Research Article
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Year 2024, , 184 - 189, 15.03.2024
https://doi.org/10.47115/bsagriculture.1427846

Abstract

Project Number

2022/2-19M

References

  • Altunbaş S. 2023. Heavy metals concentration and availability of serpentine soils in southwestern Turkey. Chil J Agric Res 83(3): 358-368.
  • Bremner JM. 1996. Nitrogen Total. in D.L. Sparks (Eds) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison, WI, USA, pp: 1085-1112.
  • Bryan RB. 1968. The development, use and efficiency of indices of soil erodibility. Geoderma, 2(1): 5-26.
  • Chaney K, Swift RS. 1984. The influence of organic matter on aggregate stability in some British soils. J Soil Sci, 35: 223-230.
  • Durmuş ÖTK, Özdemir N. 2020. Effects of organic polymer and some agricultural residue applications on some soil properties and yield in wheat plants. J Soil Sci Plant Nutri, 11(2): 122-131.
  • Ece A, Saltali K, Eryiǧit N, Uysal F. 2007. The effects of leonardite applications on climbing bean (Phaseolus vulgaris L.) yield and the some soil properties. J Agron, 6(3): 480-483.
  • Erdal İ, Munduz H. 2017. Comparing the nutritional status of organic and conventional oil-bearing rose (Rosa damascena mill.) gardens in lakes region with leaf and flower analyzes. Soil Water J, 6(2): 26-31.
  • Gee GW, Bauder JW. 1986. Particle-size analysis. p. 383-411. n A. Klute (ed.) Methods of soil analysis. Part 1. 2nd ed. Agron. Monog. 9. ASA and SSSA, Madison, WI, USA, pp: 92-105.
  • Hasan MM, Uddin MN, Ara-Sharmeen I, Alharby HF, Alzahrani Y, Hakeem KR, Zhang L. 2019. Assisting Phytoremediation of Heavy Metals Using Chemical Amendments. Plants, 8(9): 295. Doi: 10.3390/plants8090295
  • Herath HMSK, Camps-Arbestain M, Hedley M. 2013. Effect of biochar on soil physical properties in two contrasting soils: An Alfisol and an Andisol. Geoderma 209-210: 188-197.
  • Hossner LR. 1996. Dissolution for total elemental analysis. Sparks DL, editorMethods of Soil Analysis. Part 3. Chemical Methods, Soil Sci Society America and American Society of Agronomy, Madison, WI, USA. 3rd ed., pp: 46-64.
  • İlay R, Aktaş M, Aslantekin NB, Özcan H. 2021. The effects of organic materials obtained from different sources on some properties of sandy loam soil. J Soil Sci Plant Nut, 9(1): 30-38.
  • İlay R, Kavdır Y. 2018. Impact of land cover types on soil aggregate stability and erodibility. Environ Monit Assess, 190: 525. https://doi.org/10.1007/s10661-018-6847-4.
  • Jing K, Wang WZ, Zheng FL. 2005. Soil erosion and environment in China. Science Press, Beijing, China, pp: 359.
  • JMP. 2007. JMP user guide 7.0v, SAS Institute Inc., Cary, NC, USA, ISBN 978-1-59994-408-1.
  • Kara Z, Saltalı K, Rızaoğlu T. 2023. Erodıbılıty Characterıstıcs of Soıls Formed From Different Units of Ophiolite in Eastern Mediterranean Region of Türkiye, J Environ Protect Ecol, 24(4): 1136-1150.
  • Kara Z. 2023. The Effect of Gyttja the available heavy metal content of serpentine soil. Euroasia J Math Engin Nat Med Sci, 10(26): 29-36.
  • Kara Z, Aydemir S, Saltalı K. 2022. Rehabilitation of light textured soils with olive pomace application. MAS J Appl Sci, 7(2): 316-325.
  • Kara Z. 2019. Investigation of the asbest mineral content and geochemical characteristics of different areas representing rocks and the soil formed on them of ophiolitic assemblage in Kahramanmaraş Region. PhD Thesis, Kahramanmaraş Sütçü İmam University, Institute of Science, Department of Soil Science and Plant Nutrition, Kahramanmaraş, Türkiye, pp: 243.
  • Kara Z, Rızaoğlu T, Saltalı K. 2018a. The Physıcal Characterıstıcs of Perıdotıte and Amphibolite Based Soıls from Kahramanmaraş, Se Anatolıa-Turkey. In Proceedings of the 18th International Multidisciplinary SGEM Conference, 2-8 July, Albena, Bulgaria SGEM, pp: 627-634.
  • Kara Z, Rızaoğlu T, Saltalı K. 2018b. Total heavy metal contents in serpentinite soils from Türkoğlu-Kahramanmaraş/Turkey. In Proceedings of the 18th International Multidisciplinary SGEM Conference, 2-8 July, Albena, Bulgaria, pp: 2-8.
  • Kavdır Y, Killi D. 2008. Influence of olive oil solid waste applications on soil ph, electrical conductivity, soil nitrogen transformations, carbon content and aggregate stability. Bioresour Technol, 99(7): 2326-2332.
  • Kemper WD, Rosenau RC. 1986. Aggregate stability and size distribution. methods of soil analysis. Part I. Pyhsical and Mineralogical Methods. Agronomy No:9. Madison, Wisconsin, USA, 2nd Ed., pp: 425-442.
  • Lal R. 1988. Soil erosion research methods. Soil and Water Conservation Society, New York, USA, pp: 283.
  • Leo MWM. 1963. A rapid method for estimating structura stability of soils. Soil Sci, 96: 342-346
  • Mbagwu JSC, Bazzoffi P. 1989. Effect of antecedent matric potential on the stability of soil aggregates subjected to cyclic freezing and thawing as evaluated by three structural indices. Soil Echnol, 2 (1): 59-70.
  • Nelson DW, Sommers LE. 1982. Total carbon, organic carbon, and organic matter A.L. Page, R.H.Miller, D.R.Keeney (Eds.) Methods of Soil Analysis: Part II (2nd edn.), Chemical and Microbiological Properties-Agronomy Monograph No. 9, American Soc. Agronomy, Soil Sci. Soc. America, Madison, WI, USA, pp: 539-579
  • Saltalı K, Solak S, Özdoğan A, Kara Z, Yakupoğlu T. 2023. Gyttja as a soil conditioner: changes in some properties of agricultural soils formed on different parent materials. Sustainabil, 15(12): 9329.
  • Saygın F, Dengiz O, İç S, İmamoğlu A. 2019. Assessment of the relationship between some physico-chemical properties of soil and some erodibility parameters in micro basin scale. Artvin Coruh Univ J Forestry Fac, 20(1): 82-91
  • Solak S. 2020. Effects of Gyttja Applications on Physicochemical Properties of Soils Formed on Serpentine Parent Material. Msc thesis, Kahramanmaraş Sütçü İmam University, Institute of Science, Department of Soil Science and Plant Nutrition, Kahramanmaraş, Türkiye, pp: 40.
  • Spaccini R, Mbagwu JSC, Igwe CA, Conte P, Piccolo A. 2004. Carbohydrates and aggregation in lowland soils of Nigeria as influenced by organic inputs. Soil Tillage Res, 75(2): 161-172.
  • Tejada M, Gonzalez JL, García-Martínez AM, Parrado J. 2008 Application of a green manure and green manure composted with beet vinasse on soil restoration: Effects on soil properties. Biores Tech, 99: 4949-4957.
  • Turgut B, Aksakal EL. 2010. Effects of Sorghum Residues and Farmyard Manure Applications on Soil Erodibility Parameters. Artvin Çoruh Univ Fac Forestry J, 11 (1): 1-10.

