Abstract
The Black Sea hydrogen sulfide inventory is about 4 600×1012 g, which makes this sea the largest anoxic basin on earth. Anoxic conditions in the basin have been established 7 500 years ago. This review presents the contemporary inventory of dissolved sulfide and sulfur intermediates and discusses mechanisms of physical mixing in the anoxic interior. Special emphasis is given to concentrations of dissolved sulfide and other chemical species in the bottom convective layer located at depths below 1 700–1 750 m. The width and concentrations of dissolved sulfide in the bottom layer are directly proportional to the heat flow from the bottom. The mechanism of double diffusion driven by geothermal heat flux is the main mixing process in bottom waters. Hydrogen sulfide production in the water column by sulfate-reducing bacteria is the main source of dissolved sulfide, and sulfate reduction is the dominant process of organic matter mineralization in the Black Sea anoxic zone. Sulfur budget calculations suggest that Bosporus flux cannot be considered to be the major sulfur sink and factor for deep basin ventilation. Mesoscale physical dynamics along the periphery of the basin as well as pycnocline erosion during exceptionally severe winters are probably major ventilation mechanisms for the anoxic zone. The sulfur isotopic studies of the water column also support the importance of ventilation processes below the oxic/anoxic interface. Physical mixing processes and global climate change impact on the thermohaline structure of the Black Sea water column control the magnitude and direction of the processes within the sulfur cycle.
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References
Ryan WBF, Major CO, Lericolais G, Goldstein SL (2003) Ann Rev Earth Planet Sci 31:525
Svitoch AA, Selivanov AO, Yanina TA (1998) Paleogeograficheskiye Sobytiya Pleistotsena Ponto-Kaspiya i Sredizemnomoriya (Pleistocene Palaeogeographic events in the Ponto-Caspian and Mediterranean Basins). Moscow State University Press, Moscow (in Russian)
Kaplin PA, Selivanov AO (2004) Paleogeogr Paleoclimat Paleoecol 209:19
Balabanov IP, Kvirkeliya BD, Ostrovsky AB (1981) Recent history of the formation of the engineering-geological conditions and long-term forecast of the coastal zone evolution of the Pitzunda Peninsula. Metsniereba, Tbilisi, Georgia (in Russian)
Aksu AE, Hiscott RN, Yasar D (1999) Mar Geol 153:275
Aksu AE, Mudie PJ, Rochon A, Kaminski M, Abrajano T, Yasar D (2002) GSA Today 12(5):4
Mudie PJ, Rochon A, Aksu AE (2002) Mar Geol 190(1–2):233
Kerey IE, Meric M, Tunoglu C, Kelling G, Brenner RL Dogan AU (2004) Paleogeogr Paleoclimat Paleoecol 204:277
Shimkus KM (2005) Sedimentation processes in the Mediterranean and Black Seas during Late Cenozoic. Science World, Moscow (in Russian)
Ostrovskii AB, Izmailov YaA, Shcheglov AP, Arslanov KhA (1977) New data on Pleistocene stratigraphy and geochronology from marine terraces of the Caucasus Black Sea coast and Kerch-Taman region. In: Paleogeografiya i otlozheniya pleistotsena yuzhnykh morei SSSR (Paleogeography and sediments of Pleistocene in Southern Seas of USSR). Nauka, Moscow, p 61
Ryan WBF, Pitman WCI, Major CO, Shimkus K, Moskalenko V et al. (1997) Mar Geol 138:119
