尽管在全新世晚期相对海平面上升率较低，但佛罗里达州南部沿海仍迅速被淹没。

Rapid inundation of southern Florida coastline despite low relative sea-level rise rates during the late-Holocene.

机构信息

U.S. Geological Survey, Reston, VA, 20192, USA.

Department of Earth and Planetary Sciences, Harvard University, Cambridge, MA, 02138, USA.

出版信息

Nat Commun. 2019 Jul 19;10(1):3231. doi: 10.1038/s41467-019-11138-4.

DOI:10.1038/s41467-019-11138-4

PMID:31324773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6642092/

Abstract

Sediment cores from Florida Bay, Everglades National Park were examined to determine ecosystem response to relative sea-level rise (RSLR) over the Holocene. High-resolution multiproxy analysis from four sites show freshwater wetlands transitioned to mangrove environments 4-3.6 ka, followed by estuarine environments 3.4-2.8 ka, during a period of enhanced climate variability. We calculate a RSLR rate of 0.67 ± 0.1 mm yr between ~4.2-2.8 ka, 4-6 times lower than current rates. Despite low RSLR rates, the rapid mangrove to estuarine transgression was facilitated by a period of prolonged droughts and frequent storms. These findings suggest that with higher and accelerating RSLR today, enhanced climate variability could further hasten the loss of mangrove-lined coastlines, compounded by the reductions in natural flow to the coast caused by water management. Climate variability is nonlinear, and when superimposed on increases in RSLR, can complicate estimated trajectories of coastal inundation for resource management and urban planning.

摘要

佛罗里达湾和大沼泽国家公园的沉积岩心被用来研究全新世海平面相对上升（RSLR）对生态系统的影响。四个地点的高分辨率多代分析表明，在气候变异性增强的时期，淡水湿地在 4-3.6 千年前转变为红树林环境，随后在 3.4-2.8 千年前转变为河口环境。我们计算出在~4.2-2.8 千年前的 RSLR 速率为 0.67±0.1 mm yr，比当前速率低 4-6 倍。尽管 RSLR 速率较低，但由于长时间的干旱和频繁的风暴，快速的红树林向河口的入侵得以实现。这些发现表明，由于今天的海平面上升速度更高且加速，增强的气候变异性可能会进一步加速红树林海岸线的丧失，而由于水资源管理导致的自然水流减少则会加剧这种情况。气候变异性是非线性的，当它与 RSLR 的增加叠加在一起时，会使沿海淹没的估计轨迹变得复杂，从而影响资源管理和城市规划。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9687/6642092/3073723e22b9/41467_2019_11138_Fig1_HTML.jpg

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尽管在全新世晚期相对海平面上升率较低，但佛罗里达州南部沿海仍迅速被淹没。

Rapid inundation of southern Florida coastline despite low relative sea-level rise rates during the late-Holocene.

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