{"id":376,"date":"2018-08-09T15:24:24","date_gmt":"2018-08-09T13:24:24","guid":{"rendered":"http:\/\/wp.unil.ch\/lakes\/?page_id=376"},"modified":"2025-12-06T09:15:08","modified_gmt":"2025-12-06T08:15:08","slug":"teams-publications","status":"publish","type":"page","link":"https:\/\/wp.unil.ch\/lakes\/teams-publications\/","title":{"rendered":"Team’s publications"},"content":{"rendered":"

In press<\/strong><\/em><\/p>\n

Perga. M.-E., Bouletreau, S., Cucherousset, J., Harrod, C., McIntosh, A., Olden, J., Vagnon, C. Jardine, T. A global estimator of C and N isotope baselines for fresh waters. Methods in Ecology and Evolution.<\/p>\n

2025<\/strong><\/p>\n

Mittelbach, B.V.A., White, M.E., Rhyner, T.M.Y., Haghipour, N., Perga, M.E.<\/strong>, Dubois, N. & Eglinton, T.I. (2025) Deltaic burial of authigenic calcite modulates the carbon balance of hardwater lakes<\/a>. Biogeosciences,<\/i><\/span> 22,<\/b> 6749-6763. https:\/\/bg.copernicus.org\/articles\/22\/6749\/2025\/<\/p>\n

Olden, J. D.<\/span>, F. W. Keppeler<\/span>, T. D. Jardine<\/span>, … Perga M-E..<\/strong>. Cucherousset, J. \u00a02025<\/span>. \u201c Looks Can Be Deceiving: Morphological Traits Are Weakly Associated With the Isotopic Niches of Freshwater Fishes<\/span>.\u201d Global Ecology and Biogeography<\/i> <\/span>34<\/span>, no. 9<\/span>: e70124. https:\/\/doi.org\/10.1111\/geb.70124<\/a>.<\/p>\n

Dory F, Arthaud F, Aug\u00e9 V, Baillot S, Bertrand C, Birck C, . . . Perga M-E<\/strong> (2025) Vulnerable but not equal: Mountain lakes exhibit heterogeneous patterns of phytoplankton responses to climate change<\/a>. Limnology and Oceanography Letters<\/em><\/span>,\u00a0<\/i>10.1002\/lol2.70034.<\/p>\n

Tiberti, R., Dory, F., Arthaud, F., Aug\u00e9, V., Birk, C., Cavalli, L., Fontaneto, D., Napoleoni, R., Perga, M.E<\/strong>., Sab\u00e1s, I., Sagot, C., Sommaruga, R. (2025) Long-term changes of zooplankton in alpine lakes result from a combination of local and global threats<\/a>. Biological Conservation<\/em><\/span> 308, 111222.<\/p>\n

Bouletreau, S., Vagnon, C., Comte, L., Sagouis, A., Pool, T., Stiling, R., Harrod, C., South, J., McIntosh, A., Perga, M.E.<\/strong>, Sanchez-Hernandez, J., Roussel, J.M., Tunney, T., Jackson, M., Olden, J., Cucherousset, J. (in press). IsoFresh: A global stable isotope database of freshwater food webs<\/a>. Knowledge and Management of Aquatic Ecosystems. <\/span><\/em>10.1051\/kmae\/2025010<\/p>\n

White<\/span>, M. E., Mittlebach. B., Escoffier, N<\/strong>., Rhymer, T., Haghipour, N., Janssen, D., Perga, M.E.<\/strong>, Dubois, N., Eglinton, T.I.. 2025. Seasonally Dynamic Dissolved Carbon Cycling in a Large Hard Water Lake. J. Geophys. Res. Biogeosciences<\/em><\/span> 130: e2024JG008645. <\/span>doi:10.1029\/2024JG008645<\/span><\/a><\/p>\n

\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u2192<\/span> Editor’s highlight :<\/span> Organic carbon reveals its inorganic ancestry in Lake Geneva (6 may 2025)<\/a><\/p>\n

\u00a0Glines, M.R.<\/span>, Amancio, R.C.H.<\/span>, Andersen, M.R.<\/span>, Baulch, H.<\/span>, Brighenti, L.S.<\/span>, Chmiel, H.E.<\/span> .. Perga M.E.<\/strong> et al. (2025<\/span>) Coefficients in Taylor’s law increase with the time scale of water clarity measurements in a global suite of lakes<\/span>. Ecology Letters<\/i><\/span>, 27<\/span>, e14451. 10.1111\/ele.14451<\/a><\/p>\n

