Aggregate stability responses of three derived-savannah soils to poultry-droppings manure at different pulverisation-to-sampling time intervals
Abstract
Keywords
Full Text:
References
Abiven, S., Menasseri, S., Chenu, C., 2009. The effects of organic inputs over time on soil aggregate stability—A literature analysis. Soil Biology and Biochemistry, 41: 1-12.
Adesodun, J.K., Mbagwu, J.S.C., Oti, N., 2001. Structural stability and carbohydrate contents of an Ultisol under different management systems. Soil and Tillage Research, 60: 135-142.
Adubasim, C.V., Igwenagu, C.M., Josiah, G.O., Obalum, S.E., Okonkwo, U.M., Uzoh I.M., Sato, S., 2018. Substitution of manure source and aerator in nursery media on sandy-loam topsoil and their fertility indices 4 months after formulation. International Journal of Recycling of Organic Waste in Agriculture, 7(4): 305-312.
https://doi.org/10.1007/s40093-018-0216-8
Amanullah, M.M., Sekar, S., Muthukrishan, P., 2010. Prospects and potential of poultry manure. Asian Journal of Plant Science, 9: 172-182.
Angers, D.A., Bissonnette, N., Legere, A., Samson, N., 1993. Microbial and biochemical changes induced by rotation and tillage in a soil under barley production. Canadian Journal of Soil Science, 73: 39-50.
Angers, D.A. and Caron, J., 1998. Plant-induced changes in soil structure: processes and feedbacks. Biogeochemistry, 42: 55-72.
Are, K.S., Adelana, A.O., Fademi, I.O., Aina, O.A., 2017. Improving physical properties of degraded soil: Potential of poultry manure and biochar. Agriculture and Natural Resources, 51: 454-462.
Azeez, J.O. and Van Averbeke, W., 2012. Dynamics of soil pH and electrical conductivity with the application of three animal manures. Communications in Soil Science and Plant Analysis, 43(6): 865-874.
http://dx.doi.org/10.1080/00103624.2012.653022
Azuka, C.V. and Idu, M.C., 2021. Effect of organic manures application on soil physicochemical properties of coarse-textured Ultisol and okra productivity in Nsukka, southeastern Nigeria. Agricultural Science Digest.
https://doi.org/10.18805/ag.D-326
Boateng, S.A., Zickelmann, J., Komahrens, M., 2006. Poultry manure effect on and yield of maize. West African Journal of Applied Ecology, 9: 12-18.
Bronick, C.J. and Lal, R., 2005. Soil structure and management: a review. Geoderma, 124: 3-22.
Davies, A.S., Jacobs, D.F., Wightman, K.E., 2006. Organic matter amendment of fallow forest tree seedling nursery soils influences soil properties and biomass of sorghum cover crop. Purdue University, West Lafayette, IN.
De Neve, S., Van, D., Steene, J., Hartman, R., Hofman, G., 2000. Using Time domain reflectometry for monitoring mineralization of nitrogen from soil organic matter. European Journal of Soil Science, 51: 295-304.
Dong, J.M., Yao, L.Q., Zhang, J.M., Feng, JH., Sa, R.N.N., 2001 Feed additive manual (in China). Beijing: China Agricultural University Press.
Duiker, S.W., Rhoton, F.E., Torrent, J., Smeck, N.E., Lal, R., 2003. Iron (hydr)oxide crystallinity effects on soil aggregation. Soil Science Society of America Journal, 67: 606-611.
Duruigbo, C.I., Obiefuna, J.C., Onweremadu, E.U., 2007. Effect of poultry manure rates on soil acidity in an Ultisol. International Journal of Soil Science, 2: 154-158.
Ebido, N.E., Edeh, I.G., Unagwu, B.O., Nnadi, A.L., Ozongwu, O.V., Obalum, S.E., Igwe, C.A., 2021. Rice-husk biochar effects on organic carbon, aggregate stability and nitrogen-fertility of coarse-textured Ultisols evaluated using Celosia argentea growth. SAINS TANAH - Journal of Soil Science and Agroclimatology, 18(2): 177-187.
https://dx.doi.org/10.20961/stjssa.v18i2.56330
Ezeaku, V.I., Obalum, S.E., Ezeaku, P.I., Igwe, C.A., 2020. Influence of granulometric composition and organic matter management on soil stability against water erosion in Southeastern Nigeria. Nigerian Journal of Soil Science, 30(2): 103-112.
https://doi.org/10.36265/njss.2020.300213
Ezenne, G.I., Nwoke, O.A., Ezikpe, D.E., Obalum, S.E., Ugwuishiwu, B.O., 2014. Use of poultry droppings for remediation of crude oil-polluted soils: effects of application rate on total and poly-aromatic hydrocarbon concentrations. International Biodeterioration and Biodegradation, 92: 57-65.
https://doi.org/10.1016/j.ibiod.2014.01.025
Goff, J.P., 2006. Macromineral physiology and application to the feeding of the dairy cow for prevention of milk fever and other periparturient mineral disorders. Animal Feed Science and Technology, 126: 237-257.
