Bibliographies thématiques / Subalpine lakes

Littérature scientifique sur le sujet « Subalpine lakes »

Auteur : Grafiati
Publié le 10 mars 2023

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Articles de revues sur le sujet "Subalpine lakes"

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Donald, D. B., et D. J. Alger. « Dynamics of Unexploited and Lightly Exploited Populations of Rainbow Trout (Salmo gairdneri) from Coastal, Montane, and Subalpine Lakes in Western Canada ». Canadian Journal of Fisheries and Aquatic Sciences 43, no 9 (1 septembre 1986) : 1733–41. http://dx.doi.org/10.1139/f86-217.

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Populations of rainbow trout (Salmo gairdneri) in one coastal and two montane lakes were characterized by a relatively stable age structure, approximately 50% annual mortality, maximum longevity of 7 yr, and close to linear growth beginning at age 1 or age 2. In contrast, populations in subalpine lakes were characterized by an unstable age structure, large annual variation in recruitment, maximum longevity of 13 yr or more, and growth patterns that were either asymptotic, complex, or linear. Age structure and thus year-class strength was directly related to cumulative summer temperature in one subalpine lake (r = 0.71, N = 11), and in others, strong year-classes were often associated with warm summers. These analyses indicate that the magnitude of recruitment in subalpine lakes was either primarily or at least partly due to annual differences in summer temperature. Longevity was inversely related to midsummer water temperature.
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Goldman, Charles R. « Four decades of change in two subalpine lakes ». SIL Proceedings, 1922-2010 27, no 1 (avril 2000) : 7–26. http://dx.doi.org/10.1080/03680770.1998.11901200.

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Donald, David B., R. Stewart Anderson et David W. Mayhood. « Coexistence of fish and large Hesperodiaptomus species (Crustacea : Calanoida) in subalpine and alpine lakes ». Canadian Journal of Zoology 72, no 2 (1 février 1994) : 259–61. http://dx.doi.org/10.1139/z94-035.

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In western Canada, the large diaptomids Hesperodiaptomus arcticus and (or) H. shoshone (> 2.5 mm) usually coexist with fish in large subalpine and alpine lakes located 1800 – 2455 m above sea level, but not in small lakes with area 2–16 ha and maximum depth 4–16 m. The char (Salvelinus) and trout (Oncorhynchus) species that inhabit these lakes are usually caught at depths of < 10 m and feed near shore. The profundal and offshore pelagic habitats of the large lakes provide a refuge from salmonid predation, permitting coexistence of large zooplankton and fish.
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Gerosa, C., M. Bresciani, G. Luciani, C. A. Biraghi, D. Carrion, M. Rogora et M. A. Brovelli. « ZONATION OF SUBALPINE LAKES BASED ON REMOTELY SENSED WATER QUALITY PARAMETERS ». International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLIII-B3-2021 (29 juin 2021) : 551–58. http://dx.doi.org/10.5194/isprs-archives-xliii-b3-2021-551-2021.

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Abstract. SIMILE is an INTERREG Italy-Switzerland project that aims to preserve water quality of the subalpine lakes Como, Lugano and Maggiore (Northern Italy), through an integrated innovative monitoring system. For this purpose, satellite images are processed to map and monitor Chlorophyll-a (CHL-a), Total Suspended Solids (TSM) and Lake Water Surface Temperature (LWST). This study combines these remotely sensed water quality parameters (WPQs) maps, produced for the SIMILE project during 2019–2020, to propose and discuss a zonation approach that can support the monitoring of the study lakes through the analysis of spatial and temporal dynamics of the selected parameters. The approach consists in performing a cluster analysis on a combined sample of WQPs maps, on a monthly basis, for each lake; then the different lake clusters are compared over time, through time series analysis of the WQPs patterns. Finally, the clusters patterns are aggregated over time to map the lakes’ areas that have experienced higher or lower WQPs values during 2019–2020. The results show a high spatial variability for the lakes under study, both during the different seasons and years; a North-South gradient has been identified for all WQPs pattern, requiring for further investigation.
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Sighicelli, Maria, Loris Pietrelli, Francesca Lecce, Valentina Iannilli, Mauro Falconieri, Lucia Coscia, Stefania Di Vito, Simone Nuglio et Giorgio Zampetti. « Microplastic pollution in the surface waters of Italian Subalpine Lakes ». Environmental Pollution 236 (mai 2018) : 645–51. http://dx.doi.org/10.1016/j.envpol.2018.02.008.

