Adams MS and Prentki RT. 1986. Sedimentary pigments as an index of the trophic status of the Lake Mead. Hydrobiologia 143, 71-77.

Aizenshtat Z. 1973. Perylene and its geochemical significance. Geochim Cosmochim Ac 37, 559-567.

Andersen RA, Bidigare RR, Keller MD, and Latasa M. 1996. A comparison of HPLC pigment signatures and electron microscopic observations for oligotrophic waters of the North Atlantic and Pacific Oceans. Deep Sea Res II 43, 517-537.

Ariztegui D, Chondrogianni C, Lami A, Guilizzoni P, and Lafargue E. 2001. Lacustrine organic matter and the Holocene paleoenvironmental record of Lake Albano (central Italy). J Paleolimn 26, 283-292.

Baines SB and Pace ML. 1994. Relationships Between Suspended Particulate Matter and Sinking Flux Along a Trophic Gradient and Implications for the Fate of Planktonic Primary Production. Can J Fish Aquat Sci 51, 25-36.

Barlow RG, Burkill RF, and Mantoura RFC. 1988. Grazing and degradation of algal pigments by marine protozoan Oxyrrhis marina. J Exp Mar Biol Ecol 119, 119-129.

Barlow RG, Mantoura RFC, Gough MA, and Fileman TW. 1993. Pigment signatures of the phytoplankton composition in the northeastern Atlantic during the 1990 spring bloom. Deep Sea Res II 40, 459-477.

Barlow RG, Mantoura RFC, Peinert RD, Miller AEJ, and Fileman TW. 1995. Distribution, sedimentation and fate of pigment biomarkers following thermal stratification in the western Alboran Sea. Mar Ecol Prog Ser 125, 279-291.

Barlow RG, Mantoura RFC, Cummings DG, and Fileman TW. 1997. Pigment chemotaxonomic distributions of phytoplankton during summer in the western Mediterranean. Deep Sea Res44, 833-850.

Battarbee RW, Mackay AW, Jewson DH, Ryves DB, Sturm M, and Granin NG. 2005. Differential dissolution of Lake Baikal diatoms: correction factors and implications for palaeoclimatic reconstruction. Glob Planet Change, in press.

BDP Members (Baikal Drilling Project Group: Bezrukova E, Bukharov A, Bychinskii V, Vilyams D, Gvozdkov A, Geletii V, Gorgelyad A, Gorokhov I, Ivanov E, Kavai T, Kalmychkov G, Karabanov E, Kerber E, Kolman S, Kochukov V, Kravchinskii V, Krainov M, Krapivina S, Kudryashov N, Kuzmin M, Kulagina N, Letunova P, Pevzner L, Prokopenko A, Solotchin P, Tkachenko L, Fedenya S, Khakhaev B, Khomutova M, Khursevich G, and Sholts K) 2004. High-resolution sedimentary record in a new BDP-99 core from Posol'sk Bank in Lake Baikal. Geol Geofiz 45, 163-193.

Beeton AM. 2002. Large freshwater lakes: present state, trends, and future. Environ Conserv 29, 21-38.

Belykh OI and Sorokovikova EG. 2003. Autotrophic Picoplankton in Lake Baikal: Abundance, Dynamics, and Distribution. Aquat Ecosyst Health Manage 6, 251-261.

Bennett JR, Cumming BF, Leavitt PR, Chiu M, Smol JP, and Szeich J. 2001. Diatom, Pollen and Chemical Evidence of Postglacial Climatic Change at Big Lake, South-Central British Columbia, Canada. Quatern Res 55, 332-343.

Bergmann T, Fahnenstiel G, Lohrenz S, Millie D, and Schofield O. 2004. Impacts of a recurrent resuspension event and variable phytoplankton community composition on remote sensing reflectance. J Geophys Res 109, C10S15, doi:10.1029/2002JC001575.

Beutler M, Wiltshire KH, Meyer B, Moldaenke C, and Dau H. 2001. In situ profiles of phytoplankton: algal composition and biomass determined fluorometrically. In Hallegraeff G, Blackburn SI, Bolch CJ, and Lewis RJ (eds.), HAB2000 Proceedings volume, Intergovernmental Oceanographic Commission of UNESCO, Paris, France, pp. 202-205.

Beutler M, Wiltshire KH, Meyer B, Moldaenke C, Lüring C, Meyerhöfer M, Hansen U-P, and Dau H. 2002a. A fluorometric method for the differentiation of algal populations in vivo and in situ. Photosynth Res 72, 39-53.

Beutler M, Wiltshire KH, Meyer B, Lüring C, Moldaenke C, and Lohse D. 2002b. Fluorometric depth-profiling of chlorophyll corrected for yellow substances. In Arzul G. (ed.), Aquaculture environment and marine phytoplankton, Editions Ifremer, Brest, France, pp. 231-238.

Bezrukova YV, Bogdanov YA, Williams DF, Granina LZ, Grachev MA, Ignatova NV, Karabanov YB, Kuptsov VM, Kurylev AV, Letunova PP, Likoshway YV, Chernyayeva GP, Shimarayeva MK, and Yakushin A. 1991. A dramatic change of the ecological system of Lake Baikal in Holocene. Dokl Akad Nauk SSSR 321, 1032-1037. (In Russian)

Bianchi MM, Massaferro J, Roman Ross G, Amos AJ, and Lami A. 1999. Late Pleistocene and early Holocene ecological response of Lake El Trébol (Patagonia, Argentina) to environmental changes. J Paleolimnol 22, 137-148.

Bianchi TS, Engelhaupt E, McKee BA, Miles S, Elmgren R, Hajdu S, Savage C, and Baskaran M. 2002. Do sediments from coastal sites accurately reflect time trends in water column phytoplankton? A test from Himmerfjärden Bay (Baltic Sea proper). Limnol Oceanogr 47, 1537-1544.

Bidigare RR and Ondrusek ME. 1996. Spatial and temporal variability of phytoplankton pigment distributions in the central equatorial Pacific Ocean. Deep Sea Res II 43, 809-834.

Boës X, Piotrovska N, and Fagel N. 2005. High-resolution diatom/clay record in Lake Baikal from grey-scale, and magnetic susceptibility over Termination I. Glob Planet Change, in press.

