STUDY SOIL DEVELOPMENT AND CLASSIFICATION IN ERBIL PROVINCE, KURDISTAN, IRAQ USING MATHEMATICAL INDICES

Authors

  • H. A. S. Razvanchy
  • M. A. Fayyadh

DOI:

https://doi.org/10.36103/ijas.v54i6.1879

Keywords:

clay, active carbonate, total carbonate, horizons

Abstract

The study area located at Erbil province, Kurdistan, Iraq, seven pedons were elected. Twenty-one soil samples were collected in the study area. Different physiochemical and fertility indices have been used to determine the soils development, despite of generating interpolated maps for them. The results indicated that the low values of clay were found in the less pedon developed and argillic horizon existed in development pedons. Study soils were non-saline, slightly to moderately alkaline, and had relatively high bulk density values. Organic matter is concentrated at the soil surface. Considerable total carbonates are found in studied soils and have irregular distribution manner, as well as have high CEC values. Low C/N ratio due to highly decomposed organic matter. The active CaCO3/total CaCO3 increases with depth in all pedons, while, slightly fluctuated in one pedon. The ratio of total clay in BH /AH was found just in some pedons and more than (1) therefore these soils are considered development, and are more developed depending on the ratio of fine clay/total clay. Soils are classified into three groups the first was the least developed soils, the second group has the most development. Third group are intermediate in their development. Pedogenic processes included leaching, illuviation, eluviation, alkalization, humification, lessivage, desalinization, calcification, decomposition, and littering. Studied soils classified as Inceptisols and Mollisols.

References

Abdulrahman, H. D., M. A. Fayyadh, and J. A. Doski. 2020. Formation and development of vertisols in selivany plain at Duhok Governorate, Kurdistan Region, Iraq. Journal of Duhok University 23 (2):246-258

Abdulridha, A. N., and S. K. Essa 2023.Use of organic matter and sand in improving properties of some soils of holy Karbala governorate affected by phenomenon of cracking. Iraqi Journal of Agricultural Sciences,54(1):268-281. https://doi.org/10.36103/ijas.v54i1.1699

Adugna, A., and A. Abegaz. 2015. Effects of soil depth on the dynamics of selected soil properties among the highlands resources of Northeast Wollega, Ethiopia: are these sign of degradation? Solid Earth Discussions. 7(3):2011-35

Alexander, E. 1980. Bulk densities of California soils in relation to other soil properties. Soil Science Society of America Journal. 44(4):689-92

Almeida, J. A. d., D. C. Cararo, and A. A. A. Uberti. 2009. Genesis of the sombric horizon in Ultisols (Red Argisols) in southern Santa Catarina, Brazil. Revista Brasileira de Ciência do Solo 33:405-416

Al-Quraishi, A. M. F., H. A. Sadiq, and J. P. Messina. 2019. Characterization And Modeling Surface Soil Physicochemical Properties Using Landsat Images: A Case Study In The Iraqi Kurdistan Region. Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.,XLII-2/W16,21-28

Babbie, E. R. 2009. The Practice of Social Research. 12th ed. 94-106

Berendse, F. 1998. Effects of dominant plant species on soils during succession in nutrient-poor ecosystems. Biogeochemistry 42 (1):73-88

Berg, M., J. Kniese, R. Zoomer, and H. Verhoef. 1998. Long-term decomposition of successive organic strata in a nitrogen saturated Scots pine forest soil. Forest Ecology and management 107 (1-3):159-172

Black, C. A. 1980. Methods of Soil Analysis. Vol. 2. Madison, Wisconsin. USA: Soc.Agron. Inc, Publishers. 155-157,167-171

Bockheim, J., A. Gennadiyev, A. Hartemink, and E. Brevik. 2014. Soil-forming factors and Soil Taxonomy. Geoderma 226:231-237

Buringh, P. 1960. Soils and soil Conditions in Iraq: Ministry of Agriculture. 78-89

Carter, M. R., and E. G. Gregorich. 2007. Soil sampling and methods of analysis: CRC press. 44-48

Congalton, R. G., and K. Green. 2019. Assessing the accuracy of remotely sensed data: principles and practices: CRC press. 103-118