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Free, Gary, Mariano Bresciani, Monica Pinardi, Nicola Ghirardi, Giulia Luciani, Rossana Caroni et Claudia Giardino. « Detecting Climate Driven Changes in Chlorophyll-a in Deep Subalpine Lakes Using Long Term Satellite Data ». Water 13, no 6 (23 mars 2021) : 866. http://dx.doi.org/10.3390/w13060866.

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Climate change has increased the temperature and altered the mixing regime of high-value lakes in the subalpine region of Northern Italy. Remote sensing of chlorophyll-a can help provide a time series to allow an assessment of the ecological implications of this. Non-parametric multiplicative regression (NPMR) was used to visualize and understand the changes that have occurred between 2003–2018 in Lakes Garda, Como, Iseo, and Maggiore. In all four deep subalpine lakes, there has been a disruption from a traditional pattern of a significant spring chlorophyll-a peak followed by a clear water phase and summer/autumn peaks. This was replaced after 2010–2012, with lower spring peaks and a tendency for annual maxima to occur in summer. There was a tendency for this switch to be interspersed by a two-year period of low chlorophyll-a. Variables that were significant in NPMR included time, air temperature, total phosphorus, winter temperature, and winter values for the North Atlantic Oscillation. The change from spring to summer chlorophyll-a maxima, relatively sudden in an ecological context, could be interpreted as a regime shift. The cause was probably cascading effects from increased winter temperatures, reduced winter mixing, and altered nutrient dynamics. Future trends will depend on climate change and inter-decadal climate drivers.
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Goldman, Charles R., Alan Jassby et Thomas Powell. « Interannual fluctuations in primary production : Meteorological forcing at two subalpine lakes ». Limnology and Oceanography 34, no 2 (mars 1989) : 310–23. http://dx.doi.org/10.4319/lo.1989.34.2.0310.

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Morabito, Giuseppe, Nico Salmaso et Delio Ruggiu. « Phytoplankton association patterns in the deep southern subalpine lakes (Part 1) ». Journal of Limnology 61, no 1 (1 février 2002) : 91. http://dx.doi.org/10.4081/jlimnol.2002.91.

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Morabito, Giuseppe, Nico Salmaso et Delio Ruggiu. « Phytoplankton association patterns in the deep southern subalpine lakes (Part 2) ». Journal of Limnology 62, no 2 (1 août 2003) : 175. http://dx.doi.org/10.4081/jlimnol.2003.175.

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Junfang, ZHANG, FENG Jia, XIE Shulian et WANG Shihui. « Characteristics of phytoplankton community structures in Ningwu subalpine lakes, Shanxi Province ». Journal of Lake Sciences 24, no 1 (2012) : 117–22. http://dx.doi.org/10.18307/2012.0116.

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Thèses sur le sujet "Subalpine lakes"

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Epstein, David M. « 15N Tracer and Modeling Analyses of Nutrient Transport Through Lakes in a Subalpine Watershed ». DigitalCommons@USU, 2011. https://digitalcommons.usu.edu/etd/932.