Bondarenko NA. 1995. Taxonomic list of planktonic algae. In Timoshkin OA (ed.), Guide and Key to Pelagical Animals of Baikal with ecological notes.Nauka, Novosibirsk, Russia, pp. 621-630. (In Russian)

Bondarenko NA. 1999. Floral shift in the phytoplankton of Lake Baikal, Siberia: Recent dominance of Nitzschia acicularis. Plankton Biol Ecol 46, 18-23.

Bondarenko NA, Guselnikova NE, Logacheva NF, and Pomazkina GV. 1996. Spatial distribution of phytoplankton in Lake Baikal, Spring 1991. Freshwater Biol 35, 517-523.

Boraas ME, Bolgrien DW, and Holen DA. 1991. Determination of Eubacterial and Cyanobacterial Size and Number in Lake Baikal Using Epifluorescence. Int Rev Ges Hydrobio 76, 537-544.

Bourrelly P. 1957. Recherches sur les Chrysophycées. Morphologie, Phylogénie, Systématique. Revue Algologique, Mémoire hors-séries 1, 1-142.

Bradbury JP, Bezrukova YV, Chernyaeva GP, Colman SM, Khursevich G, King JW, and Likoshway YV. 1994. A synthesis of post-glacial diatom records from Lake Baikal. J Paleolim 10, 213-252.

Brenner M and Binford MW. 1988. Relationships Between Concentrations of Sedimentary Variables and Trophic State in Florida Lakes. Can J Fish Aquat Sci 45, 294-300.

Brown SR. 1969. Paleolimnological evidence from fossil pigments. Int Ver Theor Angew Limnol 17, 95-103.

Burkill H, Mantoura RFC, Llewellyn CA, and Owens NJP. 1987. Microzooplankton grazing and selectivity of phytoplankton coastal waters. Mar Biol 93, 581-590.

Callender E and Granina L. 1997. Biogeochemical phosphorus mass balance for Lake Baikal, southeastern Siberia, Russia. Mar Geol 139, 5-19.

Callieri C and Stockner JG. 2002. Freshwater autotrophic picoplankton: a review. J Limnology 61, 1-14.

Carpenter SR and Berquist AM. 1985. Experimental tests of grazing indicators based on chlorophyll-a degradation products. Arch Hydrobiol 102, 303-317.

Carpenter SR, Leavitt PR, Elser JJ, and Elser MM. 1988. Chlorophyll budgets: response to food web manipulation. Biogeochemistry 6, 79-90.

Charlet F, Fagel N, De Batist M, Hauregard F, Minnebo B, Meischner D, and the SONIC Team. 2005. Sedimentary dynamics on isolated highs in Lake Baikal: evidence from detailed high-resolution geophysical data and sediment cores. Glob Planet Change, in press.

Chondrogianni C, Ariztegui D, Rolph T, Juggins S, Shemesh A, Rietti-Shati M, Niessen F, Guilizzoni P, Lami A, McKenzie JA, and Oldfield F. 2004. Millenial to interannual climate variability in the Mediterranean during the Last Glacial Maximum. Quatern Int 122, 31-41.

Colman SM, Peck JA, Karabanov EB, Carter SJ, Bradbury JP, King JW, and Williams DF. 1995. Continental climate response to orbital forcing from biogenic silica records in Lake Baikal. Nature 378, 769-771.

Colman SM, Jones GA, Rubin M, King JW, Peck JA, and Orem WH. 1996. AMS radiocarbon analyses from Lake Baikal, Siberia: challenges of dating sediments from a large, oligotrophic lake. Quat Sci Rev 15, 669-684.

Colman SM, Karabanov EB, and Nelson CH. 2003. Quaternary sedimentation and subsidence history of Lake Baikal, Siberia, based on seismic stratigraphy and coring. J Sediment Res 73, 941-956.

Cottingham KL, Rusak JA, and Leavitt PR. 2000. Increased ecosystem variability and reduced predictability following fertilisation: Evidence from paleolimnology. Ecol Lett 3, 340-348.

Cuddington K and Leavitt PR. 1999. An individual-based model of pigment flux in lakes: implications for organic biogeochemistry and paleoecology. Can J Fish Aquat Sci 56, 1964-1977.

Daley RJ and Brown SR. 1973. Experimental characterization of of lacustrine chlorophyll diagenesis. I. Physiological and environmental effects. Arch Hydrobiol 72, 277-304.

Damsté JSS and Koopmans MP. 1997. The fate of carotenoids in sediments: An overview. Pure Appl Chem 69, 2067-2074.

Demory F, Nowaczyk NR, Witt A, and Oberhänsli H. 2005. High-resolution magnetostratigraphy of late Quaternary sediments from Lake Baikal, Siberia: timing of intracontinental paleoclimatic responses. Glob Planet Change, in press.

Demske D, Heumann G, Granoszewski W, Nita M, Mamakowa K, Tarasov PE, and Oberhänsli H. 2005. Late glacial and Holocene vegetation and regional climate variability evidenced in high-resolution pollen records from Lake Baikal. Glob Planet Change, in press.

Descy J-P and Métens A. 1996. Biomass-pigment relationships in potamoplankton. J Plankton Res 18, 1557-1566.

Dobretsov NL, Grachev MA, and Kuzmin MI 2000. Unique Ecosystem of Lake Baikal and Paleoclimate of Central Asia. Terra Nostra 9, 12-25.

Edgington D, Klump J, Robbins J, Kusner Y, Pampura V, and Sandimirov I. 1991. Sedimentation rates, residence times and radionucleide inventories in Lake Baikal from 137Cs and 210Pb in sediment cores. Nature 350, 601-614.

Edlund M and Stoermer EF. 2000. A 200,000-year, high-resolution record of diatom productivity and community makeup from Lake Baikal shows high correspondence to the marine oxygen-isotope record of climate change. Limnol Oceanogr 45, 948-962.

Edlund MB, Stoermer EF, and Taylor CM. 1996. Aulacoseira skvortzowii sp. nov. (Bacillariophyta), a poorly understood diatom from Lake Baikal, Russia. J Phycol 32, 165-175.

Ettl H, Gerloff J, Heynig H, and Mollenhauer D. 1986. Suesswasserflora von Mitteleuropa. Gustav Fischer Verlag, Stuttgart, Germany.

Everitt DA, Wright SW, Volkman JK, Thomas DP, and Lindstrom EJ. 1990. Phytoplankton community composition in the western equatorial Pacific determined from chlorophyll and carotenoid pigment distributions. Deep Sea Res 37, 975-997.

