Aluminous clay and pedogenic Fe oxides modulate aggregation and related carbon contents in soils of the humid tropics

4区农林科学 Q2 Agricultural and Biological Sciences Soil Science Pub Date : 2021-07-06 DOI:10.5194/SOIL-7-363-2021

M. Kirsten, R. Mikutta, D. Kimaro, K. Feger, K. Kalbitz

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引用次数: 2

Abstract

Abstract. Aggregation affects a wide range of physical and biogeochemical soil properties with positive effects on soil carbon storage. For weathered tropical soils, aluminous clays (kaolinite and gibbsite) and pedogenic Fe (oxyhydr)oxides (goethite and hematite; termed “Fe oxides”) have been suggested as important building units for aggregates. However, as aluminosilicates, aluminum hydroxides, and Fe oxides are part of the clay-sized fraction it is hard to separate how certain mineral phases modulate aggregation. In addition, it is not known what consequences this will have for organic carbon (OC) persistence after land-use change. We selected topsoils with unique mineralogical compositions in the East Usambara Mountains of Tanzania under forest and cropland land uses, varying in contents of aluminous clay and Fe oxides. Across the mineralogical combinations, we determined the aggregate size distribution, aggregate stability, OC contents of aggregate size fractions, and changes in aggregation and OC contents under forest and cropland land use. Patterns in soil aggregation were rather similar across the different mineralogical combinations (high level of macroaggregation and high aggregate stability). Nevertheless, we found some statistically significant effects of aluminous clay and pedogenic Fe oxides on aggregation and OC storage. An aluminous clay content > 250 g kg−1 in combination with pedogenic Fe contents < 60 g kg−1 significantly promoted the formation of large macroaggregates > 4 mm. In contrast, a pedogenic Fe content > 60 g kg−1 in combination with aluminous clay content of < 250 g kg−1 promoted OC storage and persistence even under agricultural use. The combination with low aluminous clay and high pedogenic Fe contents displayed the highest OC persistence, despite conversion of forest to cropland causing substantial disaggregation. This indicates that aggregation in these tropical soils is modulated by the mineralogical regime, causing moderate but significant differences in aggregate size distribution. Nevertheless, aggregation was little decisive for overall OC persistence in these highly weathered soils, where OC storage is more regulated by direct mineral–organic interactions.

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铝质粘土和成土铁氧化物调节湿润热带土壤的聚集和相关碳含量

摘要团聚体广泛影响土壤的物理和生物地球化学性质，对土壤碳储量有积极影响。对于热带风化土壤，铝质粘土(高岭石和三水石)和成土铁(氧合)氧化物(针铁矿和赤铁矿);被称为“氧化铁”)被认为是聚集体的重要组成单位。然而，由于硅酸盐铝、氢氧化铝和氧化铁是粘土大小的部分，很难分离出某些矿物相是如何调节聚集的。此外，目前尚不清楚这对土地利用变化后有机碳(OC)持久性的影响。我们在坦桑尼亚东部usambara山脉的森林和农田土地利用下选择了具有独特矿物学成分的表土，其铝粘土和铁氧化物的含量各不相同。在不同的矿物学组合中，我们确定了团聚体粒度分布、团聚性、团聚体粒度组分的有机碳含量，以及森林和农田土地利用下团聚体和有机碳含量的变化。不同矿物学组合的土壤团聚模式相当相似(高水平的大团聚和高团聚稳定性)。然而，我们发现了一些统计上显著的铝粘土和成土铁氧化物对聚集和OC储存的影响。铝矾土含量> 250 g kg - 1，富铁含量4 mm。相反，当土壤铁含量> 60 g kg - 1和铝质粘土含量< 250 g kg - 1时，即使在农业使用下，土壤中碳的储存和持久性也得到了提高。低铝质粘土和高成土铁含量的组合显示出最高的有机碳持久性，尽管森林转化为农田导致了大量的分解。这表明这些热带土壤中的团聚体受矿物学制度的调节，导致团聚体大小分布的适度但显著的差异。然而，在这些高度风化的土壤中，聚集性对总体有机碳持久性没有决定性作用，在这些土壤中，有机碳储存更多地受到直接矿物-有机相互作用的调节。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Soil Science 农林科学-土壤科学

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

4.4 months

期刊介绍： Cessation.Soil Science satisfies the professional needs of all scientists and laboratory personnel involved in soil and plant research by publishing primary research reports and critical reviews of basic and applied soil science, especially as it relates to soil and plant studies and general environmental soil science. Each month, Soil Science presents authoritative research articles from an impressive array of discipline: soil chemistry and biochemistry, physics, fertility and nutrition, soil genesis and morphology, soil microbiology and mineralogy. Of immediate relevance to soil scientists-both industrial and academic-this unique publication also has long-range value for agronomists and environmental scientists.