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Lakes have historically been overlooked as important nutrient processors within their watersheds. In general ecologists have focused on streams as zones of uptake and transformation, while viewing lakes as simple nutrient traps. However, recent research has highlighted the large influence that lakes may have on water chemistry within their watersheds. Within the field of limnology, researchers have traditionally focused on the pelagic zone for in-lake production. Further research in shallow lakes has highlighted the role benthic production within the littoral zone plays in the lake ecosystem. The greater influence of lakes is highlighted when comparing watersheds containing lakes with watersheds composed of solely stream channels. To assess the influence that lakes have on water chemistry and nutrient transport, both field and modeling analyses were performed for Bull Trout Lake, Idaho. In 2008 a large field sampling effort was conducted along with a 15N tracer experiment to characterize the limnology of Bull Trout Lake (Idaho) and nitrogen uptake and transport through the lake. Following the termination of the field season a multi-lake ecosystem model was developed with the use of a one-dimensional lake water quality model. Results from both experiments demonstrated the role of Bull Trout Lake as a nutrient processor and source within its watershed and further suggested the added influence additional lakes might have on water chemistry. The outcomes of the tracer study indicated that pelagic primary producers have the first opportunity to assimilate nitrogen delivered by the inflow stream; however, nutrients incorporated into plants within the littoral zone are held on to longer. Further the tracer experiment demonstrated the small role that large organisms have in ecosystem nutrient dynamics. The multi-lake model demonstrated the effect of BTL as a nutrient source within the watershed and indicated that although multiple lakes in sequence may have additive effects, most of this influence is expressed in the first two lakes of a series. Our research provides examples of valuable tools in limnological research. While whole-lake tracer studies have rarely been performed, they are extremely effective in understanding ecosystems. Additionally, even though lake models may be simplifications of natural systems, they can provide an efficient means of understanding lake functioning and testing hypotheses.
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Winn, Neil Thomas. « Modeling Dissolved Organic Carbon (DOC) in Subalpine and Alpine Lakes With GIS and Remote Sensing ». Miami University / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=miami1209058548.

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Salimi, Shokoufeh. « Quantifying CO2 emissions from lakes and ponds in a large subarctic catchment ». Thesis, Umeå universitet, Institutionen för ekologi, miljö och geovetenskap, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-82963.

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Quantifying carbon emissions of water bodies at regional scale is required as recent studies revealed their contribution in carbon cycling is significant. This demands to scale up water bodies carbon emissions from local to regional scale using as accurate approach as possible. In this study data of carbon (CO2-C) fluxes for 80 sampled lakes were used to scale up to more than 3000 lakes and ponds over the catchment. The most appropriate method for upscaling was the one in which two factors of water body size and location (altitude) were involved and the uncertainties were quantified in an advanced approach (Monte Carlo model). Based on the estimates obtained in this method, the annual carbon emission from all water bodies (~ 500 km2) was about 2900 ton C yr-1 . About 62% of this annual emission was related to the large lake Torneträsk (334 km2) and another 38% to all other lakes and ponds (166 km2). Water bodies in subalpine region dominated (90%) total water bodies area and were the major contributor (97%) to the total carbon emissions of all water bodies. The remaining small contribution (3%) was for water bodies in the alpine region, which contains only 10% of total water bodies area. These data indicate that all water bodies smaller than the large lake Torneträsk especially the ones in the subalpine region have considerable contribution to the annual carbon emission of all water bodies. Considering water body size and altitude factors in the advanced upscaling method was appropriate to obtain accurate estimates.
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PATELLI, MARTINA. « ZOOPLANKTONIC POPULATION DYNAMICS AND PELAGIC FOOD WEBS IN THE DEEPEST SUBALPINE LAKES RELATED TO ANTHROPOGENIC PRESSURE AND CLIMATE CHANGE ». Doctoral thesis, Università degli Studi di Milano-Bicocca, 2020. http://hdl.handle.net/10281/262346.

