Abstract
Saline alkaline lakes are the focus of this book, but how do they form and how do they differ from freshwater lakes? We provide a brief introduction to soda lakes, their origin and their inhabitants, many of which are extremophiles. These closed lakes are highly sensitive ecosystems, and many experience the impacts of climate change. Some saline alkaline lakes provide economic resources, for both tourism (‘flamingo lakes’) and industry. A few lakes have long been commercially exploited but are ecologically damaged; others are threatened because of their potential mineral resources and changing land use in their drainage basins, including siltation and pollution from both agricultural and industrial sources. These unusual ecosystems must be protected (1) because they are ‘hot spots’ of haloalkaliphiles and rich genetic pools that might soon be tapped for biotechnological applications, and (2) for their exceptional natural environments, threatened increasingly by anthropogenic intervention. These environments must be preserved for future generations.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abbate E, Bruni P, Sagri M (2015) Geology of Ethiopia: a review and geomorphological perspectives. In: Billi P (ed) Landscapes and landforms of Ethiopia. Springer, Dordrecht, pp 33–64
Alemayehu T, Ayenew T, Kebede S (2006) Hydrogeochemical and lake level changes in the Ethiopian Rift. J Hydrol 316:290–300
APHA (1995) Standard methods for the examination of water and wastewater, 19th edn. American Public Health Association, Washington, DC
Azam F, Fenchel T, Field JG, Gray JS, Meyer-Reil LA, Thingstad F (1983) The ecological role of water-column microbes in the sea. Mar Ecol Prog Ser 10:257–263
Baker M (2011) Lake Natron, flamingos and the proposed soda ash factory. http://www.tnrf.org/en/natronbriefing. Accessed Dec 2015
Ballot A, Krienitz L, Kotut K, Wiegand C, Metcalfe JS, Codd GA, Pflugmacher S (2004) Cyanobacteria and cyanobacterial toxins in three alkaline Rift Valley lakes of Kenya-Lakes Bogoria, Nakuru and Elmenteita. J Plankton Res 26:925–935
Banciu HL, Sorokin DY (2013) Adaptation in haloalkaliphiles and natronophilic bacteria. In: Seckbach J, Oren AE, Stan-Lotter H (eds) Polyextremophiles, series cellular origin, life in extreme habitats and astrobiology, vol 27. Springer, Dordrecht, pp 121–178
Bard E (2013) Out of the Africa humid period. Science 342:808–809
Barrick KA (2007) Geyser decline and extinction in New Zealand—energy development impacts and implications for environmental management. Environ Manage 39:783–805
Becht R, Mwango F, Muno FA, (2006) Groundwater links between Kenyan Rift Valley lakes. In: Proceedings of 11th world lake congress, Nairobi, Vol 2, pp 7–14
Benvenuti M, Carnicelli S, Belluomini G, Dainelli N, Di Grazia S, Ferrari GA, Iasio C, Sagri M, Ventra D, Atnafu B, Kebede S (2002) The Ziway–Shala lake basin (main Ethiopian Rift, Ethiopia): a revision of basin evolution with special reference to the Late Quaternary. J Afr Earth Sci 35:247–269
Bergman AN, Laurent P, Otiang’a-Owiti G, Bergman HL, Walsh PJ, Wilson P, Wood CM (2003) Physiological adaptations of the gut in the Lake Magadi tilapia, Alcolapia grahami, an alkaline- and saline-adapted teleost fish. Comp Biochem Physiol A Mol Integr Physiol 136:701–715
Bergner AGN, Strecker MR, Trauth MH, Deino A, Gasse F, Blisniuk P, Dühnforth M (2009) Tectonic and climatic control on evolution of rift lakes in the Central Kenya Rift, East Africa. Quat Sci Rev 28:2804–2816
Bettinetti R, Quadroni S, Crosa G, Harper D, Dickie J, Kyalo M, Mavuti M, Galassi S (2011) A preliminary evaluation of the DDT contamination of sediments in Lakes Natron and Bogoria (Eastern Rift Valley, Africa). Ambio 40:341–350
