Abstract
Purpose
The effects of anthropogenic activity and climate change on lake ecosystems for nine large plateau lakes in Yunnan Province have recently received much attention; however, most studies have focused on the deepest lake sediments and ignored the lake sediments adjacent to the populated area.
Materials and methods
To evaluate the sedimentation rates and ecological changes, four 210Pb- and 137Cs-dated sediment cores were collected along the long axis of Yangzong Lake, a fault-controlled north-south strike lake located in Yunnan Plateau in July 2006 and July 2016, respectively. We combined a biological indicator (diatom assemblage) with geochemical indicators (total organic carbon (TOC), total nitrogen (TN), and total phosphorus (TP)) for core S0 in the southern part of the lake to examine the ecological changes in response to anthropogenic disturbances within the lake over the last 60 years.
Results and discussion
The results showed that the sedimentation rate in the southern part of the lake (S1) was significantly higher than that in the central (S2) and northern (S3) parts of the lake. Redundancy analysis (RDA) and Pearson correlation analysis identified significant correlations between TP and Aulacoseira granulata, Cyclotella ocellata, and Cyclotella rohomboideo-elliptica (correlation coefficients: − 0.66, − 0.63, and 0.81, respectively, p < 0.01). There was a clear shift in the diatom community from oligotrophic to eutrophic species becoming dominant after the 1990s, coinciding with the intensifying human activities around the lake. Furthermore, there were two periods of diatom absence in core S0, which was associated with two periods of rapid depositional events. These are likely associated with the intensification of industry, mining, road construction, and agriculture within the lake catchment.
Conclusions
These findings highlight the sensitivity of freshwater ecosystems in the shallow-water area of a lake to human activities, with implications for future water quality in fault-controlled lakes.
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References
Appleby PG (2001) Chronostratigraphic techniques in recent sediments. In: Tracking environmental change using lake sediments. Volume 1: basin analysis, coring and chronological techniques (Last WM, Smol JP, eds) Kluwer Academic Publishers, Dordrecht. 171–203.
Battarbee RW, Jones VJ, Flower RJ, Cameron NG, Bennion H, Carvalho L, Juggins S (2001) Diatoms. In: Smol JP, Birks HJB, Last WM (eds) Tracking environmental change using lake sediments. Kluwer Academic Publishers, Netherlands, pp 155–202
Cai YJ, Zhang EL, Liu EF, Yuan HZ, Wang R, Kong DP, Zhou QC (2017) Spatio-temporal characteristics of heavy metal pollution and potential ecological risk in the sediments of Lake Yangzonghai, Yunnan Province. J Lake Sci 29:1121–1133. https://doi.org/10.18307/2017.0510 (In Chinese)
Chen X, Li YL, Metcalfe S, Xiao XY, Yang XD, Zhang EL (2014) Diatom response to Asian monsoon variability during the Late Glacial to Holocene in a small treeline lake, SW China. Holocene 24:1369–1377. https://doi.org/10.1177/0959683614540951
Chen GJ, Shi HB, Tao JS, Chen L, Liu YY, Lei GL, Liu XH, Smol JP (2015) Industrial arsenic contamination causes catastrophic changes in freshwater ecosystems. Sci Rep 5:17419. https://doi.org/10.1038/srep17419
Dixit SS, Dixit AS, Smol JP (1991) Paleolimnological investigation of three manipulated lakes from Sudbury, Canada. Hydrobiologia 214:245–252. https://doi.org/10.1007/BF00050957
Gao CL, Yu JQ, Min XY, Cheng AY, Hong RC, Zhang LS (2018) Heavy metal concentrations in sediments from Xingyun lake, southwestern China: implications for environmental changes and human activities. Environ Earth Sci 77(19):666.1–666.13. https://doi.org/10.1007/s12665-018-7840-5
Glur L, Wirth SB, UlfBüntgen GA, Anselmetti FS (2013) Frequent floods in the European Alps coincide with cooler periods of the past 2500 years. Sci Rep 3:2770. https://doi.org/10.1038/srep02770
Grimm EC (1993) TILIA v2.0 (Computer Software). Illinois State Museum, Research and Collections Centre, Springfield.
