Perspectives in winter limnology: closing the annual cycle of freezing lakes

Amundsen P-A, Knudsen R (2009) Winter ecology of Arctic charr (Salvelinus alpinus) and brown trout (Salmo trutta) in a subarctic lake, Norway. Aquat Ecol 43. doi: 10.1007/s10452-009-9261-8

Arst H, Erm A, Leppäranta M, Reinart A (2006) Radiative characteristics of ice-covered freshwater and brackish water bodies. Proc Est Acad Sci Geol 55:3–23

Belzile C, Gibson JAE, Vincent W (2002) Colored dissolved organic matter and dissolved organic carbon exclusion from lake ice: implications for irradiance transmission and carbon cycling. Limnol Oceanogr 47:1283–1293

Bengtsson L (1996) Mixing in ice-covered lakes. Hydrobiologia 322:91–97

Bird DF, Kalff J (1986) Bacterial grazing by planktonic lake algae. Science 231:493–495

Biro PA, Morton AE, Post JR, Parkinson EA (2004) Over-winter lipid depletion and mortality of age-0 rainbow trout (Oncorhynchus mykiss). Can J Fish Aquat Sci 61:1513–1519

Blanchfield, PJ, Tate LS, Plumb JM, Acolas M-L, Beaty, KG (2009) Seasonal habitat selection by lake trout (Salvelinus namaycush) in a small Canadian shield lake: constraints imposed by winter conditions. Aquat Ecol 43. doi: 10.1007/s10452-009-9266-3

Bondarenko N (2000) O nahodge kriofilnogo soobthestva v ozere Bajkal. Dokl Akad Nauk 371:815–817

Bondarenko NA, Evstafyev VK (2006) Eleven- and ten-year basic cycles of Lake Baikal spring phytoplankton conformed to solar activity cycles. Hydrobiologia 568:19–24

Byström P, Andersson J, Kiessling A, Eriksson L-O (2006) Size and temperature dependent foraging capacities and metabolism: consequences for winter starvation mortality in fish. Oikos 115:43–52

Christoffersen KS, Jeppesen E, Moorhead DL, Tranvik LJ (2008) Food web relationships and community structures in high-latitude lakes. In: Vincent W, Laubourn-Parry J (eds) Polar lakes and rivers, limnology of Arctic and Antarctic aquatic ecosystems. Oxford University Press, Oxford, pp 269–289

Cunjak RA, Curry RA, Power G (1987) Seasonal energy budget of brook trout in streams: implications of a possible deficit in early winter. Trans Am Fish Soc 116:817–828

D’Amico S, Collins T, Marx JC, Feller G, Gerday C (2006) Psycrophilic microorganisms: challenge for life. EMBO Rep 7:385–389

Day JD, Edwards AP, Rodgers GA (1991) Development of an industrial-scale process for heterotrophic production of a micro-algal mollusk feed. Bioresour Technol 38:245–249

Farmer DM (1975) Penetrative convection in the absence of mean shear. Q J R Meteorol Soc 101:869–891

Felip B, Sattler B, Psenner R, Catalan J (1995) Highly active microbial communities in the snow and ice cover of high mountain lakes. Appl Environ Microbiol 61:2394–2401

Finstad AG, Berg OK, Lohrmann A (2003) Seasonal variation in body composition of Arctic charr, Salvelinus alpinus, from an ultraoligotrophic alpine lake. Ecol Freshw Fish 12:228–235

Frenette J-J, Thibeault P, Lapierre J-F, Hamilton PB (2008) Presence of algae in freshwater ice cover of fluvial Lac Saint-Pierre (St. Lawrence River, Canada). J Phycol 44:284–291

Frey KE, Smith LC (2005) Amplified carbon release from vast West Siberian peatlands by 2100. Geophys Res Lett 32:L09401. doi: 10.1029/2004GL022025

Gomez-Consarnau L, Gonzalez JM, Coll-Llado M, Gourdon P, Pascher T, Neutze R, Pedros-Alio C, Pinhassi J (2007) Light stimulates growth of proteorhodopsin-containing marine Flavobacteria. Nature 445:210–213