2024<\/strong><\/p>\n

Many, G., Escoffier, N.,<\/strong>\u00a0Perolo, P.<\/strong>, B\u00e4renbold, F., Bouffard, D., Perga M.E. 2024<\/strong>. Calcite precipitation: The forgotten piece of lakes\u2019 carbon cycle. Science Advances<\/span>, 10<\/b>,eado5924(2024). DOI:10.1126\/sciadv.ado5924<\/a><\/span><\/p>\n

\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u2192<\/span> Editor’s highlight<\/span> : Jack J. Middelburg, <\/span>Closing the inland water carbon cycle. Science \u00a0 \u00a0 \u00a0Advances<\/span>, <\/span><\/span>10<\/b>,<\/span>eadt3893<\/span>(2024).<\/span>DOI:10.1126\/sciadv.adt3893<\/a><\/span><\/p>\n

Francescangeli, D., Diebold, M., Doda, T., Perga, M.E., Bouffard, D.,<\/strong> Janssen, D., Rossi, L. (2024) La mod\u00e9lisation comme outil de gestion des lacs en Suisse. Aqua & Gas<\/span><\/em>. link<\/a>.<\/p>\n

Khatun, S.,<\/strong> Berg, J.S., J\u00e9z\u00e9quel, D., Moiron, M., Escoffier, N.,<\/strong> Schubert, C.J., Bouffard, D. and Perga, M.-E.<\/strong> (2024), Long-range transport of littoral methane explains the metalimnetic methane peak in a large lake. Limnology and Oceanography<\/em><\/span>, 69: 2095-2108. https:\/\/doi.org\/10.1002\/lno.12652<\/a><\/p>\n

Piton, V., Reiss, R., Lemmin, U., Anneville, O., Many, G., Keller, J., <\/strong>Kindschi, V., Wynn, H.K., Rasconi, S., Laine, L. and Barry, D.A. (2024), <\/strong>Identifying and quantifying unexpected deep zooplankton diel vertical migration in a large deep lake. Limnology and Oceanography<\/em><\/span>. https:\/\/doi.org\/10.1002\/lno.12736<\/a><\/p>\n

Perga, M.-E<\/strong>., T. Dittmar, D. Bouffard<\/strong>, and E. Kritzberg. The elephant in the conference room: reducing the carbon footprint of aquatic science meetings. Limnology and Oceanography Letters<\/em><\/span> n\/a<\/b>. doi:https:\/\/doi.org\/10.1002\/lol2.10402<\/a><\/p>\n

Perga, M.-E.<\/strong>, Pessina, L.-A., Lane, S., Butera, F. 2024. From Newsworthiness to News Usefulness in Climate Change Research. Eos<\/span><\/em>, 105, https:\/\/doi.org\/10.1029\/2024EOS240051.<\/p>\n

Doda T, Ram\u00f3n CL, Ulloa HN, Brennwald MS, Kipfer R, Perga M-E<\/strong>, . . . Bouffard D Lake surface cooling drives littoral-pelagic exchange of dissolved gases. Science Advances<\/span><\/em>,<\/i> 10<\/b>, eadi0617.<\/p>\n

2023<\/strong><\/p>\n

Perga, M.-E<\/strong>., O. Sarrasin, J. Steinberger, S. N. Lane, and F. Butera. 2023. The climate change research that makes the front page: Is it fit to engage societal action? Global Environmental Change<\/span><\/em> 80: <\/strong>102675.<\/p>\n

Frossard, V., Sabatier, P., Bruel, R. …\u00a0.<\/i>Perga ME<\/strong> (2023) Intense touristic activities exceed climate change to shape aquatic communities in a mountain lake. Aquat Sci<\/i> <\/span>85<\/b>, 71 . https:\/\/doi.org\/10.1007\/s00027-023-00968-6<\/p>\n

M.E Perga<\/strong>, C. Minaudo, T. Doda F. Arthaud, H. Beria, H.E. Chmiel, N. Escoffier, T. Lambert,<\/strong> R. Napolleoni, B. Obrador, P. Perolo, J. R\u00fcegg,<\/strong> H.N. Ulloa, D. Bouffard (2023).\u00a0Near-bed stratification controls bottom hypoxia in ice-covered alpine lakes. Limnology and Oceanography.<\/span><\/em>\u00a0https:\/\/doi.org\/10.1002\/lno.12341<\/p>\n