Effect of Different Organic Regulator Application to Problematic Areas on Soil Erodibility Parameters (Serpentine Soil Sample)

Year 2024, , 184 - 189, 15.03.2024
https://doi.org/10.47115/bsagriculture.1427846

Abstract

In the study, the changes in the structural stability and erodibility properties of the organic regulators (TG, TAGG and SG) applications to serpentine soils were investigated. In line with the study's objective, organic amendments based on oven dry weight were applied to the soils in different dose combinations. The study, designed according to a completely randomized design (CRD) was conducted in plastic pots maintained under greenhouse conditions. Six months after the experiment was established, the pots deteriorate pots were and the necessary measurements were made. WAS, DO, EO, SSI, OM values were measured to evaluate the change in the erosive and structural stability of the soils. As a result of the study, the OM values of the soils increased with the organic regulator applications (TAGG, TG, SG). The highest increase was observed in pots where TG and TAGG were applied. The erodibility parameters of the soils, DO and EO, showed a decrease with increasing dosage applications. WAS and SSI parameters, which are soil erosive variables, increased with increasing application dose. These increases (WAS, OM, SSI) and decreases (DO and EO) depending on the applications were statistically significant (P<0.05). This positive improvement in soil variables (WAS, SSI, DO and EO) was attributed to the increase in soil organic matter.

