Manganese Amendment and Pleurotus ostreatus Treatment to Convert Tomato Pomace for Inclusion in Poultry Feed

If freshly dried tomato pomace could be fed to poultry, its naturally occurring α-tocopherol would retard lipid oxidation during further processing, long-term frozen storage, and heating of poultry meat; however, the high fiber content in this agricultural by-product adversely affects its use. Exper...

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Veröffentlicht in:	Poultry science 2008-09, Vol.87 (9), p.1889-1896
Hauptverfasser:	Assi, J.A, King, A.J
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Sprache:	eng
Schlagworte:	alpha-tocopherol Animal Feed - analysis Animals carbon dioxide cell respiration cellulose chemical composition dietary fiber feed processing feed rations Food Handling gas exchange hemicellulose in vitro digestibility lignin Lycopersicon esculentum manganese Manganese - chemistry nutritive value oxygen Pleurotus - chemistry Pleurotus ostreatus protein content Time Factors tomato pomace
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container_title	Poultry science
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creator	Assi, J.A King, A.J
description	If freshly dried tomato pomace could be fed to poultry, its naturally occurring α-tocopherol would retard lipid oxidation during further processing, long-term frozen storage, and heating of poultry meat; however, the high fiber content in this agricultural by-product adversely affects its use. Experiments were conducted to investigate the chemical composition and in vitro true digestibility of amended (without and with 487 μmol of manganese/g) tomato pomace substrate after treatment with the white-rot fungus Pleurotus ostreatus. In treated pomace without manganese, protein content was improved by 3.1%, cellulose and hemicellulose decreased over time, but lignin degradation was not detected. In addition, treated pomace without manganese showed a significant reduction of in vitro true digestibility. Manganese in pomace inhibited fungal growth and did not enhance lignin degradation. Under the conditions of the experiment, P. ostreatus improved the nutritional composition of tomato pomace; however, it did not reduce lignin. It is possible that manganese amendment at the level used affected gaseous conditions (O₂ consumption and CO₂ evolution rates), important factors that must be considered when attempting to enhance accelerated lignin degradation by P. ostreatus.
doi_str_mv	10.3382/ps.2007-00376
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Experiments were conducted to investigate the chemical composition and in vitro true digestibility of amended (without and with 487 μmol of manganese/g) tomato pomace substrate after treatment with the white-rot fungus Pleurotus ostreatus. In treated pomace without manganese, protein content was improved by 3.1%, cellulose and hemicellulose decreased over time, but lignin degradation was not detected. In addition, treated pomace without manganese showed a significant reduction of in vitro true digestibility. Manganese in pomace inhibited fungal growth and did not enhance lignin degradation. Under the conditions of the experiment, P. ostreatus improved the nutritional composition of tomato pomace; however, it did not reduce lignin. 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subjects	alpha-tocopherol Animal Feed - analysis Animals carbon dioxide cell respiration cellulose chemical composition dietary fiber feed processing feed rations Food Handling gas exchange hemicellulose in vitro digestibility lignin Lycopersicon esculentum manganese Manganese - chemistry nutritive value oxygen Pleurotus - chemistry Pleurotus ostreatus protein content Time Factors tomato pomace
title	Manganese Amendment and Pleurotus ostreatus Treatment to Convert Tomato Pomace for Inclusion in Poultry Feed
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