Effect of Micromonospora sp. KSC08 on nitrogen conservation throughout composting

Effect of Micromonospora sp. KSC08 on nitrogen conservation throughout composting

Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH 3 volatilization via ammonification and N 2 and N 2 O losses through nitrification are the major sources of nitrogen loss during composting. Amendment with microorganism inoculation was amon...

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Published in:Biomass conversion and biorefinery Vol. 13; no. 3; pp. 2375 - 2390
Main Authors: Kumas, Ayten, Ertekin, Saadet Gizem, Gurbanov, Rafig, Simsek, Yunus Emre, Kocak, Fadime Ozdemir, Degirmenci, Levent
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-02-2023
Springer Nature B.V
Subjects:
Ammonia
Biological activity
Biotechnology
Composting
Energy
Evaluation
Microorganisms
Mixtures
Molecular structure
Nitrification
Nitrogen
Original Article
Renewable and Green Energy
Compost
FT-IR
Nitrogen
sp
Olive pomace
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Abstract Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH 3 volatilization via ammonification and N 2 and N 2 O losses through nitrification are the major sources of nitrogen loss during composting. Amendment with microorganism inoculation was among recently adopted approaches to compensate for nitrogen losses and improve compost quality. Compost amendment via Micromonospora sp. KSC08, an asymbiotic free-living-(N 2 )-fixing microorganism, was conducted in the present study in order to investigate microorganism’s potential for nitrogen regulation. Twenty windrow systems with varying olive pomace%, microorganism amount, and addition time were prepared for statistical determination of the changes in total C, total nitrogen, and nitrate-nitrogen amounts. Analyses were evaluated in accordance with pH, humidity, and temperature measurements obtained during composting. Final part of the study included maturity evaluation and PCA modeling of FT-IR data. Micromonospora sp. KSC08 was shown to improve microbial activity and regulate nitrogen content by providing exogenous nitrogen to compost mixture. PCA models revealed entirely different structures between untreated and Micromonospora sp. KSC08-treated compost samples at the end of 120 days. The variant molecular structure of samples inoculated with Micromonospora sp. KSC08 was attributed to reactions between carboxyclic acid units and nitrogenous compounds leading to a significant increase in amide content compared to untreated mixtures. Higher amide content was due to higher nitrogen content of Micromonospora sp. KSC08-treated compost, and based on the findings, it was concluded that Micromonospora sp. KSC08 had been effective in nitrogen regulation and proposed as a possible component of microbial consortium for use in conventional composting systems.
AbstractList Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH3 volatilization via ammonification and N2 and N2O losses through nitrification are the major sources of nitrogen loss during composting. Amendment with microorganism inoculation was among recently adopted approaches to compensate for nitrogen losses and improve compost quality. Compost amendment via Micromonospora sp. KSC08, an asymbiotic free-living-(N2)-fixing microorganism, was conducted in the present study in order to investigate microorganism’s potential for nitrogen regulation. Twenty windrow systems with varying olive pomace%, microorganism amount, and addition time were prepared for statistical determination of the changes in total C, total nitrogen, and nitrate-nitrogen amounts. Analyses were evaluated in accordance with pH, humidity, and temperature measurements obtained during composting. Final part of the study included maturity evaluation and PCA modeling of FT-IR data. Micromonospora sp. KSC08 was shown to improve microbial activity and regulate nitrogen content by providing exogenous nitrogen to compost mixture. PCA models revealed entirely different structures between untreated and Micromonospora sp. KSC08-treated compost samples at the end of 120 days. The variant molecular structure of samples inoculated with Micromonospora sp. KSC08 was attributed to reactions between carboxyclic acid units and nitrogenous compounds leading to a significant increase in amide content compared to untreated mixtures. Higher amide content was due to higher nitrogen content of Micromonospora sp. KSC08-treated compost, and based on the findings, it was concluded that Micromonospora sp. KSC08 had been effective in nitrogen regulation and proposed as a possible component of microbial consortium for use in conventional composting systems.
Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH 3 volatilization via ammonification and N 2 and N 2 O losses through nitrification are the major sources of nitrogen loss during composting. Amendment with microorganism inoculation was among recently adopted approaches to compensate for nitrogen losses and improve compost quality. Compost amendment via Micromonospora sp. KSC08, an asymbiotic free-living-(N 2 )-fixing microorganism, was conducted in the present study in order to investigate microorganism’s potential for nitrogen regulation. Twenty windrow systems with varying olive pomace%, microorganism amount, and addition time were prepared for statistical determination of the changes in total C, total nitrogen, and nitrate-nitrogen amounts. Analyses were evaluated in accordance with pH, humidity, and temperature measurements obtained during composting. Final part of the study included maturity evaluation and PCA modeling of FT-IR data. Micromonospora sp. KSC08 was shown to improve microbial activity and regulate nitrogen content by providing exogenous nitrogen to compost mixture. PCA models revealed entirely different structures between untreated and Micromonospora sp. KSC08-treated compost samples at the end of 120 days. The variant molecular structure of samples inoculated with Micromonospora sp. KSC08 was attributed to reactions between carboxyclic acid units and nitrogenous compounds leading to a significant increase in amide content compared to untreated mixtures. Higher amide content was due to higher nitrogen content of Micromonospora sp. KSC08-treated compost, and based on the findings, it was concluded that Micromonospora sp. KSC08 had been effective in nitrogen regulation and proposed as a possible component of microbial consortium for use in conventional composting systems.
Author Ertekin, Saadet Gizem
Kumas, Ayten
Degirmenci, Levent
Gurbanov, Rafig
Simsek, Yunus Emre
Kocak, Fadime Ozdemir
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Keywords Compost
FT-IR
Nitrogen
sp
Olive pomace
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PublicationSubtitle Processing of Biogenic Material for Energy and Chemistry
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Snippet Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH 3 volatilization via ammonification and N 2 and N...
Composting includes a series of reactions resulting in alterations on organic content and nitrogen amount. NH3 volatilization via ammonification and N2 and N2O...
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StartPage 2375
SubjectTerms Ammonia
Biological activity
Biotechnology
Composting
Energy
Evaluation
Microorganisms
Mixtures
Molecular structure
Nitrification
Nitrogen
Original Article
Renewable and Green Energy
Title Effect of Micromonospora sp. KSC08 on nitrogen conservation throughout composting
URI https://link.springer.com/article/10.1007/s13399-021-01662-z
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