Fagel N, Alleman L, Granina L, Hater F, Thamo-Boszo E, Cloots R, and André L. 2005. Vivianite formation and distribution in Lake Baikal sediments. Glob Planet Change, in press.

Fietz S and Nicklisch A. 2004. An HPLC analysis of the summer phytoplankton assemblage in Lake Baikal. Freshwater Biol 49, 332-345.

Fietz S, Sturm M, and Nicklisch A. 2005. Flux of lipophilic photosynthetic pigments to the surface sediments of Lake Baikal. Glob Planet Change, in press.

Fietz S, Bleiß W, Hepperle D, Koppitz H, Krienitz L, and Nicklisch A. submitted. First record of Nannochloropsis limnetica (Eustigmatophyceae) in the autotrophic picoplankton of Lake Baikal. J Phycol.

Flower RJ. 1998. Paleolimnology and recent environmental change in Lake Baikal: an introduction and overview of interrelated concurrent studies. J Paleolimnol 20, 107-117.

Francis DR. 2001. A record of hypolimnetic oxygen conditions in a temperate multi-depression lake from chemical evidence and chironomid remains. J Paleolimn 25, 351-365.

Galazii MJ. 1982. The ecosystem of Lake Baikal and problems of environmental protection. Sov Geogr 22, 217-225. (In Russian).

Galazii MJ. 1991. Lake Baikal reprieved. Endeavour 15, 13-17.

Galazii MJ (ed.) 1993. Baikal Atlas. Federal Service of Geodesy and Cartography, Moscow, Russia. (In Russian)

Genkai-Kato M, Sekino T, Yoshida T, Miyasaka H, Khodhzer TV, Belykh OA, Melnik NG, Kawabata Z, Higashi M, and Nakanishi M. 2002. Nutritional diagnosis of phytoplankton in Lake Baikal. Ecol Res 17, 135-142.

Genkai-Kato M, Nozaki K, Sherstyankin PP, Logacheva NP, Bondarenko NA, Hino S, and Nakanishi M. 2003. Photosynthetic potential of phytoplankton in the deep water of Lake Baikal, Russia. Limnology 4, 113-117.

Gervais F and Behrendt H. 2003. Primary productivity in a polymictic lake temporal dynamics, controlling factors and trophic state. Int Rev Hydrobiol 88, 16-33.

Gieskes WWC and Kraay GW. 1983. Dominance of Cryptophyceae during the phytoplankton spring bloom in the Central North Sea detected by HPLC analysis of pigments. Mar Biol 75, 179-185.

Gieskes WWC, Kraay GW, Nontji A, Setiapermana D, and Sutomo. 1988. Monsoonal alternation of a mixed and a layered structure in the phytoplankton of the euphotic zone of the Banda Sea (Indonesia): a mathematical analysis of algal pigment fingerprints. Neth J Sea Res 22, 123-137.

Gleser SI, Makarova IV, Moisseeva AI, and Nikolaev VA. 1992. The Diatoms of the USSR. Fossil and Recent. Nauka, St.-Petersburg, Russia. (In Russian).

Goldman CR, Elser JJ, Richards RC, Reuter JE, Priscu JC, and Levin AL. 1996. Thermal stratification, nutrient dynamics, and phytoplankton productivity during the onset of spring phytoplankton growth in Lake Baikal, Russia. Hydrobiologia 331, 9-24.

Goldman CR and Jassby AD. 2001. Primary productivity, phytoplankton and nutrient status in Lake Baikal. In Munawar M and Hecky RE (eds.), The Great Lakes of the World (GLOW): Food-web, health and integrity. Backhuys Publishers, Leiden, The Netherlands, pp. 111-125.

Goman GA. 1973. Characteristics of Bacteria in Southern Lake Baikal. Hydrobiol J 9, 45-47.

Gorham E, Lund JWG, Sanger JE, Dean WE. 1974. Some relationships between algal standing crop, water chemistry and sediment chemistry in the English Lakes. Limnol Oceanogr 19, 601-617.

Grachev M. 1994. Formation of the Lake Baikal International Centre for Ecological Research. Ecol Int Bull 21, 75-88.

Grachev M, Kumarev VP, Mamaev LV, Zorin VL, Baranova NN, Denikina G, Belikov SI, Petrov EA, Kolesnik RS, Dorofeev AM, Beim VN, Kudelin FG, Magieva F, and Sidorov VN. 1989. Distemper virus in Baikal seals. Nature 338 , 209.

Granin NG, Zhdanov AA, Zavoruyev VV, Zinenko GG, Levin AL, Tsekhanovsky VV, Sherstyankin PP, and Shimaraev MN. 1991. Distribution of Baikal pelagic ecosystem characteristics in spring convection. Preprint n° 158b, USSR Academy of Sciences, Siberian Brunch, Institute of Biophysics, Krasnoyarsk, Russia.

Granin NG, Jewson DH, Grachev MA, Gnatovsky RY, Levin LA, Zhdanov AA, Averin AI, Gorbunova LA, Tsekhanovsky VV, Doroschenko LM, and Minko NP. 1999. Turbulent mixing in the water layer just below the ice and its role in the development of diatomic algae in Lake Baikal. Dokl Akad Nauk 366, 835-839.

Granina L. 1997. The chemical balance of Lake Baikal. Limnol Oceanogr 42, 373-378.

Granina L, Mueller B, Wehrli B, and Martin P. 2000. Oxygen, iron, and manganese at the sediment-water interface in Lake Baikal. Terra Nostra 9, 87-93.

Granina L, Mueller B, and Wehrli B. 2004. Origin and dynamics of Fe and Mn sedimentary layers in Lake Baikal. Chem Geol205, 55-72.

Granoszewski W, Demske D, Nita M, Heumann G, and Andreev AA. 2005. Vegetation and climate variability during the Last Interglacial evidenced in the pollen record from Lake Baikal. Glob Planet Change, in press.

Griffiths M, Perrott PS, and Edmondson WT. 1969. Oscillaxanthin in the sediment of Lake Washington. Limnol Oceanogr 3, 317-326.

Guilizzoni P, Bonomi G, Galanti G, and Ruggiu D. 1983. Relationship between sedimentary pigments and primary production evidence from core analyses of twelve Italian lakes. Hydrobiologia 103, 103-106.

Guilizzoni P, Lami A, and Marchetto A. 1992. Plant pigment ratios from lake sediments as indicators of recent acidification in alpine lakes. Limnol Oceanogr 37, 1565-1569.

