Abstract
Lakes are particularly vulnerable to environmental changes and thus considered sentinels and integrators of processes that occur in the atmosphere and terrestrial environments. Individual up to ecosystemic metabolic pathways and nutrient cycling in lakes respond to both natural and human disturbances. Disentangling the effect of such different forces is a particular challenge for lake ecological studies. Here we present a conference paper based on previous studies carried out in Andean-Patagonian lakes under two important events: the Puyehue–Cordón Caulle eruption in 2011 and the glacial recession with a glacial lake outburst flood (GLOF) in 2009. We discuss how biological variables responded to these two natural events that produced the input of minerogenic inorganic particles into the lakes. We present the combination of observational and experimental research, including new molecular methods, that contributed to understanding the effects of these inorganic particles on aquatic ecosystems. Both events involved changes in the transparency of the lakes that affected phytoplankton parameters (biomass vertical distribution), bacteria composition and community structuring process. Finally, both events had very contrasting effects on zooplankton, in the same range of particle concentrations. Particles from glacial melting are beneficial for daphnids reducing the impact of ultraviolet radiation and increasing the quality of the food. In contrast, volcanic ashes are abrasive materials that have a deleterious effect for filtering zooplankton.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
APHA (2005) Standard methods for the examination of water and wastewater. American Public Health Association, AWWA, Washington
Baigún C, Marinone MC (1995) Cold-temperate lakes of South America: do they fit Northern hemisphere models? Arch Hydrobiol 135:23–51
Balseiro E, Modenutti B, Queimaliños C, Reissig M (2007) Daphnia distribution in Andean Patagonian lakes: effect of low food quality and fish predation. Aquat Ecol 41:599–609
Balseiro EG, Souza MS, Modenutti BE, Reissig M (2008) Living in transparent lakes: low food P:C ratio decreases antioxidant response to ultraviolet radiation in Daphnia. Limnol Oceanogr 53:2383–2390
Barros V, Field C, Dokke D, Mastrandrea M, Mach K, Bilir T, Chatterjee M, Ebi K, Estrada Y, Genova R. (2014) Climate change 2014: impacts, adaptation, and vulnerability. Part B: regional aspects. In: Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
Bastidas Navarro M, Martyniuk N, Balseiro E, Modenutti B (2018) Effect of glacial lake outburst floods on the light climate in an Andean Patagonian lake: implications for planktonic phototrophs. Hydrobiologia 816:39–48
Berge T, Chakraborty S, Hansen PJ, Andersen KH (2017) Modeling succession of key resource-harvesting traits of mixotrophic plankton. ISME J 11:212–223
Callieri C, Balseiro EG, Bertoni R, Modenutti BE (2004) Picocyanobacterial photosynthetic efficiency under Daphnia grazing pressure. J Plankton Res 26:1471–1477
Caneiro A, Mogni L, Serquis A, Cotaro C, Wilberger D, Ayala C, Daga R, Poire D, Scerbo E. (2011) Análisis de cenizas volcánicas del Cordón Caulle (complejo volcánico Puyehue–Cordón Caulle). Comisión Nacional de Energía Atómica
Chillrud SN, Pedrozo FL, Temporetti PF, Planas FH, Froelich PN (1994) Chemical weathering of phosphate and germanium in glacial meltwater streams: effects of subglacial pyrite oxidation. Limnol Oceanogr 39:1130–1140
Díaz MM, Pedrozo FL, Temporetti P (1998) Phytoplankton of two Araucanian lakes of differing trophic status (Argentina). Hydrobiologia 369(370):45–57