Brown LH (1975) 6 East Africa. In: Kear J, Duplaix-Hall N (eds) Flamingos. T. & A.D. Poyser, Berkhamsted, p 248
Carpelan LH (1978) Revision of Kolbe’s System der Halobien based on diatoms of California lagoons. Oikos 31:112–122
Chakkiath PA, Kumaresan D, Hunger S, Drake HL, Murrell JC, Shouche YS (2013) Microbiology of Lonar Lake and other soda lakes. ISME J 7:1252
Childress B, Nagy S, Hughes B (2008) International single species action plan for the conservation of the lesser Flamingo Phoeniconaias minor. CMS Technology Series 18, AEWA Technology Series 34. UNEP/CMS Secretariat, Bonn, p 59
Chorowicz J (2005) The East African Rift system. J Afr Earth Sci 43:379–410
Conway D (2002) Extreme rainfall events and lake level changes in East Africa: recent events and historical precedents. In: Odada EO, Olago DO (eds) The East African Great Lakes: limnology, palaeolimnology and biodiversity. Kluwer, Amsterdam, pp 62–92
Cummings JM (1940) Saline and hydromagnesite deposits of British Columbia. Br Col Dept Mines Bull 4:160
Daly MC, Chorowicz J, Fairhead JD (1989) Rift basin evolution in Africa: the influence of reactivated step basement shear zones. In: Cooper MA, Williams CD (eds) Inversion tectonics, vol 44, Geological Society of London Special Publications. Geological Society, London, pp 309–334
Dawson JB (2008) The Gregory Rift Valley and Neogene-Recent volcanoes of Northern Tanzania. Mem Geol Soc Lond 33:102
De Cort G, Bessems I, Keppens E, Mees F, Cumming B, Verschuren D (2013) Late-Holocene and recent hydroclimatic variability in the central Kenya Rift Valley: the sediment record of hypersaline lakes Bogoria, Nakuru and Elmenteita. Palaeogeogr Palaeoclimatol Palaeoecol 388:69–80
de Menocal PB, Ortiz J, Guilderson T, Adkins J, Sarnthein M, Baker L, Yarusinsky M (2000) Abrupt onset and termination of the Africa Humid Period: rapid climate responses to gradual insolation forcing. Quat Sci Rev 19:347–361
Deocampo DM, Jones BF (2014) Geochemistry of saline lakes. In: Holland HD, Turekian KK (eds) Treatise on geochemistry, vol 7, 2nd edn. Elsevier, Oxford, pp 437–469
Dinka MO (2012) Analysing the extents (size and shape) of Lake Basaka expansion (Main Ethiopian Rift Valley) using remote sensing and GIS. Lake Reserv Res Manag 17:131–141
Dinka MO, Loiskandl W, Ndambuki JM (2014) Hydrologic modelling for Lake Basaka: development and application of a conceptual water budget model. Environ Monit Assess 186:5363–5379
Dodds WK, Whiles MR (2010) Freshwater ecology: concepts and environmental applications of limnology, 2nd edn. Academic Press, San Diego, CA
Dühnforth M, Bergner AGN, Trauth MH (2006) Early Holocene water budget of the Nakuru-Elmenteita basin, Central Kenya Rift. J Palaeolimnol 36:281–294
Dunkley PN, Smith M, Allen DJ, Darling WG (1993) The geothermal activity and geology of the northern sector of the Kenya Rift Valley. British Geological Survey Research Report SC/93/1, p 185
Durkee H, Brown FH (2014) Correlation of volcanic ash layers between the Early Pleistocene Acheulean sites of Isinya, Kariandusi, and Olorgesailie, Kenya. J Arch Sci 49:510–517
Earman S, Philips FM, McPherson JOL (2005) The role of “excess” CO2 in the formation of trona deposits. Appl Geochem 20:2217–2232
Erdmann N, Hagemann M (2004) Salt acclimation of algae and cyanobacteria: a comparison. In: Rai LC, Gaur JP (eds) Algal adaptation to environmental stresses. Springer, Berlin, pp 323–361
Eugster HP (1980) Lake Magadi, Kenya, and its precursors. In: Nissenbaum A (ed) Hypersaline brines and evaporitic environments. Elsevier, Amsterdam, pp 195–232