Dahlgren, R., J. Boettinger, G. Huntington, and R. Amundson. 1997. Soil development along an elevational transect in the western Sierra Nevada, California. Geoderma 78 (3-4):207-236

Drouineau, G. 1942. Rapid measurement of active lime in soil: New data on the separation and nature of calcareous fractions. French.) Ann. Agron 12:441-450

Durand, N., H. C. Monger, M. G. Canti, and E. P. Verrecchia. 2018. Calcium carbonate features. in interpretation of micromorphological features of soils and regoliths: Elsevier, 205-258

Elliott, P., and P. J. Drohan. 2009. Clay accumulation and argillic-horizon development as influenced by aeolian deposition vs. local parent material on quartzite and limestone-derived alluvial fans. Geoderma 151 (3-4):98-108

Esser, G., J. Kattge, and A. Sakalli. 2011. Feedback of carbon and nitrogen cycles enhances carbon sequestration in the terrestrial biosphere. Global Change Biology 17 (2):819-842

Faivre, P. 1990. The Sombric Horizon: An outline of an organic-clay horizon. Pedologie 40:273-297

Fattah, M. A., and K. H. Karim. 2021. Performance of linear models in predicting cation exchange capacity of calcareous soils. Iraqi Journal of Agricultural Sciences –52(6):1489-1497. https://doi.org/10.36103/ijas.v52i6.1490

Fayyadh, M. A. and H. K. Ismail. 2021. genesis, development, and classification for some selected soils at Kurdistan region, north of Iraq. Iraqi Journal of Agricultural Sciences, 52(6):1498-1507. https://doi.org/10.36103/ijas.v52i6.1491

Funes, I., R. Savé, P. Rovira, R. Molowny-Horas, J. M. Alcañiz, and E. Ascaso. 2019. Agricultural soil organic carbon stocks in the north-eastern Iberian Peninsula: Drivers and spatial variability. Science of the Total Environment. 668:283-94

Gile, L. H. 1961. A classification of Ca horizons in soils of a desert region, Dona Ana County, New Mexico. Soil Science Society of America Journal. 25(1):52-61

Grootjans, A. P., W. Ernst, and P. Stuyfzand. 1998. European dune slacks: strong interactions of biology, pedogenesis and hydrology. Trends in Ecology & Evolution 13 (3):96-100

Gunal, H., and M. Ransom. 2006. Clay illuviation and calcium carbonate accumulation along a precipitation gradient in Kansas. Catena 68 (1):59-69

Hashim, F. A. and K. A. Hassan. 2023. Transformation of phosphorous in gypsiferous soils as affected by different fertilizers, land use and incubation periods. Iraqi Journal of Agricultural Sciences, 54(5):1364-1373 https://doi.org/10.36103/ijas.v54i5.1837

Havlin, J. 2004. Encyclopedia of Soils in the Environment. 1st ed. 4 vols. Vol. 3: Academic Press. 81-95

Hosea, M. K., A. A. Makmom, A. Z. Aris, N. A. Ainuddin, L. Niashen, and B. M. Mohammad. 2018. Influence of Monsoon Regime and Microclimate on Soil Respiration in the Tropical Forests. 64-73

Ismail, H. K. 2013. Significance of climosequence on genesis, development and mineralogy of some selected soils from Iraqi Kurdistan Region. Scientific, soil and water science dept., University Of Duhok, College of Agriculture. 81-90

Jabro, J. W. Stevens, W. Iversen, and R. Evans. 2010. Tillage depth effects on soil physical properties, sugar beet yield, and sugar beet quality. Communications in soil science and plant analysis. 41(7):908-16

Jackson, M., L. Whittig, and R. Pennington. 1950. Segregation procedure for the mineralogical analysis of soils. Proceedings. Soil Science Society of America, 1949 14:77-81

Khalaf, A. .A. and A. S. Hussien. 2021. Environment sensitivity maps of land degradation and desrtification using medulas model and remote sensing in shirqat city/Iraq. Iraqi Journal of Agricultural Sciences,52(3):697-711. https://doi.org/10.36103/ijas.v52i3.1361