Hall RI, Leavitt PR, Smol JP, and Zirnhelt N. 1997. Comparison of diatoms, fossil pigments and historical records as measures of lake eutrophication. Freshwater Biol 38, 401-417.

Hall RI, Leavitt PR, Quinlan R, Dixit AS, and Smol JP. 1999. Effects of agriculture, urbanization and climate on water quality in the northern Great Plains. Limnol Oceanogr 44, 739-756.

Head EJH and Harris LR. 1992. Chlorophyll and carotenoid transformation and destruction by Calanus spp. grazing on diatoms. Mar Ecol Prog Ser 86, 229-238.

Head EJH and Horne EPW. 1993. Pigment transformation and vertical flux in an area of convergence in the North-Atlantic. Deep Sea Res Pt II 40, 329-346.

Heim B. in prep. Qualitative and Quantitative Analyses of Lake Baikal’s Surface Waters Using Ocean Colour (SeaWiFS) Satellite Data. PhD thesis, University of Potsdam, Germany.

Heim B, Oberhaensli H, Fietz S, and Kaufmann H. 2005. Variation in Lake Baikal´s phytoplankton distribution and fluvial input assessed by SeaWiFs satellite data. Glob Planet Change, in press.

Hodgson DA, Wright SW, Tyler PA, and Davies N. 1998. Analysis of fossil pigments from algae and bacteria in meromictic Lake Fidler, Tasmania, and its application to lake management. J Paleolimnol 19, 1-22.

Hoham RW and Duval B. 2001. Microbial ecology of snow and freshwater ice with emphasis on snow algae. In Jones HG, Pomeroy JW, Walker DA and Hoham RW (eds.), Snow Ecology: An Interdisciplinary Examination of Snow-covered Ecosystems.Cambridge University Press, Cambridge, UK, pp. 168-228.

Horiuchi K, Minoura K, Hoshino K, Oda T, Nakamura T, and Kawai T. 2000. Palaeoenvironmental history of Lake Baikal during the last 23 000 years. Palaeogeogr Palaeocl 157, 95-108.

Hulme M, Conway D, and Xianfu L. 2003. Climate Change: An Overview and its Impact on the Living Lakes. 8th Living Lakes Conference.Tyndall Centre for Climate Change Research, Norvich, UK.

Hurley JP and Armstrong DE. 1990. Fluxes and transformations of aquatic pigments in Lake Mendota, Wisconsin. Limnol Oceanogr 35, 384-398.

Hurley JP and Armstrong DE. 1991. Pigment preservation in lake sediments: a comparison of sedimentary environments in Trout Lake, Wisconsin. Can J Fish Aquat Sci 48, 472-486.

Hutchinson GE. 1975. A treatise on limnology, 3. John Wiley & Sons Ltd., New York, NY, USA.

Iluz D, Yacobi YZ, and Gitelson A. 2003. Adaption of an algorithm for chlorophyll-a estimation by optical data in the oligotrophic Gulf of Eilat. IJ Remote Sens 24, 1157-1163.

IPCC. 2001. Third Assessment Report – Climate Change 2001, Summary for Policymakers.

Ittekott V, Schäfer P, Honjo S, and Depetris PJ (eds.). 1996. Particle Flux in the Ocean. John Wiley & Sons Ltd., Hoboken, NJ, USA.

Jeffrey SW, Mantoura RFC, and Wright SW (eds.) 1997. Phytoplankton pigments in oceanography: guidelines to modern methods,UNESCO Publishing, Paris, France.

Jeffrey SW, Wright SW, and Zapata M. 1999. Recent advances in HPLC pigment analysis of phytoplankton. Mar Freshwater Res 50, 879-896.

Jiang CQ, Alexander R, Kagi RI, and Murray AP. 2000. Origin of perylene in ancient sediments and its geological significance. Org Geochem 31, 1545-1559.

Karabanov EB, Prokopenko AA, Williams DF, and Colman SM. 1998. Evidence from Lake Baikal for Siberian glaciation during oxygen-isotope substage 5d. Quatern Res 50, 46-55.

Karabanov EB, Prokopenko AA, Williams DF, and Khursevich GK. 2000a. A new record of Holocene climate change from the bottom sediments of Lake Baikal. Palaeogeogr Palaeocl 156, 211-224.

Karabanov EB, Prokopenko AA, Williams DF, and Khursevich GK. 2000b. Evidence for a mid-Eemian cooling in continental climatic record from Lake Baikal. J Paleolim 23, 365-371.

Kartushinsky AV. 1997. Effect of diurnal variations in abiotic conditions on the distribution and production of phytoplankton in Lake Baikal. Vodn Res 24, 66-73.

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

Khursevich GK, Karabanov EB, Prokopenko AA, Williams DF, Kuzmin MI, Fedenya SA, and Gvozdkov AA. 2001. Insolation regime in Siberia as a major factor controlling diatom production in Lake Baikal during the past 800,000 years. Quatern Intern 80, 47-58.

King LL and Repeta DJ. 1991. Novel pyropheophorbide steryl chlorin esters in Black Sea sediments. Geochim Cosmochim Ac 55, 2067-2074.

Klein B, Gieskes WWC, and Kraay GG. 1986. Digestion of chlorophylls and carotenoids by the marine protozoan Oxyrrhis marina by h.p.l.c. analysis of algal pigments. J Plankton Res 8, 827-836.

Kobanova GI and Izmest'eva LR. 2003. Some evidence of the reproduction of Asterionella formosa (Bacillariophyta) in Baikal. Sib Ecol J 4, 427-432. (In Russian).

Kohl J-G and Nicklisch A. 1988. Ökophysiologie der Algen. Wachstum und Ressourcennutzung. Gustav Fischer Verlag, Stuttgart, Germany.

Kowalewska G. 2001. Algal pigments in Baltic sediments as markers of ecosystem and climate changes. Climate Res 18, 89-96.

Kozhov MM. 1963. Lake Baikal and its life.W. Junk Publishers, The Hague, The Netherlands.

Kozhova OM. 1987. Phytoplankton of Lake Baikal: structural and functional characteristics. Arch Hydrobiol 25, 19-37.

Kozhova OM and Izmest’eva LR. 1998. Lake Baikal: Evolution and biodiversity. Backhuys Publisher, Leiden, The Netherlands.

Kozhova OM and Silow EA. 1998. The current problems of Lake Baikal ecosystem conservation. Lakes Reserv Res Manage 3, 19-33.