Eugster HP, Hardie LA (1978) Saline lakes. In: Lerman A (ed) Lakes: chemistry, geology, physics. Springer, New York, pp 237–293
Eugster HP, Jones B (1979) Behavior of major solutes during closed-basin brine evolution. Am J Sci 279:609–631
Foerster V, Junginger A, Langkamp O, Gebru T, Asrat A, Umer M, Lamb H, Wennrich V, Rethemeyer J, Nowaczyk N, Trauth MH, Schäbitz F (2012) Climatic change recorded in the sediments of the Chew Bahir basin, southern Ethiopia, during the last 45,000 years. Quat Int 274:25–37
Fofonoff NP (1985) Physical properties of seawater: a new salinity scale and equation of state of seawater. J Geophys Res 90:3332–3342
Fuhrman JA (1999) Marine viruses and their biogeochemical and ecological effects. Nature 399:541–548
Garcin Y, Junginger A, Melnick D, Olago DO, Strecker MR, Trauth MH (2009) Late Pleistocene–Holocene rise and collapse of Lake Suguta, northern Kenya Rift. Quat Sci Rev 28:911–925
Garrett DE (1992) Natural soda ash: occurrences, process and use. Springer, Berlin
Gasse F, Street A (1978) Late Quaternary lake-level fluctuations and environments of the northern Rift Valley and Afar region (Ethiopia and Djibouti). Palaeogeogr Palaeoclimatol Palaeoecol 24:279–325
Getaneh G, Temesgen G, Damena E (2015) Environmental degradation and its effect on terrestrial and aquatic diversity in the Abijata-Shala Lakes National Park, Ethiopia. Point J Agric Biotechnol Res 1:1–12
Girma MB, Kifleb D, Jebessab H (2012) Deep underwater seismic explosion experiments and their possible ecological impact – the case of Lake Arenguade – Central Ethiopian highlands. Limnologica 42:212–219
Goerner A, Jolie E, Gloaguen R (2005) Tectonic induced growth of Lake Beseka (Main Ethiopian Rift)? Geophys Res Abst 7:957
Goerner A, Jolie E, Gloaguen R (2009) Non-climatic growth of the saline Lake Beseka, Main Ethiopian Rift. J Arid Environ 63:287–295
Grant WD (2004) Half a lifetime in soda lakes. In: Ventosa A (ed) Halophilic microorganisms. Springer, Berlin, pp 17–31
Grant WD, Heaphy S (2010) Metagenomics and recovery of enzyme genes from alkaline saline environments. Environ Technol 31:1135–1143
Grove AT, Street FA, Goudie AS (1975) Former lake levels and climatic change in the Rift Valley of southern Ethiopia. Geogr J 141:171–194
Gruber-Dorninger M (2015) East African Soda Lakes – biogeochemistry and interactions between organismic compartments. Dissertation, University of Vienna, Vienna
Hammer UT (1986) Saline lake ecosystems of the world. Junk, Dordrecht
Harper DM, Childress RB, Harper MM, Boar RR, Hickley P, Mills SC, Otieno N, Drane A, Vareschi E, Nasirwa O, Mwatha WE, Darlington JPEC, Escuté-Gasulla X (2003) Aquatic biodiversity and saline lakes: Lake Bogoria, National Reserve, Kenya. Hydrobiologia 500:259–276
Hendrie DB, Kusznir NJ, Morley CK, Ebinger CJ (1994) Cenozoic extension in northern Kenya: a quantitative model of rift basin development in the Turkana region. Tectonophysics 236:409–438
Hillaire-Marcel C, Casanova J (1987) Isotopic hydrology and paleohydrology of the Magadi (Kenya)-Natron (Tanzania) Basin during the Late Quaternary. Palaeogeogr Palaeoclimatol Palaeoecol 58:155–181
Jirsa F, Gruber M, Stojanovic A, Omondi SO, Mader D, Körner W, Schagerl M (2013) Major and trace element geochemistry of Lake Bogoria and Lake Nakuru, Kenya, during extreme draught. Chem Erde Geochem 73:275–282
Johnston HH (1902) The Uganda Protectorate, vol 1. Hutchinson, London
Junginger A, Trauth MH (2013) Hydrological constraints of paleo-Lake Suguta in the Northern Kenya Rift during the African Humid Period (15–5 ka BP). Glob Planet Change 111:174–188
