase the risk of triggering meromictic conditions.

Published
2014

38. Riding through Ecosystem and Biodiversity: Longterm Italian Ecosystem research for Citizens

Author

Pugnetti A., Bergami C., Campanaro A., Carrara P., Criscuolo L., D'Alelio D., Freppaz M., Lami A., Maggioni M., Matteucci G., Mazzocchi M., Oggioni A., Petriccione B., Ravaioli M., Rogora M., and Basset A.

Subjects
LTER-Italy, ecology, long-term ecosystem research
Abstract

Italian ecologists who are active in the Italian long-term ecosystem research (LTER-Italy) and in the study of biodiversity (Lifewatch-Italy), walk and cycle together with citizens along three paths organized as events of scientific dissemination. The paths, which are aimed at raising public awareness on ecosystems, biodiversity, and environmental sustainability, connect different LTER-Italy sites. They represent a sort of "Via Francigena" of the ecological research and offer citizens the opportunity to familiarize with the wealth and fragilities of Italian ecosystems. Observing the landscape at the natural speed of human walking or biking is the best way to appreciate the peculiarities of the surrounding environment, its diversity and ecological state. At the LTER sites and along the paths, researchers help citizens in recognizing and estimating the status of the vegetation, identify animals and plants, evaluate the degree of biodiversity, assess the quality of the waters of lakes and marine areas. Besides, citizens could meet researchers at work at the LTER-sites, join them in the fieldwork, understand the importance of the long-term ecological studies and activate initiatives of citizens science within the LTER and Lifewatch context.

Published
2015

39. Response of planktonic communities to calcium hydroxide addition in a hardwater eutrophic lake: results from a mesocosm experiment

Author

Leoni, B, Morabito, G, Rogora, M, Pollastro, D, Mosello, R, Arisci, S, Forasacco, E, Garibaldi, L, LEONI, BARBARA, Morabito G, Rogora M., Pollastro D., Mosello R., Arisci S., Forasacco E, Garibaldi L., Leoni, B, Morabito, G, Rogora, M, Pollastro, D, Mosello, R, Arisci, S, Forasacco, E, Garibaldi, L, LEONI, BARBARA, Morabito G, Rogora M., Pollastro D., Mosello R., Arisci S., Forasacco E, and Garibaldi L.

Abstract

The main focus of this study was to investigate the effects of lime treatment with Ca(OH)(2) on a hypereutrophic hardwater lake (Lake Alserio, Northern Italy), focusing on its impact on plankton communities. We performed a mesocosm experiment using two large enclosures, one for treatment and one control, in the lake. The addition of Ca(OH)(2) proved to be effective in reducing phosphorus concentration, but the effect was limited in time. Redissolution of the precipitating calcium carbonate as it came into contact with the deep water determined a phosphorus increase about 2 weeks after the liming. The liming had a strong impact on the plankton assemblage, as was demonstrated by the sharp decrease in phytoplankton and zooplankton biomass and density, and 1 month after the treatment we observed a different taxonomic composition inside the enclosure from that of the lake. The result of the experiment showed that liming with Ca(OH)(2) can be regarded as a suitable treatment for accelerating recovery of the lake. Multiple treatments will be necessary to improve the trophic level over a longer period.

Published
2007

40. Evoluzione recente della qualità delle acque dei laghi profondi sudalpini (Maggiore, Lugano, Como, Iseo e Garda) in risposta alle pressioni antropiche e alle variazioni climatiche

Author

Mosello, R., Ambrosetti, W., Arisci, S., Bettinetti, R., Buzzi, F., Calderoni, A., Carrara, E., De Bernardi, R., Galassi, S., Garibaldi, L., Leoni, B., Manca, M., Marchetto, A., Morabito, G., Oggioni, A., Pagnotta, R., Ricci, D., Rogora, M., Salmaso, N., Simona, M., Tartari, G., Veronesi, M., Volta, P., Mosello, R, Ambrosetti, W, Arisci, S, Bettinetti, R, Buzzi, F, Calderoni, A, Carrara, E, De Bernardi, R, Galassi, S, Garibaldi, L, Leoni, B, Manca, M, Marchetto, A, Morabito, G, Oggioni, A, Pagnotta, R, Ricci, D, Rogora, M, Salmaso, N, Simona, M, Tartari, G, Veronesi, M, and Volta, P

Subjects
Deep lakes, Evoluzione trofica, qualità delle acque, pressioni antropiche, variazioni climatiche, Laghi sudalpini, Settore BIO/07 - ECOLOGIA, Microinquinanti organici, Organic pollutants, BIO/07 - ECOLOGIA, Eutrophication
Published
2010

41. Trend of water quality of the deep subalpine lakes in relation to anthropic pressure and climate - Evoluzione recente della qualità delle acque dei laghi profondi sudalpini (Maggiore, Lugano, Como, Iseo e Garda) in risposta alle pressioni antropiche e alle variazioni climatiche