Supporting Institution

This study was financially supported by Kahramanmaraş Sütçü İmam University Scientific Research Coordination Office.

Project Number

2022/2-19M

Thanks

A part of this study was presented at the "6th International Cukurova Agriculture and Veterinary Congress" with the theme, held in Adana/Turkey from December 22nd to 24th, 2023.

References

  • Altunbaş S. 2023. Heavy metals concentration and availability of serpentine soils in southwestern Turkey. Chil J Agric Res 83(3): 358-368.
  • Bremner JM. 1996. Nitrogen Total. in D.L. Sparks (Eds) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison, WI, USA, pp: 1085-1112.
  • Bryan RB. 1968. The development, use and efficiency of indices of soil erodibility. Geoderma, 2(1): 5-26.
  • Chaney K, Swift RS. 1984. The influence of organic matter on aggregate stability in some British soils. J Soil Sci, 35: 223-230.
  • Durmuş ÖTK, Özdemir N. 2020. Effects of organic polymer and some agricultural residue applications on some soil properties and yield in wheat plants. J Soil Sci Plant Nutri, 11(2): 122-131.
  • Ece A, Saltali K, Eryiǧit N, Uysal F. 2007. The effects of leonardite applications on climbing bean (Phaseolus vulgaris L.) yield and the some soil properties. J Agron, 6(3): 480-483.
  • Erdal İ, Munduz H. 2017. Comparing the nutritional status of organic and conventional oil-bearing rose (Rosa damascena mill.) gardens in lakes region with leaf and flower analyzes. Soil Water J, 6(2): 26-31.
  • Gee GW, Bauder JW. 1986. Particle-size analysis. p. 383-411. n A. Klute (ed.) Methods of soil analysis. Part 1. 2nd ed. Agron. Monog. 9. ASA and SSSA, Madison, WI, USA, pp: 92-105.
  • Hasan MM, Uddin MN, Ara-Sharmeen I, Alharby HF, Alzahrani Y, Hakeem KR, Zhang L. 2019. Assisting Phytoremediation of Heavy Metals Using Chemical Amendments. Plants, 8(9): 295. Doi: 10.3390/plants8090295
  • Herath HMSK, Camps-Arbestain M, Hedley M. 2013. Effect of biochar on soil physical properties in two contrasting soils: An Alfisol and an Andisol. Geoderma 209-210: 188-197.
  • Hossner LR. 1996. Dissolution for total elemental analysis. Sparks DL, editorMethods of Soil Analysis. Part 3. Chemical Methods, Soil Sci Society America and American Society of Agronomy, Madison, WI, USA. 3rd ed., pp: 46-64.
  • İlay R, Aktaş M, Aslantekin NB, Özcan H. 2021. The effects of organic materials obtained from different sources on some properties of sandy loam soil. J Soil Sci Plant Nut, 9(1): 30-38.
  • İlay R, Kavdır Y. 2018. Impact of land cover types on soil aggregate stability and erodibility. Environ Monit Assess, 190: 525. https://doi.org/10.1007/s10661-018-6847-4.
  • Jing K, Wang WZ, Zheng FL. 2005. Soil erosion and environment in China. Science Press, Beijing, China, pp: 359.
  • JMP. 2007. JMP user guide 7.0v, SAS Institute Inc., Cary, NC, USA, ISBN 978-1-59994-408-1.
  • Kara Z, Saltalı K, Rızaoğlu T. 2023. Erodıbılıty Characterıstıcs of Soıls Formed From Different Units of Ophiolite in Eastern Mediterranean Region of Türkiye, J Environ Protect Ecol, 24(4): 1136-1150.
  • Kara Z. 2023. The Effect of Gyttja the available heavy metal content of serpentine soil. Euroasia J Math Engin Nat Med Sci, 10(26): 29-36.
  • Kara Z, Aydemir S, Saltalı K. 2022. Rehabilitation of light textured soils with olive pomace application. MAS J Appl Sci, 7(2): 316-325.
  • Kara Z. 2019. Investigation of the asbest mineral content and geochemical characteristics of different areas representing rocks and the soil formed on them of ophiolitic assemblage in Kahramanmaraş Region. PhD Thesis, Kahramanmaraş Sütçü İmam University, Institute of Science, Department of Soil Science and Plant Nutrition, Kahramanmaraş, Türkiye, pp: 243.