Kadigi RMJ, Mwathe K, Dutton A, Kashaigili J, Kilima F (2014) Soda ash mining in Lake Natron: a reap or ruin for Tanzania? J Environ Conserv Res 2:37–49
Kaggwa MN, Gruber M, Oduor SO, Schagerl M (2013) A detailed time series assessment of the diet of Lesser Flamingos: further explanation for their itinerant behaviour. Hydrobiologia 710:83–93
Kasedde H, Kirabira JB, Bäbler MU, Tilliander A, Jonsson S (2014) Characterization of brines and evaporites of Lake Katwe, Uganda. J Afr Earth Sci 91:55–65
Kempe S, Degens ET (1985) An early soda ocean? Chem Geol 53:95–108
Kempe S, Kazmierczak J (1994) The role of alkalinity in the evolution of ocean chemistry, organization of living systems and biocalcification processes. In: Doumenge F (ed) Past and present biomineralization processes. Considerations about the carbonate cycle. Bull Inst Oceanogr Monaco 13:61–117
Kerrich R, Renaut RW, Bonli T (2002) Trace-element composition of cherts from alkaline lakes in the East African Rift: a probe for ancient counterparts. In: Renaut RW, Ashley GM (eds) Sedimentation in continental rifts. SEPM Spec Publ 73:275–294
Klemperer SL, Cash MD (2007) Temporal geochemical variation in Ethiopian Lakes Shala, Arenguade, Awasa, and Beseka: possible environmental impacts from underwater and borehole detonations. J Afr Earth Sci 48:174–198
Lamb HH (1966) Climate in the 1960s. Geogr J 13:183–212
Lanzén A, Simachew A, Gessesse A, Chmolowska D, Jonassen I, Øvreås L (2013) Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian Soda Lakes. PLoS One 8:e72577
Le Turdu C, Coussement C, Tiercelin JJ, Renaut RW, Rolet J, Richert JP, Xavier JP, Coquelet D (1995) Rift basin structure and depositional patterns interpreted using a 3D remote sensing approach: the Baringo and Bogoria basins, central Kenya Rift, East Africa. Bull Centres Rech Explor-Prod Elf-Aquitaine 19:1–37
Luo W, Kotut K, Krienitz L (2013) Hidden diversity of eukaryotic plankton in the soda lake Nakuru, Kenya, during a phase of low salinity revealed by a SSU rRNA gene clone library. Hydrobiologia 702:95–103
MacDonald R (2003) Magmatism of the Kenya Rift Valley: a review. Trans R Soc Edinburgh Earth Sci 93:239–253
Madigan MT, Martinko JM, Stahl DA, Clark DP (2011) Brock biology of microorganisms, 13th edn. Pearson Education, San Francisco, CA
McCall GJH (1967) Geology of the Nakuru-Thomson’s Falls-Lake Hannington Area, Report 78. Geological Survey of Kenya, Republic of Kenya, Nairobi, p 122
McGregor D (2015) History of the development of the East African Rift System: a series of interpreted maps through time. J Afr Earth Sci 101:232–252
Mesbah N, Wiegel J (2011) Halophiles exposed concomitantly to multiple stressors: adaptive mechanisms of halophilic alkalithermophiles. In: Ventosa A, Oren A, Ma Y (eds) Halophiles and hypersaline environments. Springer, Berlin, pp 249–273
Morley CK (1999) Geoscience of rift systems–evolution of East Africa. AAPG Stud Geol 44:242 + appendices
Morley CK, Nelson RA, Patton TL (1990) Transfer zones in the East African Rift System and their relevance to hydrocarbon exploration in rifts. Am Assoc Petrol Geol Bull 74:1234–1253
Morley CK, Ngenoh DK, Ego JK (1999) Introduction to the East African Rift System. In: Morley CK (ed) Geoscience of rift systems–evolution of East Africa. AAPG Stud Geol 44:1–18
Mwaura F, Moore T (1991) Forest and woodland depletion in the Lake Elementeita Basin, Kenya. Geoforum 22:17–26
Odada EO, Onyando JO, Obudho PA (2006) Lake Baringo: addressing threatened biodiversity and livelihoods. Lake Reserv Res Manag 11:287–299
Oduor SO, Schagerl M (2007) Phytoplankton photosynthetic characteristics in three Kenyan Rift Valley saline-alkaline lakes. J Plankton Res 29:1041–1050
