Eurasian Journal of Soil Science

Volume 10, Issue 3, Jul 2021, Pages 191-198
DOI: 10.18393/ejss.880503
Stable URL: http://ejss.fess.org/10.18393/ejss.880503
Copyright © 2021 The authors and Federation of Eurasian Soil Science Societies



Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal

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Sultana,M., Jahiruddin,M., Islam,M., Rahman,M., Abedin,M., 2021. Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal. Eurasian J Soil Sci 10(3):191-198. DOI : 10.18393/ejss.880503
Sultana,M.Jahiruddin,M.Islam,M.Rahman,M.,& Abedin,M. (2021). Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal Eurasian Journal of Soil Science, 10(3):191-198. DOI : 10.18393/ejss.880503
Sultana,M.Jahiruddin,M.Islam,M.Rahman,M., and ,Abedin,M. "Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal" Eurasian Journal of Soil Science, 10.3 (2021):191-198. DOI : 10.18393/ejss.880503
Sultana,M.Jahiruddin,M.Islam,M.Rahman,M., and ,Abedin,M. "Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal" Eurasian Journal of Soil Science,10(Jul 2021):191-198 DOI : 10.18393/ejss.880503
M,Sultana.M,Jahiruddin.M,Islam.M,Rahman.M,Abedin "Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal" Eurasian J. Soil Sci, vol.10, no.3, pp.191-198 (Jul 2021), DOI : 10.18393/ejss.880503
Sultana,Marufa ;Jahiruddin,M. ;Islam,M. Rafiqul ;Rahman,M. Mazibur ;Abedin,Md. Anwarul Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal. Eurasian Journal of Soil Science, (2021),10.3:191-198. DOI : 10.18393/ejss.880503

How to cite

Sultana, M., Jahiruddin, M., Islam, M., Rahman, M., Abedin, M., 2021. Effects of nutrient enriched municipal solid waste compost on soil fertility, crop yield and nutrient content in brinjal. Eurasian J. Soil Sci. 10(3): 191-198. DOI : 10.18393/ejss.880503

Author information

Marufa Sultana , Soil Science Division, Bangladesh Agricultural Research Institute, Gazipur, Bangladesh
M. Jahiruddin , Soil Science Division, Bangladesh Agricultural Research Institute, Gazipur, Bangladesh
M. Rafiqul Islam , Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh
M. Mazibur Rahman , Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh
Md. Anwarul Abedin , Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh

Publication information

Article first published online : 15 Feb 2021
Manuscript Accepted : 03 Feb 2021
Manuscript Received: 08 Jul 2020
DOI: 10.18393/ejss.880503
Stable URL: http://ejss.fesss.org/10.18393/ejss.880503

Abstract

Composting is a good option of solid waste recycling, but its use by the farmers is limited because of its low nutrient status. Our study has considered organic amendments to increase nutrient status of MSW compost. We prepared three types of amended compost by mixing 20% mustard oil cake (MOC) and 30% poultry manure (PM) or cowdung (CD) or sugarcane press mud (SPM) with 50% MSW compost. Trichoderma viridi inoculum was used to accelerate the composting process. Different amendments improved the nutrient level of MSW compost. A field experiment was conducted to measure the performances of amended MSW composts alone and with fertilizers on yield and nutrient content of brinjal (Solanum melongena) and soil fertility. The experiment was carried out at Bangladesh Agricultural University research farm having silt loam texture, 6.7 pH and 2.79% organic matter; the soil was Aeric Haplaquept under the order Inceptisols. There were 10 treatments consisting of chemical fertilizers (urea, TSP, MoP, gypsum & zinc sulphate) and four types of MSW compost (3 enriched and 1 unenriched). The nutrient status of soil had increased due to application of composts. Based on the results of fruit (edible portion) yield and N, P, K and S concentrations of brinjal, and soil nutrient availability, the mixture 50% fertilizers +10 t ha-1 of enriched compost (MSW + MOC + SPM in a ratio of 5:2:3) was found as the best treatment. Results of this study have significant value in fertilizer management strategies for brinjal cultivation in sub-tropical countries.

