The Evolution of Compost Phytotoxicity during Municipal Waste and Poultry Manure Composting

Aylaj, Mina; Adani, Fabrizio

doi:10.12911/22998993/161822

Artykuł - szczegóły

Tytuł artykułu

The Evolution of Compost Phytotoxicity during Municipal Waste and Poultry Manure Composting

Autorzy

Aylaj Mina , Adani Fabrizio

Treść / Zawartość

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Identyfikatory

DOI

10.12911/22998993/161822

Warianty tytułu

Języki publikacji

Abstrakty

Composting is commonly used for waste management and the evaluation of its quality is important for successful application. Seed germination test is commonly adopted due to its capacity to examine the toxicity level of compost. The seed test is usually evaluated on the final product and the results can vary with the different methods and the type of seed utilized. In this study, the evolution of seed germination tests during the composting process of municipal waste (MSW) mixed with poultry manure (PM) of two species tomato and sugar beet was examined. The impact of compost water extracts on seed germination and plant primary root growth for each sampling was reported. The chemical parametrs were evaluated on the final product. Results show that mixture C1 with a higher amount of municipal waste gave less compost yield than mixture C2. After 35 days of composting, the compost was phytotoxic for tomato and sugar beet seeds. The seeds of the two cultures reacted differently to the same compost. The compost could stimulate sugar beet germination at days 110, 140, 180, 212 and 252. Seed germination of sugar beet was increased and delayed by one day by the compost stabilized and mature as compared with the control.

Słowa kluczowe

composting seed germination root length phytotoxicity Beta vulgaris L. Solanum lycopersicon L.

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2023

Tom

Vol. 24, nr 6

Strony

281--293

Opis fizyczny

Bibliogr. 50 poz., rys., tab.

Twórcy

autor

Aylaj Mina

mina_aylaj@yahoo.fr

Laboratory of Sustainable Agriculture Management, Department of Agronomic Engineering, Higher School of Technology, Chouaib Doukkali University, 24 350, Sidi Bennour, Morocco
Laboratory of Water and Environment, Department of Chemistry, Faculty of Sciences, Chouaib Doukkali University, 24 000, El Jadida, Morocco

