Establishment of an erosion-control plant cover in a sand pit under Arctic conditions using sewage sludge

Q3 Engineering

Gornye nauki i tekhnologii Pub Date : 2023-09-14 DOI:10.17073/2500-0632-2023-01-73

A. V. Lusis, L. A. Ivanova, T. T. Gorbachyova, A. V. Rumyantseva

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Abstract

This paper presents the findings of a prolonged field studies that ained to assess the feasibility of using the sewage sludges (SS) form a regional water and wastewater services enterprise to expedite the establishment of a resilient erosion-control plant cover in sand pits located in the Arctic region of the Russian Federation. The study confirms the beneficial impact of the SS on the seed germination, subsequent growth, and development of plants.The study shows that SS can be used in two ways: first, by applying a continuous layer measuring 5 to 10 cm thick on the soil surface or by fragmentarily applying a layer 2–3 cm thick. Second, through early-winter sowing of seeds directly on the soil surface (under the SS layer) or on top of the sewage sludge. In both cases, an annual enhancement of the qualitative and quantitative parameters of the artificially formed stand of grass was observed. This included a significant increase in its height and density, biomass, foliage cover, and thickness of the formed sod, in contrast to the reference sample.The present study investigates the characteristics of the floristic composition of the phytocenoses formed in a sand pit. The findings demonstrate that the use of sewage sludge (SS), regardless of the quantity and application method, accelerates the restorative succession in the sand pit. The thick stand in the experimental variants, resulting from the attraction of pioneer vegetation, promotes the complexity of its structure and species composition, rapid vegetation of inner bare areas, and the emergence of natural phytocenoses elements that are specific to the zonal type of vegetation. Additionally, the use of SS stabilizes erosion processes in the study ares. Consequently, the plant community formed in the experiment using SS can be classified as ecologically sustainable, with the potential for independent existence and further development.These results can serve as a foundation for monitoring efforts and the development of measures to optimize the vegetation of such ecotopes.

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利用污水污泥在北极条件下的沙坑中建立侵蚀控制植物覆盖物

本文介绍了一项长期实地研究的结果，该研究旨在评估利用污水污泥(SS)形成区域水和废水服务企业的可行性，以加快在俄罗斯联邦北极地区的沙坑中建立弹性侵蚀控制工厂覆盖物。该研究证实了SS对种子萌发、随后的生长和植物发育的有益影响。研究表明，SS有两种施用方式:一种是在土壤表面连续施用5 ~ 10 cm厚的土壤层，另一种是分段施用2 ~ 3 cm厚的土壤层。第二，通过早冬播种，直接在土壤表面(SS层下)或污水污泥上播种。在这两种情况下，观察到人工形成的草林的定性和定量参数逐年增强。与参考样本相比，这包括其高度和密度，生物量，树叶覆盖和形成的草皮厚度的显着增加。本文研究了沙坑中形成的植物群落的区系组成特征。研究结果表明，污水污泥的使用，无论用量和施用方式如何，都加速了沙坑的恢复演替。实验变型中的厚林，由于先锋植被的吸引，促进了其结构和物种组成的复杂性，促进了内裸区植被的快速生长，促进了地带性植被类型特有的天然植物群落元素的出现。此外，SS的使用稳定了研究区域的侵蚀过程。因此，在实验中使用SS形成的植物群落可以被归类为生态可持续的，具有独立存在和进一步发展的潜力。这些结果可以作为监测工作的基础，并制定措施，以优化这类生态环境的植被。

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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