Kozhova OM and Kobanova GI. 2000. Ecological pecularities of diatoms in Lake Baikal. Proceedings of the 16th International Diatom Symposium, Athens, 25, 279-290.

Kozhova OM, Pautova VN, Izmest’eva LR, and Davydova IK. 1985. Chlorophyll a in the water of Lake Baikal. Hydrobiol J 21, 12-19.

Laflamme RE and Hites RA. 1978. The global distribution of polycyclic aromatic hydrocarbons in recent sediments. Geochim Cosmochim Ac 42, 289–303.

Lami A, Guillizoni P, Ruggio D, Polli B, Simona M, and Barbieri A. 1992. Role of pigments on algal communities and photosynthesis. Aquat Sci 54, 321-330.

Lami A, Marchetto A, Guilizzoni P, Giorgis A, and Masaferro J. 1994. Paleolimnological records of carotenoids and carbonaceous particles in sediments of some lakes in Southern Alps. Hydrobiologia 274, 57-64.

Lampitt RS and Antia AN. 1997. Particle flux in deep seas: regional characteristics and temporal variability. Deep Sea Res 44, 1377-1403.

Landry M R, Peterson WK, and Lorenzen CJ. 1995. Zooplankton Grazing, Phytoplankton Growth, and Export Flux. Inferences from Chlorophyll Tracer Methods. ICES J Mar Sci 52, 337-345.

Latasa M, Landry MR, Schlüter L, and Bidigare RR. 1997. Pigment-specific growth and grazing rates of phytoplankton. Limnol Oceanogr 42, 289-298.

Leavitt PR. 1993. A review of factors that regulate carotenoid and chlorophyll depostition and fossil pigment abundance. J Paleolimnol 9, 109-127.

Leavitt PR and Carpenter SR. 1990. Regulation of Pigment Sedimentation by Photo-Oxidation and Herbivore Grazing. Can J Fish Aquat Sci 47, 1166-1176.

Leavitt PR and Findlay DL. 1994. Comparision of fossil pigments with 20 years of phytoplankton data from eutrophic Lake 227. Can J Fish Aquat Sci51, 2286-2299.

Leavit PR and Hodgson DA. 2001. Sedimentary pigments. In Smol JP, Birks HJB, and Last WM (eds), Tracking Environmental Changes Using Lake Sediments, Volume 3, Terrestrial, Algal and Siliceous Indicators. Kluwer Academic Publisher, Dordrecht, The Netherlands, pp. 295-325.

Leavitt PR, Carpenter SR, and Kitchell JF. 1989. Whole-lake experiments: The annual record of fossil pigments and zooplankton. Limnol Oceanogr 34, 700-717.

Leavitt PR, Sanford PR, Carpenter SR, Kitchell JF, and Benkowski D. 1993. Annual fossil records of food-web manipulation. In Carpenter SR and Kitchell JF (eds.), The Trophic Cascade in Lakes. Cambridge University Press, Cambridge, UK.

Leavitt PR, Vinebrooke RD, Donald DB, Smol JP, and Schindler DW. 1997. Past ultraviolet radiation environments in lakes derived from fossil pigments. Nature 388, 457-459.

Leavitt PR, Vinebrooke RD, Hall RI, Wilson SE, Smol JP, Vance RE, and Last WM. 1999. Multiproxy Record of Prairie Lake Response to Climate Change and Human Activity, Clearwater Lake, Saskatchewan. In Lemmen DS and Vance R (eds.), Holocene Climate and Environmental Change in the Palliser Triangle: A Geoscientific Context for Evaluating the Impacts of Climate Change in the Southern Canadian Prairies. Geological Survey of Canada Bulletin 534. Geological Survey of Canada, Ottawa, Ontario, Canada, pp. 125-138.

Leavitt PR, Cumming BF, Smol JP, Reasoner M, Pienitz R, and Hodgson DA. 2003. Climatic control of ultraviolet radiation effects on lakes. Limnol Oceanogr48, 2062-2069.

Letelier RM, Bidigare RR, Hebel DV, Ondrusek M, Winn CD, and Karl DM. 1993. Temporal variability of phytoplankton community structure based on pigment analysis. Limnol Oceanogr 38, 1420-1437.

Likens GE. 1985. The lake ecosystem. In Likens GE (ed.), An ecosystem approach to ecology: Mirror Lake and its environment. Springer, New York, NY, USA, pp. 334-337.

Llewellyn CA, Mantoura RFC, and Brereton RG. 1990. Products of chlorophyll photodegradation – 2. Structural identification. Photochem Photobiol 52, 1043-1047.

Lotter AF. 2001. The paleolimnology of Soppensee (Central Switzerland), as evidenced by diatom, pollen, and fossil-pigment analyses. J Paleolimn 25, 65-79.

Louda JW and Baker EW. 1984. Perylene occurrence, alkylation and possible sources in deep-ocean sediments. Geochim Cosmochim Ac 48, 1043-1058.

Mackay AW, Flower RJ, Kuzmina AE, Granina LZ, Rose NL, Aplleby PG, Boyle JF, and Battarbee RW. 1998. Diatom succession trends in recent sediments from Lake Baikal and their relation to atmospheric pollution and to climate change. Phil Trans R Soc Lond B 353, 1011-1055.

Mackay AW, Battarbee RW, Flower RJ, Granin N, Jewson DH, Ryves DB, and Sturm M. 2003. Assessing the potential for developing internal diatom-based transfer functions for Lake Baikal. Limnol Oceanogr48, 1183-1192.

Mackey MD, Mackey DJ, Higgins HW, and Wright SW. 1996. CHEMTAX - a program for estimating class abundances from chemical markers: application to HPLC measurments of phytoplankton. Mar Ecol Progr Ser 144, 265-283.

Magnuson JJ, Robertson DM, Benson BJ, Wynne RH, Livingstone DM, Arai T, Assel RA, Baryy RG, Card V, Kuusisto E, Granin NG, Prowse TD, Stewart KM, and Vuglinski VS. 2000. Historical Trends in Lake and River Ice Cover in the Northern Hemisphere. Science 289, 1743-1746.

Magurran A. 2003. Measuring Biological Diversity. Blackwell Publishing, Oxford, UK.

Martin P. 1994. Lake Baikal. Arch Hydrobiol Beih Ergeb Limnol 44, 3-11.