  • Kara Z, Rızaoğlu T, Saltalı K. 2018a. The Physıcal Characterıstıcs of Perıdotıte and Amphibolite Based Soıls from Kahramanmaraş, Se Anatolıa-Turkey. In Proceedings of the 18th International Multidisciplinary SGEM Conference, 2-8 July, Albena, Bulgaria SGEM, pp: 627-634.
  • Kara Z, Rızaoğlu T, Saltalı K. 2018b. Total heavy metal contents in serpentinite soils from Türkoğlu-Kahramanmaraş/Turkey. In Proceedings of the 18th International Multidisciplinary SGEM Conference, 2-8 July, Albena, Bulgaria, pp: 2-8.
  • Kavdır Y, Killi D. 2008. Influence of olive oil solid waste applications on soil ph, electrical conductivity, soil nitrogen transformations, carbon content and aggregate stability. Bioresour Technol, 99(7): 2326-2332.
  • Kemper WD, Rosenau RC. 1986. Aggregate stability and size distribution. methods of soil analysis. Part I. Pyhsical and Mineralogical Methods. Agronomy No:9. Madison, Wisconsin, USA, 2nd Ed., pp: 425-442.
  • Lal R. 1988. Soil erosion research methods. Soil and Water Conservation Society, New York, USA, pp: 283.
  • Leo MWM. 1963. A rapid method for estimating structura stability of soils. Soil Sci, 96: 342-346
  • Mbagwu JSC, Bazzoffi P. 1989. Effect of antecedent matric potential on the stability of soil aggregates subjected to cyclic freezing and thawing as evaluated by three structural indices. Soil Echnol, 2 (1): 59-70.
  • Nelson DW, Sommers LE. 1982. Total carbon, organic carbon, and organic matter A.L. Page, R.H.Miller, D.R.Keeney (Eds.) Methods of Soil Analysis: Part II (2nd edn.), Chemical and Microbiological Properties-Agronomy Monograph No. 9, American Soc. Agronomy, Soil Sci. Soc. America, Madison, WI, USA, pp: 539-579
  • Saltalı K, Solak S, Özdoğan A, Kara Z, Yakupoğlu T. 2023. Gyttja as a soil conditioner: changes in some properties of agricultural soils formed on different parent materials. Sustainabil, 15(12): 9329.
  • Saygın F, Dengiz O, İç S, İmamoğlu A. 2019. Assessment of the relationship between some physico-chemical properties of soil and some erodibility parameters in micro basin scale. Artvin Coruh Univ J Forestry Fac, 20(1): 82-91
  • Solak S. 2020. Effects of Gyttja Applications on Physicochemical Properties of Soils Formed on Serpentine Parent Material. Msc thesis, Kahramanmaraş Sütçü İmam University, Institute of Science, Department of Soil Science and Plant Nutrition, Kahramanmaraş, Türkiye, pp: 40.
  • Spaccini R, Mbagwu JSC, Igwe CA, Conte P, Piccolo A. 2004. Carbohydrates and aggregation in lowland soils of Nigeria as influenced by organic inputs. Soil Tillage Res, 75(2): 161-172.
  • Tejada M, Gonzalez JL, García-Martínez AM, Parrado J. 2008 Application of a green manure and green manure composted with beet vinasse on soil restoration: Effects on soil properties. Biores Tech, 99: 4949-4957.
  • Turgut B, Aksakal EL. 2010. Effects of Sorghum Residues and Farmyard Manure Applications on Soil Erodibility Parameters. Artvin Çoruh Univ Fac Forestry J, 11 (1): 1-10.
There are 33 citations in total.

Details

Primary Language English
Subjects Irrigation Water Quality, Agricultural Engineering (Other)
Journal Section Research Articles
Authors

Zekeriya Kara 0000-0001-7855-4968

Ferudun Koçer 0000-0002-8749-7106

Mahmut Çaylar 0000-0001-7093-726X

Alihan Çokkızgın 0000-0001-5066-0531

Project Number 2022/2-19M
Early Pub Date March 5, 2024
Publication Date March 15, 2024
Submission Date January 29, 2024
Acceptance Date February 27, 2024
Published in Issue Year 2024

Cite

APA Kara, Z., Koçer, F., Çaylar, M., Çokkızgın, A. (2024). Effect of Different Organic Regulator Application to Problematic Areas on Soil Erodibility Parameters (Serpentine Soil Sample). Black Sea Journal of Agriculture, 7(2), 184-189. https://doi.org/10.47115/bsagriculture.1427846

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