Olago D, Opere A, Barongo J (2009) Holocene palaeohydrology, groundwater and climate change in the lake basins of the Central Kenya Rift. Hydrol Sci J 54:765–780
Olaka LA, Odada EO, Trauth MH, Olago DO (2010) The sensitivity of East African rift lakes to climate fluctuations. J Paleolimnol 44:629–644
Oren A (2006) Life at high salt concentrations. In: Dworkin M, Falkow S, Rosenberg E, Schleifer K-H, Stackebrandt E (eds) The prokaryotes. Springer, New York, pp 263–282
Pecoraino G, D’Alessandro W, Inguaggiato S (2015) The other side of the coin: geochemistry of alkaline lakes in volcanic areas. In: Rouwet D et al (eds) Volcanic lakes, Advances in volcanology. Springer, Berlin, pp 219–237
Peduzzi M, Gruber M, Gruber M, Schagerl M (2014) The virus’s tooth: cyanophages affect an African flamingo population in a bottom-up cascade. ISME J 8:1346–1351
Raini J (2009) Impact of land use changes on water resources and biodiversity of Lake Nakuru catchment basin, Kenya. Afr J Ecol 47:39–45
Renaut RW (1990) Recent carbonate sedimentation and brine evolution in the saline lake basins of the Cariboo Plateau, British Columbia, Canada. Hydrobiologia 197:67–81
Renaut RW, Gierlowski-Kordesch EG (2010) Lakes. In: James NP, Dalrymple R (eds) Facies models 4. Geological Association of Canada, St. Johns, pp 541–575
Renaut RW, Tiercelin JJ (1993) Lake Bogoria, Kenya: soda, hot springs and about a million flamingoes. Geol Today 9:56–61
Renaut RW, Tiercelin JJ (1994) Lake Bogoria, Kenya Rift Valley: a sedimentological overview. In: Renaut, RW, Last WM (eds) Sedimentology and geochemistry of modern and ancient saline lakes. SEPM Spec Publ 50:101–123
Renaut RW, Ego J, Tiercelin JJ, Le Turdu C, Owen RB (1999) Saline, alkaline palaeolakes of the Tugen Hills–Kerio Valley region, Kenya Rift Valley. In: Andrews P, Banham P (eds) Late Cenozoic environments and hominid evolution: a tribute to Bill Bishop. Geological Society, London, pp 41–58
Renaut RW, Owen RB, Jones B, Tiercelin JJ, Tarits C, Ego JK, Konhauser KK (2013) Impact of lake level changes on the formation of thermogene travertine in continental rifts: evidence from Lake Bogoria, Kenya Rift Valley. Sedimentology 60:428–468
Ring U (2014) The East African Rift system. Aust J Earth Sci 107:132–146
Roberts MF (2005) Organic compatible solutes of halotolerant and halophilic microorganisms. Saline Syst 1:5
Rosen MR (1994) The importance of groundwater in playas: a review of playa classifications and the sedimentology and hydrogeology of playas. In: Rosen MR (ed) Paleoclimate and basin evolution of playa systems. Geol Soc Am Spec Pap 289:1–18
Rosendahl BR (1987) Architecture of continental rifts with special reference to East Africa. Annu Rev Earth Planet Sci 15:445–504
Schagerl M, Oduor SO (2003) On the limnology of Lake Baringo (Kenya): II. Pelagic primary production and algal composition of Lake Baringo, Kenya. Hydrobiologia 506–509:297–303
Schagerl M, Oduor SO (2008) Phytoplankton community relationship to environmental variables in three Kenyan Rift Valley saline-alkaline lakes. Mar Freshw Res 59:125–136
Schagerl M, Burian A, Gruber-Dorninger M, Oduor SO, Kaggwa MN (2015) Algal communities of Kenyan soda lakes with a special focus on Arthrospira fusiformis. Fottea 15:245–257
Schlesinger P, Belkin S, Boussiba S (1996) Sodium deprivation under alkaline conditions causes rapid death of the filamentous cyanobacterium Spirulina platensis. J Phycol 32:608–613
Sheridan C (2004) Kenyan dispute illuminates bioprospecting difficulties. Nat Biotechnol 22:1337