Keywords

Brinjal, MSW compost, mustard oil cake, poultry manure, sugarcane press mud.

Corresponding author

References

Achiba, W.B., Gabteni, N., Lakhdar, A., Laing, G. D., Verloo, M., Jedidi, N., Gallali, T., 2009.  Effects of 5-Year Application of municipal solid waste compost on the distribution and mobility of heavy metals in a Tunisian calcareous soil. Agriculture, Ecosystems and Environment 130(3-4): 156–163.

Aktar, S., Islam, M.S., Hossain, M.S., Akter, H., Maula, S., Hossain, S.S.F., 2018. Effects of municipal solid waste compost and fertilizers on the biomass production and yield of BRRI dhan 50. Progressive Agriculture 29(2): 82-90.

AyanfeOluwa, O.E., AdeOluwa, O.O., Aduramigba-Modupe, V.O., 2017. Nutrient release dynamics of an accelerated compost: A case study in an Alfisol and Ultisol. Eurasian Journal of Soil Science 6(4): 350-356.

Bilkis, S., 2015. Mineralization of different types of manure and their field performances in the potato-mungbean-rice and rice-fallow-rice cropping patterns. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh.

Bingham, F.T., 1982. Boron. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 431-448.

Bremner, J.M, Mulvaney, C.S., 1982. Nitrogen-Total. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 595-624.

Cercioğlu, M., Okur, B., Delibacak, S., Ongun, A.R., 2014. Changes in physical conditions of a coarse textured soil by addition of organic wastes. Eurasian Journal of Soil Science 3(1): 7-12.

Demir, Z., Gülser, C., 2015. Effects of rice husk compost application on soil quality parameters in greenhouse conditions Eurasian Journal of Soil Science 4 (3): 185-190.

Eghball, B., Wienhold, B. J., Gilley, J.E., Eigenberg, R.A., 2002. Mineralization of manure nutrients. Journal of Soil and Water Conservation 57(6): 470–473.

FAO/UNDP, 1988. Land Resources Appraisal of Bangladesh for Agricultural Development, Rome, Italy. pp. 1-570. Available at [Access date : 08.07.2020]: http://www.fao.org/3/s7223e/s7223e.pdf

Fox, R.L., Olson, R.A., Rhoades, H.F., 1964. Evaluating the sulfur status of soils by plants and soil tests. Soil Science Society of America Journal 28(2): 243-246.

Gomez, K.A., Gomez, A.A., 1984. Statistical Procedures for Agricultural Research, John Wiley and Sons, New York.

Gürbüz, N., Uluişik, S., Frary, A., Frary, A., Doğanlar, S., 2018. Health benefits and bioactive compounds of eggplant. Food Chemistry 268: 602-610.

Gülser, C., Candemir, F., 2012. Changes in penetration resistance of a clay field with organic waste applications. Eurasian Journal of Soil Science 1(1): 16-21.

Haque, M.A., 2014. Mineralization of bioslurry and its integrated use with fertilizers in the rice based cropping systems. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh.

Islam, M.M., Akhter, S., Majid, N.M., Ferdous, J., Alam, M.S., 2013. Integrated nutrient management for potato (Solanum tuberosum) in grey terrace soil (AricAlbaquipt).  Australian Journal of Crop Science 7(9): 1235-1241.

Jahiruddin, M., Rahman, M.A., Haque, M.A, Rahman, M.M., Islam, M.R., 2012. Integrated nutrient management for sustainable crop production in Bangladesh. Acta Horticulturae 958: 85-90.

Kanton,  R.A.L.,  Prasad, P.V.V.,  Mohammed, A. M., Bidzakin, J.K, Ansoba, E.Y.,  Asungre, P.A.,  Lamini, S.,  Mahama, G.,  Kusi, F., Sugri, I.,  2016. Organic and Inorganic Fertilizer Effects on the Growth and Yield of Maize in a Dry Agro-Ecology in Northern Ghana.  Journal of Crop Improvement 30(1): 1-16.  

Kavitha, R., Subramanian, P., 2007. Effect of enriched soil waste compost application on growth, plant nutrient uptake and yield of rice. Journal of Agronomy 6(4): 586-592.