Perolo, P., Escoffier, N.,<\/strong> Chmiel, H.E., Many, G.,<\/strong> Bouffard, D., Perga, M.-E.<\/strong> (2023) Alkalinity contributes at least a third of annual gross primary production in a deep stratified hardwater lake. Limnology and Oceanography Letters,<\/span><\/em> 8: 359-367. https:\/\/doi.org\/10.1002\/lol2.10311<\/a><\/p>\n

Del Siro, C., Scapozza, C., Perga, M.-E<\/strong>., Lambiel, C. (2023) Investigating the origin of solutes in rock glacier springs in the Swiss Alps: A conceptual model. Frontiers in Earth Science<\/span><\/em> 11.<\/p>\n

Escoffier, N., Perolo, P., Many, G.,<\/strong> Pasche, N.T., Perga, M.-E.<\/strong> (2023) Fine-scale dynamics of calcite precipitation in a large hardwater lake. Science of the Total Environment<\/span><\/em> 864, 160699.<\/p>\n

2022<\/strong><\/p>\n

Many, G., Escoffier, N., Ferrari, M.,<\/strong> Jacquet, P., Odermatt, D., Mariethoz, G., Perolo, P., Perga, M.-E.<\/strong> (2022) Long-Term Spatiotemporal Variability of Whitings in Lake Geneva from Multispectral Remote Sensing and Machine Learning. Remote Sensing<\/span><\/em> 14, 6175.<\/p>\n

Danger, M., Bec, A., Spitz, J., Perga, M.-E.<\/strong> (2022) Special issue: Questioning the roles of resources nutritional quality in ecology. Oikos<\/span> <\/em>2022, e09503.<\/p>\n

Perga, M.E.<\/strong>, Bouffard, D., (2022) Introduction to Structures and functions of Inland Waters – Lakes, in: Tockner, T.M.K. (Ed.), Encyclopedia of Inland Waters<\/span><\/em>, 2nd Edition. Elsevier.<\/p>\n

Escoffier, N., Perolo, P., Lambert, T., R\u00fcegg<\/strong>, J., Odermatt, D., Adatte, T., Vennemann, T., Perga, M.-E<\/strong>. (2022) Whiting Events in a Large Peri-Alpine Lake: Evidence of a Catchment-Scale Process. Journal of Geophysical Research: Biogeosciences<\/span><\/em> 127, e2022JG006823.<\/p>\n

Lambert T, Perolo P, Escoffier N, Perga ME.<\/strong> Enhanced bioavailability of dissolved organic matter (DOM) in human-disturbed streams in Alpine fluvial networks. Biogeosciences.<\/span><\/em> 2022;19(1):187-200.<\/p>\n

2021<\/strong><\/p>\n

Perolo, P.<\/strong>, B. Fern\u00e1ndez Castro, N. Escoffier, T. Lambert,<\/strong> D. Bouffard, and M. E. Perga. 2021<\/strong>. Accounting for surface waves improves gas flux estimation at high wind speed in a large lake<\/a>. Earth Syst. Dynam.<\/span><\/em> 12<\/b>:1169-1189.<\/p>\n

Monchamp, M.-\u00c8., R. Bruel,<\/strong> V. Frossard, S. McGowan, M. Lavrieux, M. Muschick, M.-\u00c9. Perga,<\/strong> and N. Dubois. 2021. Paleoecological evidence for a multi-trophic regime shift in a perialpine lake (Lake Joux, Switzerland). Anthropocene:<\/span><\/em>100301.<\/p>\n

Fern\u00e1ndez Castro, B.<\/span>, Chmiel, H. E.<\/span>, Minaudo, C.<\/span>, Krishna, S.<\/span>, Perolo, P.<\/span>,<\/strong> Rasconi, S.<\/span>, & W\u00fcest, A.<\/span> (2021<\/span>). Primary and net ecosystem production in a large lake diagnosed from high-resolution oxygen measurements<\/span>. Water Resources Research<\/i>,<\/span> 57<\/span>, e2020WR029283. https:\/\/doi.org\/10.1029\/2020WR029283<\/a><\/p>\n

