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2016 | 25 | 4 |
Tytuł artykułu

Seasonal dynamics of Phytoplankton and its relationship with environmental factors of a Chinese lake

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
What is the relationship with environmental factors of phytoplankton community dynamics in saline lakes? We analyzed a data set of phytoplankton community and environmental parameters in seasonal periods (i.e., summer and autumn) in order to describe seasonal variations within the phytoplankton community and its relationship with environmental variables in Chagan Nur Lake on the Ordos Plateau in China. The lake’s phytoplankton species was not abundant, with a mean density of 222.43×104 cells/L (ranging from 62.35×104 cells/L in autumn to 382.5×104 cells/L in summer 2014). However, the groups with highest densities were essentially limited to Bacillariophyta, Chlorophyta, and Cyanophyta. There were considerable seasonal variations in phytoplankton composition. Eleven environmental variables were selected to explore the relationship between phytoplankton structure and environmental factors by canonical correspondence analysis (CCA). The results of the CCA applied to the environmental factors indicated that total phosphorus (TP), pH, total ion degrees (Tds), salinity (Sal), and electrical conductivity (Con) significantly influenced the phytoplankton community (p<0.01; Monte Carlo test of first constrained axis).
Słowa kluczowe
EN
Wydawca
-
Rocznik
Tom
25
Numer
4
Opis fizyczny
p.1427-1433,fig.,ref.
Twórcy
autor
  • College of Life Sciences Inner Mongolia University, Hohhot, 010021, China
autor
  • College of Life Sciences Inner Mongolia University, Hohhot, 010021, China
autor
  • College of Life Sciences Inner Mongolia University, Hohhot, 010021, China
autor
  • College of Life Sciences Inner Mongolia University, Hohhot, 010021, China
autor
  • College of Life Sciences Inner Mongolia University, Hohhot, 010021, China
Bibliografia
  • 1. WU X.X., ZOU X.Y. Analysis of landscape pattern change and its driving factors basedon 3S technology: a case study in Uxin Banner of Inner Mongolia. Journal of Desert Research. 30 (4), 763, 2010 [in Chinese].
  • 2. JIN Y., MENG J.J., HUANG J. Grassland Ecological Vulnerability Assessment of Mu Us Desert in Recent 50 Years: A Case Study of Wushen Banner. Acta Scientiarum Naturalium Universitatis Pekinensis. 47 (5), 909, 2010 [in Chinese].
  • 3. WANG Y.J., SUN Z.D. Lakes in the Arid Areas in China. Arid Zone Research. 24 (4), 422, 2007 [in Chinese].
  • 4. MA S., WANG C.L., ZHANG Y.J., JANG X.Y., RENG S.X., LI X.Y., MA J.M. Influences of nitrogen and phosphorus concentration on interactions among chlorelia vugaris, daphnia magna and ceratophyllum demersum. Acta Hydrobiologica Sinica. 36 (1), 66, 2012 [in Chinese].
  • 5. LIU X.H., FENG L.Q., ZhANG Y.L. Effects of hydrodynamic process on bio-optical properties in Algal-Dominated lake region of Shallow Lake.Environment Science 33 (2), 412, 2012 [in Chinese].
  • 6. PAN H., YANG Y., TAO R. Simulation of phytoplankton community succession mechanism of water improvement. Acta Scientiae Circumstantiae 33 (12), 3309, 2013 [in Chinese].
  • 7. JING M., LI J.Y., LIU M.Y. Canonical Correspondence Analysis Between Phytoplankton Community and Environmental Factors in Yangcheng Lake. Environmental Science and Management. 39 (11), 145, 2014 [in Chinese].
  • 8. MA Y., LI G.B., LI J. Seasonal succession of phytoplankton community and its relationship with environmental factors of North Temperate Zone water of the Zhalong wetland, in China. Ecotoxicology, 23 (2), 618, 2014.
  • 9. GAO Y., SU Y.X., QI S.C. Phytoplankton and evaluation of water quality in Yi River watershed. J. Lake Sci. 20 (4), 544, 2008 [in Chinese].
  • 10. WANG Y., LIU L.S., SHU J.M. Community structure of phytoplankton and the water quality assessment in Lake Baiyang-dian. J. Lake Sci, 23 (4), 575, 2011.