Durant AJ, Villarosa G, Rose WI, Delmelle P, Prata AJ, Viramonte JG (2012) Long-range volcanic ash transport and fallout during the 2008 eruption of Chaitén volcano, Chile. Phys Chem Earth 45–46:50–64
Einarsson A, Óskarsson H, Haflidason H (1993) Stratigraphy of fossil pigments and Cladophora and its relationship with deposition of tephra in Lake Mývatn, Iceland. J Paleolimnol 8:15–26
Elser JJ, Bastidas M, Corman JR, Emick H, Kellom M, Laspoumaderes C, Lee ZM, Poret-Peterson A, Balseiro E, Modenutti B (2015) Community structure and biogeochemical impacts of microbial life on floating pumice. Appl Environ Microbiol 81:1542–1549
Evangelista H, Castagna A, Correia A, Potocki M, Aquino F, Alencar A, Mayewski P, Kurbatov A, Jana R, Nogueira J, Licinio M, Alves E, Simoes JC (2022) The 1991 explosive Hudson volcanic eruption as a geochronological marker for the Northern Antarctic Peninsula. An Acad Bras Cienc 94:e20210810
Ezcurra C, Brion C (2005) Plantas del Nahuel Huapi: Catálogo de la Flora Vascular del Parque Nacional Nahuel Huapi. Universidad Nacional del Comahue, Red Latinoamericana de Botánica
Falkowski PG, Raven JA (2007) Aquatic photosynthesis. Blackwell Science, Malden
Gaitán J, Ayesa J, Umaña F, Raffo F, Bran D, de Bariloche E (2011) Cartografía del área afectada por cenizas volcánicas en las provincias de Río Negro y Neuquén. INTA, SC de Bariloche
Guilizzoni P, Massaferro J, Lami A, Piovano EL, Guevara SR, Formica SM, Daga R, Rizzo A, Gerli S (2009) Palaeolimnology of Lake Hess (Patagonia, Argentina): multi-proxy analyses of short sediment cores. Hydrobiologia 631:289–302
Hansson TH, Grossart HP, del Giorgio PA, St-Gelais NF, Beisner BE (2019) Environmental drivers of mixotrophs in boreal lakes. Limnol Oceanogr 64:1688–1705
Hylander S, Jephson T, Lebret K, Von Einem J, Fagerberg T, Balseiro E, Modenutti B, Souza MS, Laspoumaderes C, Jönsson M, Ljungberg P, Nicolle A, Nilsson PA, Ranäker L, Hansson LA (2011) Climate-induced input of turbid glacial meltwater affects vertical distribution and community composition of phyto- and zooplankton. J Plankton Res 33:1239–1248
IPCC (2021) Climate change 2021: the physical science basis. In: Contribution of working group I to the sixth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, United Kingdom
Jones RI (2000) Mixotrophy in planktonic protists: an overview. Freshw Biol 45:219–226
Kirk JTO (1994) Light and photosynthesis in aquatic ecosystems. Cambridge University Press, Cambridge
Kritzberg ES (2017) Centennial-long trends of lake browning show major effect of afforestation. Limnol Oceanogr Lett 2:105–112
Laspoumaderes C, Modenutti B, Souza MS, Bastidas Navarro M, Cuassolo F, Balseiro E (2013) Glacier melting and stoichiometric implications for lake community structure: zooplankton species distributions across a natural light gradient. Glob Change Biol 19:316–326
Laspoumaderes C, Souza MS, Modenutti B, Balseiro E (2017) Glacier melting and response of Daphnia oxidative stress. J Plankton Res 39:675–686
Lindenmayer DB, Likens GE, Franklin JF (2010) Rapid responses to facilitate ecological discoveries from major disturbances. Front Ecol Environ 8:527–532
Markert B, Pedrozo F, Geller W, Friese K, Korhammer S, Baffico G, Diaz M, Wolfl S (1997) A contribution to the study of the heavy-metal and nutritional element status of some lakes in the southern Andes of Patagonia (Argentina). Sci Total Environ 206:1–15
Martyniuk N, Souza MS, Bastidas Navarro M, Balseiro E, Modenutti B (2022) Nutrient limitation affects biofilm enzymatic activities in a glacier-fed river. Hydrobiologia 849:2877–2894
