A Fresh Take: Seasonal Changes in Terrestrial Freshwater Inputs Impact Salt Marsh Hydrology and Vegetation Dynamics

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-24 DOI:10.1007/s12237-024-01392-1
Maya S. Montalvo, Emilio Grande, Anna E. Braswell, Ate Visser, Bhavna Arora, Erin C. Seybold, Corianne Tatariw, John C. Haskins, Charlie A. Endris, Fuller Gerbl, Mong-Han Huang, Darya Morozov, Margaret A. Zimmer
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Abstract

Salt marshes exist at the terrestrial-marine interface, providing important ecosystem services such as nutrient cycling and carbon sequestration. Tidal inputs play a dominant role in salt marsh porewater mixing, and terrestrially derived freshwater inputs are increasingly recognized as important sources of water and solutes to intertidal wetlands. However, there remains a critical gap in understanding the role of freshwater inputs on salt marsh hydrology, and how this may impact marsh subsurface salinity and plant productivity. Here, we address this knowledge gap by examining the hydrologic behavior, porewater salinity, and pickleweed (Sarcocornia pacifica also known as Salicornia pacifica) plant productivity along a salt marsh transect in an estuary along the central coast of California. Through the installation of a suite of hydrometric sensors and routine porewater sampling and vegetation surveys, we sought to understand how seasonal changes in terrestrial freshwater inputs impact salt marsh ecohydrologic processes. We found that salt marsh porewater salinity, shallow subsurface saturation, and pickleweed productivity are closely coupled with elevated upland water level during the winter and spring, and more influenced by tidal inputs during the summer and fall. This seasonal response indicates a switch in salt marsh hydrologic connectivity with the terrestrial upland that impacts ecosystem functioning. Through elucidating the interannual impacts of drought on salt marsh hydrology, we found that the severity of drought and historical precipitation can impact contemporary hydrologic behavior and the duration and timing of the upland-marsh hydrologic connectivity. This implies that the sensitivity of salt marshes to climate change involves a complex interaction between sea level rise and freshwater inputs that vary at seasonal to interannual timescales.

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新观点:陆地淡水输入的季节性变化对盐沼水文和植被动态的影响
盐沼位于陆地与海洋的交界处,提供重要的生态系统服务,如养分循环和碳封存。潮汐输入在盐沼孔隙水混合中起着主导作用,而陆地来源的淡水输入也越来越被认为是潮间带湿地水和溶质的重要来源。然而,在了解淡水输入对盐沼水文的作用,以及淡水输入如何影响沼泽表层下盐度和植物生产力方面,仍然存在重大差距。在此,我们通过研究加利福尼亚中部海岸河口盐沼横断面的水文行为、孔隙水盐度和泡菜(Sarcocornia pacifica,又名 Salicornia pacifica)植物生产力,来填补这一知识空白。通过安装一套水文传感器以及进行常规孔隙水采样和植被调查,我们试图了解陆地淡水输入的季节性变化如何影响盐沼生态水文过程。我们发现,在冬季和春季,盐沼孔隙水盐度、浅表层下饱和度和泡菜生产率与高地水位升高密切相关,而在夏季和秋季则更多地受到潮汐输入的影响。这种季节性反应表明盐沼与陆地高地的水文连接发生了变化,从而影响了生态系统的功能。通过阐明干旱对盐沼水文的年际影响,我们发现干旱的严重程度和历史降水量会影响当代的水文行为以及高地-盐沼水文连接的持续时间和时间。这意味着盐沼对气候变化的敏感性涉及到海平面上升和淡水输入之间复杂的相互作用,而淡水输入在季节到年际时间尺度上是变化的。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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