Hall RI, Smol JP (1996) Paleolimnological assessment of long-term water-quality changes in south-central Ontario lakes affected by cottage development and acidification. Can J Fish Aquat Sci 53:1–17. https://doi.org/10.1139/cjfas-53-1-1
Kang WG, Chen GJ, Wang JY, Huang LP, Wang L, Li R, Hu K, Liu YY, Tao JS, Blais JM, Smol JP (2019) Assessing the impact of long-term changes in climate and atmospheric deposition on a shallow alpine lake from southeast Tibet. Sci Total Environ 650:713–724. https://doi.org/10.1016/j.scitotenv.2018.09.066
Kirilova EP, Cremer H, Heiri O, Lotter AF (2010) Eutrophication of moderately deep Dutch Lakes during the past century: flaws in the expectations of water management? Hydrobiologica 637:157–171. https://doi.org/. https://doi.org/10.1007/s10750-009-9993-4
Krammer K, Lange-Bertalot H (1986) Bacillariophyceae 1. Teil: Naviculaceae. In Ettl, H., Gärtner, G., Gerloff, J., Heynig, H. & Mollenhauer, D. (eds.): Süsswasserflora von Mitteleuropa 2/1, 1–876. Gustav Fischer Verlag, Jena.
Krammer K, Lange-Bertalot H (1988) Bacillariophyceae 2. Teil: Bacillariaceae, Epithemiaceae, Surirellaceae. In: Ettl H, Gärtner G, Gerloff J, Heynig H, Mollenhauer D (eds) Süsswasserflora von Mitteleuropa 2/2. Gustav Fischer Verlag, Jena, pp 1–596
Krammer K, Lange-Bertalot H (1991a) Bacillariophyceae 3. Teil: Centrales, Fragilariaceae, Eunotiaceae. In: Ettl H, Gärtner G, Gerloff J, Heynig H, Mollenhauer D (eds) Süsswasserflora von Mitteleuropa 2/3. Gustav Fischer Verlag, Jena, pp 1–576
Krammer K, Lange-Bertalot H (1991b) Bacillariophyceae 4. Teil: Achnanthaceae, Kritische Erganzungen zu Navicula (Lineolate) und Gomphonema. In: Ettl H, Gärtner G, Gerloff J, Heynig H, Mollenhauer D (eds) Süsswasserflora von Mitteleuropa 2/4. Gustav Fischer Verlag, Jena, pp 1–437
Li ZY (1999) Water pollution in Yangzonghai Lake and its control. Yunnan Environ Sci 18:36–38 (In Chineses)
Li SH, Yu MJ, Li GZ, Zeng JM, Chen JY, Gao BY, Huang HJ (1963) Limnological survey of the lakes of Yunnan Plateau. Oceanologia et Limnol Sin 5:87–114 (In Chinese)
Li CH, Zhang ST, Ye XC (2005) Problems of development & protection of lakes on Yunnan Plateau. Yunnan Geol 24:462–470. https://doi.org/10.3969/j.issn.1004-1885.2005.04.017
Li YL, Gong ZJ, Wang CC, Shen J (2010) New species and new records of diatoms from Lake Fuxian, China. J Syst Evol 48:65–72. https://doi.org/10.1111/j.1759-6831.2009.00059.x
Li J, Chen J, Zhao L (2014) Phytoplankton population response of water environmental index in Yilong Lake. Environ Sci Technol 37:58–61 (In Chinese)
Li Y, Liu E, Xiao X, Zhang E, Ji M (2015) Diatom response to Asian monsoon variability during the Holocene in a deep lake at the southerstern margin of the Tibetan Plateau. Boreas 44:785–793. https://doi.org/10.1111/bor.12128
Li XL, Liu EF, Yu ZZ, Zhang EL, Lin Q, Wang R, Shen J (2019) Contamination and potential ecological risk assessment of heavy metals in the sediments of Yilong Lake, Southwest China. Environ Sci 40(2):614–624. https://doi.org/10.13227/j.hjkx.201805112
Li X, Liu EF, Zhang EL, Lin Q, Yu ZZ, Nath B, Yuan HZ, Shen J (2020) Spatio-temporal variations of sedimentary metals in a large suburban lake in southwest China and the implications for anthropogenic processes. Sci Total Environ 707:135650. https://doi.org/10.1016/j.scitotenv.2019.135650
Liu J, Chen H (2000) Analysis on change of aquatic eco-system and eutrophication in Xingyun Lake. Yunnan Environ Sci 19:42–44 (In Chineses)
Liu G, Liu Z, Gu B, Smoak JM, Zhang Z (2014) How important are trophic state, macrophyte and fish population effects on cladoceran community? A study in Lake Erhai. Hydrobiologia 736:189–204. https://doi.org/10.1007/s10750-014-1906-5
