Multifractal parameters reveal the impacts of shrub encroachment on soil particle size distribution (PSD) in a coastal wetland of the Yellow River Delta

IF 1.7 4区环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES

Journal of Coastal Conservation Pub Date : 2024-07-06 DOI:10.1007/s11852-024-01062-1

Meifang Liu, De Wang, Xinpeng Tian, Yuru Wu, Xiaoli Bi

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Abstract

Shrub encroachment in coastal wetlands leads to heterogeneous distribution of soil resources, which may affect soil particle size distribution (PSD). Fractal theory was widely used to quantify the characteristics of soil PSD. However, exploration on the spatial changes in PSD of deep soil layers due to shrub-encroached vegetation succession is limited. Multifractal theory and GIS spatial analysis tools were used to spatially quantify the changes in soil PSD at different soil layers (0–80 cm) in a coastal wetland landscape (100 × 120 m) encroached by a native shrub Tamarix chinensis in the Yellow River Delta (YRD), China. We also discussed the potential mechanisms of soil PSD changes contributed by shrub encroachment. The results showed that higher content of fine sand, medium sand and coarse sand, while lower content of silt and very fine sand in 0–10 cm were observed in T.chinensis patches than in single T. chinensis and bare land (p < 0.05). In 30–40 cm, however, T.chinensis patches have higher soil clay content (p < 0.05). The generalized dimensional spectrum and multifractal parameters indicated that soil PSD in shrub patch area exhibited greater width and higher heterogeneity. Multifractal method could explain the changes of soil PSD better than single fractal dimension (D), and the Capacity Dimension (D₀) was the most effective one to quantify the soil PSD characteristics. The values of D₀ showed a clear order of shrub patch > single shrub > bare land in each layer. In addition, the D₀ suggested that influences of T.chinensis on soil PSD can remain 70 cm below the surface in our case. Considering the complex sedimentary process in the YRD, the processes of water and wind erosion mediated by shrub encroachment, the positive feedback based on plant preferences and the mixed effects of shrub and grass species might promote the redistribution of soil particle size. Encroachment in coastal wetland of the YRD caused changes in soil PSD, especially at the surface soil layer. Multifractal parameters could quantify subtle characteristics of soil PSD in shrub-encroached area. Our work indicates that shrub encroachment in coastal wetland plays a significant role in altering regional and even global soil environments.

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多分形参数揭示灌木侵占对黄河三角洲滨海湿地土壤粒径分布（PSD）的影响

沿海湿地灌木侵占导致土壤资源分布不均，可能影响土壤粒径分布（PSD）。分形理论被广泛用于量化土壤 PSD 的特征。然而，对灌木侵占植被演替导致的深土层 PSD 空间变化的探索还很有限。本研究利用多分形理论和 GIS 空间分析工具，对中国黄河三角洲（YRD）被原生灌木柽柳侵占的滨海湿地景观（100 × 120 m）中不同土层（0-80 cm）的土壤 PSD 变化进行了空间量化。我们还讨论了灌木侵蚀导致土壤 PSD 变化的潜在机制。结果表明，与单株柽柳和裸地相比，柽柳斑块在 0-10 厘米处细砂、中砂和粗砂的含量较高，而粉砂和极细砂的含量较低（p < 0.05）。然而，在 30-40 厘米处，T.chinensis 小块的土壤粘土含量较高（p < 0.05）。广义维谱和多分形参数表明，灌木斑块区的土壤 PSD 具有更大的宽度和更高的异质性。多分形方法比单分形维数（D）更能解释土壤PSD的变化，其中容量维数（D0）是量化土壤PSD特征最有效的方法。从 D0 的值来看，各层灌木丛、单一灌木、裸地的顺序很明显。此外，D0 值还表明，在我们的研究中，灌木丛对土壤 PSD 的影响可以保持在地表以下 70 厘米处。考虑到长三角地区复杂的沉积过程、灌木侵蚀介导的水蚀和风蚀过程、基于植物偏好的正反馈以及灌木和草种的混合效应，可能会促进土壤粒径的重新分布。长三角沿岸湿地的侵蚀引起了土壤 PSD 的变化，尤其是表层土壤。多分形参数可以量化灌木侵蚀区土壤 PSD 的细微特征。我们的研究表明，灌木侵占滨海湿地在改变区域甚至全球土壤环境方面发挥着重要作用。

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来源期刊

Journal of Coastal Conservation ENVIRONMENTAL SCIENCES-MARINE & FRESHWATER BIOLOGY

CiteScore

3.60

自引率

4.80%

发文量

期刊介绍： The Journal of Coastal Conservation is a scientific journal for the dissemination of both theoretical and applied research on integrated and sustainable management of the terrestrial, coastal and marine environmental interface. A thorough understanding of both the physical and the human sciences is important to the study of the spatial patterns and processes observed in terrestrial, coastal and marine systems set in the context of past, present and future social and economic developments. This includes multidisciplinary and integrated knowledge and understanding of: physical geography, coastal geomorphology, sediment dynamics, hydrodynamics, soil science, hydrology, plant and animal ecology, vegetation science, biogeography, landscape ecology, recreation and tourism studies, urban and human ecology, coastal engineering and spatial planning, coastal zone management, and marine resource management.