Holland, M.D.G., Barton, A.D., Morph, S.T., 1989. Land Evaluation for Agricultural Recommendation of Cross River National Park. Oban Division, prepared by Odwki, in collaboration with INNF.
Hue N.V., 1992. Correcting soil acidity of a highly weathered Ultisol with chicken manure and sewage sludge. Communications in Soil Science and Plant Analysis, 23: 241-264.
Hue, N.V. and Licudine, D.L., 1999. Amelioration of subsoil acidity through surface application of organic manures. Journal of Environmental Quality, 28: 623-632.
Chandrashekara, S.I., Harlapur, S., Muralikrishan., Girijesh, G.K., 2000. Response of maize to organic manures with inorganic fertilizers. Karnataka Journal of Agricultural Science, 13: 144-146.
Chukwuma, C.C., Oraegbunam, C.J., Ndzeshala, S.D., Uchida, Y., Ugwu, V.U., Obalum, S.E., Igwe, C.A., 2024. Phosphorus mineralization in two lithologically dissimilar tropical soils as influenced by animal manure type and amendment-to-sampling time interval. Communications in Soil Science and Plant Analysis, 55(5): 707-722.
https://doi.org/10.1080/00103624.2023.2276269
Idowu, O.J., 2003. Relationships between aggregate stability and selected soil properties in humid tropical environment. Communications in Soil Science and Plant Analysis, 34(5&6): 695-708.
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.
Igwe, C.A., Nwite, J.C., Agharanya, K.U., Watanabe, Y., Obalum, S.E., Okebalama, C.B., Wakatsuki, T., 2013b. Aggregate-associated soil organic carbon and total nitrogen following amendment of puddled and sawah-managed rice soils in southeastern Nigeria. Archives of Agronomy and Soil Science, 59(6): 859-874.
https://doi.org/10.1080/03650340.2012.684877
Igwe, C.A. and Nwokocha, D., 2005. Influence of soil properties on the aggregate stability of a highly degraded tropical soil in Eastern Nigerian. International Agrophysics, 19: 131-139.
Igwe, C.A. and Obalum, S.E., 2013. Microaggregate stability of tropical soils and its roles on soil erosion hazard prediction, Advances in Agrophysical Research (Chapter 8), Stanisław Grundas (ed.).
https://doi.org/10.5772/52473
Igwe, C.A., Zarei, M., Stahr, K., 2013a. Stability of aggregates of some weathered soils in southeastern Nigeria in relation to their geochemical properties. Journal of Earth System Science, 122: 1283-1294.
Ihem, E.E., Nkwopara, U.N., Ndukwu, B.N., Onwudike, S.U., 2017. Macro-aggregate stability of soils under selected parent materials in Imo State, Nigeria. International Journal of Research in Agriculture and Forestry, 4(12): 24-32.
Jidere, C.M., Akamigbo, F.O.R., Ugwuanyi, J.O., 2012. Phytoremediation potentials of cowpea (Vigna unguiculata) and maize (Zea mays) for hydrocarbon degradation in organic and inorganic manure-amended tropical Typic Paleustults. Internatiobal Journal of Phytoremediation, 14(4): 362-373.
http://dx.doi.org/10.1080/15226514.2011.620652
Kemper, A. and Rosenau, K., 1986. Size distribution of aggregate. In: Klute, A. (ed). Methods of Soil Analysis Part 1, ASA, Madison WI., pp. 425-442.
Le Bissonnais, Y., Blavet, D., De Noni, G., Laurent, J.Y., Asseline, J., Chenu, C., 2007. Erodibility of Mediterranean vineyard soils: relevant aggregate stability methods and significant soil variables. European Journal of Soil Science, 58: 188-195.