https://orcid.org/0000-0001-5249-459X

autor

Adani Fabrizio

Gruppo Ricicla, DiSAA, University of Milan, Via Celoria 2, 20133, Milan, Italy

Bibliografia

1. Adani F., Tambone F., Gotti A. 2004. Biostabilization of municipal solid waste. Waste Manag. 24, 775–783.
2. AFNOR. 1987. Qualité des sols et méthodes d’analyses. 1ère édition, 133.
3. Araujo A.S.F., Monteiro R.T.R. 2005. Plant bioassays to assess toxicity of textile sludge compost. Scientia Agricola, 62, 268–290.
4. Aylaj M., Lhadi E.K., Adani F. 2018. Municipal Waste and Poultry Manure Compost Affect Biomass Production, Nitrate Reductase Activity and Heavy Metals in Tomato Plants. Compost Science & Utilization, 27, 11–23.
5. Barral M.T., Paradelo R. 2011. A review on the use of phytotoxicity as a compost quality indicator. Dyn Soil Dyn Plant, 5, 36–44.
6. Bernal M.P., Sommer S.G., Chadwick D., Qing C., Guoxue L., Michel F.CJr. 2017. Current approaches and future trends in compost quality criteria for agronomic, environmental, and human health benefits. Adv Agron, 144, 143–233.
7. Bolan N.S., Szogi A., Chuasavathi T., Seshadri B., Rothrock M., Panneerselvam P. 2010. Uses and management of poultry litter. World Poult, Sci. J, 66, 673–698.
8. Bustamante M.A., Paredes C., Marhuenda-Egea F.C., Pe´rez-Espinosa A., Bernal M.P., Moral R. 2008. Co-composting of distillery wastes with animal manures: carbon and nitrogen transformations in the evaluation of compost stability. Chemosphere, 72, 551–557.
9. CCQC. 2001. Compost Maturity Index: Technical Report. California Compost Quality Council.
10. Chen Z.Q., Fu Q.Q., Cao Y.S., Wen Q.X., Wu Y.Q. 2021. Effects of lime amendment on the organic substances changes, antibiotics removal, and heavy metals speciation transformation during swine manure composting. Chemosphere, 262, 128342.
11. Cesaroa A., Belgiornoa V., Guida M. 2015. Compost from organic solid waste: Quality assessment and European regulations for its sustainable use Resources, Conservation and Recycling, 94, 72–79.
12. Ciavatta C., Vittori Antisari L., Sequi P. 1989b. Determination of organic carbon in soils and fertilizers. Communications in Soil Science and Plant Analysis, 20(7–9), 759–773.
13. DI. VA. P.R. A, I.P.L.A., A.R.P.A. 1998. Metodi di Analisi dei compost. Determination chiniche, Fixiche, Biologiche e Microbiologiche. Analisi Merceologica die fifiuti. In: Di. V.P.R.A, I.P.L.A et A.R.P.A (Eds.) Metodi di analisi dei compost, collana Ambiante, Torino, 85–86.
14. Epstein E. 1997. The science of composting. Technomic Publishing Co Inc, Lancaster, 109–113, 126–129.
15. Faissal A., Ouazzani N., Parrado J., Dary M., Manyani H., Morgado B., Barragan M., Mandi L. 2017. Impact of fertilization by natural manure on the microbial quality of soil : molecular approach. Saudi J Biol Sci, 24, 1437–1443.
16. Genevini P.L., Adani F., Villa C. 1997. Rice hull degradation by cocomposting with dairy cattle slurry. Soil Sci Plant Nutr, 43(1), 135–147.
17. Getahun T., Nigusie A., Entele T., Van Gerven T., Van der Bruggen B. 2012. Effect of turning frequencies on composting biodegradable municipal solid waste quality. Resour Recycl Conserv, 65, 79–84.
18. Guo H.H., Gu J., Wang X.J., Yu J., Nasir M., Zhang K.Y., Sun W. 2020. Microbial driven reduction of N2O and NH3 emissions during composting: effects of bamboo charcoal and bamboo vinegar. J. Hazard. Mater, 390, 121292.
19. Gong B.N., Zhong X.J., Chen X., Li S.K., Hong J.L., Mao X.Y., Liao Z.W. 2021. Manipulation of composting oxygen supply to facilitate dissolved organic matter (DOM) accumulation which can enhance maize growth. Chemosphere, 273, 129729.
20. Jiang Z.W., Meng Q.R., Niu Q.Q., Wang S.S., Yan H.L., Li Q.L. 2020. Understanding the key regulatory functions of red mud in cellulose breakdown and succession of β-glucosidase microbial community during composting. Bioresour.Technol, 318, 124265.
21. Kebrom T.H., Woldesenbet S., Bayabil H.K., Garcia M., Gao M., Ampim P., Awal R., Fares A. 2019. Evaluation of phytotoxicity of three organic amendments to collard greens using the seed germination bioassay. Environmental Science and Pollution Research, 26, 5454–5462.
22. Kebrom T.H., Woldesenbet S., Bayabil H.K., Garcia M., Gao M., Ampim P., Awal R., Fares A. 2019. Evaluation of phytotoxicity of three organic amendments to collard greens using the seed germination bioassay. Environ Sci Pollut Res, 26, 5454–5462.
23. Komilis D.P., Tziouvaras I.S. 2009. A statistical analysis to assess the maturity and stability of six composts. Waste Manage, 29, 1504–1513.
24. 24. Lhadi E.K., Tazi H., Aylaj M., Tambone F., Adani F. 2004. Cocomposting Separated MSW And Poultry Manure in Morocco, Compost Science & Utilization, 12(2), 137–144.
25. Luo Y., Liang J., Zeng G.M., Chen M., Mo., Li G.X., Zhang D.F. 2018. Seed germination test for toxicity evaluation of compost: its roles, problems and prospects. Waste Manag, 71, 109–114.
26. Liu T., Awasthi M.K., Awasthi S.K., Ren X.N., Liu X.Y., Zhang Z.Q. 2020a. Influence of fine coal gasification slag on greenhouse gases emission and volatile fatty acids during pig manure composting. Bioresour. Technol, 316, 123915.
