Long-term patterns and trends in water column biogeochemistry in a changing environment

IF 2.6 3区 地球科学 Q1 MARINE & FRESHWATER BIOLOGY Estuarine Coastal and Shelf Science Pub Date : 2024-07-30 DOI:10.1016/j.ecss.2024.108896
Paul Julian II , James W. Fourqurean , Stephen E. Davis , Donatto Surratt , Evelyn E. Gaiser , John S. Kominoski , Tiffany G. Troxler , Joseph N. Boyer , Serge Thomas , Henry O. Briceño , Christopher J. Madden , Enrique Montes , Chris R. Kelble
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Abstract

Water column nutrient concentrations and autotrophy in oligotrophic ecosystems are sensitive to eutrophication and other long-term environmental changes and disturbances. Disturbance can be defined as an event or process that changes the structure and response of an ecosystem to other environmental drivers. The role disturbance plays in regulating ecosystem functions is challenging because the effect of the disturbance can vary in magnitude, duration, and extent spatially and temporally. We measured changes in total nitrogen (TN), dissolved inorganic nutrient (DIN), total phosphorus (TP), soluble reactive phosphorus (SRP), total organic carbon (TOC), and chlorophyll-a (Chl-a) concentrations throughout the Everglades, Florida Bay, and the Florida Keys. This region has been subjected to a variety of natural and anthropogenic disturbances including tropical storms, fires, eutrophication, and rapid increases in water levels from sea-level rise and freshwater restoration. We hypothesized that the rate of change in water quality would be greatest in the coastal ecotone where disturbance frequencies and marine P concentrations are highest, and in freshwater marshes closest to hydrologic changes from restoration. We applied trend analyses on multi-decadal data (1996–2019) collected from 461 locations distributed from inland freshwater Everglades (ridge and slough) to outer marine reefs along the Florida Keys, USA. Total Organic Carbon decreased throughout the study area and was the only parameter with a systematic trend throughout the study area. All other parameters had spatially heterogeneous patterns in long-term trends. Results indicate more variability across a large spatial and temporal extent associated with changes in biogeochemical indicators and water quality conditions. Chemical and biological changes in oligotrophic ecosystems are important indicators of environmental change, and our regional ridge-to-reef assessment revealed ecosystem-specific responses to both long-term environmental changes and disturbance legacies.

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不断变化的环境中水体生物地球化学的长期模式和趋势
寡营养生态系统中的水体营养浓度和自养对富营养化和其他长期环境变化及干扰很敏感。干扰可定义为改变生态系统结构和对其他环境驱动因素的反应的事件或过程。干扰在调节生态系统功能方面所起的作用具有挑战性,因为干扰的程度、持续时间和范围在空间和时间上都可能不同。我们测量了整个大沼泽地、佛罗里达湾和佛罗里达礁岛群中总氮(TN)、溶解无机养分(DIN)、总磷(TP)、可溶性活性磷(SRP)、总有机碳(TOC)和叶绿素-a(Chl-)浓度的变化。该地区遭受了各种自然和人为干扰,包括热带风暴、火灾、富营养化以及海平面上升和淡水恢复造成的水位快速上升。我们假设,在干扰频率和海洋 P 浓度最高的沿岸生态区,水质变化率最大,而在淡水沼泽地,水质变化率最接近恢复带来的水文变化。我们对从内陆淡水沼泽地(山脊和沼泽地)到美国佛罗里达礁岛群沿岸外海珊瑚礁的 461 个地点收集的十年数据(1996-2019 年)进行了趋势分析。总有机碳在整个研究区域内均有所下降,是唯一一个在整个研究区域内具有系统趋势的参数。所有其他参数的长期趋势在空间上存在差异。结果表明,与生物地球化学指标和水质条件变化相关的大时空范围内的变异性更大。寡营养生态系统中的化学和生物变化是环境变化的重要指标,我们的区域海脊到礁石评估揭示了生态系统对长期环境变化和干扰遗留问题的特定反应。
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来源期刊
CiteScore
5.60
自引率
7.10%
发文量
374
审稿时长
9 months
期刊介绍: Estuarine, Coastal and Shelf Science is an international multidisciplinary journal devoted to the analysis of saline water phenomena ranging from the outer edge of the continental shelf to the upper limits of the tidal zone. The journal provides a unique forum, unifying the multidisciplinary approaches to the study of the oceanography of estuaries, coastal zones, and continental shelf seas. It features original research papers, review papers and short communications treating such disciplines as zoology, botany, geology, sedimentology, physical oceanography.
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