Patterns of effects of land-use structure on lake water quality in coastal lake catchments of the southern Baltic Sea

IF 2.7 4区 环境科学与生态学 Q2 ECOLOGY
Monika Szymańska - Walkiewicz , Mikołaj Matela , Krystian Obolewski
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Abstract

This study investigated potential relationships between land-use structure in the catchments of six southern Baltic coastal lakes that differ in the level of hydrological connection with the sea and the lakes’ trophic states. Our results indicate that three types of catchments can be distinguished, each of which has a high contribution of agricultural areas, plus: (i) considerable contributions of wetlands and water bodies (C1); (ii) a large contribution of wooded and seminatural habitats (C2); or (iii) a considerable contribution of artificial surfaces (C3). Correlations were analysed between land-use types and single-parameter Carlson's trophic state indices of lakes (TSIChl, TSITP, TSISD, TSITOC). Type C2 clearly differed from the others and was linked with the lowest trophic state index values. The other two catchment types were similarly related to the fertility of the coastal lakes. The results show that the analysed lakes’ levels of connection with the sea do not affect the trophic state of their waters. Catchment structure, analysed using CORINE Land Cover data, is significantly linked with TP and TOC values, but it does not relate to Secchi depth or chlorophyll content of water in the lakes. Wetlands (especially peat bogs) in the catchment area most strongly reduced the phosphorus and organic carbon content of lake water. Furthermore, comparable contributions of natural vs. anthropogenic components (∼1:1) are associated with a lower trophic state of water. The presented results may be important for shaping the proper management of various catchment types in the future, especially when implementing climate change mitigation strategies.

波罗的海南部沿海湖泊集水区土地利用结构对湖泊水质的影响模式
本研究调查了波罗的海南部六个沿岸湖泊集水区的土地利用结构与湖泊营养状态之间的潜在关系,这些湖泊与海洋的水文联系程度不同。我们的研究结果表明,可以将集水区分为三种类型,每种类型的集水区都有较多的农业区,另外还有:(i) 大量的湿地和水体(C1);(ii) 大量的林地和半自然栖息地(C2);或 (iii) 大量的人工表面(C3)。分析了土地利用类型与单参数卡尔森湖泊营养状态指数(TSIChl、TSITP、TSISD、TSITOC)之间的相关性。C2 类型明显不同于其他类型,其营养状态指数值最低。其他两种集水类型与沿岸湖泊的肥力关系相似。结果表明,所分析的湖泊与海洋的连接程度并不影响其水域的营养状态。利用 CORINE 土地覆被数据分析的集水区结构与 TP 值和 TOC 值有显著联系,但与湖泊中的 Secchi 深度或叶绿素含量无关。集水区的湿地(尤其是泥炭沼泽)能最大程度地降低湖水中的磷和有机碳含量。此外,自然成分与人为成分的比例相当(1:1),这与湖水的营养状态较低有关。这些结果可能对今后正确管理各种类型的集水区,尤其是在实施气候变化减缓战略时具有重要意义。
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来源期刊
Ecohydrology & Hydrobiology
Ecohydrology & Hydrobiology Agricultural and Biological Sciences-Aquatic Science
CiteScore
5.40
自引率
3.80%
发文量
51
期刊介绍: Ecohydrology & Hydrobiology is an international journal that aims to advance ecohydrology as the study of the interplay between ecological and hydrological processes from molecular to river basin scales, and to promote its implementation as an integrative management tool to harmonize societal needs with biosphere potential.
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