Making temporal dynamics relevant: The role of macrophytes in the phenological complexity of a shallow freshwater lake

IF 2.5 3区 环境科学与生态学 Q2 ECOLOGY
Ecohydrology Pub Date : 2024-05-01 DOI:10.1002/eco.2663
Viktor R. Tóth
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引用次数: 0

Abstract

A multidisciplinary approach demonstrates how submerged macrophytes generate high phenological variability in Hungary's Lake Balaton. A 239-month time series of water chlorophyll indices derived from Landsat 7 imagery from 1999 to 2019 was used. These data facilitated the generation of area-based phenological patterns, which allowed an assessment of phenological variability by correlating chlorophyll index sequences with spatially adjacent values. The results showed that phenological variability was consistently low (below 5%) at the farthest points from the shore, indicating uniform phenological processes in the pelagic zone of Lake Balaton. Conversely, the littoral zone showed almost eight times higher variability, indicating increased diversity in shallow water areas. In particular, extensive macrophyte biomass datasets revealed a direct relationship between increased phenological variability in the littoral zone and macrophyte biomass (Spearman rank correlation: 0.893). This research highlights contrasting phenological patterns between phytoplankton and macrophyte communities, driven by different life cycles, and the possibility of effectively using satellite data to delineate phenological separation within lakes.

使时间动态具有相关性:大型植物在浅水淡水湖物候复杂性中的作用
一种多学科方法展示了匈牙利巴拉顿湖中沉水大型藻类如何产生高度物候变化。研究使用了从 1999 年到 2019 年由 Landsat 7 图像得出的 239 个月的水体叶绿素指数时间序列。这些数据有助于生成基于区域的物候模式,从而可以通过将叶绿素指数序列与空间上的相邻值相关联来评估物候变异性。结果表明,在距离湖岸最远的地方,物候变化率一直很低(低于 5%),这表明巴拉顿湖浮游区的物候过程是一致的。相反,沿岸带的变异性几乎高出八倍,表明浅水区的多样性有所增加。特别是,大量的大型藻类生物量数据集显示,沿岸带物候变化的增加与大型藻类生物量之间存在直接关系(斯皮尔曼等级相关性:0.893)。这项研究强调了浮游植物和大型底栖生物群落在不同生命周期驱动下的物候对比模式,以及有效利用卫星数据划分湖泊内物候区的可能性。
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来源期刊
Ecohydrology
Ecohydrology 环境科学-生态学
CiteScore
5.10
自引率
7.70%
发文量
116
审稿时长
24 months
期刊介绍: Ecohydrology is an international journal publishing original scientific and review papers that aim to improve understanding of processes at the interface between ecology and hydrology and associated applications related to environmental management. Ecohydrology seeks to increase interdisciplinary insights by placing particular emphasis on interactions and associated feedbacks in both space and time between ecological systems and the hydrological cycle. Research contributions are solicited from disciplines focusing on the physical, ecological, biological, biogeochemical, geomorphological, drainage basin, mathematical and methodological aspects of ecohydrology. Research in both terrestrial and aquatic systems is of interest provided it explicitly links ecological systems and the hydrologic cycle; research such as aquatic ecological, channel engineering, or ecological or hydrological modelling is less appropriate for the journal unless it specifically addresses the criteria above. Manuscripts describing individual case studies are of interest in cases where broader insights are discussed beyond site- and species-specific results.
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