Local diversity of soil forming processes in the semi-arid tropics and its environmental drivers: An example from Otavi Mountains, northern Namibia

IF 5.4 1区农林科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Catena Pub Date : 2025-02-01 DOI:10.1016/j.catena.2024.108671

Tereza Zádorová , Vít Penížek , Martin Mihaljevič , Magdaléna Koubová , Lenka Lisá , Vojtěch Ettler , Václav Tejnecký , Ondřej Drábek , Lenka Pavlů , Bohdan Kříbek , Aleš Vaněk , Ondra Sracek , Jessica Reyes Rojas , Tomáš Hrdlička , Petra Vokurková , Benjamin Mapani

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引用次数: 0

Abstract

Local diversity of soil units and properties in a semi-arid tropical climate is controlled by a number of interacting factors, whose contribution to the final form of individual soil characteristics is often difficult to discern. The present study focuses on a detailed assessment of five diverse soil profiles located in the flat foothills of the Otavi Mountains in northern Namibia. A multi-proxy approach consisting of clay mineralogy, micromorphology and geochemical analyses was used to disentangle the drivers of an extraordinary local pedodiversity and to identify the patterns of recent and relict pedogenesis. Significant differences in profile stratigraphy were observed in the soils studied, represented by more weathered Chromic Cambisols and humus-rich soils with mollic horizons (Haplic Phaeozems, Calcic Kastanozem) and vertic features (Vertic Phaeozem). Complex lithology with a dominant influence of unconsolidated sediments of mainly fluvial origin, duration of pedogenesis and subtle changes in local topography and hydric soil regimes were identified as the main factors for the sharp transitions between the patches of each soil group. The studied soils differed significantly in the proportions of clay minerals and iron forms, partly inherited from the allochthonous soil-forming material, and partly developed in-situ. More intensive processes of soil weathering and clay translocation were retarded by limited leaching and base-saturated soil solution. The development of the vertic features was mainly conditioned by the localization of the profile in a minor local depression with prolonged water stagnation and abundance of the finest clay fraction rich in expanding clays. The formation of the thick mollic horizons was probably related to the former dominance of grassland vegetation and further enhanced by stabilization of soil organic carbon by various processes. Specific features that indicate a change in vegetation and a decreasing intensity of redox processes suggest a gradual aridification of the environment in the study region.

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半干旱热带地区土壤形成过程的地方多样性及其环境驱动因素：以纳米比亚北部奥塔维山脉为例

在半干旱的热带气候中，当地土壤单位和性质的多样性受多种相互作用因素的控制，而这些因素对个别土壤特性最终形式的影响往往难以辨别。本研究的重点是详细评估位于纳米比亚北部奥塔维山脉平坦山麓的五个不同土壤剖面。通过粘土矿物学、微观形态学和地球化学分析等多代理方法，研究人员厘清了当地非同一般的土壤多样性的驱动因素，并确定了近期和远期的成土模式。所研究的土壤在剖面地层学方面存在显著差异，表现为风化程度较高的铬质寒武系土壤和富含腐殖质的土壤，这些土壤具有蜕皮层（Haplic Phaeozems、Calcic Kastanozem）和垂直特征（Vertic Phaeozem）。复杂的岩性（主要受河床未固结沉积物的影响）、成土时间以及当地地形和水土条件的微妙变化，被认为是造成各土壤类群斑块之间急剧过渡的主要因素。所研究的土壤在粘土矿物和铁元素的比例上存在显著差异，其中一部分是从同源成土物质中继承下来的，另一部分是在原地形成的。有限的沥滤和碱饱和土壤溶液延缓了更密集的土壤风化和粘土转移过程。垂直地貌的形成主要受制于剖面位于局部小洼地，长期积水，以及富含膨胀粘土的最细粘土组分。厚厚的蜕皮层的形成可能与以前草地植被占主导地位有关，并通过各种过程进一步提高了土壤有机碳的稳定性。植被变化和氧化还原过程强度降低的具体特征表明，研究区域的环境正在逐渐干旱化。

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来源期刊

Catena 环境科学-地球科学综合

CiteScore

10.50

自引率

9.70%

发文量

816

审稿时长

54 days

期刊介绍： Catena publishes papers describing original field and laboratory investigations and reviews on geoecology and landscape evolution with emphasis on interdisciplinary aspects of soil science, hydrology and geomorphology. It aims to disseminate new knowledge and foster better understanding of the physical environment, of evolutionary sequences that have resulted in past and current landscapes, and of the natural processes that are likely to determine the fate of our terrestrial environment. Papers within any one of the above topics are welcome provided they are of sufficiently wide interest and relevance.