Knudsen, D., Peterson, G.A., Pratt, P. F. 1982. Lithium, sodium and potassium. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 225-245.

Kumar, M., Baishaya, L.K., Ghosh, D.C., Gupta, V.K., Dubey, S.K., Das, A., Patel, D.P., 2012. Productivity and soil health of potato (Solanum tuberosum L.) field as influenced by organic manures, inorganic fertilizers and biofertilizers under high altitudes of eastern Himalayas. Journal of Agricultural Science 4(5): 223-234.

Lindsay, W.L., Norvell, W.A., 1978. Development of a DTPA Test for zinc, iron, manganese and copper. Soil Science Society America Journal 42(3): 421-428.

Malik, S.S., Chauhan, R.C., 2014. Impact of organic farming on soil chemical properties. Journal of International Academic Research for Multidiciplinary 2(7): 349-360.

Naeem, M.Y., Ugur, S., 2019. Nutritional content and health benefits of eggplant. Turkish Journal of Agriculture – Food Science and Technology 7(sp3): 31-36.   

Nelson, D.W., Sommer, L.E., 1982. Total Carbon, Organic Carbon and Organic Matter. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 539-579.

Olsen, S.R., Sommer, L.E., 1982. Phosphorus. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 403-430.

Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). 1982. Methods of Soil Analysis, Part 2, Chemical and microbiological properties,  Second Edition. Number 9, ASA-SSSA, Madison, Wisconsin, USA.

Parmar, D.K., Sharma, A., Chaddha, S., Sharma, V., Vermani, A., Mishra, A., Gautam, G.,    Kumar, V., 2007. Increasing potato productivity and profitability through integrated plant nutrient system in the north-western Himalayas. Potato Journal 34(3-4): 209-215.

Pengthamkeerati, P., Motavalli, P.P., Kremer, R.J., 2011. Soil microbial activity and functional diversity changed by compaction, poultry litter and cropping in a claypan soil. Applied Soil Ecology 48(1): 71–80.

Rekaby, S.A., Mahrous, Y.M.A., Hegab, S.A., Eissa, M.A., 2020. Effect of some organic amendments on barley plants under saline condition. Journal of Plant Nutrition 43(12): 1840-1851.

Rodge, B.M., Yadlod, S.S., 2009. Effect of organic and inorganic fertilizers on growth, yield and quality of tomato (Lycopersicon esculentum Mill.). Asian Journal of Horticulture 4(1): 221–224.

Singh D.V., Mukhi S.K., Mishra S.N., 2013. Impact of integrated nutrient management on tomato yield under farmers field conditions. International Journal of Agriculture, Environment and Biotechnology 34(6): 1047-51.

Sultana, M., 2020. Nutrient enrichment of MSW compost by organic amendments and its effects on soils and crops. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh.

Torkashvand, A.M., 2010. Improvement of compost quality by addition of some amendments. Australian Journal of Crop Science 4(4): 252-257.

Youssef, M.A., Eissa, M.A., 2017. Comparison between organic and inorganic nutrition for tomato. Journal of Plant Nutrition 40 (13): 1900-1907.

Abstract

Composting is a good option of solid waste recycling, but its use by the farmers is limited because of its low nutrient status. Our study has considered organic amendments to increase nutrient status of MSW compost. We prepared three types of amended compost by mixing 20% mustard oil cake (MOC) and 30% poultry manure (PM) or cowdung (CD) or sugarcane press mud (SPM) with 50% MSW compost. Trichoderma viridi inoculum was used to accelerate the composting process. Different amendments improved the nutrient level of MSW compost. A field experiment was conducted to measure the performances of amended MSW composts alone and with fertilizers on yield and nutrient content of brinjal (Solanum melongena) and soil fertility. The experiment was carried out at Bangladesh Agricultural University research farm having silt loam texture, 6.7 pH and 2.79% organic matter; the soil was Aeric Haplaquept under the order Inceptisols. There were 10 treatments consisting of chemical fertilizers (urea, TSP, MoP, gypsum & zinc sulphate) and four types of MSW compost (3 enriched and 1 unenriched). The nutrient status of soil had increased due to application of composts. Based on the results of fruit (edible portion) yield and N, P, K and S concentrations of brinjal, and soil nutrient availability, the mixture 50% fertilizers +10 t ha-1  of  enriched compost (MSW + MOC + SPM in a ratio of 5:2:3) was found as the best treatment. Results of this study have significant value in fertilizer management strategies for brinjal cultivation in sub-tropical countries.