Li, H., Qui, J., Wang, L., Tang, H., Li, C., Van Ranst, E., 2010. Soil modeling impacts of alternative farming management practices on greenhouse gas emissions from a winter wheat-maize rotation rotation system in China. Agriculture, Ecosystems and Environment, 135: 24-33.
Li, J.T., Zhong, X.L., Wang, F., Zhao, Q.G., 2011. Effect of poultry manure and livestock manure on soil physical and biological indicators in a rice-wheat rotation system. Plant, Soil and Environment, 57: 351-356.
Liu, M., Hu, F., Chen, X., Huang, Q., Jiao, J., Zhang, B., Li, H., 2009. Organic amendments with reduced chemical fertilizer promote soil microbial development and nutrient availability in a subtropical paddy field: the influence of quantity, type and application time of organic amendments. Applied Soil Ecology, 42: 166-175.
Lomeling, D., Modi, A.L., Kenyi, S.M., Kenyi, M.C., Silvestro, G.M., Yieb, J.L., 2016. Comparing the macro-aggregate stability of two tropical soils: Clay soil (Eutric Vertisol) and sandy loam soil (Eutric Leptosol). International Journal of Agriculture and Forestry, 6(4): 142-151.
https://doi.org/10.5923/j.ijaf.20160604.02
Manna, M.C., Swarup, A., Wanjari, R.H., Mishra, B., Shahi, D.K., 2007. Long-term fertilization, manure and liming effects on soil organic matter and crop yields. Soil and Tillage Research, 94: 397-409.
Mbagwu, J.S.C., Piccolo, A., Mbila, M.O., 1993. Water-stability of aggregates of some tropical soils treated with humic substances, Pedologie, 43: 177-18.
Mbagwu, J.S.C., Piccolo, A., Spallacci, C., 1991. Effects of field applications of organic wastes from different sources on chemical, rheological and structural properties of some Italian surface soils. Bioresource Technology, 37(1): 71-78.
http://dx.doi.org/10.1016/0960-8524(91)90113-X
Mbah, C.N., Anikwe, M.A.N., Oweremadu, E.U., Mbagwu, J.S.C., 2007. Soil organic matter and carbohydrate contents of a dystric leptosol under waste management and their role in structural stability of soil aggregates. International Journal of Soil Science, 2(4): 268-277.
Miller, D.E. and Kemper, W.D., 1962. Water stability of aggregates of two soils as influenced by incorporation of alfalfa. Agronomy Journal 54: 494-496.
Nnadi, A.L., Nnanna, P.I., Onyia, V.N., Obalum, S.E., Igwe, C.A., 2020. Growth and yield responses of high-density coverage sweet potato to liming and fertilizer combinations for sandy-loam Ultisols at Nsukka, southeastern Nigeria. In: Climate-Smart Soil Management, Soil Health/ Quality and Land Management: Synergies for Sustainable Ecosystem Services (pp. 263-269), Proc. 44th Annual Conference of Soil Science Society of Nigeria (SSSN), 16-20 March 2020 [Colloquia SSSN 44], Enugu State University of Science & Technology (ESUT), Enugu, Enugu State, Nigeria.
Nwite, J.C., Keke, C.I., Obalum, S.E., Essien, J.B., Anaele, M.U., Igwe, C.A., 2013. Organo-mineral amendment options for enhancing soil fertility and nutrient composition and yield of fluted pumpkin. International Journal of Vegetable Science, 19(2): 188-199.
https://doi.org/10.1080/19315260.2012.705233
Obalum, S.E., Igwe, C.A., Obi, M.E., Wakatsuki, T., 2011c. Using selected structural indices to pinpoint the field moisture capacity of some coarse-textured agricultural soils in southeastern Nigeria. Journal of Tropical Soils, 16(2): 151-159.
Obalum, S.E., Nwite, J.C., Oppong, J., Igwe, C.A., Wakatsuki, T., 2011d. Variations in selected soil physical properties with landforms and slope within an inland valley ecosystem in Ashanti Region of Ghana. Soil and Water Research, 6(2), 73-82.
https://doi.org/10.17221/17/2010-SWR
Obalum, S.E., Nwite, J.C., Oppong, J., Igwe, C.A., Wakatsuki, T., 2011a. Comparative topsoil characterization of sawah rice fields in selected inland valleys around Bida, north-central Nigeria: textural, structural and hydrophysical properties. Paddy and Water Environment, 9: 291-299.
https://doi.org/10.1007/s10333-010-0233-3
Obalum, S.E. and Obi, M.E., 2010 Physical properties of a sandy loam Ultisol as affected by tillage-mulch management practices and cropping systems. Soil and Tillage Research, 108(1-2): 30-36.
