Holocene benthic foraminifera ecological succession in the Panamanian Caribbean

IF 2.6 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Palaeogeography, Palaeoclimatology, Palaeoecology Pub Date : 2024-10-05 DOI:10.1016/j.palaeo.2024.112536
Arellano-Torres Elsa , Correa-Metrio Alex , Johann M. Rutiaga-Ramírez , Jaime Escobar , Carlos Castañeda-Posadas
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Abstract

Benthic foraminifera assemblages from a 452 cm long sediment core (GAL18) were collected from a mangrove forest on the Caribbean coast of Panama. The core spans the last ∼5200 cal yrs. B.P. Ninety-six benthic species were recorded in the sedimentary sequence. The most frequent and abundant were the calcite hyaline species Ammonia batava, Ammonia tepida, Ammonia ariakensis, Elphidium articulatum, Elphidium cristobalense, and Cribroelphidium galeroense. The second most abundant were four porcelaneous species: Quinqueloculina cf. araucana, Quinqueloculina cf. poeyana, Quinqueloculina neocostata and Quinqueloculina seminulum. There were also scattered species of agglutinant taxa along the core and in modern sediments. Micropaleontological, sedimentological, and geochemical analyses allowed the recognition of four lithologic units that were consistent with four paleoenvironmental scenarios of ecological succession. (I) The Estuarine Zone deposited at ∼5200–3600 cal yrs. B.P. suggests the development of a mangrove ecosystem along a channeled tidal area with estuarine water exchange and dominant species from brackish waters such as Ammonia and Cribroelphidium. Isotopic (δ13Corg, δ15N), geochemical (C/N, Ca/Ti, K/Rd, Fe/Ca), and pollen data also show a polyhaline environment with bio-calcite production and active coastal weathering. (II) The Seaward Zone deposited between ∼3600–1250 cal yrs. B.P., closest to marine waters, with an overall increase in benthic species, like the euhaline Quinqueloculina spp., and other calcareous organisms. (III) The Transition Zone was deposited amid 1250–650 cal yrs. B.P. when the area experienced less frequent flooding by tidal waters, dominated by polyhaline Elphidium and Ammonia spp., and the establishment of a mangrove ecosystem influenced by changing salinity, as the sea level almost reached its modern position. Finally, (IV) the Landward Zone deposited over the last 650 cal yrs. B.P., where the lack of benthic foraminifera and bio-calcite deposits contrast with high amounts of organic carbon and vegetal debris, which supports that the core site was located further inland than in previous intervals. This multiproxy study features subtle but irreversible changes that a fringe mangrove community can experience over time, highlighting the complex relationship between the coastal region and the sea.
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巴拿马加勒比地区全新世底栖有孔虫生态演替
从巴拿马加勒比海岸的一个红树林中采集了一个 452 厘米长的沉积岩芯(GAL18)中的底栖有孔虫。该岩心的时间跨度为公元前 5200 年。沉积序列中记录了 96 种底栖物种。最常见和最丰富的是方解石透明物种 Ammonia batava、Ammonia tepida、Ammonia ariakensis、Elphidium articulatum、Elphidium cristobalense 和 Cribroelphidium galeroense。其次是四个多孔物种:Quinqueloculina cf. araucana、Quinqueloculina cf. poeyana、Quinqueloculina neocostata 和 Quinqueloculina semulum。岩芯沿线和现代沉积物中还有零星的凝集类群。通过微古生物学、沉积学和地球化学分析,确定了与四种古环境生态演替情景相一致的四个岩性单元。(I) 沉积于公元前 5200-3600 年的河口区。(I) 沉积于公元前 5200-3600 年的河口区表明,红树林生态系统沿着河道潮汐区发展,具有河口水交换和来自咸水的优势物种,如氨和 Cribroelphidium。同位素(δ13Corg、δ15N)、地球化学(C/N、Ca/Ti、K/Rd、Fe/Ca)和花粉数据也表明,这里是一个多卤环境,有生物方解石生成,海岸风化活跃。(II) 沉积于公元前 3600-1250 年之间的向海地带,最接近海洋,是一个多海相环境。(II) 向海带沉积于公元前 3600-1250 年之间,最靠近海洋水域,底栖生物种类总体上有所增加,如碱性昆虫和其他钙质生物。(III) 过渡带沉积于公元前 1250-650 年之间。海平面几乎达到了现代的位置,受盐度变化的影响,该地区建立了红树林生态系统。最后,(IV) 公元前 650 年沉积的向陆区。在这里,底栖有孔虫和生物方解石沉积物的缺乏与大量有机碳和植物碎屑形成了鲜明对比,这证明岩芯地点比以前的岩芯地点更靠近内陆。这项多代理研究显示了边缘红树林群落随着时间的推移可能发生的微妙但不可逆转的变化,凸显了沿海地区与海洋之间的复杂关系。
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来源期刊
CiteScore
5.90
自引率
10.00%
发文量
398
审稿时长
3.8 months
期刊介绍: Palaeogeography, Palaeoclimatology, Palaeoecology is an international medium for the publication of high quality and multidisciplinary, original studies and comprehensive reviews in the field of palaeo-environmental geology. The journal aims at bringing together data with global implications from research in the many different disciplines involved in palaeo-environmental investigations. By cutting across the boundaries of established sciences, it provides an interdisciplinary forum where issues of general interest can be discussed.
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