Keywords: Brinjal, MSW compost, mustard oil cake, poultry manure, sugarcane press mud.

References

Achiba, W.B., Gabteni, N., Lakhdar, A., Laing, G. D., Verloo, M., Jedidi, N., Gallali, T., 2009.  Effects of 5-Year Application of municipal solid waste compost on the distribution and mobility of heavy metals in a Tunisian calcareous soil. Agriculture, Ecosystems and Environment 130(3-4): 156–163.

Aktar, S., Islam, M.S., Hossain, M.S., Akter, H., Maula, S., Hossain, S.S.F., 2018. Effects of municipal solid waste compost and fertilizers on the biomass production and yield of BRRI dhan 50. Progressive Agriculture 29(2): 82-90.

AyanfeOluwa, O.E., AdeOluwa, O.O., Aduramigba-Modupe, V.O., 2017. Nutrient release dynamics of an accelerated compost: A case study in an Alfisol and Ultisol. Eurasian Journal of Soil Science 6(4): 350-356.

Bilkis, S., 2015. Mineralization of different types of manure and their field performances in the potato-mungbean-rice and rice-fallow-rice cropping patterns. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh.

Bingham, F.T., 1982. Boron. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 431-448.

Bremner, J.M, Mulvaney, C.S., 1982. Nitrogen-Total. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 595-624.

Cercioğlu, M., Okur, B., Delibacak, S., Ongun, A.R., 2014. Changes in physical conditions of a coarse textured soil by addition of organic wastes. Eurasian Journal of Soil Science 3(1): 7-12.

Demir, Z., Gülser, C., 2015. Effects of rice husk compost application on soil quality parameters in greenhouse conditions Eurasian Journal of Soil Science 4 (3): 185-190.

Eghball, B., Wienhold, B. J., Gilley, J.E., Eigenberg, R.A., 2002. Mineralization of manure nutrients. Journal of Soil and Water Conservation 57(6): 470–473.

FAO/UNDP, 1988. Land Resources Appraisal of Bangladesh for Agricultural Development, Rome, Italy. pp. 1-570. Available at [Access date : 08.07.2020]: http://www.fao.org/3/s7223e/s7223e.pdf

Fox, R.L., Olson, R.A., Rhoades, H.F., 1964. Evaluating the sulfur status of soils by plants and soil tests. Soil Science Society of America Journal 28(2): 243-246.

Gomez, K.A., Gomez, A.A., 1984. Statistical Procedures for Agricultural Research, John Wiley and Sons, New York.

Gürbüz, N., Uluişik, S., Frary, A., Frary, A., Doğanlar, S., 2018. Health benefits and bioactive compounds of eggplant. Food Chemistry 268: 602-610.

Gülser, C., Candemir, F., 2012. Changes in penetration resistance of a clay field with organic waste applications. Eurasian Journal of Soil Science 1(1): 16-21.

Haque, M.A., 2014. Mineralization of bioslurry and its integrated use with fertilizers in the rice based cropping systems. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh.

Islam, M.M., Akhter, S., Majid, N.M., Ferdous, J., Alam, M.S., 2013. Integrated nutrient management for potato (Solanum tuberosum) in grey terrace soil (AricAlbaquipt).  Australian Journal of Crop Science 7(9): 1235-1241.

Jahiruddin, M., Rahman, M.A., Haque, M.A, Rahman, M.M., Islam, M.R., 2012. Integrated nutrient management for sustainable crop production in Bangladesh. Acta Horticulturae 958: 85-90.