Author

Mosello, R, Ambrosetti W, Arisci, S, Bettinetti, R, Buzzi F, Calderoni, A, Carrara, E, de Bernardi, R, Galassi, S, Manca M, Marchetto, A, Morabito, G, Oggioni, A, Pagnotta, R, Ricci, D, Rogora, M, Salmaso N, Simona, M, Tartari, G, Veronesi, M, Volta, P., GARIBALDI, LETIZIA, LEONI, BARBARA, Mosello, R, Ambrosetti, W, Arisci, S, Bettinetti, R, Buzzi, F, Calderoni, A, Carrara, E, de Bernardi, R, Galassi, S, Garibaldi, L, Leoni, B, Manca, M, Marchetto, A, Morabito, G, Oggioni, A, Pagnotta, R, Ricci, D, Rogora, M, Salmaso, N, Simona, M, Tartari, G, Veronesi, M, and Volta, P

Subjects
deep lakes, eutrophication, organic pollutants, BIO/07 - ECOLOGIA
Abstract

This paper presents a synthesis of the most important studies performed on the deep insubrian lakes (Maggiore, Lugano, Como, Iseo and Garda). Samples taken continuously over the last decades form the basis for a description of the trophic evolution of the lakes, inferred from concentrations of algal nutrients and dissolved oxygen. The results show an improvement in the condition of Lake Maggiore, currently approaching oligotrophy, and in that of lakes Como and Lugano, which are still nevertheless in an unacceptable eutrophic state. Lake Garda has been affected by an increase in mean P concentration since the 1970s, but it has stabilised in recent years. Also in Lake Iseo P concentration has not changed in the last twenty years, but the lake still remains in an eutrophic condition. It is noteworthy that the consequences of eutrophication are accentuated by the incomplete circulation of most of these

Published
2010

44. Cross comparison of nitrogen sources, sinks and transport within river basins: the Italian Nitrogen Network initiative (INN)

Author

Bartoli, M., Soana, E., Laini, A., Nizzoli, D., Pinardi, M., Racchetti, E., Gardi, C., Viaroli, P., Acutis, M., Salmaso, F., Quadroni, S., Crosa, G., De Marco, A., Demurtas, C., Roggero, P., Sacchi, E., Salmaso, N., Boscaini, A., Rogora, M., Trevisan, M., Stellato, L., Spagni, A., Vignudelli, M., Ventura, F., Rossi, P., Mastrocicco, M., Petitta, M., Gumiero, B., Grizzetti, B., Boz, B., Fano, E.A., and Castaldelli, G.

Subjects
Settore BIO/07 - ECOLOGIA
Published
2014

46. Recent trends in chloride and sodium concentrations in the deep subalpine lakes (Northern Italy)

Author

Rogora, M, Mosello, R, Kamburska, L, Salmaso, N, Cerasino, L, Leoni, B, Garibaldi, L, Soler, V, Lepori, F, Colombo, L, Buzzi, F, LEONI, BARBARA, GARIBALDI, LETIZIA, SOLER, VALENTINA, Buzzi, F., Rogora, M, Mosello, R, Kamburska, L, Salmaso, N, Cerasino, L, Leoni, B, Garibaldi, L, Soler, V, Lepori, F, Colombo, L, Buzzi, F, LEONI, BARBARA, GARIBALDI, LETIZIA, SOLER, VALENTINA, and Buzzi, F.

Abstract

A growing concern exists about the effects of chloride (Cl) on freshwater systems. Increasing Cl concentrations have been observed in the last few decades in several rivers and lakes, mainly in northern countries. In Italy, present levels and temporal changes of sodium (Na) and Cl in water bodies have rarely been assessed. Based on long-term data for the lakes of the subalpine district in Italy (Maggiore, Lugano, Como, Iseo, Garda), we analyzed trends affecting Cl and Na concentrations during the last 25 years, with the aim of identifying temporal changes and assessing possible causes. An in-depth analysis is presented for Lake Maggiore. Positive temporal Na and Cl trends were evident in all studied lakes, with the trends increasing since early 2000s. Data for Lake Maggiore tributaries showed a clear seasonality (higher values in winter and early spring). The NaCl used as road de-icing agent, together with Cl discharge from wastewater treatment plants, were identified as the main causes for the observed trends. Chloride concentrations in the lakes are below the threshold limit for reduced water quality and below concentrations known to harm aquatic biota. However, considering the relevance of deep subalpine lakes, representing almost 80 % of the total freshwater volume in Italy, these trends indicate an important chemical change, which warrants further analysis.

Published
2015

50. Laghi di Montagna

Author

Rossetti, G., Flaim, G., Rogora, M., and Thaler, B.

Subjects
Lago di Tovel, Lake Tovel, Settore BIO/07 - ECOLOGIA, LTER
Published
2012

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