Agius M R, Harmon N, Rychert C A, Tharimena S, Kendall J-M
Ocean and Earth Science University of Southampton Southampton UK.
Now at the Department of Geosciences Faculty of Science, University of Malta Msida Malta.
Geophys Res Lett. 2018 Nov 28;45(22):12244-12252. doi: 10.1029/2018GL080565. Epub 2018 Nov 23.
Accurate marine sediment characteristics, for example, thickness and seismic velocity, are important for constraining sedimentation rates with implications for climate variations and for seismic imaging of deeper structures using ocean bottom seismic deployments. We analyze P-to-S seismic phase conversions from the sediment-crust boundary recorded by the Passive Imaging of the Lithosphere-Asthenosphere Boundary (PI-LAB) experiment to infer the sediment thickness across the Mid-Atlantic Ridge covering 0- to 80-Myr-old seafloor. We find P s-P delay times of 0.04-0.37 s, or 5- to 82-m thickness. Sediment thickness increases with age. Thickness agrees with global estimates for young (<15-20 Myr) seafloor but is thinner on older lithosphere. Our result may represent a lower limit on sediment thickness, given that several of our stations are on topographic highs. The sedimentation rate decrease observed from 5 to 1.2 mm/kyr at ∼10 Myr suggests a recent increase in productivity related to climate change, eolian dust fluxes, and/or biogenic marine activity.
准确的海洋沉积物特征,例如厚度和地震速度,对于确定沉积速率具有重要意义,这对气候变化以及利用海底地震部署对深部结构进行地震成像都有影响。我们分析了由岩石圈-软流圈边界被动成像(PI-LAB)实验记录的沉积物-地壳边界处的P波到S波的地震相位转换,以推断横跨大西洋中脊、覆盖0至80百万年历史海底的沉积物厚度。我们发现P-S-P延迟时间为0.04至0.37秒,即厚度为5至82米。沉积物厚度随年龄增加。该厚度与全球对年轻(<15至20百万年)海底的估计相符,但在较老的岩石圈上较薄。鉴于我们的几个站点位于地形高处,我们的结果可能代表了沉积物厚度的下限。在约1亿年时观察到的沉积速率从5毫米/千年降至1.2毫米/千年,这表明近期生产力的增加与气候变化、风尘通量和/或海洋生物活动有关。