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Il cambiamento climatico è considerato una delle minacce più gravi per la terra e gli ecosistemi acquatici e cresce la preoccupazione per gli effetti che il riscaldamento globale può avere sulle comunità biologiche. Negli ultimi anni, diversi studi hanno evidenziato la sensibilità dei corpi idrici alle fluttuazioni climatiche. Gli organismi zooplanctonici, caratterizzati da piccole dimensioni e rapido ciclo riproduttivo, sono sensibili ai cambiamenti ambientali. Inoltre, rappresentano dei componenti chiave delle catene trofiche acquatiche, collegando i produttori primari ai grandi consumatori secondari come pesci. Lo scopo della presente ricerca di dottorato è di ampliare le conoscenze sulle comunità zooplanctoniche dei grandi laghi subalpini, rilevando tendenze e cambiamenti nella struttura delle reti trofiche pelagiche e le loro potenziali cause. L’analisi di dati limnologici a lungo termine combinata a uno studio paleolimnologico del lago d’Iseo ha permesso di distinguere gli effetti dovuti al cambiamento climatico a quelli dovuti a impatti più locali, come l’eutrofizzazione. I risultati evidenziano che le rete trofiche dei laghi profondi subalpini sono fortemente influenzate dal clima. In particolare, la variabilità climatica invernale provoca un effetto a cascata che coinvolge l'intero ecosistema lacustre, modificando le caratteristiche chimiche, fisiche e biologiche del lago. Gli effetti del riscaldamento delle temperature invernali possono ripercuotersi sulle dinamiche di popolazione dello zooplancton fino all'estate, influenzando il funzionamento dell’intera catena trofica. L'indagine paleolimnologica, attraverso lo studio combinato di fattori biotici e abiotici, ha permesso di considerare gli effetti dei più importanti fattori di cambiamento negli ecosistemi lacustri, suggerendo che i fattori climatici dovrebbero essere considerati di fondamentale importanza nel determinare le dinamiche di sviluppo delle comunità planctoniche e la struttura e il funzionamento delle reti trofiche pelagiche.
Climate change is considered to be one of the most severe threats to earth and aquatic ecosystems and the concern about the effects that global warming can have on biological communities is growing. Even if the number of studies concerning climate change is worldwide increasing the effects of climate change are challenging to monitor and understand because of the multitude of responses within an ecosystem. In the last years, analyses of long-term data sets provide increasing evidence on the sensitivity of water bodies to climatic fluctuation. Small size and fast reproducing zooplankton organisms are sensitive to environmental change. Moreover, they represent key components of aquatic food webs, connecting primary producers to big secondary consumers as fishes. The purpose of the present PhD research is to expand the knowledge on the zooplankton communities of the large and deep lakes south of the Alps, detecting trends and significant change or shift in the pelagic food webs structure due to global or local impacts. The analysis of long-term series of limnological observations and a paleolimnological study on lake sediment have been combined in order to disentangle the effects of climate change from that due to more local and anthropic stressor as eutrophication. The obtained results suggested that in deep subalpine lakes the effect of climate change on pelagic food webs components is complex, including several direct and indirect effects, and it is mediated by nutrient availability. In particular, in deep lakes winter climatic variability trigger a cascading effect that involves the entire lake ecosystems, modifying lake chemical, physical and biological characteristic. The effects of warmer winter temperature can reverberate on zooplankton seasonal patterns until summer, affecting the food webs functioning. The paleolimnological investigation, through the combined study of biotic and abiotic factor, allowed clarifying the synergic effects of the most important drivers of change in lake ecosystems, suggesting that climatic factors should be considered with nutrient availability as a determinant element in controlling the temporal development of plankton communities and pelagic food web structure.
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Goodman, Keli J. « The Effect of In-Line Lakes on Dissolved Organic Matter Dynamics in Mountain Streams ». DigitalCommons@USU, 2010. https://digitalcommons.usu.edu/etd/702.

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This research combines observation, experimentation, and modeling to evaluate the influence of lakes on dissolved organic matter (DOM) quantity, quality and export in subalpine watersheds of the Sawtooth Mountain Lake District, central Idaho. First, I conducted an empirical study of the hydrologic and biogeochemical controls on DOM dynamics in stream-lake fluvial networks. I hypothesized that lakes would decrease temporal variability (i.e., buffer) and alter the characteristics of DOM from inflow to outflow. I tested these hypotheses by evaluating DOM temporal patterns and measuring annual export in seven-paired lake inflows and outflows. I then evaluated how ultraviolet (UV) exposure affected DOM characteristics during snowmelt and baseflow, and how UV alters baseflow DOM bioavailability and nutrient limitation. Given that increased water residence time increases UV exposure, I hypothesized that lake outflow DOM would be more photorecalcitrant than DOM from lake inflows. I further hypothesized that UV exposure would increase DOM quality, heterotrophic processing, and nutrient demand. Results indicate that lakes can buffer stream temporal variability by acting as a DOM sink during snowmelt and a DOM source during baseflow. Lake outflow DOM photodegradation was similar to lake inflows during snowmelt (p=0.66). Conversely, outflow DOM was 2X more photorecalcitrant than inflow DOM during baseflow (ANOVA, p=0.03) and was strongly related to water residence time (WRT). During baseflow, light exposure increased inflow and outflow DOM bioavailability (p=0.059 and 0.024, respectively) and nutrient limitation (p=0.03 and 0.09, respectively). Combined, these results indicate that WRT in subalpine lakes strongly influences DOM temporal variability and DOM degradation and processing. Thus, lakes can provide temporal stability of DOM and potentially increase both carbon and nutrient uptake by heterotrophs in lake outflows. I then evaluated how global changes could alter hydrologic and nutrient dynamics in a subalpine lake. Model results indicate that the magnitude and timing of snowmelt runoff can have a substantial effect on water and nutrient exports. In phosphorus (P)-limited lakes, increases in inorganic N concentrations within and exported from lakes are likely to occur with increased temperatures and lake WRT. Increases in atmospheric N deposition will further enhance inorganic N exports in P-limited subalpine lakes.
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Braekevelt, Eric. « Effects of suspended glacial particles on the bioavailability of hydrophobic organic contaminants in two subalpine lakes in the Canadian Rocky Mountains ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2001. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/MQ60416.pdf.

