晚更新世多生安第斯湿地土壤

GeoResJ Pub Date : 2017-12-01 DOI:10.1016/j.grj.2017.07.001
Juan C. Loaiza , Jorge Sánchez-Espinosa , Yolanda Rubiano-Sanabria , Rosa M. Poch
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引用次数: 2

摘要

Fusagasuga megafan位于Sumapaz河集水区(Magdalena河的主要支流),该流域流入Sumapaz沼地。土壤表现出不一致的水形态古特征,可能与近代构造有关,因此对该地区的古环境,特别是古水文进行了研究。研究了冲积巨型扇构造侵蚀山、冲积巨型扇轴线、冲积巨型扇长度和底部(沉积山麓)4个不同地貌位置的6条剖面。中等结构的岩屑美拉努地位于陡峭的高山(背斜构造斜坡)中,粉质壤土质美拉努地是在过渡山到冲积巨型扇的厚中粒砂岩上由火山灰发育而成,在巨型扇的中、近端发现了具有Bt层(42-85%粘土)的极细结构的典型古隆起,在巨型扇的远端形成典型的单隆起。高岭石是所有土壤中主要的粘土,其次是高岭石、针铁矿和微量蛭石和石英。石英和长石占主导地位,角闪石和少量的火山玻璃化学风化绿长岩也占主导地位。土壤以酸性为主,铝饱和度高,碱饱和度低。粘土的照明表现为低涂层和微层状粘土涂层。观察到不同程度的水形现象,有闪烁到静止的模式。一些氧化变质特征与当前的孔隙系统有关,而另一些则与古环境条件有关,通常与旧粘土涂层有关。大多数黏性土壤显示出条纹状、未分化、斑点状的b-织物和频繁的涂层,而其他一些土壤则指出铁裂解为缺铁的低涂层和沿孔隙的低各向异性粘土涂层,矿物学数据支持了这一观察结果。形态和微形态的再形态特征使我们能够解释冲积巨扇的古演化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Late pleistocene polygenetic Andean wetland soils

The Fusagasuga megafan is located in the Sumapaz River catchment (main tributary of the Magdalena River) which drains into the Sumapaz moorland. The soils show non consistent hydromorphic palaeofeatures that may be related to recent tectonics, therefore a study was conducted to gain insight into the paleoenvironment of the area, in particular the paleohydrology. We studied 6 profiles under 4 different geomorphological positions: structural eroded mountain, axis, length and base of the alluvial megafan (depositional foothills). Medium-textured Lithic Melanudands are located in a steep high mountain (anticline structural slope), Silty loam Ultic Melanudands are developed from volcanic ashes over thick medium-grained sandstones in the transition mountain to alluvial megafan, very fine-textured Typic Paleudalfs with Bt Horizons (42–85% clay) are found around the middle and proximal parts of the megafan, that become Typic Haplustalfs at the distal parts of the megafan. Kaolinite is the dominant clay in all soils, followed by halloisite, goethite and traces of vermiculite and quartz. Quartz and feldspars dominate the sand fraction, together with amphiboles and volcanic glass chemically weathered epidote in small quantities. Soils are mainly acidic, with a high Al saturation and a low base saturation. Clay illuviation is shown by hypocoatings and microlaminated clay coatings. Different degrees of hydromorphism are observed with gleyic to stagnic patterns. Some of the redoximorphic features are related to the current pore system and others to palaeoenvironmental conditions often associated to old clay coatings. The most clayey soils show striated, undifferenciated, speckled b-fabrics and frequent coatings, and some others point to ferrolysis as iron-depleted hypocoatings and low anisotropic clay coatings along pores, an observation supported by mineralogical data. The morphological and micromorphological redoximorphic features allow us to explain the paleoevolution of the alluvial megafan.

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