Ecological Successions of Urban Landfills of the Western Forest Steppe of Ukraine

Ecological Engineering & Environmental Technology Pub Date : 2024-07-01 DOI:10.12912/27197050/188601

V. Popovych, T. Skyba, Volodymyr Koval, P. Bosak, Yu. О. Kopystynskyi

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Abstract

The most acceptable way to prevent and eliminate negative phenomena arising from devastating landscapes is phytomelioration. To assess the suitability of the landfill’s surface for phytomelioration measures, it is necessary to determine the species composition, physiological stability, density, and completeness of the tree stand (in case of the tree species development) already developing as a result of natural overgrowth. The present work examines the ecological succession of three large urban landfills within the Western Forest Steppe of Ukraine – Lviv, Ternopil, and Lutsk. It was established that the maximum phytomass is characteristic of the gentle slopes of landfills with relatively stable moisture index, and developed soil, which gives reason to attribute the plant groups to the endoecogenesis stage while there are no garbage dumping processes. Three stages of overgrowth were identified for all landfills – syngenetic succession, initial endoecogenetic succession, and mature endoeco - genetic succession. The taxonomic structure of the flora of the urban landfills of the Western Forest Steppe is represented by the divisions Magnoliophyta, Pinophyta, Polypodiophyta, Bryophyta, and the classes Magnoli-opsida, Liliopsida, Pinopsida, Equisetopsida, Polytrichopsida . The phytomeliorative efficiency of vegetation at solid waste landfills shows that the surface of landfills in the Western Forest Steppe is dominated by stunted plants and the phytomelioration coefficient is low. Thus, the surface of the landfill is suitable for phytomeliora - tion and reclamation works and landfill decommissioning. The phytomeliorative efficiency of vegetation at solid waste landfills shows that the surface of landfills in the Western Forest Steppe is dominated by stunted plants and the phytomelioration coefficient is low. Thus, the surface of the landfill is suitable for phytomelioration and reclamation works and landfill decommissioning

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乌克兰西部森林草原城市垃圾填埋场的生态演替

防止和消除破坏性景观所产生的负面现象的最可接受的方法是植物改良。为了评估垃圾填埋场表面是否适合采取植物改良措施，有必要确定树种组成、生理稳定性、密度以及因自然过度生长而已经形成的树丛（在树种发展的情况下）的完整性。本研究考察了乌克兰西部森林草原--利沃夫、捷尔诺波尔和卢茨克--三个大型城市垃圾填埋场的生态演替情况。研究结果表明，植物量最大的特点是垃圾填埋场的缓坡湿度指数相对稳定，土壤发达，因此有理由将这些植物群落归因于没有垃圾倾倒过程的内生阶段。所有垃圾填埋场都确定了三个过度生长阶段--合成演替、初始内生演替和成熟内生-遗传演替。西部森林草原城市垃圾填埋场植物区系的分类结构包括木兰纲、针叶纲、多针叶纲、毛木纲，以及木兰目、百合目、针叶目、马尾目、多毛茛目。固体废物填埋场植被的植物改良效率表明，西部森林草原的填埋场表面以发育不良的植物为主，植物改良系数较低。因此，垃圾填埋场表面适合进行植物改良和复垦工程以及垃圾填埋场退役。固体废物填埋场植被的植物改良效率表明，西部森林草原的填埋场表面以发育不良的植物为主，植物改良系数较低。因此，垃圾填埋场表面适合进行植物改良和复垦工程以及垃圾填埋场退役工程

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Ecological Engineering & Environmental Technology

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