Imprint of Regional Oceanography on Foraminifera of Eastern Pacific Coral Reefs

IF 0.9 4区 地球科学 Q4 PALEONTOLOGY Journal of Foraminiferal Research Pub Date : 2020-07-01 DOI:10.2113/gsjfr.50.3.279
M. A. Zamora-Duran, R. Aronson, J. Leichter, J. A. Flannery, J. Richey, L. Toth
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引用次数: 3

Abstract

The marginal marine environments of the eastern tropical Pacific (ETP) serve as an ideal natural laboratory to study how oceanographic and climatic variability influence coral-reef ecosystems. Reefs along the Pacific coast of Panamá span a natural gradient of nutrients, pH, and temperature as a result of stronger seasonal upwelling in the Gulf of Panamá relative to the Gulf of Chiriquí. The ecosystems are not only influenced by spatial and seasonal variations in oceanography but are affected by the climatic variability of the El Niño-Southern Oscillation (ENSO). Foraminifera can be robust indicators of ecosystem condition because the composition of their assemblages and the geochemistry of their tests can change rapidly in response to environmental variability. We studied benthic foraminifera in sediment samples collected from 3 m below mean sea level in the Gulf of Panamá and the Gulf of Chiriquí. Temperature loggers deployed from 2016 to 2019 showed that average temperatures were lower and more variable in the Gulf of Panamá due to seasonal upwelling. All sites in both gulfs were dominated by heterotrophic foraminifera, which was likely the result of nutrient enrichment due to upwelling, combined with ENSO effects. However, the Gulf of Chiriquí was characterized by higher abundances of symbiont-bearing foraminifera than the Gulf of Panamá. The orders Miliolida and Rotaliida dominated the foraminiferal assemblages in both gulfs, with Quinqueloculina and Rosalina being the most abundant genera in the two orders, respectively. Miliolids were less abundant in the Gulf of Panamá than in the Gulf of Chiriquí, whereas rotaliid densities were not significantly different between the two gulfs. Lower pH in the Gulf of Panamá as a result of upwelling may have contributed to the lower abundance of miliolids, which secrete tests of high-magnesium calcite. Geochemical analysis of tests of the symbiont-bearing miliolid Sorites marginalis revealed that foraminiferal Mg/Ca ratios were lower in the Gulf of Panamá than in the Gulf of Chiriquí. The offset in foraminiferal Mg/Ca is consistent with the lower mean annual temperature observed in the Gulf of Panamá due to stronger seasonal upwelling. Because the geochemistry and assemblages of foraminifera reflect differences in environmental conditions, they could potentially be used in tandem with coral proxies to reconstruct past environmental change and project the future of coral-reef systems within the ETP.
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区域海洋学对东太平洋珊瑚礁有孔虫的影响
热带东太平洋边缘海洋环境是研究海洋学和气候变化如何影响珊瑚礁生态系统的理想自然实验室。巴拿马太平洋沿岸的珊瑚礁跨越了营养物质、pH值和温度的自然梯度,这是巴拿马湾相对于Chiriquí湾更强的季节性上升流的结果。生态系统不仅受到海洋空间和季节变化的影响,还受到El Niño-Southern涛动(ENSO)气候变率的影响。有孔虫可以作为生态系统状况的可靠指标,因为它们的组合组成及其测试的地球化学可以根据环境变化而迅速变化。我们研究了在巴拿马湾和Chiriquí湾平均海平面以下3 m的沉积物样本中的底栖有孔虫。2016年至2019年部署的温度记录仪显示,由于季节性上升流,巴拿马湾的平均温度更低,变化更大。两个海湾的所有地点都以异养有孔虫为主,这可能是上升流引起的营养富集和ENSO效应的结果。然而,Chiriquí湾的共生有孔虫的丰度比巴拿马湾高。mililida目和Rotaliida目在两个海湾的有孔虫组合中占主导地位,其中Quinqueloculina和Rosalina分别是两个目中最丰富的属。巴拿马湾的百万虫数量少于Chiriquí湾,而轮虫密度在两个海湾之间没有显著差异。由于上升流,巴拿马湾的pH值较低,这可能是导致百万丰度较低的原因,百万丰度可分泌高镁方解石测试。地球化学分析结果显示,巴拿马湾有孔虫Mg/Ca比值低于Chiriquí湾。有孔虫Mg/Ca的偏移与巴拿马湾较低的年平均温度一致,原因是季节性上升流较强。由于有孔虫的地球化学和组合反映了环境条件的差异,它们可能与珊瑚代用物一起用于重建过去的环境变化,并预测ETP内珊瑚礁系统的未来。
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来源期刊
Journal of Foraminiferal Research
Journal of Foraminiferal Research 地学-古生物学
CiteScore
2.10
自引率
9.10%
发文量
32
审稿时长
>12 weeks
期刊介绍: JFR publishes original papers of international interest dealing with the Foraminifera and allied groups of organisms. Review articles are encouraged.
期刊最新文献
2023 Cushman Foundation for Foraminiferal Research Award and Grant Recipients The Later Holocene Foraminifera of Liverpool Bay (Bae Lerpwl), British Isles: Morphospecies and Community Level Patterns Micro- to Macro-Scale Foraminiferal Distributions: The Contributions of Martin A. Buzas* Oceanic-Scale Species Diversity of Living Benthic Foraminifera: Insights into Neogene Diversity, Community Structure, Species Duration, and Biogeography Benthic Foraminiferal Response to the Aptian−Albian Carbon Cycle Perturbation in the Atlantic Ocean
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