Khoshnaw, M., and A. Esmail. 2020. Comparison between organic matter content of main soil orders in Kurdistan region using two different methods. Iraqi Journal of Agricultural Sciences 51(Special Issue):1-8. https://doi.org/10.36103/ijas.v51iSpecial.877

Krasilnikov, P., J. J. I. Marti, R. Arnold, and S. Shoba. 2009. A Handbook of Soil Terminology, Correlation and Classification: Routledge. ISBN 978-1-84407-683-3. 16-20

Kumar, N., S. Gangola, P. Bhatt, N. Jeena, and R. Khwairakpam. 2019. Soil genesis, survey and classification. In Mycorrhizosphere and Pedogenesis: Springer, 139-150

Li, Q., A. Li, T. Dai, Z. Fan, Y. Luo, and Li, S. 2020. Depth‐dependent soil organic carbon dynamics of croplands across the Chengdu Plain of China from the 1980s to the 2010s. Global change biology. 26(7):4134-46

Mahjoory, R. A. 1975. Clay mineralogy, physical, and chemical properties of some soils in arid regions of Iran. Soil Science Society of America Journal. 39(6):1157-64

Marty, C., D. Houle, C. Gagnon, and F. Courchesne. 2017. The relationships of soil total nitrogen concentrations, pools and C: N ratios with climate, vegetation types and nitrate deposition in temperate and boreal forests of eastern Canada. Catena 152:163-172

Mavris, C., M. Egli, M. Plötze, J. D. Blum, A. Mirabella, D. Giaccai, and W. Haeberli. 2010. Initial stages of weathering and soil formation in the Morteratsch proglacial area (Upper Engadine, Switzerland). Geoderma 155 (3-4):359-371

McLaren, R. G., and K. C. Cameron. 1990. Soil science: an introduction to the properties and management of New Zealand soils: Oxford University Press, USA. 53-59

Meimaroglou, N., and C. Mouzakis. 2019. Cation Exchange Capacity (CEC), texture, consistency and organic matter in soil assessment for earth construction: The case of earth mortars. Construction and Building Materials. 221:27-39

Muhaimeed, A. S., A. Saloom, K. Saliem, K. Alani, and W. Muklef. 2014. Classification and distribution of Iraqi soils. Int J Agric Innov Res 2 (6):997-1002

Oades, J. 1995. Krasnozems-organic-matter. Soil Research. 33(1):43-57

Razvanchy, H.A.S. 2014. Modelling Some of the Soil Properties in the Iraqi Kurdistan Region using Landsat Datasets and Spectroradiometer. Scientific, soil and water Science Dept., Salahaddin University-Erbil, College of Agriculture. 99-104

Rowell, D. L. 1994. Soil science: methods and applications. Harlow: Longman Group Limited, Longman Scientific & Technical. 53-70

Sissakian, V. K., and S. Fouad. 2012. Geological map of Iraq, scale 1: 1000000. Iraq Geological Survey (GEOSURV) publications, Baghdad, Iraq. 4-6

Soil Survey Staff. 2014. Keys to soil taxonomy, edited by NRCS. Washington DC: USDA, 372

Tsozué, D., J. P. Nghonda, P. Tematio, and S. D. Basga. 2019. Changes in soil properties and soil organic carbon stocks along an elevation gradient at Mount Bambouto, Central Africa. Catena.175:251-62

Walkley, A., and I. A. Black. 1934. An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil Science 37 (1):29-38

Wilson, K. 1960. The time factor in the development of dune soils at South Haven Peninsula, Dorset. The Journal of Ecology: 341-359.

Downloads

Published

2023-12-29

Issue

Section

Articles

How to Cite

H. A. S. Razvanchy, & M. A. Fayyadh. (2023). STUDY SOIL DEVELOPMENT AND CLASSIFICATION IN ERBIL PROVINCE, KURDISTAN, IRAQ USING MATHEMATICAL INDICES. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 54(6), 1802-1813. https://doi.org/10.36103/ijas.v54i6.1879

Similar Articles

81-90 of 486

You may also start an advanced similarity search for this article.