Liu GM, Liu ZW, Smoak JM, Gu BH (2015) The dynamics of cladoceran assemblages in response to eutrophication and planktivorous fish introduction in Lake Chenghai, a plateau saline lake. Quat Int 355:188–193. https://doi.org/10.1016/j.quaint.2014.07.029
Liu YL, Zhang EL, Liu EF, Wang R, Zhou QC (2017) TOC and Black carbon records in sediment of Lake Yangzong, Yunnan Province under the influence of human activities during the past century. J Lake Sci 29:1018–1028. https://doi.org/10.18307/2017.0426. (In Chinese)
Liu D, Yuan P, Tian Q, Liu H, Fan W (2019) Lake sedimentary biogenic silica from diatoms constitutes a significant global sink for aluminium. Nat Commun 10:4829. https://doi.org/10.1038/s41467-019-12828-9
Luoto TP, Nevalainen L, Kauppila T, Tammelin M, Sarmaja-Korjonen K (2012) Diatom-inferred total phosphorus from dystrophic Lake Arapisto, Finland, in relation to Holocene paleoclimate. Quat Res 78:248–255. https://doi.org/10.1016/j.yqres.2012.05.009
Michelutti N, Laing TE, Smol JP (2001) Diatom assessment of past environmental changes in lakes located near the Noril’sk (Siberia) smelters. Water Air Soil Pollut 125:231–241. https://doi.org/10.1023/A:1005274007405
Parkhill KL, Gulliver JS (2002) Effect of inorganic sediment on whole-stream productivity. Hydrobiologia 472:5–17. https://doi.org/10.1023/A:1016363228389
Smol JP (2010) The power of the past: using sediments to track the effects of multiple stressors on lake ecosystems. Freshwater Biol 55:43–59. https://doi.org/10.1111/j.1365-2427.2009.02373.x
Smol JP, Stoermer EF (2010) The diatoms: applications for the environmental and earth sciences. Cambridge University Press
Swierczynski T, Lauterbach S, Dulski P, Delgado J, Merz B, Brauer A (2013) Mid- to late Holocene flood frequency changes in the northeastern Alps as recorded in varved sediments of Lake Mondsee (Upper Austria). Quat Sci Rev 80:78–90. https://doi.org/10.1016/j.quascirev.2013.08.018
Tao JS, Chen GJ, Chen XL, Chen L, Huang LP, Liu YY, Shi HB, Hu K, Wang JY, Kang WG (2016) Long-term pattern of diatom community responses to water pollution and hydrological regulation in Yangzong Lake. Geogr Res 35:1989–1911. https://doi.org/10.11821/dlyj201610009
Wang Q (2012) Environmental evolution of Lugu Lake, Yunnan and response to southwest monsoon climate since LGM. Ph. D. thesis, Nanjing Institute of Geography and Limnology, 117 pp (In Chinese).
Wang ZY, He B, Zhang XM, Li YQ (2006) Investigation and analysis of the present situation of water quality pollution of nine Plateau lakes in Yunnan Province. Yunnan Environ Sci 25:77–79 (In Chinese)
Wang YF, Hu SY, Zhu YX, Yin Y, Zhou WP, Appel E (2005) Hoffmann V. Study on soot air pollution based on lake sediment. Sci China Ser D: Earth Sci 35(8):775-780. https://doi.org/10.3969/j.issn.1674-7240.2005.08.010 (In Chinese)
Wang ZH, He B, Pan XJ, Zhang KG, Wang C, Sun J, Yun ZJ, Jiang GB (2011) Levels, trends and risk assessment of arsenic pollution in Yangzonghai Lake, Yunnan Province, China. Sci China Chem 53:1809–1817 (In Chinese)
Wang L, Chen GJ, Kang WG, Wang JY, Liu YY, Chen L (2018a) Sediment evidence of industrial leakage-induced asynchronous changes in polycyclic aromatic hydrocarbons and trace metals from a sub-trophic lake, southwest China. Environ Sci Pollut Res Int 25:13035–13047. https://doi.org/10.1007/s11356-018-1537-x
Wang XL, Yang H, Gu ZJ, Zhang ML, Yang BJ (2018b) A century of change in sediment accumulation and trophic status in Lake Fuxian, a deep plateau lake of Southwestern China. J Soils Sediments 18(3):1133–1146