Obalum, S.E. and Obi, M.E., 2014. Measured versus estimated total porosity along structure-stability gradients of coarse-textured tropical soils with low-activity clay. Environmental Earth Sciences, 72(6): 1953-1963.
https://doi.org/10.1007/s12665-014-3102-3
Obalum, S.E., Ogumba, P.O., Uzoh, I.M., 2020. Influence of tillage-seedbed and manure-NPK-micronutrient management options on selected soil properties of sandy-loam Ultisols evaluated using sweet potato. Nigerian Journal of Soil Science, 30(3): 117-125.
Obalum, S.E., Okpara, I.M., Obi, M.E., Wakatsuki, T., 2011b. Short-term effects of tillage-mulch practices under sorghum and soybean on organic carbon and eutrophic status of a degraded Ultisol in southeastern Nigeria. Tropical and Subtropical Agroecosystems, 14(2): 393-403.
Obalum, S.E., Uteau-Puschmann, D., Peth, S., 2019. Reduced tillage and compost effects on soil aggregate stability of a silt-loam Luvisol using different aggregate stability tests. Soil and Tillage Research, 189(1-2): 217-228.
https://doi.org/10.1016/j.still.2019.02.002
Obalum, S.E., Watanabe, Y., Igwe, C.A., Obi, M.E., Wakatsuki, T., 2012. Carbon stock in the solum of some coarse-textured soils under secondary forest, grassland fallow and bare footpath in the derived savanna of southeastern Nigeria. Soil Research, 50(2): 157-166.
https://doi.org/10.1071/SR11096
Obalum, S.E., Watanabe, Y., Igwe, C.A., Obi, M.E., Wakatsuki, T., 2013. Improving on the prediction of cation exchange capacity for highly weathered and structurally contrasting tropical soils from their fine-earth fractions. Communications in Soil Science and Plant Analysis, 44(12): 1831-1848.
https://doi.org/10.1080/00103624.2013.790401
Obi, M.E. and Ebo, P.O., 1995. The effects of different application rates of organic and inorganic fertilizers on soil physical properties and maize production on a severally degraded Ultisol in Southern Nigeria. Bioresource Technology, 51: I l 7-123.
Ofem, K.I., Asadu, C.L.A., Ezeaku, P.I., Kingsley, J., Eyong, M.O., Katerina, V., Vaclav, T., Karel, N., Ondrej, D., Vit, P., 2020. Genesis and classification of soils over limestone formations in a tropical humid region. Asian Journal of Scientific Research, 13: 228-243.
https://doi.org/10.3923/ajsr.2020.228.243
Ofem, K.I., John, K., Pawlett, M., Eyong, M.O., Awaogu, C.E., Umeugokwe, P., Ambros-Igho, G., Ezeaku, P.I., Asadu, C.L.A., 2021. Estimating soil organic matter: A case study of soil physical properties for environment-related issues in Southeast Nigeria. Earth Systems and Environment, 5: 899-908.
https://doi.org/10.1007/s41748-021-00263-0
Oguike, P.C., Onwuka, B.M.. Obalum, S.E., 2023. Soil organic matter control of water transmission properties of coarse-textured soils under contrasting land-use types in tropical rainforest. International Journal of Hydrology Science and Technology, 16(1): 93-106.
https://doi.org/10.1504/IJHST.2022.10046853
Ogunezi, K.C., Okebalama, C.B., Obalum, S.E., 2019. Optimum poultry droppings rate for coarse-loamy Ultisols based on soil macro-aggregation and fertility indices and evaluation using cucumber (Cucumis sativus). Presented under Understanding Nigerian Soils for Sustainable Food & Nutrition Security and Healthy Environment, the 43rd Annual Conference of Soil Science Society of Nigeria (SSSN), 15-19 July 2019, University of Agriculture, Makurdi, Benue State, Nigeria.
Onah, C.J., Eyibio, N.U., Obalum, S.E., 2022. Any residual effects of heavy application of poultry-droppings manure on soil organic matter and field capacity attainment in droughty Ultisols? In: Sustaining Living Soil Ecosystem through Adoption of Soil Management Practices for Mitigating Climate Change for National Development (In Press), Proceedings of the 46th Annual Conference of Soil Science Society of Nigeria (SSSN), 14-18th March, 2022, Agricultural and Veterinary Complex, Ahmadu Bello University, Zaria, Nigeria.
