Correlation Matrix Between Soil Structural and Chemical Properties as Influenced by Rainfall Patterns in Akwa Ibom State.
Authors
Department of Soil Science and Land Resources Management, Michael Okpara University of Agriculture, Umudike. Abia State (Nigeria)
Department of Soil Science and Land Resources Management, Michael Okpara University of Agriculture, Umudike. Abia State (Nigeria)
Department of Soil Science and Land Resources Management, Michael Okpara University of Agriculture, Umudike. Abia State (Nigeria)
Department of Soil Science and Land Resources Management, Michael Okpara University of Agriculture, Umudike. Abia State (Nigeria)
Article Information
Publication Timeline
Submitted: 2026-05-18
Accepted: 2026-05-24
Published: 2026-06-17
Abstract
This study evaluated the correlation between soil structural indices and soil chemical properties as influenced by rainfall patterns in selected flood-prone areas of Akwa Ibom State, Nigeria. The study was conducted in four locations representing upland and coastal environments namely, Uyo, Eket, Eastern Obolo and Ikot Ekpene. Soil samples were collected at two depths of 0-15cm and 15-30cm and analyzed for selected structural properties such as moisture content (MC), infiltration rate (IR), dispersion ratio (DR) and water stable aggregates (WSA) as well as chemical properties such as soil pH, organic carbon (OC), organic matter (OM), total nitrogen (TN), available phosphorus (Av. P), exchangeable bases, exchangeable acidity (EA), effective cation exchange capacity (ECEC) and base saturation (Bs). Correlation analysis was performed using IBM SPSS. The results showed a strong positive relationship between infiltration rate and organic carbon in Uyo (r= 0.992**), Eket (r= 0.975*), Eastern Obolo (r = 0.473) and Ikot Ekpene (r = 0.404), indicating that increased organic matter improved water movement and soil aggregation. Water stable aggregates (WSA) showed strong positive correlations with total exchangeable bases (TEB) in Uyo (r= 1.000**), Eastern Obolo (r = 0.181) and Ikot Ekpene (r= 0.942) but correlated negatively (r = -0.922) in Eket. Dispersion ratio (DR) shows a negative correlation with organic matter (OM) in Eastern Obolo (r= -0.995**) and Ikot Ekpene (r= -0.927), indicating improved aggregate stability with increased organic matter. Exchangeable acidity (EA) negatively correlated with WSA in Eastern Obolo (r= -0.907) and infiltration rate in Uyo (r= -0.993**), indicating that increasing acidity weakened soil structure under intense rainfall conditions. High rainfall intensity increased soil acidity and nutrient leaching, particularly in coastal locations. It is hereby recommended that sustainable soil management practices that enhance organic matter accumulation and nutrient retention are therefore essential for maintaining soil productivity in Akwa Ibom State.
Keywords
Moisture content, Infiltration rate, organic matter
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References
1. Agim, L., Ihechu, J.N., Egboka, N.T., Okoro, L.C. (2026). Effects of organic amendments on soil structural enhancement and deformation susceptibility in a degraded Ultisols in humid tropics of southeastern Nigeria. Asian Soil Research Journal, 10(1), 141–152. [Google Scholar] [Crossref]
2. Akwa Ibom State Ministry of Land and Survey (AKSMLS) (2009). Pre-feasibility study of all Local Government Areas Land in Akwa Ibom State for economic development. Government house press, Uyo, Akwa Ibom State, pp 23 – 64. [Google Scholar] [Crossref]
3. Ayoade, J. O. (2021). Introduction to Climatology for the Tropics. Spectrum bools Ltd., Ibadan [Google Scholar] [Crossref]
4. Cater, E. (1993). Tourism and Natural Resources Management. Forest Science 14(2): 85-90. [Google Scholar] [Crossref]
5. Cheng, L., Trenberth, K. E., Gruber, N., Mann, M. E., Abraham, J., Fasullo, J. T., Li, G., Zhao, X., Zhu, J. (2020). Improved estimates of changes in upper ocean salinity and the hydrological cycle. Journal of Climate. 33, 10357–10381. [Google Scholar] [Crossref]