W\u00fcest, A.<\/span>, Bouffard, D.<\/span>, Guillard, J.<\/span>, Ibelings, B. W.<\/span>, Lavanchy, S.<\/span>, Perga, M.-E.<\/span><\/strong>, & Pasche, N.<\/span>(2021<\/span>). L\u00e9XPLORE: A floating laboratory on Lake Geneva offering unique lake research opportunities<\/span>. Wiley Interdisciplinary Reviews: Water<\/i>,<\/span> e1544. https:\/\/doi.org\/10.1002\/wat2.1544<\/a><\/p>\n

Rantala, M. V., Bruel, R.,<\/strong> Marchetto, A., Lami, A., Spangenberg, J. E., & Perga, M.-E. (2021)<\/strong>. Heterogeneous responses of lake CO2 to nutrients and warming in perialpine lakes imprinted in subfossil cladoceran \u03b413C values. Science of the Total Environment,<\/span> 782<\/i>, 146923. doi:https:\/\/doi.org\/10.1016\/j.scitotenv.2021.146923<\/a><\/p>\n

Bruel, R<\/strong>., Girardclos, S., Marchetto, A., Kremer, K., Crouzet, C., Reyss, J. L., . . . Perga, M. E.<\/strong> (2021). Reframing Lake Geneva ecological trajectory in a context of multiple but asynchronous pressures. Journal of Paleolimnology<\/span><\/em>, 65(3), 353-368. doi:10.1007\/s10933-021-00176-y<\/p>\n

Perga, M.-E<\/strong>., Syarki, M., Spangenberg, J. E., Frossard, V., Lyautey, E., Kalinkina, N., & Bouffard, D. (2021). Fasting or feeding: A planktonic food web under lake ice. Freshwater Biology,<\/span> <\/em>66(3), 570-581. doi:https:\/\/doi.org\/10.1111\/fwb.13661<\/p>\n

Otero, I., Darbellay, F., Reynard, E., Het\u00e9nyi, G., Perga, M.-E., R\u00fcegg, J<\/strong>., . . . de Bellefroid, B. (2021). Designing Inter- and Transdisciplinary Research on Mountains: What Place for the Unexpected? Mountain Research and Development<\/span><\/em>, 40(4).<\/p>\n

2020<\/strong><\/p>\n

Wilson, H. L., Ayala, A. I., Jones, I. D., Rolston, A., Pierson, D., de Eyto, E., Grossart, H.-P., Perga, M.-E.<\/strong>, Woolway, R. I., and Jennings, E. (2020) Variability in epilimnion depth estimations in lakes, Hydrol. Earth Syst. Sci<\/em>.<\/span>\u00a0 https:\/\/doi.org\/10.5194\/hess-2020-222,<\/p>\n

Gu\u00e9nand, Y., M.-E. Perga<\/strong>, V. Chanudet and D. Bouffard (2020). “Hydropower operations modulate sensitivity to meteorological forcing in a high altitude reservoir.” Aquatic Sciences<\/span><\/em> 82<\/b>(3): 60.<\/p>\n

Jenny, J.-P., O. Anneville, F. Arnaud, Y. Baulaz, D. Bouffard, I. Domaizon, S. A. Bocaniov, N. Ch\u00e8vre, M. Dittrich, J.-M. Dorioz, E. S. Dunlop, G. Dur, J. Guillard, T. Guinaldo, S. Jacquet, A. Jamoneau, Z. Jawed, E. Jeppesen, G. Krantzberg, J. Lenters, B. Leoni, M. Meybeck, V. Nava, T. N\u00f5ges, P. N\u00f5ges, M. Patelli, V. Pebbles, M.-E. Perga<\/strong>, S. Rasconi, C. R. Ruetz, L. Rudstam, N. Salmaso, S. Sapna, D. Straile, O. Tammeorg, M. R. Twiss, D. G. Uzarski, A.-M. Ventel\u00e4, W. F. Vincent, S. W. Wilhelm, S.-\u00c5. W\u00e4ngberg and G. A. Weyhenmeyer (2020). “Scientists\u2019 Warning to Humanity: Rapid degradation of the world\u2019s large lakes.” Journal of Great Lakes Research.<\/span><\/em><\/p>\n

