A novel comprehensive approach to soil and water conservation: integrating morphometric analysis, WSA, PCA, and CoDA-PCA in the Naama sub-basins case study, Southwest of Algeria

Tayyib Moussaoui¹, Abdessamed Derdour^{2

3}, Benaradj Abdelkarim², Bouarfa Said⁴, Alia Hosni², Azzeddine Reghais⁵, Manuel Ballesta de-Los-Santos⁶

Affiliations

¹ Laboratory for the Sustainable Management of Natural Resources in Arid and Semi‑arid Zones, University Center of Naama, 45000, Naama, DZ, Algeria. tmoussaoui@cuniv-naama.dz.
² Laboratory for the Sustainable Management of Natural Resources in Arid and Semi‑arid Zones, University Center of Naama, 45000, Naama, DZ, Algeria.
³ Artificial Intelligence Laboratory for Mechanical and Civil Structures and Soil, University Center of Naama, P.O. Box 66, 45000, Naama, Algeria.
⁴ Center for Scientific and Technical Research in the Dry Areas (CRSTRA) University Campus, BP 1682, 07000, Biskra, RP, Algeria.
⁵ Laboratory of Geological Engineering, University Mohamed Seddik Benyahia-Jijel, B.P. 98 Ouled Aissa, 18000, Jijel, Algeria.
⁶ Field in Agricultural Chemistry and Soil Science, Scientific R&D Department, Fertilizantes y, Nutrientes Ecológicos S.L. (FYNECO), Industrial Estate Ceutí, C/Río Taibilla S/N, 30562, Ceutí, Spain.

PMID: 39592469
DOI: 10.1007/s10661-024-13433-0

A novel comprehensive approach to soil and water conservation: integrating morphometric analysis, WSA, PCA, and CoDA-PCA in the Naama sub-basins case study, Southwest of Algeria

Tayyib Moussaoui et al. Environ Monit Assess. 2024.

. 2024 Nov 27;196(12):1258.

doi: 10.1007/s10661-024-13433-0.

Authors

Tayyib Moussaoui¹, Abdessamed Derdour^{2

3}, Benaradj Abdelkarim², Bouarfa Said⁴, Alia Hosni², Azzeddine Reghais⁵, Manuel Ballesta de-Los-Santos⁶

Affiliations

¹ Laboratory for the Sustainable Management of Natural Resources in Arid and Semi‑arid Zones, University Center of Naama, 45000, Naama, DZ, Algeria. tmoussaoui@cuniv-naama.dz.
² Laboratory for the Sustainable Management of Natural Resources in Arid and Semi‑arid Zones, University Center of Naama, 45000, Naama, DZ, Algeria.
³ Artificial Intelligence Laboratory for Mechanical and Civil Structures and Soil, University Center of Naama, P.O. Box 66, 45000, Naama, Algeria.
⁴ Center for Scientific and Technical Research in the Dry Areas (CRSTRA) University Campus, BP 1682, 07000, Biskra, RP, Algeria.
⁵ Laboratory of Geological Engineering, University Mohamed Seddik Benyahia-Jijel, B.P. 98 Ouled Aissa, 18000, Jijel, Algeria.
⁶ Field in Agricultural Chemistry and Soil Science, Scientific R&D Department, Fertilizantes y, Nutrientes Ecológicos S.L. (FYNECO), Industrial Estate Ceutí, C/Río Taibilla S/N, 30562, Ceutí, Spain.