Onah, C.J., Nnadi, A.L., Eyibio, N.U., Obi, J.O., Orah, A.I., Amuji, C.F., Obalum, S.E., 2023. Off-season heavy application of poultry manure to droughty-acid soils under heavily protective organic mulch later burnt to ash improves their productivity. West African Journal of Applied Ecology, 31(1): 23-36.
Opara, C.C., Onweremadu, E.U., Ibeawuchi, I.I., 2007. Enhancing the water stability of aggregates of selected tropical soils with rabbit waste for sustainable crop production. International Journal of Soil Science, 2(4): 258-267.
Ouyang, L., Wang, F., Tang, J., Yu, L., Zhang, R., 2013. Effects of biochar amendment on soil aggregates and hydraulic properties. Journal of Soil Science and Plant Nutrition, 13(4): 991-1002.
http://dx.doi.org/10.4067/S0718-95162013005000078
Plante, A.F. and McGill, W.B., 2002. Soil aggregate dynamics and the retention of organic matter in laboratory-incubated soil with differing simulated tillage frequencies. Soil and Tillage Research, 66: 79-92.
Pocknee, S. and Summer, E., 1997. Cation and nitrogen contents of organic matter determines its liming potential. Soil Science Society of America Journal, 61: 86-92.
Soil Survey Staff, 2014. Kellogg Soil Survey Laboratory Methods Manual. Soil Survey Investigations Report No. 42, Version 5.0. R. Burt and Soil Survey Staff (eds.). US Department of Agriculture, Natural Resources Conservation Service, p. 1001.
Tyopine, A.A., Obalum, S.E., Igwe, C.A., Okoye, C.O.B., 2022. Spatial distribution and relative enrichment of some upper-group trace elements in rhizosphere of highly anthropized and rapidly developing tropical environment. EQA – International Journal of Environmental Quality, 49(1): 19-33.
https://doi.org/10.6092/issn.2281-4485/14554
Udom, B.E., Udom, G.J., Otta, J.T., 2022. Breakdown of dry aggregates by water drops after applications of poultry manure and spent mushroom wastes. Soil and Tillage Research, 217: 105-267.
http://dx.doi.org/10.1016/j.still.2021.105267
Umeugokwe, C.P., Ugwu, V.U., Umeugochukwu, O.P., Uzoh, I.M., Obalum, S.E., Ddamulira, G., Karwani, G.M., Alenoma, G., 2021. Soil fertility indices of tropical loamy sand as influenced by bambara groundnut variety, plant spacing and fertilizer type. Agro-Science, 20(1): 65-71.
https://dx.doi.org/10.4314/as.v20i1.11
Van, F., Schubert, S., Mengel, K., 1996. Soil pH increase due to biological decarboxylaton of organic anions. Soil Biology and Biochemistry, 28: 617-624.
Watanabe, H., Hoshino, K., Adachi, Y. 2016. Effects of poultry manure on soil solution electrical conductivity and early growth of Monochoria vaginalis. Plant Production Science, 20(1): 67-71.
https://doi.org/10.1080/1343943X.2016.1246064
Whalen, J.K. and Chang, C., 2002. Macro-aggregate characteristics in cultivated soils after 25 annual manure applications. Soil Science Society of America Journal, 66: 1637-1647.
Woldesenbet, A.G., Shiferaw, G., Chandravanshi, B.S., 2013. Bio-ethanol production from poultry manure at Bonga Poultry Farm in Ethiopia. African Journal of Environmenntal Science and Technology, 7(6): 435-440.
Wortmann, C.S. and Shapiro, C.A., 2007. The effects of manure application on soil aggregation. Nutrient Cycling in Agroecosystems, 80: 173-180.
Wuddivira, M.N., Stone, R.J., Ekwue, E.I., 2009. Structural stability of humid tropical soils as influenced by manure incorporation and incubation duration. Soil Science Society of America Journal, 73(4): 1353-1360.
DOI: https://doi.org/10.26789/AEB.2024.01.005
Refbacks
- There are currently no refbacks.
Copyright (c) 2024 Sunday Ewele Obalum, Kokei Ikpi Ofem, Doris Chinenye Nwamba, Paul Omaye Joseph, Ifeoma Gloria Edeh, Uche Cyprian Amalu, Charles Arizechukwu Igwe
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.