6. De Jager, N. R., Thomsen, M. and Yin, Y. (2012). Threshold effects of flood duration on the vegetation and soils of the Upper Mississippi River floodplain, USA. Forest Ecology and Management, 270, 135-146. [Google Scholar] [Crossref]
7. Edet, I. G., Ijay, C., Essien, O. A. (2025). Effect of Land Use Types and Soil Depth on Aggregate Stability in Soils Developed from Coastal Plain Sand, Akwa Ibom State, Nigeria. [Google Scholar] [Crossref]
8. Ekpenyong, R. E. (2013). Assessment of the threat to global warming in Akwa Ibom State, Nigeria. Journal of Environmental Management and Public Safety, 2(2), 065 – 074. [Google Scholar] [Crossref]
9. Essien, O. A., Hogan, E. D., Akata, O. R. (2025). Assessing Spatial Variability of Soil Physical and Chemical Quality as Affected by Slope Curvature and Aspect of Acid Soils in Akwa Ibom State, Nigeria. [Google Scholar] [Crossref]
10. Hare, W. (2020). Statistical measures of climate variability in tropical regions. Climate Statistics Review, 11(1), 67-81. [Google Scholar] [Crossref]
11. Hills, S (1970). Entry of water into soil: Environmental soil physics. San Diego: Academic Press. [Google Scholar] [Crossref]
12. Ibanga, F. I., Essien, O. A., Enyiekere, S. I. (2025). Assessing Impact of Soil Physical and Chemical Properties on Erodibility Status in Ukpom Abak River Catchment of Akwa Ibom State, Nigeria. [Google Scholar] [Crossref]
13. Igwe, C.A. (2004). Soil properties influencing stability of structure of B-horizons of Ultisols in semiarid Nsukka, eastern Nigeria. Arid Land Research and Management, 18, 185–195. [Google Scholar] [Crossref]
14. Igwe, C.A., Akamigbo, F.O.R., Mbagwu, J.S.C. (1999). Chemical and mineralogical properties of soils in southeastern Nigeria in relation to aggregate stability. Geoderma, 92, 111–123. [Google Scholar] [Crossref]
15. Intergovernmental Panel on Climate Change (2021). Climate Change: The Physical Science basis. Cambridge University Press. [Google Scholar] [Crossref]
16. Middleton, F. J. (1980): Humus Chemistry, Genesis, Composition, Reactions. 2nd Ed., New York, John Wiley and Sons, Inc. [Google Scholar] [Crossref]
17. Nicholson, S. E. (2018). Climate and climatic variability of rainfall over Africa. Climate Dynamics, 50, 3433-3446. [Google Scholar] [Crossref]
18. NIMET (2023). Seasonal Climate Prediction Bulletin. Nigerian Meteorological Agency Abuja [Google Scholar] [Crossref]
19. Nimmo, J. R., Perkins, K. S. (2002) Aggregate stability and size Distribution. Pp 317 – 328. In methods of soil analysis part; Physical methods. Soil science Book series No 5 Madison, Wisconson USA. [Google Scholar] [Crossref]
20. Nweke, I.A., and Nnabude, P.C. (2015). The distribution of silt, clay and exchangeable properties of aggregate sizes of four soils. Current Journal of Applied Science and Technology, 5(2), 110–122. [Google Scholar] [Crossref]
21. Petter, S. W., Usoro, E. J., Udo, E. J., Obot U. W. and Okpon, S. N. (1989). Akwa Ibom State: Physical background, soil and land use and ecological problems (Technical Report of the Task Force on Soils and Land Use Survey). Government printer, Uyo, pp. 521 – 602. [Google Scholar] [Crossref]
22. Sani, S., Aliyu, A., and Muhammad, M. (2025). Spatial variability and mapping of soil structural stability: The interplay of texture and organic matter at Jibia Irrigation Project, semi-arid zone of Nigeria. Sahel Journal of Life Sciences, 3(3), 55–67. [Google Scholar] [Crossref]
23. Trenberth, K. E., Fasullo, J. T., and Shepherd, T. G. (2022). Attribution of climate change extremes and rainfall variability, Nature Climate Change, 12, 789-797. [Google Scholar] [Crossref]
24. Udo, E. J., Ibis, T. O., Ogunwale, J. A., Ano, A. O., Esu, I. E. (2009). Manual of soil, plant and water Analysis. SIbon books Ltd. Flat 15, Bk 6 Fourth Avenue Festac, Lagos. [Google Scholar] [Crossref]
25. World Meteorological Organization (WMO) (2023). Provisional State of the Global Climate. WMO-No. 1248. Geneva, Switzerland. [Google Scholar] [Crossref]
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