Elevation Changes in Restored Marshes at Poplar Island, Chesapeake Bay, MD: II. Modeling the Importance of Marsh Development Time

IF 2.3 3区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
James T. Morris, Lorie W. Staver
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Abstract

Tidal marshes in the Chesapeake Bay are vulnerable to the accelerating rate of sea-level rise (SLR) and subsidence. Restored and created marshes face the same risks as natural marshes, and their resilience to SLR may depend upon appropriate design and implementation. Here, the Coastal Wetland Equilibrium Model (CWEM) was used to assess the resilience of tidal marshes at the Paul S. Sarbanes Ecosystem Restoration Project at Poplar Island (PI) in mid-Chesapeake Bay, MD, where dredged material from navigation channels is being used to create new tidal marshes planted with Spartina alterniflora in the low marsh and S. patens in the high marsh. The site is microtidal with low inorganic sediment inputs, where the rate of marsh elevation change is dominated by the production of organic matter and, therefore, is proportional to net ecosystem production (NEP). The model demonstrated the importance of marsh development for surface elevation gain. In created marshes, the buildout of belowground biomass adds volume and results in faster growth of marsh elevation, but the gains slow as the marsh matures. Elevation gain is the lessor of the recalcitrant fraction of NEP sequestered in sediment or the rate of increase in accommodation space. Marshes can keep up with and fill accommodation space with sequestered NEP up to a tipping point determined by the rate of SLR. The PI low marsh platform was forecasted to drown in about 43 years after construction at the current rate of SLR. Marsh loss can be mitigated by periodic thin layer placement (TLP) of sediment. CWEM was used to simulate PI marsh responses to different TLP strategies and showed that there is an optimal design that will maximize carbon sequestration and resilience depending on the trajectory of mean sea level.

Abstract Image

马里兰州切萨皮克湾白杨岛恢复沼泽的海拔变化:II.模拟沼泽发育时间的重要性
切萨皮克湾的潮汐沼泽易受海平面上升(SLR)和沉降速度加快的影响。恢复和创建的沼泽地面临着与天然沼泽地相同的风险,它们对 SLR 的抵御能力可能取决于适当的设计和实施。在马里兰州切萨皮克湾中部白杨岛(PI)的保罗-S-萨班斯生态系统恢复项目中,利用沿海湿地平衡模型(CWEM)评估了潮汐沼泽的恢复能力。该地点属于微潮汐区,无机沉积物输入量较低,沼泽海拔变化率主要由有机物质的生产量决定,因此与生态系统净生产量(NEP)成正比。该模型证明了沼泽发展对地表海拔增加的重要性。在已形成的沼泽中,地下生物量的增加会增加沼泽的体积,从而加快沼泽海拔的增长,但随着沼泽的成熟,海拔的增长速度会减慢。海拔高度的增加是固着在沉积物中的 NEP 的顽固部分或容纳空间增加率两者中较小者。沼泽可以利用螯合的 NEP 保持并填充容纳空间,直至由可持续土地退化速率决定的临界点。根据预测,按照目前的土壤退化速度,PI 低沼泽平台将在建成后约 43 年淹没。可通过定期薄层放置沉积物 (TLP) 来缓解沼泽损失。CWEM 被用来模拟郫县沼泽地对不同 TLP 策略的反应,结果表明,根据平均海平面的轨迹,有一种最佳设计可以最大限度地提高碳固存和恢复能力。
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来源期刊
Estuaries and Coasts
Estuaries and Coasts 环境科学-海洋与淡水生物学
CiteScore
5.60
自引率
11.10%
发文量
107
审稿时长
12-24 weeks
期刊介绍: Estuaries and Coasts is the journal of the Coastal and Estuarine Research Federation (CERF). Begun in 1977 as Chesapeake Science, the journal has gradually expanded its scope and circulation. Today, the journal publishes scholarly manuscripts on estuarine and near coastal ecosystems at the interface between the land and the sea where there are tidal fluctuations or sea water is diluted by fresh water. The interface is broadly defined to include estuaries and nearshore coastal waters including lagoons, wetlands, tidal fresh water, shores and beaches, but not the continental shelf. The journal covers research on physical, chemical, geological or biological processes, as well as applications to management of estuaries and coasts. The journal publishes original research findings, reviews and perspectives, techniques, comments, and management applications. Estuaries and Coasts will consider properly carried out studies that present inconclusive findings or document a failed replication of previously published work. Submissions that are primarily descriptive, strongly place-based, or only report on development of models or new methods without detailing their applications fall outside the scope of the journal.
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