Ryan WBF, Pitman W (1998) Noah's Flood: The new scientific discoveries about the event that changed history. Simon and Schuster, New York
Görur N, Cagatay MN, Emre Ö, Alpar B, Sakinc M, Islamoglu Y, Algan O, Erkal T, Keser M, Akkok R, Karlik G (2001) Mar Geol 176:65
Mamaev OI (1995) Oceanology 34(6):756
Boudreau BP, LeBlond PH (1989) Paleoceanogr 4:157
Karaca M, Wirth A, Ghil M (1999) Geophys Res Lett 26:497
Ayzatullin TA, Leonov AV, Shaporenko SN (2003) Mathematical modelling of the formation and evolution of the Black Sea anoxic zone. In Aktualnie problemy okeanologii (Current problems in oceanography). Nauka, Moscow, p 431 (in Russian)
Vinogradov AP, Grinenko VA, Ustinov VI (1962) Geochem Int 10:973
Jones G, Gagnon A (1994) Deep Sea Res I 41:531
Deuser WG (1974) Evolution of anoxic conditions in the Black Sea during Holocene. In: Degens ET, Ross DA (eds) The Black Sea – geology, chemistry and biology. AAPG Tulsa, Oklahoma, p 133
Leonov AV, Shaporenko IS (2005) Water Res 32(3):276 (in Russian)
Neretin LN (1996) PhD thesis, Shirshov Institute of Oceanology Moscow (in Russian)
Skopintsev BA (1975) Formirovanie sovremennogo khimicheskogo sostava vad Chernogo morya (Formation of contemporary chemical composition of the Black Sea waters). Hidrometeoizdat, Leningrad (in Russian)
Bezborodov AA, Eremeev VN (1993) Chernoe more. Zona vzaimodeystviya aerobnykh i anaerobnykh vod (The Black Sea: oxic/anoxic interface zone). Marine Hydrophysical Institute AS of the Ukraine, Sevastopol, Ukraine (in Russian)
Neretin LN, Volkov II, Rozanov AG, Demidova TP, Falina AS (2006) Biogeochemistry of the Black Sea anoxic zone with a reference to sulphur cycle. In: Neretin LN (ed) Past and present water column anoxia, NATO science series IV, vol 64. Springer, Dordrecht, p 69
Novoselov AA, Romanov AS (1988) Present state of the Black Sea anoxic zone. In: The origin and seasonal variability of hydrophysical and hydrochemical parameters in the Black Sea. MHI, Sevastopol, Ukraine, p 148 (in Russian)
Neretin LN, Volkov II (1995) Oceanology 35:60
Vinogradov ME, Nalbandov YuR (1990) Oceanology 30:567
Murray JW, Codispoti LA, Friederich GE (1995) Oxidation-reduction environments: The suboxic zone in the Black Sea. In: Huang C et al. (eds) Aquatic chemistry. Kluwer Academic, Amsterdam, p 157
Pimenov NV, Rusanov II, Yusupov SK, Friedrich J, Lein AYu, Wehrli B, Ivanov MV (2000) Microbiol 69:436
Murray JW, Yakushev EV (2006) The suboxic transition zone in the Black Sea. In: Neretin LN (ed) Past and present water column anoxia, NATO science series IV, vol 64. Springer, Dordrecht, p 105
Pimenov NV, Neretin LN (2006) Composition and activities of microbial communities involved in carbon, nitrogen, sulfur and mangaenese cycling in the oxic/anoxic interface of the Black Sea. In: Neretin LN (ed) Past and present water column anoxia, NATO science series IV, vol 64. Springer, Dordrecht, p 501
Jørgensen BB, Fossing H, Wirsen CO, Jannasch HW (1991) Deep Sea Res 38(2A):S1083
Kuypers MMM, Sliekers OA, Lavik G, Schmid M, Jørgensen BB, Kuenen JG, Sinninghe Damsté JS, Strous M, Jetten MSM (2003) Nature 422:608
Tebo BM (1991) Deep Sea Res 38(2A):S883
Schippers A, Neretin LN, Lavik G, Leipe Th, Pollehne F (2005) Geochim Cosmochim Acta 69:2241
Oakley BB, Francis CA, Roberts KJ, Fuchsman CA, Srinivasan S, Staley JT (2007) Environ Microbiol 9:118
Durisch-Kaiser E, Klauser L, Wehrli B, Schubert CJ (2005) Appl Environ Microbiol 71:8099
Schubert CJ, Coolen MJL, Neretin LN, Schippers A, Abbas B, Durisch-Kaiser E, Wehrli B, Hopmans ES, Sinninghe Damsté JS, Wakeham S, Kuypers MMM (2006) Environ Microbiol 8:1844
Manske AK, Glaeser J, Kuypers MMM, Overmann J (2005) Appl Environ Microbiol 71:8049
Volkov II, Kontar EA, Lukashev YuF, Neretin LN, Nyffeler F, Rozanov AG (1997) Geochem Int 6:618
Murray JW, Top Z, Özsoy E (1991) Deep Sea Res II 38A:S663
Özsoy E, Rank D, Salihoğlu I (2002) Coast Shelf Sci 54:621
Eremeev VN, Kushnir VM (1998) Mar Hydrophys J 1:50 (in Russian)
Ivanov LI, Shkvorets IYu (1995) Mar Hydrophys J 6:53 (in Russian)
Ivanov LI, Samodurov AS (2001) J Mar Syst 31:159
Kelley DE, Fernando HJ, Yargett AE, Tanny J, Özsoy E (2003) Progr Oceanogr 56:461
Volkov II, Skirta Ayu, Makkaveev PN, Demidova TP, Rozanov AG, Yakushev EV (2002) On physical and chemical homogeneity of bottom waters in the Black Sea. In: Multidisciplinary investigations of the northeastern part of the Black Sea. Nauka, Moscow, p 161 (in Russian)
Volkov II, Falina AS, Skirta AYu, Yakubenko VG (2002) Hydrophysical and hydrochemical structure of the Black Sea deep waters. In: Current problems in oceanology. Nauka, Moscow, p 414 (in Russian)
Falina AS, Volkov II (2003) Oceanology 43:516
Falina AS, Volkov II (2005) Oceanology 45:21
Volkov II, Rimskaya-Korsakova MN (2007) Doklady RAN (in press)
Özsoy E, Top Z, White G, Murray JW (1991) Double diffusive intrusions, mixing and deep sea convection processes in the Black Sea. In: Izdar E, Murray JW (eds) The Black Sea oceanography. NATO/ASI series. Kluwer Academic, Dordrecht, p 17
Zopfi J, Ferdelman TG, Fossing H (2004) Distribution and fate of sulfur intermediates – sulfite, tetrathionate, thiosulfate, and elemental sulfur – in marine sediments. In: Amend JP, Edwards KJ, Lyons TW (eds) Sulfur biogeochemistry – past and present. Geological Society of America special paper 379, p 97
Tambiev SB, Zhabina NN (1988) Dokl Akad Nauk SSSR 299:1216 (in Russian)
Muramoto J, Honjo S, Fry B, Hay BJ, Howarth RW, Cisne JL (1991) Deep Sea Res II 38(A):S1151
Cutter GA, Kluckhohn RS (1999) Mar Chem 67:149
Dyrssen D (1985) Chem Script 25:199
Volkov II (1984) Sulphur geochemistry in ocean sediments. Nauka, Moscow (in Russian)
Volkov II, Demidova TP (1991) Dokl Akad Nauk 320:977 (in Russian)
Volkov II (1991) Reduced sulphur species in the Black Sea water. In: Vinogradov ME (ed) Variability of the Black Sea ecosystem: natural and anthropogenic factors. Nauka, Moscow, p 53 (in Russian)
Volkov II, Rozanov AG, Demidova TP (1992) Inorganic reduced sulphur species and dissolved manganese in the Black Sea water column. In: Vinogradov ME (ed) Black Sea ecosystem in winter. Nauka, Moscow, p 38 (in Russian)
Vairamamurphy A, Mopper K (1990) Env Sci Technol 24:333
Luther III GW, Church TM, Powell D (1991) Deep Sea Res II 38(A):S1121
Neretin LN, Böttcher ME, Grinenko VA (2003) Chem Geol 200:59
Kaplan IR, Rittenberg SC (1964) J Gen Microbiol 34:195
Detmers J, Brüchert V, Habicht K, Küver J (2001) Appl Environ Microbiol 67:888
Canfield DE, Teske A (1996) Nature 382:127
Jørgensen BB (1990) Science 249:152
Fry B, Jannasch HW, Molyneaux SJ, Wirsen C, Muramoto J, King S (1991) Deep Sea Res II 38(A):S1003