  • 11. CHEN X.J., GAO Q., DU G.S., MA W.L., WANG X.L. Analysis on the eutrophication and water quality of Honglingjin Lake in Beijing. Environmental Pollution & Control. 33 (5), 36, 2011 [in Chinese].
  • 12. LIU J.J., QIAN R.B., WANG B., XU X. A Study on the Plankton Features and Water Quality assessment of Tashan Reservoir in Spring Season. Pollution Control Technology. 26 (5), 14, 2013 [in Chinese].
  • 13. TAYLOR J.C., PRYGIEL J., VOSLOO A., REY P.A., RENSBURG l. Can diatom-based pollution indices be used for biomonitoring in South Africa? A case study of the Crocodile West and Marico water management area. Hydrobiologia. 592 (1), 455, 2007.
  • 14. GAO J., ZHOU M., MIN T.T., LIU Z.W. Response of the phytoplankton functional groups to ecological restoration in Huizhou Lake. Ecological Science. 32 (5), 540, 2013 [in Chinese].
  • 15. MINISTRY OF ENVIRONMENTAL PROTECTION OF THE PEOPLE’S REPUBLIC OF CHINA. Environmental quality standards for surface water (GB3838-2002), China Environmental Science Press: Beijing, 2002 [in Chinese].
  • 16. ZHANG J.T. Quantitative ecology (The second edition), Science press: Beijing, 2011 [in Chinese].
  • 17. HU H.J., WEI Y.X. The freshwater algae of China. Science press: Beijing, 2006 [in Chinese].
  • 18. ZHOU F.X., CHEN J.H. Freshwater micro biological map. Chemical industry press:Beijing, 2011 [in Chinese].
  • 19. THE HYDROLOGY BUREAU OF MINISTRY OF WATER RESOURCES OF CHINA AND THE YANGTZE RIVER ENVIRONMENT MONITORING CENTER.China›s inland waters common algae map, The Yangtze river press:Wuhan, 2012 [in Chinese].
  • 20. REYNOLDS C.S., HUSZAR V., KRUK C., NASELLIFLORES L., MELO S.Towards a functional classification of the freshwater phytoplankton. Journal of Plankton Research, 24 (5), 417, 2002.
  • 21. PADISÁK J., CROSSETTI L.O., NASELLI-FLORES L. Use and misuse in the application of the phytoplankton functional classification: a critical review with updates. Hydrobiologia, 621 (1), 1, 2009.
  • 22. LU X.X., LIU Y., FAN Y.W. Relationships between environmental variables and seasonal succession inphytoplankton functional groups in the Hulan River Wetland. Acta Ecologica Sinica, 34 (5), 1264, 2014.
  • 23. LI D.L., ZANG T., XIAO T.Y. Phytoplankton’s community structure and its relationships with environmental factors in an aquaculture lake. Datong Lake of China, Chinese Journal of Applied Ecology, 23 (8), 2107, 2012 [in Chinese].
  • 24. LIU X.R. Research Progress on Diatom Based on Effects of Environment.Journal of Anhui Agri. Sci. 38 (6), 3092, 3104, 2010 [in Chinese].
  • 25. LIU H.Y., XU Y.L. Preliminary Observations of Algae Growth and Lake Eutrophication In Jingbo Lake.Acta Ecological Sinic,16 (2), 195, 1996 [in Chinese].
  • 26. WANG W.L., ZHOU R.Y., CHEN Q.L. Characteristics of water quality in the Danjiangkou Reservoir. Transactions of Oceanology and Limnology. 2008 (2), 123, 2008.
  • 27. XU H. Study of Phytoplankton Ecology and Limiting Factors to Eutrophication. (D). Nanjing agricultural university: Nanjing, 2008 [in Chinese].
  • 28. Salm C.R., Saros J.E., Martin C.S., Erickson J.M. Patterns of seasonal phytoplankton distribution in prairie saline lakes of the northern Great Plains (U.S.A.). Saline Systems, 5 (1), 1, 2009.
  • 29. Chen X.J.,YANG J.,DU G.S.,LIU B. Relationships between environmental variables and seasonal succession in phytoplankton functional groups in the Haizi reservoir. Water Resources Protection, 31 (6), 122, 2015 [in Chinese].
  • 30. LIU S.W. Physiological responses of marine Synechococcus sp. Restrictions on iron. (D). Central China Normal University Wuhan, 2012 [in Chinese
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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