Integrating Technical, Socio-Economic, and Sustainability Dimensions for Spatial Stratification of Ecosystem Services Using the AHP Method

Article Content

Abstract

Forest management is inherently complex, requiring a multi-dimensional approach to set management goals that balance the competing demands of ecosystem services, public expectations, and scientific-political considerations. This study addresses the necessity for recognising, prioritizing, and spatially stratifying ecosystem services (ES) based on technical suitability, stakeholder involvement, and the categories of sustainability within Turkey’s forest ecosystem management framework in Yalnızçam case study area. By leveraging Multi-Criteria Decision Analysis (MCDA) methods, particularly the Delphi technique with Analytical Hierarchy Process (AHP), this research captures both scientific ground and perspectives of various sectors with a stratification model to determine ES provisions. The iterative framework includes ES identification and prioritization steps, culminating in their spatial stratification of forest stands with geographic information system. The results indicate that ES stratification highlighted the primary focus on biodiversity conservation (78.5%) and water protection (13.3%), with minimal provision for timber production (7.9%) and soil protection (0.04%), and none for climate regulation, eco-tourism, and non-wood forest products. This approach enables a more efficient spatial zoning strategy, balancing technical and socio-cultural factors, and streamlining decision-making processes crucial for sustainable forest management paradigm.

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Applied Ecology
Ecosystem Services
Environmental Geography
Forestry
Forest Ecology
Forestry Management

Data availability

No datasets were generated or analysed during the current study.

Notes

The power index was developed through the systematic evaluation of ten prominent MCDM tools used in forest management, assessed by a panel of MCDM specialists. This assessment was conducted using 12 structured questionnaires that incorporated nine carefully selected evaluation criteria: ease of use, interpretability of parameters, clarity of results, capacity for detailed sensitivity analysis, graphical modeling capability, support for group decision-making, ability to incorporate constraints, accuracy, and operational speed.
These areas are legally designated as forest land, even in the absence of vegetation, as they may have been historically cleared due to anthropogenic activities, natural disturbances, or converted from other land uses such as rangelands.

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Acknowledgements

This study received support from the project “NAZV QK21010354: Progressive Methods of Forest Management Planning to Support Sustainable Forest Management” at the Czech Uni-versity of Life Sciences Prague. We extend our gratitude to Burak Saygılı, MScF, the forest management chief of Yalnızçam, for his invaluable help in conducting the Delphi survey, as well as to the anonymous reviewers for their constructive feedback and insightful suggestions.

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Authors and Affiliations

Karadeniz Technical University, Trabzon, Turkey

Emin Zeki Başkent
Affiliated with the Faculty of Forestry and Wood Sciences, Czech University of Life Sciences Prague, Prague, Czechia

Emin Zeki Başkent
The Forest Research Centre, School of Agriculture, University of Lisbon, Lisbon, Portugal

Emin Zeki Başkent
Graduate student, Department of Nutrition Science, Faculty of Health Science, Ondokuzmayıs University, Samsun, Turkey

Hümeyra Başkent

Contributions

Conceptualization and original draft: E.Z.B., Writing—data acquisition, review and editing; E.Z.B. and H.B.

Corresponding author

Correspondence to Emin Zeki Başkent.

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The authors declare no competing interests.

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Cite this article

Başkent, E.Z., Başkent, H. Integrating Technical, Socio-Economic, and Sustainability Dimensions for Spatial Stratification of Ecosystem Services Using the AHP Method. Environmental Management (2025). https://doi.org/10.1007/s00267-025-02224-z

Received 19 March 2025
Accepted 19 June 2025
Published 15 July 2025
DOI https://doi.org/10.1007/s00267-025-02224-z

Keywords

Forest management planning
ecosystem services
forest stratification
AHP

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