Martin P, Goddeeris B, and Martens K. 1993. Oxygen concentration profiles in soft sediment of Lake Baikal (Russia) near the Selenga Delta. Freshwater Biol 29, 343-349.

Martin P, Boes X, Goddeeris B, and Fagel N. 2005. A qualitative assessment of the influence of bioturbation in the Lake Baikal sediments. Glob Planet Change, in press.

Matile P, Hörtensteiner S, and Thomas H. 1999. Chlorophyll Degradation. Ann Rev Plant Phys Plant Mol Biol 50, 67-95.

Millie DF, Paerl HW, and Hurley JP. 1993. Microalgal Pigment Assessments Using High-Performance Liquid Chromatography: A Synopsis of Organismal and Ecological Applications. Can J Fish Aquat Sci50, 2513-2527.

Minoura K (ed.) 2000. Lake Baikal, A Mirror in Time and Space for Understanding Global Change Processes. Elsevier, Amsterdam, The Netherlands.

Morley DM, Leng MJ, Mackay AW, and Sloane HJ. 2005. Late Glacial and Holocene atmospheric circulation change in the Lake Baikal region documented by oxygen isotopes from diatom silica. Glob Planet Change, in press.

Moskalenko BK. 1971. The Biological Productivity of Lake Baikal. Hydrobiol J 7, 1-8.

Müller B, Maerki M, Schmid M, Vologina E, Wehrli B, Wüest A, and Sturm M. 2005. Internal carbon and nutrient cycling in Lake Baikal: Sedimentation, upwelling and early diagenesis. Glob Planet Change, in press.

Nagata T, Takai K, Kawanobe K, Kim D-S, Nakazato R, Guselnikova N, Bondarenko N, Mologawaya O, Kostrnova T, Drucker V, Satoh Y, and Watanabe Y. 1994. Autotrophic picophytoplankton in southern Lake Baikal: abundance, growth and grazing mortality during summer. J Plankton Res 16, 945-959.

Nakano S, Mitamura O, Sugiyama M, Maslennikov A, Nishibe Y, Watanabe Y, and Drucker V. 2003. Vertical planktonic structure in the central basin of Lake Baikal in summer 1999, with special reference to the microbial food web. Limnology 4, 155-160.

Naylor CC and Keely BJ. 1998. Sedimentary purpurins: oxidative transformation products of chlorophylls. Org Geochem 28, 417-422.

Nodder S and Gall M. 1998. Pigment fluxes from the Subtropical Convergence region, east of New Zealand: relationships to planktonic community structure. New Zeal J Mar Fresh 32, 441-465.

Oberhänsli H and Mackay A. 2005. Progress towards reconstructing past climate in Central Eurasia, with special emphasis on Lake Baikal. Glob Planet Change, in press.

Ohlendorf C and Sturm M. 2001. Precipitation and dissolution of calcite in a Swiss High Alpine Lake. Arct Antarct Alp Res 33, 410-417.

O’Reilly JE, Maritorena S, Mitchell BG, Siegel DA, Carder KL, Garver SA, Kahru M, and McClain CR. 1998. Ocean colour chlorophyll algorithms for SeaWiFS. J Geophys Res 103, 24937–24953.

Pienitz R, Smol JP, Last WM, Leavitt PR, and Cumming BF. 2000. Multi-proxy Holocene palaeoclimatic record from a saline lake in the Canadian Subarctic. Holocene 10, 673-686.

Piotrowska N, Bluszcz A, Demske D, Granoszewski W, and Heumann G. 2004. Extraction and AMS Radiocarbon Dating of Pollen from Lake Baikal Sediments. Radiocarbon 46, 181-187.

Poister, D, Armstrong DE, and Hurley JP. 1999. Influences of grazing on temporal patterns of algal pigments in suspended and sedimenting algae in a north temperate lake. Can J Fish Aquat Sci 56, 60-69.

Popovskaya GI. 1991. Phytoplankton of Lake Baikal and its long-term changes (1958-1990). PhD thesis. Novosibirsk, Russia.

Popovskaya GI. 2000. Ecological monitoring of phytoplankton in Lake Baikal. Aquat Ecosyst Health Manage 3, 215-225.

Popovskaya GI and Belykh OI. 2004. Stages of the Study of Autotrophic Picoplankton of Lake Baikal. Hydrobiol J 40, 12-22.

Prokopenko AA, Karabanov EB, Williams DF, and Khursevich GK. 2002. The stability and the abrupt ending of the last interglaciation in southeastern Siberia. Quatern Res 58, 56-59.

Prowse WG and Maxwell JR. 1991. High molecular weight chlorins in a lacustrine shale. Org Geochem 17, 877-886.

Quiblier M, Feuillade M, Bourdier G, Amblard C, and Pepin D. 1994. Studies in Lake Nantua. Phytoplankton distribution as determined by HPLC pigment analysis. Arch Hydrobiol Beih Ergeb Limnol 41, 113-124.

Qiu LQ, Williams DF, Gvorzdkov VA, Karabanov E, and Shimaraeva M. 1993. Biogenic silica acculumation and paleoproductivity in the northern basin of Lake Baikal during the Holocene. Geology 21, 25-28.

Repeta DJ and Gagosian RB. 1982. Carotenoid transformations in coastal marine waters. Nature 295, 51-54.

Repeta DJ and Gagosian RB. 1984. Transformation reactions and recycling of carotenoids and chlorins in the Peru upwelling region (15° S, 75° W). Geochim Cosmochim Ac 48, 1265-1277.

Reynolds CS. 1984. The ecology of freshwater phytoplankton. Cambridge University Press, Cambridge, UK.

Reynolds CS, Huszar V, Kruk C, Naselli-Flores L, and Melo S. 2002. Towards a functional classification of the freshwater phytoplankton.J Plankton Res 24, 417-428.

Richardson TL, Gibson CE, and Heaney SI. 2000. Temperature, growth and seasonal succession of phytoplankton in Lake Baikal, Siberia. Freshwater Biol 44, 431-440.

Rioual P and Mackay AW. 2005. High-resolution diatom record of the Kazantsevo Interglacial stage in Lake Baikal (Siberia). Glob Planet Change, in press.

Rodriguez F, Varela M, and Zapata M. 2002. Phytoplankton assemblages in the Gerlache and Bransfield Straits (Antarctic Peninsula) determined by light microscopy and CHEMTAX analysis of HPLC pigment data. Deep Sea Res II49, 723-747.