27. Liu Y.D., Ding L.B., Wang B.B., He Q.C., Wan D.J. 2020b. Using the modified pine wood as a novel recyclable bulking agent for sewage sludge composting: effect on nitrogen conversion and microbial community structures. Bioresour. Technol, 309, 123357.
28. Mazumder P., Khwairakpam M., Kalamdhad A.S. 2020. Bio-inherent attributes of water hyacinth procured from contaminated water body–effect of its compost on seed germination and radicle growth. J. Environ. Manag, 257, 109990.
29. Meng X.Y., Liu B., Zhang H., Wu J.W., Yuan X.F., Cui Z.J. 2019a. Co-composting of the biogas residues and spent mushroom substrate: physicochemical properties and maturity assessment. Bioresour. Technol, 276, 281–287.
30. Ogunwande G.A., Osunade J.A., Adekalu K.O., Ogunjimi L.A. 2008. Nitrogen loss in chicken litter compost as affected by carbon to nitrogen ratio and turning frequency. Bioresour. Technol, 99, 7495–7503.
31. Paredes C., Roig A., Bernal M.P., Sanchez-Moneder M.A., Cegarra J. 2000. Evolution of organic matter and nitrogen during cocomposting of olive mill wastewater with solid organic wastes. Biol Fertil Soils, 32, 222–227.
32. Rigby H., Clarke B.O., Pritchard D.L., Meehan B., Beshah F., Smith S.R., Porter N.A. 2016. A critical review of nitrogen mineralization in biosolidsamended soil, the associated fertilizer value for crop production and potential for emissions to the environment. Sci Total Environ, 541, 1310–1338.
33. Rizzo P.F., Torre V., Riera N., Crespo D., Barrena R., Sánchez A. 2013. Co-composting of poultry manure with other agricultural wastes: process performance and compost horticultural use. J. Mater. Cycles Waste Manage, 1–9.
34. Rizzo P.F., Bres P.A., Young B.J., Zubillaga M.S., Riera N.I., Beily M.E., Argüello A., Crespo D.C., Sánchez A., Komilis D. 2020. Temporal variation of physico-chemical, microbiological, and parasitological properties of poultry manure from two egg production systems. J Mater Cycles Waste Manag, 22, 1140–1151.
35. Santos C., Fonseca J., Coutinho J., Trindade H., Jensen L.S. 2021. Chemical properties of agro-waste compost affect greenhouse gas emission from soils through changed C and N mineralisation. Biol. Fertil. Soils, 57, 781–792.
36. SENASA. 2011. Manual of Procedures for Registering Products in the National Register of Fertilizers, Dressings, Substrates, Protectors, Conditioners and Raw Materials. Resolution N-264/2011, Argentina.
37. Shan G.C., Li W.G., Gao Y.J., Tan W.B., Xi B.D. 2021. Additives for reducing nitrogen loss during composting: a review. J. Clean. Prod, 307, 127308.
38. The U.S. Composting Council. 1997. Test methods for the examination of composting and compost. In: Leege, P. B. and W.H. Thompson (eds.), the U.S. Composting Council, Bethesda, Maryland USA.
39. Tiquia S.M., Tam N.F.Y., Hodgkiss I.J. 1996. Microbial activities during composting of spent pigmanure sawdust litter at different moisture contents. Bioresource Technology, 55, 201–206.
40. Tiquia S.M. 2010. Reduction of compost phytotoxicity during the process of decomposition. Chemosphere, 79, 506–512.
41. Wang G., Li G., Chang J., Kong, Y., Jiang T., Wang J., Yuan J. 2021a. Enrichment of antibiotic resistance genes after sheep manure aerobic heap composting. Bioresour.Technol, 323, 124620.
42. Wang G., Yang Y., Kong Y., Ma R., Yuan J., Li G. 2022. Key factors affecting seed germination in phytotoxicity tests during sheep manure composting with carbon additives. Journal of Hazardous Materials, 421, 126809.
43. Wei Y., Zhao Y., Zhao X., Gao X., Zheng Y., Zuo H., Wei Z. 2020. Roles of different humin and heavymetal resistant bacteria from composting on heavy metal removal. Bioresour. Technol, 296, 122375.
44. Wrap. 2011. Guidelines for the Specification of Quality Compost for Use in Growing Media. Waste & Resources Action Programme, United Kingdom (verified August 2015).
45. Young B.J., Rizzo P.F., Riera N.I., Torre V.D., López V.A., Molina C.D., Fernández F.E., Crespo D.C., Barrena R., Komilis D., Sánchez A. 2016. Development of phytotoxicity indexes and their correlation with ecotoxicological, stability and physicochemical parameters during passive composting of poultry manure. Waste Manag, 54, 101–109.
46. Zhan Y., Zhang Z., Ma T., Zhang X., Wang R., Liu Y., Sun B., Xu T., Ding G., Wei Y., Li J. 2021. Phosphorus excess changes rock phosphate solubilization level and bacterial community mediating phosphorus fractions mobilization during composting. Bioresour. Technol, 337, 125433.
47. Zhang L., Zhu Y., Zhang J., Zeng G., Dong H., Cao W., Fang W., Cheng Y., Wang Y., Ning Q. 2019. Impacts of iron oxide nanoparticles on organic matter degradation and microbial enzyme activities during agricultural waste composting. Waste Manag, 95, 289–297.
48. Zhou H., Zhao Y., Yang H., Zhu L., Cai B., Luo S., Cao J., Wei Z. 2018. Transformation of organic nitrogen fractions with different molecular weights during different organic wastes composting. Bioresour. Technol, 262, 221–228.
49. Zucconi F., Pera A., Forte M. 1981. Evaluating toxicity of immature compost. Biocycle, 22(2), 54–57.
50. Zucconi F. 1983. Processi di biostabilizzazione della Sostanza organica durante il compostaggio. Atti del Simposio. Recupero biologico ed Utilizzazione agricola dei rifuiti urbani. Napoli, 11–14 Octobre, 379–406. Ecotoxicol. Environ. Saf., 75, 55–62.

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