夏威夷奥胡岛南侧高分辨率样带降水的事件稳定同位素分析

IF 0.7 4区生物学 Q4 MARINE & FRESHWATER BIOLOGY

Pacific Science Pub Date : 2021-09-02 DOI:10.2984/75.3.9

Honour Booth, N. Lautze, Diamond K. Tachera, Daniel Dores

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引用次数: 3

摘要

摘要：虽然已经在毛伊岛、夏威夷岛和奥阿胡岛研究了海拔和季节变化对同位素组成的影响（Scholl等人，1996年，Scholl et al.2002年，Schol et al.2007年，Dores et al.2020，Fackrell et al.2020年，Tachera et al.2021），但这项工作是首次详细研究奥阿胡岛基于事件的降水。水的稳定同位素组成已被用于跟踪水圈内的水的运动，研究降雨事件的类型和起源，以及收集的高程等特征。在这里，我们对O’ahu上面向西南的Waikīkī地区一条紧凑的陆海样带上降水的稳定同位素δ2H和δ18O进行了高分辨率研究。这项研究对单个风暴事件的性质以及它们如何促成更大的季节性气候模式进行了独特而深入的调查。2017年12月至2019年3月，在样带沿线的三个地点收集了月度降水样本，2018年10月至2019月，在马凯地点收集了基于事件的样本。记录每个基于事件的样本的风暴方向、温度和相对湿度。结果表明，不同海拔高度的蒸发条件通过水分循环的净添加或蒸发水的净损失影响降水的同位素组成。这些模式在不同地点的空间分布说明了夏威夷流域的极端异质性。

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Event-Based Stable Isotope Analysis of Precipitation Along a High Resolution Transect on the South Face of O‘ahu, Hawai‘i

Abstract: While the influence of elevation and seasonal variation on isotopic composition has been studied on Maui, Hawai‘i Island, and O‘ahu (Scholl et al. 1996, Scholl et al. 2002, Scholl et al. 2007, Dores et al. 2020, Fackrell et al. 2020, Tachera et al. 2021), this work is the first to investigate event-based precipitation in detail on the island of O‘ahu. The stable isotopic composition of water has been used to track the movement of water within the hydrosphere, to investigate the type and origin of a rainfall event, and elevation of collection, among other characteristics. Here, we present a high-resolution study of the stable isotopes δ2H and δ18O of precipitation along a compact land-to-sea transect in Waikīkī, a southwest facing region on O‘ahu. The study provides a unique, in-depth investigation into the nature of individual storm events, and how they contribute to a larger seasonal climatic pattern. Monthly precipitation samples were collected at three sites along the transect from December 2017 to March 2019 and event-based samples were collected at the Makai site from October 2018 to February 2019. Storm direction, temperature, and relative humidity were recorded for each event-based sample. Results suggest that evaporative conditions at different elevations influence the isotopic composition of precipitation, either through net addition as moisture recycling, or net loss of evaporated water. The spatial distribution of these patterns from site to site illustrates the extreme heterogeneity of Hawaiian watersheds.

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来源期刊

Pacific Science 生物-动物学

CiteScore

1.40

自引率

14.30%

发文量

审稿时长

3 months

期刊介绍： Pacific Science: A Quarterly Devoted to the Biological and Physical Sciences of the Pacific Region The official journal of the Pacific Science Association. Appearing quarterly since 1947, Pacific Science is an international, multidisciplinary journal reporting research on the biological and physical sciences of the Pacific basin. It focuses on biogeography, ecology, evolution, geology and volcanology, oceanography, paleontology, and systematics. In addition to publishing original research, the journal features review articles providing a synthesis of current knowledge.