Masiokas MH, Rabatel A, Rivera A, Ruiz L, Pitte P, Ceballos JL, Barcaza G, Soruco A, Bown F, Berthier E, Dussaillant I, MacDonell S (2020) A review of the current state and recent changes of the Andean cryosphere. Front Earth Sci 8:99
Massaferro J, Correa-Metrio A, Montes de Oca F, Mauad M (2017) Contrasting responses of lake ecosystems to environmental disturbance: a paleoecological perspective from northern Patagonia (Argentina). Hydrobiologia 816:79–89
Modenutti BE, Perez GL, Balseiro EG, Queimaliños CP (2000) Relationship between light availability, chlorophyll a and total suspended solid in a glacial lake of South Andes. Verh Int Verein Limnol 27:2648–2651
Modenutti BE, Balseiro EG, Callieri C, Bertoni R (2008) Light versus food supply as factors modulating niche partitioning in two pelagic mixotrophic ciliates. Limnol Oceanogr 53:446–455
Modenutti B, Albariño R, Bastidas Navarro M, Villanueva VD, Sol Souza M, Trochine C, Laspoumaderes C, Cuassolo F, Mariluán G, Buria L, Balseiro E (2010) Structure and dynamic of food webs in Andean North Patagonian freshwater systems: Organic matter, light and nutrient relationships. Ecol Austral 20:95–114
Modenutti BE, Balseiro EG, Bastidas Navarro M, Laspoumaderes C, Souza MS, Cuassolo F (2013a) Environmental changes affecting light climate in oligotrophic mountain lakes: the deep chlorophyll maxima as a sensitive variable. Aquat Sci 75:361–371
Modenutti BE, Balseiro EG, Elser JJ, Bastidas Navarro M, Cuassolo F, Laspoumaderes C, Souza MS, Dıaz VV (2013b) Effect of volcanic eruption on nutrients, light, and phytoplankton in oligotrophic lakes. Limnol Oceanogr 58:1165–1175
Modenutti BE, Balseiro EG, Bastidas Navarro MA, Lee ZM, Souza MS, Corman JR, Elser JJ (2016) Effects of volcanic pumice inputs on microbial community composition and dissolved C/P ratios in lake waters: an experimental approach. Microb Ecol 71:18–28
Modenutti B, Bastidas Navarro M, Martyniuk N, Balseiro E (2018) Melting of clean and debris-rich ice differentially affect nutrients, dissolved organic matter and bacteria respiration in the early ontogeny of the newly formed proglacial Ventisquero Negro Lake (Patagonia Argentina). Freshw Biol 63:1341–1351
Modenutti B, Martyniuk N, Bastidas Navarro M, Balseiro E (2023) Glacial influence affects modularity in bacterial community structure in three deep Andean North-Patagonian lakes. Microb Ecol 86:1869–1880
Morris DP, Zagarese H, Williamson CE, Balseiro EG, Hargreaves BR, Modenutti BE, Moeller R, Queimaliños C (1995) The attenuation of solar UV radiation in lakes and the role of dissolved organic carbon. Limnol Oceanogr 40:1381–1391
Nusch EA (1980) Comparison of different methods for chlorophyll and phaeopigment determination. Arch Hydrobiol Beih Ergeb Limnol 14:14–36
Paruelo JM, Beltran A, Jobbágy E, Sala O, Golluscio R (1998) The climate of Patagonia: general patterns and controls on biotic processes. Ecol Austral 8:85–101
Pérez GL, Queimaliños CP, Modenutti BE (2002) Light climate and plankton in the deep chlorophyll maxima in North Patagonian Andean lakes. J Plankton Res 24:591–599
Pérez G, Queimaliños C, Balseiro EG, Modenutti BE (2007) Phytoplankton absorption spectra along the water column in deep North Patagonian Andean lakes (Argentina): limnology of temperate South America. Limnologica 37:3–16
Queimaliños C (2002) The role of phytoplanktonic size fractions in the microbial food webs in two north Patagonian lakes (Argentina). Verh Int Verein Limnol 28:1236–1240
Quirós R, Drago E (1999) The environmental state of Argentinean lakes: an overview. Lakes Reserv Res Manag 4:55–64