Rusak JA, Leavitt PR, McGowan S, Chen G, Olson O, Wunsam S, and Cummning BF. 2004. Millenial-scale relationships of diatom species richness and production in two prairie lakes.Limnol Oceanogr49, 1290-1299.

Russell M and Rosell-Melé A. 2005. Major lipid biomarker classes in the water column and sediments of Lake Baikal. Glob Planet Change, in press.

Ryves DB, Jewson DH, Sturm M, Battarbee RW, Flower RJ, Mackay AW, and Granin NG. 2003. Quantitative and qualitative relationship between planktonic diatom communities and diatom assemblages in sedimenting material and surface sediments in LakeBaikal, Siberia. Limnol Oceanogr 48, 1643-1661.

Sanger JE. 1988. Fossil pigments in paleoecology and paleolimnology. Palaeogeogr Palaeocl 62, 343-359.

Sanger JE and Crowl GH. 1979. Fossil Pigments as a Guide to Paleolimnology of Brown´s Lake, Ohio. Quatern Res 11, 342-352.

SCOR-UNESCO workgroup. 1966. Determination of photosynthetic pigments in seawater. Monographs on oceanography methodology, vol. 1. UNESCO, Paris, France.

Semovski SV. 1998. Lake Baikal: paleoclimatic reconstruction of diatoms - picoplancton relationship using Bio-optical Modelling. Proceedings of the Second Int. Conf. on Climate and Water (Aug. 17-20 1998). Espoo, Finland 3, 1031-1036.

Semowski SV. 1999. Water Ecosystems: from Satellite observations to Mathematic modelling. Russian Academic Press, Irkutsk, Russia.

Shimaraev MN, Verbolov VIV, Granin N.G, and Sherstyankin PP. 1994. Physical Limnology of Lake Baikal: A Review. Baikal International Center for Ecological Research. Irkutsk/Okayama, Russia/Japan.

Shimaraev MN, Kuimova LN, Sinyukovich VN, and Tsekhanovskii VV. 2002. Manifestation of global climatic changes in Lake Baikal during the 20th century. Dokl Earth Sci 383, 288-291. (In Russian).

Silliman JE, Meyers PA, and Eadie BJ. 1998. Perylene: an indicator of alteration processes or precursor materials? Org Geochem 29, 1737-1744.

Smol JP, Birks HJB, and Last WM. (eds.) 2001. Tracking Environmental Changes Using Lake Sediments, Vol 3, Terrestrial, Algal, and Siliceous Indicators. Kluwer Academic Publishers, Dordrecht, The Netherlands.

Soma M, Soma Y, Tani Y, Itoh N, Kurihara K, Nara F, Atsushi T, and Kawai T. 2003. Residual photosynthetic pigments in sediment of Lake Baikal as indicators of phytoplankton history. In Kashiwaya K. (ed.), Long Continental Record from Lake Baikal. Springer-Verlag, Tokyo, Japan, pp. 137-160.

Soma Y, Imaizumi T, Yagi K, and Kasuga S. 1993. Estimation of algal succession in lake water using HPLC analysis of pigments. Can J Fish Aquat Sci 50, 1142-1146.

Soma Y, Tanaka A, and Soma M. 1995. Composition and vertical profiles of photosynthetic pigments in the sediment of Lake Kasumigaura. Geochem J29, 107-113.

Soma Y, Tanaka A, Soma M, and Kawai T. 1996. Photosynthetic pigments and perylene in the sediments of southern basin of Lake Baikal. Org Geochem 24, 553-561.

Soma Y, Soma M, Tani Y, Tanaka A, and Kawai T. 2001a. Distribution of photosynthetic pigments in the surface sediments of Lake Baikal. Geol Geofiz 42, 213-219.

Soma Y, Tanaka A, Soma M, and Kawai T. 2001b. 2.8 million years of phytoplankton history in Lake Baikal recorded by the residual photosynthetic pigments in its sediment core. Geochem J 35, 377-383.

Sommer U, Gliwicz Z, Lampert W, and Duncan A. 1986. The PEG-model of seasonal succession of planktonic events in fresh waters. Arch Hydrobiol 106, 433-471.

Squier AH, Hodgson DA, and Keely BJ. 2002. Sedimentary pigments as markers for environmental change in an Antarctic lake. Org Geochem 33, 1655-1665.

Sterner RE and Elser JJ. 2002. Ecological Stoichiometry: the biology of elements from molecules to the biosphere. Princeton University Press, Princeton, NJ, USA.

Stockner JG. 1991. Autotrophic picoplankton in freshwater ecosystems: the view from the summit.Int Rev Ges Hydrobio 76, 483-492.

StraŠkrábová V, Izmest’eva LR, Maksimova EA, Fietz S, Nedoma J, Borovec J, Kobanova GI, Shchetinina EV, and Pislegina EV. 2005. Primary production and microbial activity in the euphotic zone of Lake Baikal (Southern Basin) during late winter. Glob Planet Change, in press.

Strom SL, Morello TA, and Bright KJ. 1998. Protozoan size influences algal pigment degradation during grazing. Mar Ecol Prog Ser164, 189-197.

Swain EB. 1985. Measurement and interpretation of sedimentary pigments. Freshwater Biol 15, 53-75.

Talbot HM, Head RN, Harris RP, and Maxwell JR. 1999. Distribution and stability of steryl chlorin esters in copepod faecal pellets from diatom grazing. Org Geochem 30, 1163-1174.

Tani Y, Yoshii K, Itoh N, Nara F, Soma M, Tanaka AA, Soma Y, Yonada M, Hirota M, and Shibata Y. 2001. Distribution of photosynthetic pigments and other biogenic compounds in the sediments from the southern basin of Lake Baikal. Geol Geofiz 2, 206-212.

Tani Y, Kurihara K, Nara F, Itoh N, Soma M, Soma Y, Tanaka A, Yoneda M, Hirota M, and Shibata Y. 2002. Temporal changes in the phytoplankton community of the southern basin of Lake Baikal over the last 24,000 years recorded by photosynthetic pigments in a sediment core. Org Geochem 33, 1621-1634.

Topachevsky AV and Masyuk NP. 1984. The freshwater algae of the Ukrainian SSR.Vyssh School, Kiev, Ukraine. (In Russian)

Tzedakis PC, Frogley MR, and Heaton THE. 2003. Last Interglacial conditions in southern Europe: evidence from Ioannina, northwest Greece. Glob Planet Change 36, 157-170.