Hassol SJ (2004) Impacts of a warming Arctic: Arctic climate impact assessment. Cambridge University Press, Cambridge, p 139

Hobbie JE, Laybourn-Parry J (2008) Heterotrophic microbial processes in polar lakes. In: Vincent W, Laubourn-Parry J (eds) Polar lakes and rivers. Limnology of Arctic and Antarctic aquatic ecosystems, Oxford University Press, pp 197–212

Jobling M (1994) Fish bioenergetics. Chapman and Hall, London

Jurvelius J, Marjomäki TJ (2008) Night, day, sunrise, sunset: do fish under snow and ice recognize the difference? Freshw Biol 53:2287–2294. doi: 10.1111/j.13652427.2008.02055.x

Kelley DE (1997) Convection in ice-covered lakes: effects on algal suspension. J Plankton Res 19:1859–1880

Kiili M, Pulkkanen M, Salonen K (2009) Distribution and development of under-ice phytoplankton in 90-m deep water column of Lake Päijänne (Finland) during spring convection. Aquat Ecol 43. doi: 10.1007/s10452-009-9262-7

Kirillin G, Engelhardt C, Golosov S, Hintze T (2009) Basin-scale internal waves in the bottom boundary layer of ice-covered Lake Müggelsee, Germany. Aquat Ecol 43. doi: 10.1007/s10452-009-9274-3

Klemetsen A, Amundsen P-A, Dempson JB, Jonsson B, Jonsson N, O’Connell MF, Mortensen E (2003a) Atlantic salmon Salmo salar L., brown trout Salmo trutta L. and Arctic charr Salvelinus alpinus (L.): a review of aspects of their life histories. Ecol Freshw Fish 12:1–59

Klemetsen A, Knudsen R, Staldvik FJ, Amundsen P-A (2003b) Habitat, diet and food assimilation of Arctic charr under the winter ice in two subarctic lakes. J Fish Biol 62:1082–1098

Knudsen R, Klemetsen A, Amundsen P-A, Hermansen B (2006) Incipient speciation through niche expansion: an example from the Arctic charr in a subarctic lake. Proc R Soc Lond B 273:2291–2298

Kuehn KA, O’Neil RM, Koehn RD (1992) Viable photosynthetic microalgal isolates from aphotic environments of the Edwards Aquifer (Central Texas). Stygologia 7:129–142

Leppäranta M (2009) Modelling the formation and decay of lake ice. In: George G (ed) The impact of climate change on European lakes. Springer-Verlag (in press)

Leppäranta M, Wang K (2008) Mathematical modelling of the ice season in large lakes. Hydrobiologia 599:183–189

Leppäranta M, Tikkanen M, Virkanen J (2003) Observations of ice impurities in some Finnish lakes. Proc Est Acad Sci Chem 52:59–75

Likens GE, Ragotzkie RA (1965) Vertical water motions in a small ice-covered lake. J Geophys Res 70:2333–2344

Lindell MJ, Granéli HW, Bertilsson S (2000) Seasonal photoreactivity of dissolved organic matter from lakes with contrasting humic content. Can J Fish Aquat Sci 57:875–885. doi: 10.1139/cjfas-57-5-875

Lylis JC, Trainor FR (1973) The heterotrophic capabilities of Cyclotella meneghiniana. J Phycol 9:365–369

Mazur MM, Beauchamp DA (2003) A comparison of visual prey detection among species of piscivorous salmonids: effects of light and low turbidities. Environ Biol Fish 67:397–405

Melnik NG, Lazarev MI, Pomazkova GI, Bondarenko NA, Obolkina LA, Penzina MM, Timoshkin OA (2008) The cryophilic habitat of micrometazoans under the lake-ice in Lake Baikal. Fundam Appl Limnol 170:315–323

Mortimer CH (1941) The exchange of dissolved substances between mud and water in lakes I & II. J Ecol 29:280–329