Smoot JP, Lowenstein TK (1991) Depositional environments of non-marine evaporites. In: Melvin JN (ed) Evaporites, petroleum and mineral resources. Elsevier, Amsterdam, pp 189–347
Sommer U, Adrian R, De Senerpont-Domis L, Elser JJ, Gaedke U, Ibelings B, Jeppesen E, Lürling M, Molinero JC, Mooij WM, van Donk E, Winder M (2012) Beyond the Plankton Ecology Group (PEG) model: mechanisms driving plankton succession. Annu Rev Ecol Evol Syst 43:429–448
Sorokin DY, Berben T, Melton ED, Overmars L, Vavourakis CD, Muyzer G (2014) Microbial diversity and biogeochemical cycling in soda lakes. Extremophiles 18:791–809
Street FA (1980) The relative importance of climate and local hydrogeological factors in influencing lake level fluctuations. Palaeoecol Afr 12:137–158
Tarits C, Renaut RW, Tiercelin JJ, Le Hérissé A, Cotten J, Cabon JY (2006) Geochemical evidence of hydrothermal recharge in Lake Baringo, central Kenya Rift Valley. Hydrol Proc 20:2027–2055
Tebbs EJ, Remedios JJ, Harper DM (2013) Remote sensing of chlorophyll-a as a measure of cyanobacterial biomass in Lake Bogoria, a hypertrophic, saline–alkaline, flamingo lake, using Landsat ETM+. Remote Sens Environ 135:92–106
Tiercelin JJ (1991) Natural resources in the lacustrine facies of the Cenozoic rift-basins of East Africa. In: Anadón P, Cabrera Ll, Kelts K (eds) Lacustrine facies analysis. Spec Publ Int Assoc Sediment 13:3–37
Tiercelin JJ, Lezzar KA (2002) 300 million years history of rift lakes in Central and East Africa: an updated broad review. In: Odada EO, Olago DO (eds) The East African Great lakes: limnology, palaeolimnology and biodiversity. Kluwer, Amsterdam, pp 3–60
Tiercelin JJ, Vincens A (eds) (1987) Le demi-graben de Baringo-Bogoria, Rift Gregory, Kenya. Bull Centres Rech Explor-Prod Elf Aquitaine 11:249–540
Trauth MH, Maslin MA, Deino AL, Junginger A, Lesoloyia M, Odada EO, Olago DO, Olaka LA, Strecker MR, Tiedemann R (2010) Human evolution in a variable environment: the amplifier lakes of Eastern Africa. Quat Sci Rev 29:2981–2988
Vareschi E (1987) Saline lake ecosystems. In: Schulze E-D, Zwölfer H (eds) Potentials and limitations of ecosystem analysis, vol 61. Springer, Berlin, pp 347–364
Vareschi E, Jacobs J (1985) The ecology of Lake Nakuru. 6. Synopsis of production and energy-flow. Oecologia 65:412–424
Wilhelm SW, Suttle CA (1999) Viruses and nutrient cycles in the sea—viruses play critical roles in the structure and function of aquatic food webs. Bioscience 49:781–788
Williams LAJ (1972) Geology of the Amboseli area. Rep Geol Surv Kenya 90:86
Williams WD (1978) Limnology of Victorian salt lakes, Australia. Verh Int Ver Limnol 20:1165–1174
Wolfenden E, Ebinger C, Yirgub G, Deino A, Ayalew D (2004) Evolution of the northern Main Ethiopian Rift: birth of a triple junction. Earth Planet Sci Lett 224:213–228
Yuretich RF (1982) Possible influences upon lake development in the East African rift valleys. J Geol 90:329–337
Zaccara S, Crosa G, Vanetti I, Binelli G, Childress B, McCulloch G, Harper DM (2011) Lesser Flamingo Phoeniconaias minor as a nomadic species in African shallow alkaline lakes and pans: genetic structure and future perspectives. Ostrich 82:95–100
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2016 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Schagerl, M., Renaut, R.W. (2016). Dipping into the Soda Lakes of East Africa. In: Schagerl, M. (eds) Soda Lakes of East Africa. Springer, Cham. https://doi.org/10.1007/978-3-319-28622-8_1
Download citation
DOI: https://doi.org/10.1007/978-3-319-28622-8_1
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-28620-4
Online ISBN: 978-3-319-28622-8
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)