Soil Macrofauna Community Structure and Integrated Quality Indicators as Measures of Ecosystem Recovery in Reclaimed Agricultural Land in Gharbia Governorate, Egypt

Ageba, Mohamed Fouad; El Kholy, Asmaa Aymen; Khalil, Mohamed Ahmed; Elgayar, Ensaf

doi:10.21608/djs.2025.434717.1237

	Soil Macrofauna Community Structure and Integrated Quality Indicators as Measures of Ecosystem Recovery in Reclaimed Agricultural Land in Gharbia Governorate, Egypt
Delta Journal of Science
Volume 51, Issue 1, July 2025, Pages 159-178 PDF (1.21 M)
Document Type: Research and Reference
DOI: 10.21608/djs.2025.434717.1237
Authors
Mohamed Fouad Ageba^* ¹; Asmaa Aymen El Kholy¹; Mohamed Ahmed Khalil²; Ensaf Elgayar²
¹Zoology Department, Faculty of Science, Tanta University
²Zoology Department, Faculty of science, Tanta University
Abstract
This study investigates the effects of land use and seasonal variation on soil properties and macrofauna communities in reclaimed agricultural land of Gharbia Governorate, Egypt. A comparative analysis across cultivated, reclaimed, and degraded sites was conducted to assess physicochemical parameters (organic matter, pH, salinity, macro- and micronutrients) and soil macrofauna over four seasons. Reclaimed soils exhibited the highest organic matter and carbon content, particularly in spring, indicating the effectiveness of restoration practices. Degraded soils showed the lowest nutrient levels and faunal diversity, while cultivated soils showed intermediate conditions with higher faunal density but lower diversity. Seasonal dynamics significantly influenced soil properties, with autumn and spring being the most favourable for biological activity. Canonical Correspondence Analysis (CCA) revealed strong correlations between soil fauna and environmental factors such as moisture, organic matter, and nutrient availability. The study concludes that sustainable land management should incorporate seasonal variability and site-specific strategies to enhance soil health, nutrient cycling, and biodiversity. Although reclamation practices significantly promote ecosystem recovery, long-term monitoring and adaptive management remain essential for sustaining soil resilience in Egyptian agroecosystems.
Keywords
Land reclamation; Soil health; Seasonal dynamics; Soil macrofauna; Nutrient cycling; Ecosystem recovery

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