Obolkina LA, Bondarenko NA, Doroshchenko LF, Gorbunova LA, Moloshchavaya OA (2000) O nahodke kriofilnogo sooshchestva v ozere Baikal. Dokl Akad Nauk 371:815–817 (in Russian)

Palosuo E (1965) Frozen slush in lake ice. Geophysica 9:131–148

Porter KG (1988) Phagotrophic phytoflagellates in microbial food webs. Hydrobiologia 159:89–97

Psenner R, Sattler P (1998) Microbial communities: life at the freezing point. Science 280:2073–2074

Rahel FJ, Keleher CJ, Anderson JL (1996) Potential habitat loss and population fragmentation for cold water fish in the north Platte river drainage of the rocky mountains: response to climate warming. Limnol Oceanogr 41:1116–1123

Rautio M, Bayly IAE, Gibson JAE, Nyman M (2008) Zooplankton and zoobenthos in high-latitude water bodies. In: Vincent W, Laubourn-Parry J (eds) Polar lakes and rivers, limnology of Arctic and Antarctic aquatic ecosystems. Oxford University Press, Oxford, pp 231–247

Roberts EC, Laybourn-Parry J (1999) Mixotrophic cryptophytes and their predators in the dry valley lakes of Antarctica. Freshw Biol 41:737–746

Rodhe W (1955) Can plankton production proceed during winter darkness in subarctic lakes? Verh Int Ver Limnol 12:117–122

Sæther B-S, Johnsen HK, Jobling M (1996) Seasonal changes in food consumption and growth of Arctic charr exposed to either simulated natural or a 12:12 LD photoperiod at constant water temperature. J Fish Biol 48:1113–1122

Salonen K, Pulkkanen M (2009) Humic fingers—water pockets migrating through lake ice. Verh Int Ver Limnol 30 (in press)

Salonen K, Vähätalo A (1994) Photochemical mineralisation of dissolved organic matter in lake Skjervatjern. Environ Int 20:307–312

Sepers ABJ (1977) The utilization of dissolved organic compounds in aquatic environments. Hydrobiologia 52:39–54

Svenning M-A, Klemetsen A, Olsen T (2007) Habitat and food choice of Arctic charr in Linnévatn on Spitsbergen, Svalbard: the first year-round investigation in high Arctic lake. Ecol Freshw Fish 16:70–77

Terzhevik A, Golosov S, Palshin N, Mitrokhov A, Zdorovennov R, Zdorovennova G, Kirillin G, Shipunova E, Zverev I (2009) Some features of the thermal and dissolved oxygen structure in shallow ice-covered lakes. Aquat Ecol 43

Tranvik LJ, Porter KG, Sieburth JMcN (1989) Occurrence of bacterivory in Cryptomonas, a common freshwater phytoplankter. Oecologia 78:473–476

Tuchman NC, Schollett MA, Rier ST, Geddes P (2006) Differential heterotrophic utilization of organic compounds by diatoms and bacteria under light and dark conditions. Hydrobiologia 561:167–177

Turesson H, Brönmark C (2007) Predator-prey encounter rates in freshwater piscivores: effects of prey density and water transparency. Oecologia 153:281–290

Vehmaa A, Salonen K (2009) Development of phytoplankton in Lake Pääjärvi (Finland) during under-ice convective mixing period. Aquat Ecol 43. doi: 10.1007/s10452-009-9273-4

Vincent WF, Hobbie JE, Laybourn-Parry J (2008) Introduction to the limnology of high-latitude lake and river ecosystems. In: Vincent W, Laubourn-Parry J (eds) Polar lakes and rivers. Limnology of Arctic and Antarctic aquatic ecosystems, Oxford University Press, pp 1–23

Zdorovennova GE (2009) Spatial and temporal variations of the water–sediment thermal structure in shallow ice-covered Lake Vendyurskoe (Northwestern Russia). Aquat Ecol 43. doi: 10.1007/s10452-009-9277-0