Edge effects and human disturbance influence soil physical and chemical properties in Sacred Church Forests in Ethiopia

• Published in: Plant and soil Vol. 453; no. 1-2; pp. 329 - 342
• Main Authors: Cardelús, Catherine L., Mekonnen, Amare Bitew, Jensen, Kelsey H., Woods, Carrie L., Baez, Mabel C., Montufar, Martha, Bazany, Kathryn, Tsegay, Berhanu Abraha, Scull, Peter R., Peck, William H.
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.08.2020; Springer Nature B.V
• Subjects: Agricultural land; Agricultural management; Ammonium; Biomedical and Life Sciences; Bulk density; Carbon; Chemical properties; Conservation; Deforestation; Disturbance; Ecology; Ecosystem services; Edge effect; Eucalyptus; Forest conservation; Forest degradation; Forest management; Forest soils; Forestry research; Land cover; Land use; Life Sciences; Moisture content; Nutrient concentrations; Nutrient status; Nutrients; Phosphorus; Plant Physiology; Plant Sciences; Plantations; Regeneration; Regular Article; Seedlings; Soil chemistry; Soil management; Soil nutrients; Soil properties; Soil Science & Conservation; Soil water; Soils; Tropical forests; Water content; Ethiopia; plantation; Edge effects; Disturbance; Tropical forest soil; Shadow conservation; Forest conservation; Soil nutrients; Sacred forest; Sacred grove; Land-use change; Church forest; Fragmentation
• ISSN: 0032-079X; 1573-5036
• DOI: 10.1007/s11104-020-04595-0

Aims Tropical forests are increasingly threatened by edge effects as forest degradation and deforestation continues, compromising soil integrity, seedling regeneration capacity, and ecosystem services. Ninety-three percent of the last remaining forests of northern Ethiopia, which number 1022 in the South Gondar region of our study, are <16 ha and are protected because they have a Tewahido Orthodox Christian church at their center. The aim of this study was to determine the effects of human disturbance, forest size, distance from population center and other factors on the soil properties and nutrient status of sacred church forests. We also compared forest soil physical and chemical properties across land cover types in these forests. Methods We assessed the soil physical (water content and bulk density) and chemical (total carbon and nitrogen, available phosphorus, ammonium) properties of 40 sacred church forests across three spatial scales: within individual forests; among forests; and across land cover type (forest, forest edge-exterior, Eucalyptus plantation). We used distance from the edge within each forest to examine edge effects on soil nutrients. Results We found that nutrients and carbon decreased significantly from the interior to the outer edge of these forests and with forest size. Further, the soil of Eucalyptus plantations and areas outside of the forest were largely indistinguishable; both had significantly lower nutrient concentrations than sacred church forest soil. Conclusion Our research highlights the insidious impacts of edge effects and human disturbance on forest soils and the need for an integrated soil management program in the region that balances local needs with forest conservation. The conservation of these sacred church forests is important for maintaining regional soil nutrient status relative to agricultural lands and Eucalyptus plantations.