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Beaty, Myron H. « Limnological investigations of a natural, subalpine lake in the early stages of eutrophication : Mountain Lake, Giles County, Virginia / ». Diss., This resource online, 1995. http://scholar.lib.vt.edu/theses/available/etd-06062008-163934/.

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Nanus, Leora. « Regional assessment of the sources and effects of acidic deposition on lake chemistry in alpine and subalpine watersheds of National Parks in the Rocky Mountains, United States ». Connect to online resource, 2008. http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:3315793.

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Reinemann, Scott A. « Holocene Climate and Environmental Change in the Great Basin of the Western United States : A Paleolimnological Approach ». The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1372764346.

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CAPELLI, CAMILLA. « Toxin-producing cyanobacteria in the large lakes south of the Alps : detection of new producers and molecular identification methods ». Doctoral thesis, 2017. http://hdl.handle.net/2158/1081392.

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Livres sur le sujet "Subalpine lakes"

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Alfredo, Carollo, dir. Hydroclimatic and quantitative geomorphology investigations on the drainage basin of two large marginal subalpine lakes (Maggiore and Iseo). Pallanza, Italy : CNR, Istituto italiano di idrobiologia, 1985.

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Nanus, Leora. Sensitivity of Alpine and Subalpine Lakes to acidification from atmospheric deposition in Grand Teton National Park and Yellowstone National Park, Wyoming. Reston, Va : U.S. Geological Survey, 2005.

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Brittain, John E. The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : Local and gobal changes over the last 50 years. Sous la direction de Borgström Reidar. Dordrecht : Springer, 2010.

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Banks, Thomas W. Zooplankton community structure as influenced by fish in three subalpine lakes in Olympic National Park, Washington. 1991.

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Rowe-Krumdick, Stephen T. Subalpine lake chemistry and the abundance of the Northwestern salamander, Ambystoma gracile, in five central Cascade lakes, Washington. 1991.

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Brittain, John E., et Reidar Borgstrøm. Subalpine Lake Ecosystem, Øvre Heimdalsvatn, and Its Catchment : Local and Global Changes over the Last 50 Years. Springer London, Limited, 2015.

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Brittain, John E., et Reidar Borgstrøm. The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : Local and global changes over the last 50 years. Springer, 2014.

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Chapitres de livres sur le sujet "Subalpine lakes"

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Salmaso, Nico, Fabio Decet et Paolo Cordella. « Understanding deep oligotrophic subalpine lakes for efficient management ». Dans The Ecological Bases for Lake and Reservoir Management, 253–63. Dordrecht : Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-017-3282-6_23.

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Premazzi, G., A. Provini, G. F. Gaggino et G. Parise. « Geochemical Trends in Sediments From 13 Italian Subalpine Lakes ». Dans Sediments and Water Interactions, 157–65. New York, NY : Springer New York, 1986. http://dx.doi.org/10.1007/978-1-4612-4932-0_14.

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Kvambekk, Ånund Sigurd, et Kjetil Melvold. « Long-term trends in water temperature and ice cover in the subalpine lake, Øvre Heimdalsvatn, and nearby lakes and rivers ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 47–60. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_5.

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Morabito, Giuseppe, Alessandro Oggioni et Pierisa Panzani. « Phytoplankton assemblage at equilibrium in large and deep subalpine lakes : a case study from Lago Maggiore (N. Italy) ». Dans Phytoplankton and Equilibrium Concept : The Ecology of Steady-State Assemblages, 37–48. Dordrecht : Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-017-2666-5_4.