Read JS, Rose KC (2013) Physical responses of small temperate lakes to variation in dissolved organic carbon concentrations. Limnol Oceanogr 58:921–931
Rose KC, Hamilton DP, Williamson CE, McBride CG, Fischer JM, Olson MH, Saros JE, Allan MG, Cabrol N (2014) Light attenuation characteristics of glacially-fed lakes. J Geophys Res 119:1446–1457
Ruiz L, Berthier E, Viale M, Pitte P, Masiokas MH (2017) Recent geodetic mass balance of Monte Tronador glaciers, northern Patagonian Andes. Cryosphere 11:619–634
Saros JE, Rose KC, Clow DW, Stephens VC, Nurse AB, Arnett HA, Stone JR, Williamson CE, Wolfe AP (2010) Melting alpine glaciers enrich high-elevation lakes with reactive nitrogen. Environ Sci Technol 44:4891–4896
Schenone L, Balseiro EG, Bastidas Navarro M, Modenutti BE (2020) Modelling the consequence of glacier retreat on mixotrophic nanoflagellate bacterivory: a Bayesian approach. Oikos 129:1216–1228
Sommaruga R, Kandolf G (2014) Negative consequences of glacial turbidity for the survival of freshwater planktonic heterotrophic flagellates. Sci Rep 4:4113
Sterner RW, Elser JJ, Fee EJ, Guildford SJ, Chrzanowski TH (1997) The light:nutrient ratio in lakes: the balance of energy and materials affects ecosystem structure and process. Am Nat 150:663–684
Villafañe VE, Buma AGJ, Boelen P, Helbling EW (2004) Solar UVR-induced DNA damage and inhibition of photosynthesis in phytoplankton from Andean lakes of Argentina. Arch Hydrobiol 161:245–266
Webb CO, Ackerly DD, McPeek MA, Donoghue MJ (2002) Phylogenies and community ecology. Annu Rev Ecol Syst 33:475–505
Williamson CE, Rose KC (2009) Ultraviolet insights: attempting to resolve enigmatic patterns in pelagic freshwaters—the historical context and a view to the future. Int Rev Hydrobiol 94:129–142
Williamson CE, Dodds W, Kratz TK, Palmer MA (2008) Lakes and streams as sentinels of environmental change in terrestrial and atmospheric processes. Front Ecol Environ 6:247–254
Williamson CE, Saros JE, Vincent WF, Smol JP (2009) Lakes and reservoirs as sentinels, integrators, and regulators of climate change. Limnol Oceanogr 54:2273–2282
Wolinski L, Laspoumaderes C, Bastidas Navarro M, Modenutti B, Balseiro E (2013) The susceptibility of cladocerans in North Andean Patagonian lakes to volcanic ashes. Freshwat Biol 58:1878–1888
Worni R, Stoffel M, Huggel C, Volz C, Casteller A, Luckman B (2012) Analysis and dynamic modeling of a moraine failure and glacier lake outburst flood at Ventisquero Negro, Patagonian Andes (Argentina). J Hydrol 444–445:134–145
Acknowledgements
Sampling and experiments were conducted with permission of Administración de Parques Nacionales, Argentina.
Funding
FONCyT PICT2018-1563, PICT2019-0950, PICT2020-0383, and Universidad Nacional del Comahue B04-236.
Author information
Authors and Affiliations
Contributions
BM: conception and design of the work, wrote the manuscript; CL and EB: contributed with zooplankton data and analysis; EB, LS and NM: prepared the figures; MBN and LS: carried out the phytoplankton analysis. All authors reviewed the manuscript.
Corresponding author
Ethics declarations
Conflict of interest
Authors declare no competing interests.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Modenutti, B., Balseiro, E., Laspoumaderes, C. et al. Volcanic eruptions and glacier recession: understanding the effects of particle inputs on planktonic communities of Andean–Patagonian lakes. J Paleolimnol (2024). https://doi.org/10.1007/s10933-024-00313-3
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s10933-024-00313-3