The Significance of Interseismic Vertical Land Movement at Convergent Plate Boundaries in Probabilistic Sea-Level Projections for AR6 Scenarios: The New Zealand Case

IF 7.3 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Earths Future Pub Date : 2024-06-06 DOI:10.1029/2023EF004165
T. Naish, R. Levy, I. Hamling, S. Hreinsdóttir, P. Kumar, G. G. Garner, R. E. Kopp, N. Golledge, R. Bell, R. Paulik, J. Lawrence, P. Denys, T. Gillies, S. Bengtson, A. Howell, K. Clark, D. King, N. Litchfield, R. Newnham
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Abstract

Anticipating and managing the impacts of sea-level rise for nations astride active tectonic margins requires understanding of rates of sea surface elevation change in relation to coastal land elevation. Vertical land motion (VLM) can either exacerbate or reduce sea-level changes with impacts varying significantly along a coastline. Determining rate, pattern, and variability of VLM near coasts leads to a direct improvement of location-specific relative sea level (RSL) estimates for coastal hazard risk assessment. Here, we utilize vertical velocity field from interferometric synthetic aperture radar (InSAR) data, calibrated with campaign and continuous Global Navigation Satellite System data, to determine the VLM for the entire coastline of New Zealand. Guided by available knowledge of the seismic cycle, the VLM data infer secular, interseismic rates of land surface deformation. Using the Framework for Assessing Changes to Sea-level (FACTS), we build probabilistic RSL projections using the same emissions scenarios employed in IPCC Assessment Report 6 and local VLM data at 8,179 sites, thereby enhancing spatial coverage that was previously limited to four tide gauges. We present ensembles of probability distributions of RSL for each scenario to 2150, and for low confidence sea-level processes to 2300. Where land subsidence is occurring at rates >2 mm/y VLM makes a significant contribution to RSL projections for all scenarios out to 2150. Our approach can be applied to similar locations across the world and has significant implications for adaptation planning, as timing of threshold exceedance for coastal inundation can be brought forward (or delayed) by decades.

Abstract Image

聚合板块边界地震间垂直陆地运动在 AR6 情景的概率海平面预测中的重要性:新西兰案例
要预测和管理海平面上升对位于活动构造边缘的国家的影响,就必须了解海面高程变化率与沿岸陆地高程的关系。陆地垂直运动(VLM)会加剧或减弱海平面的变化,对海岸线的影响有很大不同。确定海岸附近 VLM 的速率、模式和可变性,可以直接改进用于海岸灾害风险评估的特定位置相对海平面(RSL)估算。在这里,我们利用干涉合成孔径雷达(InSAR)数据中的垂直速度场,并通过全球导航卫星系统的活动和连续数据进行校准,来确定新西兰整个海岸线的 VLM。在现有地震周期知识的指导下,VLM 数据推断出了陆地表面变形的周期性地震间速率。利用海平面变化评估框架(FACTS),我们利用 IPCC 第 6 次评估报告中采用的相同排放情景和 8179 个站点的本地 VLM 数据,建立了概率 RSL 预测,从而扩大了以前仅限于四个验潮仪的空间覆盖范围。我们为每种情景提供了到 2150 年的 RSL 概率分布集合,并为到 2300 年的低置信度海平面过程提供了概率分布集合。在陆地沉降速度为 2 毫米/年的地方,VLM 对 2150 年前所有情景下的 RSL 预测都有重大贡献。我们的方法可应用于世界各地的类似地点,并对适应规划具有重要意义,因为沿海淹没阈值超标的时间可提前(或延迟)几十年。
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来源期刊
Earths Future
Earths Future ENVIRONMENTAL SCIENCESGEOSCIENCES, MULTIDI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
11.00
自引率
7.30%
发文量
260
审稿时长
16 weeks
期刊介绍: Earth’s Future: A transdisciplinary open access journal, Earth’s Future focuses on the state of the Earth and the prediction of the planet’s future. By publishing peer-reviewed articles as well as editorials, essays, reviews, and commentaries, this journal will be the preeminent scholarly resource on the Anthropocene. It will also help assess the risks and opportunities associated with environmental changes and challenges.
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