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Cermelj, Branko, et Jadran Faganeli. « Anoxic degradation of biogenic debris in sediments of eutrophic subalpine Lake Bled (Slovenia) ». Dans The Interactions between Sediments and Water, 193–99. Dordrecht : Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-017-3366-3_26.

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Brittain, John E., et Reidar Borgstrøm. « The Norwegian reference lake ecosystem, Øvre Heimdalsvatn ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 5–12. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_2.

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Larsson, Petter, Heidi Hansen et Linda Kristin Bjørnstad Helland. « Between-year variations in the development of crustacean zooplankton in the Norwegian subalpine lake, Øvre Heimdalsvatn ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 61–70. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_6.

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Velle, Gaute, Anne E. Bjune, Jorunn Larsen et H. John B. Birks. « Holocene climate and environmental history of Brurskardstjørni, a lake in the catchment of Øvre Heimdalsvatn, south-central Norway ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 13–34. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_3.

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Brittain, John E., et Reidar Borgstrøm. « Preface ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 1–4. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_1.

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Brittain, John E., et Helge E. Bjørnstad. « A long-term study of catchment inputs of 137Cs to a subalpine lake in the form of allochthonous terrestrial plant material ». Dans The subalpine lake ecosystem, Øvre Heimdalsvatn, and its catchment : local and global changes over the last 50 years, 101–6. Dordrecht : Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9388-2_10.

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Actes de conférences sur le sujet "Subalpine lakes"

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Pompeani, David P., Kendra K. McLauchlan, Barrie V. Chileen, W. John Calder, Bryan N. Shuman et Philip E. Higuera. « THE BIOGEOCHEMICAL CONSEQUENCES OF LATE HOLOCENE WILDFIRES IN THREE SUBALPINE LAKES FROM NORTHERN COLORADO ». Dans Joint 53rd Annual South-Central/53rd North-Central/71st Rocky Mtn GSA Section Meeting - 2019. Geological Society of America, 2019. http://dx.doi.org/10.1130/abs/2019sc-327557.

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Starratt, Scott W. « MISSING DIATOMS – HOW LAKE BATHYMETRY AFFECTS THE DISTRIBUTION OF DIATOM ASSEMBLAGES AND THE INTERPRETATION OF LAKE LEVEL VARIABILITY IN SMALL SUBALPINE LAKES ». Dans 113th Annual GSA Cordilleran Section Meeting - 2017. Geological Society of America, 2017. http://dx.doi.org/10.1130/abs/2017cd-293067.

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de Carli, Alessandro, Claudia Giardino et Eugenio Zilioli. « Surface radiation budget in a subalpine lake using a combined modeling/remote sensing method ». Dans Remote Sensing, sous la direction de Giovanna Cecchi, Edwin T. Engman et Eugenio Zilioli. SPIE, 1999. http://dx.doi.org/10.1117/12.373139.

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Pompeani, David P., Kendra McLauchlan, Meredith C. Parish, W. John Calder, Bryan N. Shuman et Philip E. Higuera. « WINTER PRECIPITATION DRIVES MILLENNIAL-SCALE LAKE SEDIMENT BIOGEOCHEMICAL TRENDS IN A FIRE-PRONE SUBALPINE LANDSCAPE ». Dans GSA 2020 Connects Online. Geological Society of America, 2020. http://dx.doi.org/10.1130/abs/2020am-359211.

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Riverson, John, Clary Barreto, Leslie Shoemaker, John Reuter et Dave Roberts. « Development of the Lake Tahoe Watershed Model : Lessons Learned through Modeling in a Subalpine Environment ». Dans World Water and Environmental Resources Congress 2005. Reston, VA : American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/40792(173)177.

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Stroope, Timothy L., et Frank H. Weirich. « THE EROSIONAL IMPACT OF GRAZING COMPARED TO SEVERE BLOWDOWN IN A COLORADO SUBALPINE WATERSHED AS RECORDED IN LAKE SEDIMENTS ». Dans GSA Annual Meeting in Denver, Colorado, USA - 2016. Geological Society of America, 2016. http://dx.doi.org/10.1130/abs/2016am-281219.

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