Kanton,  R.A.L.,  Prasad, P.V.V.,  Mohammed, A. M., Bidzakin, J.K, Ansoba, E.Y.,  Asungre, P.A.,  Lamini, S.,  Mahama, G.,  Kusi, F., Sugri, I.,  2016. Organic and Inorganic Fertilizer Effects on the Growth and Yield of Maize in a Dry Agro-Ecology in Northern Ghana.  Journal of Crop Improvement 30(1): 1-16.  

Kavitha, R., Subramanian, P., 2007. Effect of enriched soil waste compost application on growth, plant nutrient uptake and yield of rice. Journal of Agronomy 6(4): 586-592.

Knudsen, D., Peterson, G.A., Pratt, P. F. 1982. Lithium, sodium and potassium. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 225-245.

Kumar, M., Baishaya, L.K., Ghosh, D.C., Gupta, V.K., Dubey, S.K., Das, A., Patel, D.P., 2012. Productivity and soil health of potato (Solanum tuberosum L.) field as influenced by organic manures, inorganic fertilizers and biofertilizers under high altitudes of eastern Himalayas. Journal of Agricultural Science 4(5): 223-234.

Lindsay, W.L., Norvell, W.A., 1978. Development of a DTPA Test for zinc, iron, manganese and copper. Soil Science Society America Journal 42(3): 421-428.

Malik, S.S., Chauhan, R.C., 2014. Impact of organic farming on soil chemical properties. Journal of International Academic Research for Multidiciplinary 2(7): 349-360.

Naeem, M.Y., Ugur, S., 2019. Nutritional content and health benefits of eggplant. Turkish Journal of Agriculture – Food Science and Technology 7(sp3): 31-36.   

Nelson, D.W., Sommer, L.E., 1982. Total Carbon, Organic Carbon and Organic Matter. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 539-579.

Olsen, S.R., Sommer, L.E., 1982. Phosphorus. In: Methods of Soil Analysis, Part 2, Chemical and microbiological properties, Second Edition. Number 9, Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). ASA-SSSA, Madison, Wisconsin, USA. pp. 403-430.

Page, A.L., Keeney, D. R., Baker, D.E., Miller, R.H., Ellis, R. Jr., Rhoades, J.D. (Eds.). 1982. Methods of Soil Analysis, Part 2, Chemical and microbiological properties,  Second Edition. Number 9, ASA-SSSA, Madison, Wisconsin, USA.

Parmar, D.K., Sharma, A., Chaddha, S., Sharma, V., Vermani, A., Mishra, A., Gautam, G.,    Kumar, V., 2007. Increasing potato productivity and profitability through integrated plant nutrient system in the north-western Himalayas. Potato Journal 34(3-4): 209-215.

Pengthamkeerati, P., Motavalli, P.P., Kremer, R.J., 2011. Soil microbial activity and functional diversity changed by compaction, poultry litter and cropping in a claypan soil. Applied Soil Ecology 48(1): 71–80.

Rekaby, S.A., Mahrous, Y.M.A., Hegab, S.A., Eissa, M.A., 2020. Effect of some organic amendments on barley plants under saline condition. Journal of Plant Nutrition 43(12): 1840-1851.

Rodge, B.M., Yadlod, S.S., 2009. Effect of organic and inorganic fertilizers on growth, yield and quality of tomato (Lycopersicon esculentum Mill.). Asian Journal of Horticulture 4(1): 221–224.

Singh D.V., Mukhi S.K., Mishra S.N., 2013. Impact of integrated nutrient management on tomato yield under farmers field conditions. International Journal of Agriculture, Environment and Biotechnology 34(6): 1047-51.

Sultana, M., 2020. Nutrient enrichment of MSW compost by organic amendments and its effects on soils and crops. PhD Thesis, Department of Soil Science, Bangladesh Agricultural University, Mymensingh, Bangladesh.

Torkashvand, A.M., 2010. Improvement of compost quality by addition of some amendments. Australian Journal of Crop Science 4(4): 252-257.

Youssef, M.A., Eissa, M.A., 2017. Comparison between organic and inorganic nutrition for tomato. Journal of Plant Nutrition 40 (13): 1900-1907.



Eurasian Journal of Soil Science