The influence of shallow-water methane emissions on foraminiferal assemblages: The case of Scoglio d’Affrica (Northern Tyrrhenian Sea, Mediterranean Sea)

IF 3.7 2区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Marine and Petroleum Geology Pub Date : 2024-09-26 DOI:10.1016/j.marpetgeo.2024.107130

Letizia Di Bella , Martina Pierdomenico , Aida Maria Conte , Irene Cornacchia , Tania Ruspandini , Daniele Spatola , Stanley Eugene Beaubien , Sabina Bigi , Alessia Conti , Giovanni Gaglianone , Michela Ingrassia , Francesco Latino Chiocci , Daniele Casalbore

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Abstract

Microfaunal analyses were conducted near Scoglio d’Affrica in the Tuscan Archipelago (Northern Tyrrhenian Sea), to study the response of benthic foraminifera to methane (CH₄) venting activity that occurs in this shallow water environment. Our data show that sedimentary processes linked to the CH₄ emissions exert a strong influence on foraminiferal assemblages, resulting in a very patchy spatial distribution linked to complex abiotic and biotic interactions. Methane emissions and mud represent the two main stressor factors for the benthic foraminiferal assemblages, although at present it is not possible to determine which impact dominates.

Five different morphological settings, controlled by venting activity, were defined on and off the mud volcanoes (MVs). Each of these settings has distinct assemblages: 1) areas with strong emission activity at the top of the MVs, locally associated with gryphons and mudflows, where the environmental conditions are clearly prohibitive for foraminiferal life; 2) mud flows along the MV flanks, where overlapping mudflows likely limit foraminiferal colonization; 3) muddy sediments associated with weak emissions where the development of foraminiferal community is favored, although with differences in terms of density, diversity and compositional features linked to the timing of colonization by each species; 4) intermatte zones with scarce or absent emissions, characterized by typical shallow water taxa indicative of well-oxygenated and highly hydrodynamic conditions; and 5) Posidonia oceanica substrates, characterized by higher foraminiferal content on the leaves compared to the rhizomes and surrounding sediments; indeed, sediments and rhizomes were more impacted by emissions, whereas Posidonia leaves offer “refugia” and a more mitigated environment.

Although it is difficult to define a pattern of biota response and to identify seep-exclusive taxa, foraminifera can represent good environmental proxies for both monitoring the variability of recent venting activity and detecting stressed conditions occurring in the geological record. The seafloor around Scoglio d’Affrica represents a very promising study site for multidisciplinary marine research regarding venting activity, geochemistry of cold seep fluids and their effects on benthic organisms.

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浅水甲烷排放对有孔虫组合的影响：Scoglio d'Affrica 案例（地中海北第勒尼安海）

在托斯卡纳群岛（北第勒尼安海）的 Scoglio d'Affrica 附近进行了微动物分析，以研究底栖有孔虫对发生在这一浅水环境中的甲烷（CH4）排放活动的反应。我们的数据显示，与甲烷（CH4）排放相关的沉积过程对有孔虫的组合产生了很大的影响，导致了与复杂的非生物和生物相互作用相关的非常分散的空间分布。甲烷排放和泥浆是底栖有孔虫群的两个主要压力因素，但目前还无法确定哪种影响占主导地位。在泥火山（MVs）上和泥火山外，确定了受喷发活动控制的五个不同形态环境。每个环境都有不同的组合：1) 泥火山顶部排放活动强烈的区域，局部与蝼蛄和泥流有关，这里的环境条件明显不利于有孔虫的生存；2) 泥火山侧翼的泥流，重叠的泥流可能限制了有孔虫的定殖；3) 与微弱排放有关的泥质沉积物，这里有利于有孔虫群落的发展，尽管在密度、多样性和成分特征方面存在差异，这与每个物种的定殖时间有关；4) 排放稀少或没有排放的间歇区，其特征是典型的浅水类群，表明氧气充足和水动力强的条件；以及 5) 大洋鹅掌楸底质，其特征是叶片上的有孔虫含量高于根茎和周围沉积物；事实上，沉积物和根茎受排放的影响更大，而鹅掌楸叶片则提供了 "避难所 "和更缓和的环境。虽然很难确定生物群的反应模式，也很难确定渗漏专属类群，但有孔虫可以作为很好的环境代用指标，用于监测近期排放活动的变化，并探测地质记录中出现的受压条件。Scoglio d'Affrica 附近的海底是一个非常有前途的研究地点，可用于有关喷气活动、冷渗漏流体地球化学及其对海底生物影响的多学科海洋研究。

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来源期刊

Marine and Petroleum Geology 地学-地球科学综合

CiteScore

8.80

自引率

14.30%

发文量

475

审稿时长

63 days

期刊介绍： Marine and Petroleum Geology is the pre-eminent international forum for the exchange of multidisciplinary concepts, interpretations and techniques for all concerned with marine and petroleum geology in industry, government and academia. Rapid bimonthly publication allows early communications of papers or short communications to the geoscience community. Marine and Petroleum Geology is essential reading for geologists, geophysicists and explorationists in industry, government and academia working in the following areas: marine geology; basin analysis and evaluation; organic geochemistry; reserve/resource estimation; seismic stratigraphy; thermal models of basic evolution; sedimentary geology; continental margins; geophysical interpretation; structural geology/tectonics; formation evaluation techniques; well logging.