Composition and Plume Gas Interaction Control Iron Fractional Solubility More Than Particle Size in Volcanic Ash: Implications for Fertilization of the North Atlantic

IF 5.5 2区地球科学 Q1 ENVIRONMENTAL SCIENCES

Global Biogeochemical Cycles Pub Date : 2025-08-21 DOI:10.1029/2025GB008560

H. E. Elliott, E. Blades, H. M. Royer, C. Buck, C. Kollman, R. Kukkadapu, S. China, Z. Cheng, N. N. Lata, M. Engelhard, M. Bowden, N. Lahiri, R. L. Parham, L. Meagher, B. Angstman, A. P. Ault, A. Hornby, K. Dayton, E. Gazel, C. J. Gaston

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Abstract

Deposition of volcanic ash is thought to impact marine biogeochemical cycling by adding soluble iron (Fe) to the surface ocean. The magnitude of this input is a function of the amount of ash deposited, the total Fe content in the ash, and ash-derived Fe's fractional solubility. However, the relative importance of chemical composition, acidic processing by the volcanic plume, and ash particle size in determining solubility is unclear. We paired an aerosol leach meant to provide an upper limit for fractional Fe solubility with chemical analyses of ash from the Cumbre Vieja (CV) and La Soufrière eruptions, which both impacted the North Atlantic in 2021. Fe in the ash samples is <6% soluble, but Fe fractional solubility in CV ash is approximately triple that of La Soufrière ash. Compared to La Soufrière, a larger proportion of the Fe in CV ash is in silicate rather than oxide minerals, which release more soluble Fe. Elevated levels of surficial fluorine (F) also suggest that CV ash was subjected to a more fluorine-rich eruption plume and underwent more acidic processing. Particle size does not appear to be a primary control on Fe release. We estimate that the CV eruption had a much larger impact on dissolved Fe (DFe) concentration in the surface ocean than the La Soufrière eruption because of differences in soluble Fe content and particle deposition velocity. These differences may help explain why some eruptions elicit a biological response in the ocean while others do not.

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火山灰成分和烟羽气体的相互作用比颗粒大小更能控制铁的溶解度：对北大西洋施肥的影响

火山灰的沉积被认为通过向海洋表面添加可溶性铁（Fe）来影响海洋生物地球化学循环。这个输入量的大小是灰分沉积量、灰分中总铁含量和灰分中铁的分数溶解度的函数。然而，化学成分、火山柱的酸性过程和火山灰颗粒大小在决定溶解度方面的相对重要性尚不清楚。我们将旨在提供铁溶解度上限的气溶胶浸出与Cumbre Vieja （CV）和La soufri火山喷发灰烬的化学分析进行了配对，这两个火山都在2021年影响了北大大西洋。铁在灰分样品中可溶性为6%，但铁在CV灰分中的溶解度约为La soufri灰分的三倍。与La soufri相比，CV灰分中较大比例的铁是硅酸盐而不是氧化物矿物，后者释放出更多的可溶性铁。表面氟(F)水平的升高也表明，CV火山灰受到了更富氟的喷发羽流的影响，并经历了更多的酸性处理。颗粒大小似乎不是铁释放的主要控制因素。我们估计，由于可溶性铁含量和颗粒沉积速度的差异，CV喷发对海洋表面溶解铁（DFe）浓度的影响要比La soufri喷发大得多。这些差异可能有助于解释为什么有些火山爆发会在海洋中引起生物反应，而另一些则不会。

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来源期刊

Global Biogeochemical Cycles 环境科学-地球科学综合

CiteScore

8.90

自引率

7.70%

发文量

141

审稿时长

8-16 weeks

期刊介绍： Global Biogeochemical Cycles (GBC) features research on regional to global biogeochemical interactions, as well as more local studies that demonstrate fundamental implications for biogeochemical processing at regional or global scales. Published papers draw on a wide array of methods and knowledge and extend in time from the deep geologic past to recent historical and potential future interactions. This broad scope includes studies that elucidate human activities as interactive components of biogeochemical cycles and physical Earth Systems including climate. Authors are required to make their work accessible to a broad interdisciplinary range of scientists.