J. Rivera-Solís, Adolfo Quesada-Román, Fran Domazetović
{"title":"巴拿马 Ciénega de El Mangle 喀斯特形成的过去和现在的驱动因素","authors":"J. Rivera-Solís, Adolfo Quesada-Román, Fran Domazetović","doi":"10.3390/quat6040058","DOIUrl":null,"url":null,"abstract":"Tropical coastal karst areas represent dynamic, fragile, and biodiverse environments. Central America’s karst regions have been scarcely studied, with most of the research focused on the northern part of the region and on several larger cave systems. The coastal carbonate zones of the Central American region represent a unique karstic landscape, which, so far, has been insufficiently studied. Therefore, in this paper, we aim to describe the (i) landscape geomorphology and (ii) chemical conditions that define Ciénega de El Mangle in Panama as a distinctive karstic site. Carried geomorphological mapping and the characterization of karstic features have resulted in the identification of the different karstic forms and processes that are present within this unique karstic area. Considering that the chosen karstic study area is located in a marine–coastal fringe on the periphery of a lagoon, it is affected by a combination of several factors and processes, including seawater intrusion (through sinkholes), the formation of conchiferous limestone (CaCO3), and NaCl precipitation related to efflorescence. Due to the seasonally humid tropical climate, the chemical weathering processes are intense, thus forming alkaline soils that are hindering the development of mangrove vegetation. The geomorphology of the area results from intense evaporation combined with an influx of brackish groundwater, due to which a landscape has evolved in the marine–coastal strips, of seasonal tropical climates, that exhibit saline beaches, known as a littoral shott. In total, 24 karstic microdolines have evolved within the shott, of which six represent domical geoforms formed by gradual evaporitic precipitation, while seven other geoforms represent active karstic sinkholes filled with brackish water. These results are key for understanding the past and present climate interactions and conditions that have led to the formation of tropical karst environments.","PeriodicalId":54131,"journal":{"name":"Quaternary","volume":"181 1","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2023-11-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Past and Present Drivers of Karst Formation of Ciénega de El Mangle, Panama\",\"authors\":\"J. Rivera-Solís, Adolfo Quesada-Román, Fran Domazetović\",\"doi\":\"10.3390/quat6040058\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Tropical coastal karst areas represent dynamic, fragile, and biodiverse environments. Central America’s karst regions have been scarcely studied, with most of the research focused on the northern part of the region and on several larger cave systems. The coastal carbonate zones of the Central American region represent a unique karstic landscape, which, so far, has been insufficiently studied. Therefore, in this paper, we aim to describe the (i) landscape geomorphology and (ii) chemical conditions that define Ciénega de El Mangle in Panama as a distinctive karstic site. Carried geomorphological mapping and the characterization of karstic features have resulted in the identification of the different karstic forms and processes that are present within this unique karstic area. Considering that the chosen karstic study area is located in a marine–coastal fringe on the periphery of a lagoon, it is affected by a combination of several factors and processes, including seawater intrusion (through sinkholes), the formation of conchiferous limestone (CaCO3), and NaCl precipitation related to efflorescence. Due to the seasonally humid tropical climate, the chemical weathering processes are intense, thus forming alkaline soils that are hindering the development of mangrove vegetation. The geomorphology of the area results from intense evaporation combined with an influx of brackish groundwater, due to which a landscape has evolved in the marine–coastal strips, of seasonal tropical climates, that exhibit saline beaches, known as a littoral shott. In total, 24 karstic microdolines have evolved within the shott, of which six represent domical geoforms formed by gradual evaporitic precipitation, while seven other geoforms represent active karstic sinkholes filled with brackish water. 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引用次数: 0
摘要
热带沿海岩溶地区代表着动态、脆弱和生物多样性的环境。对中美洲岩溶地区的研究很少,大部分研究集中在该地区的北部和几个较大的洞穴系统。中美洲地区的沿海碳酸盐岩带是一种独特的岩溶地貌,但迄今为止,对它的研究还很不够。因此,在本文中,我们旨在描述 (i) 地形地貌和 (ii) 化学条件,以确定巴拿马的 Ciénega de El Mangle 是一个独特的岩溶地貌。通过地貌测绘和岩溶特征描述,我们确定了这一独特岩溶地区的不同岩溶形态和岩溶过程。考虑到所选的岩溶研究区位于泻湖外围的海洋-海岸边缘地带,它受到多种因素和过程的综合影响,包括海水入侵(通过天坑)、海螺状石灰岩(CaCO3)的形成以及与渗出有关的氯化钠沉淀。由于热带气候季节性潮湿,化学风化过程强烈,从而形成碱性土壤,阻碍了红树林植被的发展。该地区的地貌是由于强烈的蒸发和咸水地下水的涌入造成的,因此在热带季节性气候的海洋-海岸带形成了一种景观,表现为盐碱海滩,即所谓的滨海滩涂。在海岸带内总共形成了 24 个岩溶微地貌,其中 6 个地貌是由逐渐蒸发的降水形成的穹隆地貌,另外 7 个地貌是充满咸水的活跃岩溶天坑。这些结果对于了解热带岩溶环境形成的过去和现在的气候相互作用和条件至关重要。
Past and Present Drivers of Karst Formation of Ciénega de El Mangle, Panama
Tropical coastal karst areas represent dynamic, fragile, and biodiverse environments. Central America’s karst regions have been scarcely studied, with most of the research focused on the northern part of the region and on several larger cave systems. The coastal carbonate zones of the Central American region represent a unique karstic landscape, which, so far, has been insufficiently studied. Therefore, in this paper, we aim to describe the (i) landscape geomorphology and (ii) chemical conditions that define Ciénega de El Mangle in Panama as a distinctive karstic site. Carried geomorphological mapping and the characterization of karstic features have resulted in the identification of the different karstic forms and processes that are present within this unique karstic area. Considering that the chosen karstic study area is located in a marine–coastal fringe on the periphery of a lagoon, it is affected by a combination of several factors and processes, including seawater intrusion (through sinkholes), the formation of conchiferous limestone (CaCO3), and NaCl precipitation related to efflorescence. Due to the seasonally humid tropical climate, the chemical weathering processes are intense, thus forming alkaline soils that are hindering the development of mangrove vegetation. The geomorphology of the area results from intense evaporation combined with an influx of brackish groundwater, due to which a landscape has evolved in the marine–coastal strips, of seasonal tropical climates, that exhibit saline beaches, known as a littoral shott. In total, 24 karstic microdolines have evolved within the shott, of which six represent domical geoforms formed by gradual evaporitic precipitation, while seven other geoforms represent active karstic sinkholes filled with brackish water. These results are key for understanding the past and present climate interactions and conditions that have led to the formation of tropical karst environments.