Utermöhl H. 1958. Zur Vervollkommnung der quantitativen Phytoplankton-Methodik. Mitt Int Ver Theor Angew Limnol 5, 567-596.

Vallentyne JR. 1960. Fossil Pigments. In Allen MB (ed.), Comparative Biochemistry of Photoreactive Systems. Academic Press, New York, NY, USA, pp. 83-105.

Verkhozina VA, Kozhova OM, and Kusner YS. 2000. Hydrodynamics as a limiting factor in the Lake Baikal ecosystem. Aquat Ecosyst Health Manage 3, 203-210.

Verschuren D, Tibby J, Leavitt PR, and Roberts CN. 1999. The environmental history of a climate-sensitive lake in the former "White-Highlands" of Central Kenya. Ambio 28, 494-501.

Vinebrooke RD, Hall RI, Leavitt PR, and Cumming BF. 1998. Fossil pigments as indicators of phototrophic response to salinity and climatic change in lakes of western Canada. Can J Fish Aquat Sci 55, 668-681.

Vinebrooke RD and Leavitt PR. 1999. Phytobenthos and phytoplankton as potential indicators of climate change in mountain lakes and ponds: a HPLC -based approach. J N Am Benthol Soc 18, 15-33.

Vologina, EG, Sturm M, Vorob'eva SS, and Granina LZ. 2000. New results of high-resolution studies of surface sediments of Lake Baikal. Terra Nostra 9, 115-130.

Vologina, EG, Sturm M, Vorob’eva SS, Granina LZ, and Toshchakov SY. 2003. Character of sedimentation in Lake Baikal in the Holocene. Geol Geofiz 44, 407-421. (In Russian).

Votintsev KK, Meshcheryakova AI, and Popovskaya GI. 1972. The Importance of Ultrananoplanktonic Algae in the Primary Production of Lake Baikal in the Summer. Hydrobiol J 8, 13-18.

Wasser SP, Kondratyeva NV, Massjuk NP, Palamar-Mordvintseva GM, Vetrova ZI, Kordyum EL, Moshkova NA, Prihodkova LP, Kovalenko OV, Stupina VV, Tsarenko PM, Yunger VP, Radchenko MI, Vinogradova ON, Bukhtiyarova LN, and Razumna LF. 1989. Algae. A Guide.Naukova Dumka, Kiev, Ukraine. (In Russian)

Watts CD and Maxwell JR. 1977. Carotenoid diagenesis in a marine sediment. Geochim Cosmochim Acta 41, 493-497.

Weber A and Wettern M. 1981. Remarks on the usefulness of algal carotenoids as chemotaxonomic markers. In Czygan F-C (ed.), Pigments in Plants. Akademie-Verlag, Berlin, Germany, pp. 104-116.

Weiss RF, Carmack EC, and Koropalov VM. 1991. Deep-water renewal and production in Lake Baikal. Nature 349, 665-669.

Welschmeyer NA and Lorenzen CJ. 1985a. Chlorophyll budgets: Zooplankton grazing and phytoplankton growth in a temperate fjord and the Central Pacific Gyres. Limnol Oceanogr 30, 1-21.

Welschmeyer NA and Lorenzen CJ. 1985b. Role of herbivory in controlling phytoplankton abundance: annual pigment budget for a temperate marine fjord. Mar Biol 90, 75-86.

Wilhelm C, Rudolph I, and Renner W. 1991. A quantitative method based on HPLC-aided pigment analysis to monitor structure and dynamics of the phytoplankton assemblage - A study from Lake Meerfelder Maar (Eifel, Germany). Arch Hydrobiol123, 21-35.

Wilhelm C, Volkmar P, Lohmann C, Becker A, and Meyer M. 1995. The HPLC-aided pigment analysis phytoplankton cells as a powerful tool in water quality control. J Water SRT 44, 132-141.

Williams DF, Qiu L, Karabanov E, and Gvozdov A. 1993. Geochemical indicators of productivity and sources of organic matter in surficial sediments of Lake Baikal. Russ Geol Geophys 34, 111-125.

Woitke P, Martin C-D, Nicklisch S, and Kohl J-G. 1994. HPLC determination of lipophilic photosynthetic pigments in algal cultures and lake water samples using a non-endcapped C18-RP-column. Fresen J Anal Chem 348, 762-768.

Woitke P, Schiwietz T, Teubner K, and Kohl J-G. 1996. Annual profiles of photosynthetic lipophilic pigments in four freshwater lakes in relation to phytoplankton counts as well as to nutrient data. Arch Hydrobiol 137, 363-384.

Wright SW, Thomas DP, Marchant HJ, Higgins HW, Mackey MD, and Mackey DJ. 1996. Analysis of phytoplankton of the Australian sector of the Southern Ocean: comparison of microscopy and size frequency data with interpretations of pigment HPLC data using the "Chemtax" matrix factorisation program. Mar Ecol Prog Ser 144, 285-298.

Zavoruyev VV, Levin LA, Rachko GY, and Granin NG. 1992. Spatial and Temporal Patterns of Occurrence of Chlorophyll-a in Lake Baikal in Winter. Hydrobiol J 28, 18-26.

Zink K-G and Mangelsdorf K. 2004. Efficient and rapid method for extraction of intact phospholipids from sediments combined with molecular structure elucidation using LC-ESI-MS-MS analysis. Anal Bioanal Chem 380, 798-812.

Zumbrunnen C. 1974. Lake Baikal controversy, a serious water pollution threat or a turning point in Soviet environmental conservation. In Volges I. (ed.), Environmental Deterioration in the Soviet Union, Preager Publishers, New York, NY, USA, pp. 80-122.

Züllig H. 1981. On the use of carotenoid stratigraphy in lake sediments for detecting past development of phytoplankton. Limnol Oceanogr 26, 970-976.

© Die inhaltliche Zusammenstellung und Aufmachung dieser Publikation sowie die elektronische Verarbeitung sind urheberrechtlich geschützt. Jede Verwertung, die nicht ausdrücklich vom Urheberrechtsgesetz zugelassen ist, bedarf der vorherigen Zustimmung. Das gilt insbesondere für die Vervielfältigung, die Bearbeitung und Einspeicherung und Verarbeitung in elektronische Systeme.
DiML DTD Version 4.0Zertifizierter Dokumentenserver
der Humboldt-Universität zu Berlin
HTML generated: