Ecosystem transformation

Current issue Archived Issues First online Authors

2020 Ecosystem Transformation 3 (3), 34-47

Influence of hydrometeorological factors on the ecological state of the hypersaline lake Saki (Crimea) in 2017–2018

Rudneva I.I. , Chaban V.V., Golub M.A., Shayda V.G., Shcerba A.V.

DOI: https://doi.org/10.23859/estr-200408
Volume: 3
Number: 3
Pages: 34-47
Received: 08.04.2020
Accepted: 13.05.2020
Available online: 27.07.2020
Published: 15.09.2020
ISSN 2619-0931 Online

Download 3.17 Mb

Abstract
About authors
References

In order to identify the influence of hydrometeorological conditions on the seasonal changes in the ecological state of the salt Lake Saki (Crimea), the dynamics of hydrochemical parameters of wa-ter (salinity, oxygen content, temperature, pH, Eh) and changes in the population of the brine shrimp Artemia salina L., as well as the proportion of hatching nauplii from cysts were studied in 2017 and 2018. A decrease in oxygen content and an increase in brine salinity in the summer were accompanied by an increase in air temperature and water temperature; the interannual differ-ences of these parameters were preconditioned by the hydrome-teorological peculiarities. Artemia cysts were found in the water column throughout the year; the nauplii appeared in February – March; the maximum abundance of all life stages of brine shrimp was noted in May. The proportion of hatching nauplii from cysts collected in the cold season was significantly higher than that in the warm season. The observed patterns are discussed as a pos-sible source for analyzing the transformation of hyperhaline eco-systems within the ongoing climate change and for developing the guidelines for the optimal commercial use of the mineral and biological resources of such ecosystems.

I. I. Rudneva
A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), Russian Academy of Sciences, leading research scientist
Pr. Nakhimova 2, Sevastopol, 299011 Crimea

Doctor of Science in Biology, Professor
svg41@mail.ru

V. V. Chaban
Crimean Hydrogeological Regime and Operation Station
ul. Kurortnaya 4, Saki, 296500 Republic of Crimea

head of department

M. A. Golub
Crimean Hydrogeological Regime and Operation Station
ul. Kurortnaya 4, Saki, 296500 Republic of Crimea

consultant

V. G. Shayda
A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), Russian Academy of Sciences, leading engineer
Pr. Nakhimova 2, Sevastopol, 299011 Crimea

A. V. Shcerba
A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), Russian Academy of Sciences
pr. Nakhimova 2, Sevastopol, 299011

leading engineer

Bamba, D., Coulibaly, М., Robert, D., 2017. Nitrogencontaining organic compounds: origins, toxicity and conditions of their photocatalytic mineralization over TiO2. Sciences of the Total Environment 580,1489–1504. https://doi.org/10.1016/j.scitotenv.2016.12.130

Berman, T., Chava, S., 1999. Algal Growth on Organic Compounds as Nitrogen Sources. Journal of Plankton Research21 (8), 1423–1437. https://doi.org/10.1093/plankt/21.8.1423

Bradley, M., van Putten, I., Sheaves, M., 2015. The pace and progress of adaptation: marine сlimatе change preparedness in Australia’s coastal communities. Marine Policy53, 13–20. https://doi.org/10.1016/j.marpol.2014.11.004

Chaban, V.V., 2013. Vliyanie tehnogennyh izmenenii geologicheskoi sredy na ecologicheskoe sostoyanie Sakskogo solenogo ozera [Influence of the anthropogenic changes of geological environment on the ecological state of the salt Lake Saki]. Vestnik Dnepropetrovskogo nacionalnogo universiteta. Seriya “Geologia. Geographiya” [Proceedings of Dnepropetrovsk National University. Series “Geology. Geography”]2 (16), 77–84. (In Russian).

Golub, M.А., Gulov, О.А., Kozentseva, Ju.А., Khokhlov, V.А., 2007. Experimentalnye raboty po izucheniu processov sulfatreduktcii i antimikrobnyh svoistv lechebnoi gryazi Sakskogo ozera. [Experimental studies of the processes of sulphate reduction and antimicrobial properties of the curative mud of the Lake Saki]. Sbornyk statei spetsialistov DP “Sakskaya GGRES” 1995–2007 gg. [Pro-ceedings of the specialists of Saki Hydrogeological Regime and Operation Station in 1995–2007], 10–12. (In Russian).

Geldenhuys, Ch., Cotiyane, Ph., Rajkaran, A., 2016. Understanding the creek dynamics and environmental characteristics that determine the distribution of mangrove and saltmarsh communities at Nahoon Estuary. South African Journal of Botany107, 137–147. https://doi.org/10.1016/j.sajb.2016.04.013

Gulov, O.A., 2007. Ecocid krymskih solyanyh ozer [Ecocid of Crimean salt lakes]. In: Rumyantsev, V.A. and Kondratiev, S.A. (eds.), Sbornik trudov mezhdunarodnoy nauchno-prakticheskoy konferentsii “Theoria i praktika vasstanovleniya vnutrennih vodoemov” [Proceedings of the international scientific-practical conference “Theory and practice of the remedy of the inland water bodies”]. Lema, SaintPetersburg, Russia, 60–78. (In Russian).

Hargrave, B.T., Holmer, M., Newcombe, C.P., 2008. Towards a classification of organic enrichment in marine sediments based on biochemical indicators. Marine Pollution Bulletin56 (5), 810–824. https://doi.org/10.1016/j.marpolbul.2008.02.006

Hetzel, Y., Pattiaratchi, C., Lowe, R., Hofmeister, R., 2015. Wind and tidal mixing controls on stratification and dense water outflows in a large hypersaline bay. Journal of Geophysical Research: Oceans 120 (9), 6034–6056. https://doi.org/10.1002/2015JC010733

Huang, J., Xu, C.C., Ridoutt, B.G., Wang, X.C., Ren, P.A., 2017. Nitrogen and phosphorus losses and eutrophication potential associated with fertilizer application to cropland in China. Journal of Cleaner Production159, 171–179. https://doi.org/10.1016/j.jclepro.2017.05.008

IPCC, 2013. Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Stocker, T.F., Qin, D., Plattner, G.K., Tignor, M., Allen, S.K., Boschung, J., Nauels, A., Xia, Y., Bex, V., Midgley, P.M. (eds.). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1535 pp.

Khalafyan, А.А., 2008. Statistika 6. Statisticheskiy analiz dannykh [Statistics 6. Statistical analysis of data]. BinomPress, Moscow, Russia, 512 p. (In Russian).

Khokhlov, V.А., Vasenko, V.I., Chaban, V.V., Guskova, N.V., Volovod, P.A. et al., 2018. Geologicheskoe izuchenie, regim, ekspluataciya i gornosanitarnaya ohrana mestorojdenii hidromineralnyh resursov Respubliki Krym v zone deistviya GU NPP RK “Krymskaya GGRES”. Otchet o nauchnopracticheskoi rabote za 2017 g. [Geoecological study, regime, exploitation, and mountainsanitary protection of hydromineral resourses of Crimean Republic in the area of SU SPE Crimean GGRES. Research and practical report for 2017]. Crimean HGROS, Saki, Republic of Crimea, 255 p. (In Russian).

Khokhlov, V.А., Vasenko, V.I., Chaban, V.V., Guskova, N.V., Volovod, P.A. et al., 2019. Geologicheskoe izuchenie, regim, ekspluataciya i gornosanitarnaya ohrana mestorojdenii hidromineralnyh resursov Respubliki Krym v zone deistviya GU NPP RK “Krymskaya GGRES”. Otchet o nauchnopracticheskoi rabote za 2018 g [Geoecological study, regime, exploitation, and mountainsanitary protection of hydromineral resourses of Crimean Republic in the area of SU SPE Crimean GGRES. Research and practical report for 2018]. Crimean HGROS, Saki, Republic of Crimea, 255 p. (In Russian).

Kompaniets, L.A., Iakubailik, T.V., 2015. Observati ons of hydrophysical characteristics of stratified salt lake Shira (Siberia) as an important part of environmental monitoring. Proceedings of the 15th International Multidisciplinary Scientific GeoConferences SGEM2015. Albena, Bulgaria, 635–641.

Kurnakov ,N.S., Kuznetzov, V.G., DzensLitovskii, А.I., Ravich, М.I., 1936. Solyanye ozera Kryma [Crimean Salt Lakes]. USSR Academy of Sciences, Moscow – Leningrad, USSR, 278 p. (In Russian).

Lavens, P., Tackaert, W., Sorgeloos, P., 1986. International Study on Artemia. XLI. Influence of culture conditions and specific diapause deactivation methods on the hatchability of Artemia cysts produced in a standard culture system. Marine Ecology Progressive Series 31 (2), 197–203.

Liu, H., Chen, Z., Guan, Y., Xu, S., 2018. Role and application of iron in water treatment for nitrogen removal: a review. Chemosphere 204, 51–62. https://doi.org/10.1016/j.chemosphere.2018.04.019

Mitchell, S., Boateng, I., Couceiro, F., 2017. Influence of flushing and other characteristics of coastal lagoons using data from Ghana. Ocean and Coastal Management143, 26–37. https://doi.org/10.1016/j.ocecoaman.2016.10.002

Rudneva, I.I., 1991. Artemia: perspectivy ispolzovaniya v narodnom hozyaistve [Artemia: Perspectives of the Use in National Economy]. Naukova Dumka, Kiev, Ukraine, 138 p. (In Russian).

Rudneva, I.I., Shaida, V.G., Gulov, O.A., Kovrigi-na, N.P., Omelchenko, S.O., Symchuk, G.V., 2005. The current situation and perspectives on sustainable resource management of the Crimean salt lakes. Extended Abstracts of 1st Plenary Meetings and field Trip of Project IGCP-521 Black Sea-Mediterranean Corridor during the Last 30 KY: Sea Level Changes and Human Adaptation (2005–2009), October 8–15, Istanbul. Istanbul, Turkey, 158–160.

Rudneva, I.I., Shaida, V.G., Omelchenko, S.O., Sym-chuk, G.V., 2008. Seasonal variations of se veral ecological parameters of hypersaline Crimean lakes. Biology of Inland Waters 2, 25–30.

Stappen, van G., 1996. Use of cysts. In: Lavens, P. and Sorgeloos, P. (eds.), Manual on the production and use of live food for aquaculture. FAO Fisheries Technical Paper no. 361, 102–123.

Sánchez, M.I., Paredes, I., Lebouvier, M., Green, A.J,. 2016. Functional role of native and invasive filterfeeders, and the effect of parasites: Learning from hypersaline ecosystems. PLoS ONE11 (8), e0161478. https://dx.doi.org/10.1371%2Fjournal.pone.0161478

Shadkam, S., Ludwig, F., van Vliet, T.H., Pastor, A., Kabat, P., 2016. Preserving the world second largest hypersaline lake under future irrigation and climate change. Sciences of the Total Environment 559, 317–325. https://doi.org/10.1016/j.scitotenv.2016.03.190

Shklovsky, О.А., 2016. Tehnologicheskaya shema razrabotki rapy ozernoi Sakskogo mestorojdeni-ya kurort Saki, Respublika Krym [Technological scheme of the development of the lake brine of the Saki deposit, Saki resort, Crimean Republic], ООО “Geominvod”, Moscow, Russia, 158 p. (In Russian).

Sugumar, V., 2012. Biometrical, morphological and biochemical characterization of three Artemia (Crus-tacea: Anostraca) populations from South India. In-ternational Journal of Artemia Biology 2 (2), 7–29.

Sura, S.A., Belovsky, G.E., 2016. Impacts of harvest-ing of brine shrimp (Artemia franciscana) in Great Salt Lake, Utah, USA. Ecological Applications 26(7),407–414.

Tyutyunik, E.V., Khokhlov, V.А., 2007. Practicheskoe znachenie biologicheskih issledovanii na Sakskom gryazevom mestorojdenii [Practical significance of biological studies on the Sakskoe mud deposit] Sbornyk statei spetcialistov DP “Sakskaya HGRES” 1995–2007 gg. [Proceedings of the specialists of Saki Hydrogeological Regime and Operation Station in 1995–2007], 53–58. (in Russian)

Wooldridge, T.H., Adams, J.B., Fernandes, M., 2016. Biotic responses to extreme hypersalinity in an arid zone estuary. South African Journal of Botany107, 160–169. https://doi.org/10.1016/j.sajb.2016.05.004

Xin, N., 2004. Strain characterization of Artemia from 9 inland salt lakes of China. Articles and abstracts of Iran International Workshop on Artemia, 21–25 September, Urmia. Urmia, Iran, 75–76.

Keywords: seasonal changes, hydrochemical indicators, Artemia, salinity, oxygen content, temperature, pH, Eh

For citation: Rudneva, I.I. et al., 2020. Influence of hydrometeorological factors on the ecological state of the hypersaline lake Saki (Crimea) in 2017– 2018. Ecosystem Transformation 3 (3), 34–47.