Perga, M. E<\/strong>., M. Syarki, N. Kalinkina and D. Bouffard (2020). “A rotiferan version of the punishment of Sisyphus?” Ecology<\/span><\/em> 101(3): e02934.<\/p>\n

2019<\/strong><\/p>\n

Thomas, C., V. Frossard, M. E. Perga<\/strong>, N. Tofield-Pasche, H. Hofmann, N. Dubois, N. Belkina, M. Zobkova, S. Robert, and E. Lyautey. 2019. Lateral variations and vertical structure of the microbial methane cycle in the sediment of Lake Onego (Russia). Inland Waters.<\/span><\/em>\u00a09<\/strong>:205-226.<\/p>\n

Lambert, T. & Perga, ME<\/strong>.Non-conservative patterns of dissolved organic matter degradation when and where lake water mixes\u00a0Aquat Sci<\/span> <\/em>(2019) 81: 64. https:\/\/doi.org\/10.1007\/s00027-019-0662-z<\/p>\n

Masset T, Frossard V, Perga ME,<\/strong> Cottin N, Piot C, Cachera S, Naffrechoux E (2019) Trophic position and individual feeding habits as drivers of differential PCB bioaccumulation in fish populations. Science of The Total Environment, <\/span><\/em>674<\/b>, 472-481.<\/p>\n

Four B, Thomas M, Danger M, Angeli N, Perga M-E<\/strong>, Banas D (2019) Using stable isotope approach to quantify pond dam impacts on isotopic niches and assimilation of resources by invertebrates in temporary streams: a case study. Hydrobiologia<\/span><\/em>,<\/i> 834<\/b>, 163-181.<\/p>\n

2018<\/strong><\/p>\n

Majdi N, Hette-Tronquart N, Auclair E, Bec A, Chouvelon T, Cognie B, . . . Perga M-E<\/strong> (2018) There’s no harm in having too much: A comprehensive toolbox of methods in trophic ecology. Food Webs,<\/span><\/em> 17<\/b>, e00100.<\/p>\n

Taranu ZE, Carpenter SR, Frossard V, Jenny J-P, Thomas Z, Vermaire JC, Perga M-E<\/strong> (2018) Can we detect ecosystem critical transitions and signals of changing resilience from paleo-ecological records? Ecosphere<\/span><\/em>,<\/i> 9<\/b>, e02438.<\/p>\n

Perga M-E<\/strong>, Bruel R, Rodriguez L, Gu\u00e9nand Y, Bouffard D (2018) Storm impacts on alpine lakes: Antecedent weather conditions matter more than the event intensity. Global Change Biology<\/span><\/em>,<\/i> 24<\/b>, 5004-5016.<\/p>\n

Frantz A, Perga M-E<\/strong>, Guillard J (2018) Parasitic versus nutritional regulation of natural fish populations. Ecology and evolution,<\/span><\/em> 8<\/b>, 8713-8725.<\/p>\n

Perga M-\u00c9<\/strong>, Danger M, Dubois S, Fritch C, Gaucherel C, Hubas C, . . . Bec A (2018) Forces, failles et opportunit\u00e9s de la recherche fran\u00e7aise en \u00e9cologie trophique. Comptes Rendus Biologies.<\/span><\/em><\/p>\n

Bruel R, Marchetto A, Bernard A, Lami A, Sabatier P, Frossard V, Perga M-E<\/strong> (2018) Seeking alternative stable states in a deep lake. Freshwater Biology<\/span><\/em>,<\/i> 63<\/b>, 553-568.<\/p>\n

Frossard V, Rimet F, Perga M-E<\/strong> (2018) Causal networks reveal the dominance of bottom-up interactions in large, deep lakes. Ecological Modelling<\/span><\/em>,<\/i> 368<\/b>, 136-146.<\/p>\n\n\n

<\/p>\n","protected":false},"excerpt":{"rendered":"

In press Perga. M.-E., Bouletreau, S., Cucherousset, J., Harrod, C., McIntosh, A., Olden, J., Vagnon, C. Jardine, T. A global estimator of C and N isotope baselines for fresh waters. Methods in Ecology and Evolution. 2025 Mittelbach, B.V.A., White, M.E., Rhyner, T.M.Y., Haghipour, N., Perga, M.E., Dubois, N. & Eglinton, T.I. (2025) Deltaic burial of … <\/p>\n

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