PMID: 39592469
DOI: 10.1007/s10661-024-13433-0

Abstract

This research paper presents a detailed investigation into the morphometric characteristics of sub-basins within the Naama region of Algeria, aiming to prioritize areas vulnerable to soil erosion and runoff risks. Focusing on five key sub-basins that collectively represent 75% of the Wilaya of Naama, the study employs a comprehensive methodological framework, integrating morphometric analysis (MA), weighted sum analysis (WSA), principal component analysis (PCA), and the novel approach of compositional data analysis (CoDA). Through the rigorous evaluation of sixteen distinct morphometric parameters selected based on their relevance to hydrological and geomorphological processes that influence erosion and runoff, this research provides a nuanced understanding of the factors influencing erosion susceptibility within each sub-basin. The analysis reveals a clear hierarchy of sub-basins based on their calculated compound parameters, effectively classifying them into high, moderate, and low priority categories for targeted intervention and resource allocation. The results highlight the Ain Sefra and Wadi Er Rosafa sub-basins as the highest priority areas, collectively encompassing 31.51% of the wilaya and posing the most significant threats of runoff and soil erosion. This identification allows for the prioritization of conservation efforts and the implementation of tailored management strategies in these critical areas. Furthermore, the integration of multiple prioritization approaches, including the innovative application of CoDA, ensures a robust and comprehensive assessment of the sub-basin landscapes. This multi-faceted approach provides a more nuanced understanding of the complex interplay between various morphometric parameters and their influence on erosion and runoff potential. The findings of this research have significant implications for sustainable land and water resource management within the Naama region. By identifying and prioritizing vulnerable sub-basins, the study provides a crucial foundation for informed decision-making, enabling stakeholders to implement targeted interventions and mitigate the detrimental impacts of soil erosion and excessive runoff. Moreover, the methodological framework presented in this research paper offers a valuable blueprint for similar studies in other regions facing comparable challenges. The cost-effective and time-efficient nature of the approach makes it a practical tool for prioritizing erosion and runoff risks in arid and semi-arid environments worldwide, contributing to the broader goals of environmental sustainability and land degradation neutrality.

Keywords: Environmental sustainability; Erosion susceptibility; Morphometric analysis; Prioritization approaches; Vulnerable sub-basins.

PubMed Disclaimer

Conflict of interest statement

Declarations. Ethical approval: All authors have read, understood, and complied with the statement on the “Ethical responsibilities of authors.” Competing interests: The authors declare no competing interests.

References

1. Abdeta, G. C., Tesemma, A. B., Tura, A. L., & Atlabachew, G. H. (2020). Morphometric analysis for prioritizing sub-watersheds and management planning and practices in Gidabo Basin, Southern Rift Valley of Ethiopia. Applied Water Science, 10(7), 1–15. - DOI
1. Abdo, H. (2022). Evaluating the potential soil erosion rate based on RUSLE model, GIS, and RS in Khawabi river basin, Tartous, Syria. DYSONA - Applied Science, 3(1), 24–32. https://doi.org/10.30493/das.2021.311044
1. Aher, P., Adinarayana, J., & Gorantiwar, S. (2014). Quantification of morphometric characterization and prioritization for management planning in semi-arid tropics of India: A remote sensing and GIS approach. Journal of Hydrology, 511, 850–860. - DOI
1. Aitchison, J. (1982). The statistical analysis of compositional data. Journal of the Royal Statistical Society: Series B (Methodological), 44(2), 139–160. - DOI
1. Amroune, A., Grine, R., & Guastaldi, E. (2021). Flow deficit, evapotranspiration and infiltration in arid areas: The case of southern Tellian Atlas sub-basins, eastern Algeria. Journal of Fundamental and Applied Sciences, 13(1), 533–546. - DOI

MeSH terms

Actions
Actions
Actions
Actions
Actions
Actions
Actions

Substances

Actions

LinkOut - more resources

Full Text Sources
- Springer

Save citation to file

Email citation

Add to Collections

Add to My Bibliography

Your saved search

Create a file for external citation management software

Your RSS Feed

A novel comprehensive approach to soil and water conservation: integrating morphometric analysis, WSA, PCA, and CoDA-PCA in the Naama sub-basins case study, Southwest of Algeria

Affiliations

A novel comprehensive approach to soil and water conservation: integrating morphometric analysis, WSA, PCA, and CoDA-PCA in the Naama sub-basins case study, Southwest of Algeria

Authors

Affiliations

Abstract

Conflict of interest statement

References

MeSH terms

Substances

LinkOut - more resources

Full Text Sources