Lein AYu, Ivanov MV (1983) Reduced sulphur accumulation in sediments of marine basins with high rates of sulphate reduction. In: The global biogeochemical sulphur cycle, SCOPE 19. Wiley, Chichester, UK, p 413
Sweeney RE, Kaplan IR (1980) Mar Chem 9:145
Neretin LN, Grinenko VA, Volkov II (1996) Dokl Aked Nauk SSSR 349A:1015 (in Russian)
Lein AYu, Ivanov MV (1991) On the sulphur and carbon balances in the Black Sea. In: Izdar E, Murray JW (eds) The Black Sea oceanography. Kluwer Academic, Amsterdam, p 307
Neretin LN, Volkov II, Böttcher ME, Grinenko VA (2001) Deep Sea Res I 48:2569
Albert DB, Taylor G, Martens C (1995) Deep Sea Res I 42:1239
Lein AYu, Ivanov MV, Vaynshtein MB (1990) Microbiol 59:656 (in Russian)
Sorokin YuI (1962) Microbiol 31:329 (in Russian)
Deuser WG (1971) Deep Sea Res I 18:995
Jørgensen BB, Böttcher ME, Lüschen H, Neretin LN, Volkov II (2004) Geochem Cosmochim Acta 68:2095
Il'chenko SV, Sorokin YuI (1991) K otsenke intensivnosti obrazovaniya serovodoroda v Chernom more (To the estimate of hydrogen sulphide production in the Black Sea). In: Vinogradov ME (ed) Variability of the Black Sea ecosystem: natural and anthropogenic factors. Nauka, Moscow, p 73 (in Russian)
Gulin MB (1991) PhD thesis, Institute of Biology of the Southern Seas, Sevastopol, Ukraine (in Russian)
Volkov II (2000) Oceanology 40:535
Volkov II, Dyrssen D, Rozanov AG (1998) Geochem Int 1:78
Jannasch HW (1991) Microbial processes in the Black Sea water column and top sediment: an overview. In: Izdar E, Murray JW (eds) The Black Sea oceanography. Kluwer Academic, Dordrecht, p 271
Sorokin YuI (1972) J Conseil Int Explor Mer 34:423 (in French)
Sorokin YuI (1983) The Black Sea. In: Ketchum BH (ed) Ecosystems of the world, vol 26. Estuaries and enclosed seas. Elsevier, Amsterdam, p 253
Ünlüata U, Oguz T, Latif MA, Özsöy E (1990) On the physical oceanography of the Turkish straits. In: Pratt LG (ed) The physical oceanography of sea straits. Kluwer Academic, Amsterdam, p 25
Konovalov SK, Ivanov LI, Samodurov AS (2001) J Mar Syst 31:203
Krivosheya VG, Titov VB, Ovchinnikov IM, Kos'yan RD, Skirta AYu (2000) Oceanology 40:816
Titov VB (2000) Oceanology 40:826
Scranton MI, McIntyre M, Astor Y, Taylor GT, Müller-Karger F, Fanning K (2006) Temporal variability in the nutrient chemistry of the Cariaco Basin. In: Neretin LN (ed) Past and present water column anoxia, NATO science series IV, vol 64. Springer, Dordrecht, p 139
Yao W, Millero FJ (1995) Aquatic Chem 1:53
Zopfi J, Ferdelman TG, Jørgensen BB, Teske A, Thamdrup B (2001) Mar Chem 74:29
Konovalov SK, Eremeev VN, Suvorov AM, Khaliulin AKh, Godin EA (1999) Aquatic Geochem 5:13
Kempe S, Diercks AR, Liebezeit G, Prange A (1991) Geochemical and structural aspects of the pycnocline in the Black Sea (R/V Knorr 134-8 Leg 1, 1988). In: Izdar E, Murray JM (eds) Black Sea oceanography, NATO/ASI series. Kluwer Academic, Dordrecht, p 89
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Volkov, I.I., Neretin, L.N. (2007). Hydrogen Sulfide in the Black Sea. In: Kostianoy, A.G., Kosarev, A.N. (eds) The Black Sea Environment. The Handbook of Environmental Chemistry, vol 5Q. Springer, Berlin, Heidelberg. https://doi.org/10.1007/698_5_083
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DOI: https://doi.org/10.1007/698_5_083
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