Wang JY, Chen GJ, Kang WG, Hu K, Wang L (2019) Impoundment intensity determines temporal patterns of hydrological fluctuation, carbon cycling and algal succession in a dammed lake of Southwest China. Water Res 148:162–175. https://doi.org/10.1016/j.watres.2018.10.032
Wang J, Chen G, Kang W, Hu K, Wang L (2019) Impoundment intensity determines temporal patterns of hydrological fluctuation, carbon cycling and algal succession in a dammed lake of Southwest China. Water Research 148:162–175
Wang Q, Anderson NJ, Yang XD, Xu M (2020) Interactions between climate change and early agriculture in SW China and their effect on lake ecosystem functioning at centennial timescales over the last 2000 years. Quat Sci Rev 233:106238. https://doi.org/10.1016/j.quascirev.2020.106238
Wei XY, Tang GM (2014) Changes of nutrients and aquatic ecosystem of Yilong Lake in recent twenty decades. Guide Environ Sci 33:9–14 (In Chinese)
Yang L, Huang YZ (2002) Study on comprehensive development of lake area in Yunnan Plateau. J Chongqing Univ (Soc Sci Ed) 8:19–42 (In Chinese)
Yang XY, Ren SC (2014) Structure model of karst underground water system in Yangzong basin, Yunnan. Yunnan Geol 33:103–107. https://doi.org/10.3969/j.issn.1004-1885.2014.01.023
Yu Y, Zhang M, Qian SQ, Li DM, Kong FX (2010) Current status and development of water quality of lakes in Yunnan-Guizhou Plateau. J Lake Sci 22:820–828. https://doi.org/10.1080/09500340.2010.529951
Zhang ZW (2012) Complexity, hardness and chronicity of treatment for the nine plateau lakes in Yunnan. Environ Sci Surv 31:19–20 (In Chinese)
Zhang Y, Peng BZ, Chen J, Lu JJ (2005) Evaluation of sediment accumulation in Dianchi Lake using 137Cs dating. Acta Geogr Sin 60(1):71–78 (In Chinese)
Zhang E, Liu E, Shen J, Cao Y, Li Y (2012) One century sedimentary record of lead and zinc pollution in Yangzong Lake, a highland lake in southwestern China. J Environ Sci 24:1189–1196. https://doi.org/10.1016/S1001-0742(11)60896-6
Zhang EL, Tang HQ, Cao YM, Langdon P, Wang R, Yang XD (2013) The effects of soil erosion on chironomid assemblages in Lugu Lake over the past 120 years. Int Rev Hydrobiol 98:165–172
Zhang X, Zheng Z, Huang KY, Yang XQ, Tian LP (2020) Sensitivity of altitudinal vegetation in southwest China to changes in the Indian summer monsoon during the past 68000 years. Quat Sci Rev 239:106359. https://doi.org/10.1016/j.quascirev.2020.106359
Zhao SM, Yang CL, Xu L (2007) Prediction of soil erosion at Yangzong Lake watershed based on GIS and USLE. Environ Sci Surv 26(4):1–4 (In Chinese)
Zheng WX, Wang R, Zhang EL, Cao YM, Kong DP (2018) Diversity and stability dynamic of chironomid assemblages in the last two centuries of Lake Yangzong, Yunnan Province. J Lake Sci 30:847–856. https://doi.org/10.18307/2018.0326
Zhu Y (2008) Study on environmental background of Yangzonghai Lake basin. Environ Sci Surv 27(5):75–78 (In Chinese)
Zhu H, Wang JL, Cheng F, Deng H, Zhang EW, Li YX (2020) Monitoring and evaluation of eco-environmental quality of lake basin regions in Central Yunnan Province, China. Chin J Appl Ecol 31(4):1289–1297 (In Chinese)
Acknowledgments
We thank Huayong Li, Mengshu Zhu, and Nan Li for collecting sediment cores.
Funding
This work was supported by Yunnan Provincial Government Leading Scientist Program (Grant No. 2015HA024), China Postdoctoral Science Foundation (2020 M673308), and Yunnan Postdoctoral Science Foundation.
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Wu, H., Zhang, H., Li, Y. et al. Plateau lake ecological response to environmental change during the last 60 years: a case study from freshwater Lake Yangzong, SW China. J Soils Sediments 21, 1550–1562 (2021). https://doi.org/10.1007/s11368-021-02894-2
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DOI: https://doi.org/10.1007/s11368-021-02894-2