Cadmium accumulation in Agaricusbiazei Murrill

Agaricus blazei Murrill has become a popular food source of high nutritional and medicinal value in many Asian countries. However, there are growing health concerns on cadmium (Cd) accumulation by A. blazei. Experiments were conducted to investigate Cd accumulation patterns in A. blazei and to ident...

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Veröffentlicht in:	Journal of the science of food and agriculture 2008-06, Vol.88 (8), p.1369
Hauptverfasser:	Huang, Jian Cheng, Li, Kai Ben, Yu, Ying Rui, Wu, Hanwen, Liu, De Li
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Sprache:	eng
Schlagworte:	Agriculture Chemical compounds Fruits Phosphorus
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description	Agaricus blazei Murrill has become a popular food source of high nutritional and medicinal value in many Asian countries. However, there are growing health concerns on cadmium (Cd) accumulation by A. blazei. Experiments were conducted to investigate Cd accumulation patterns in A. blazei and to identify key factors contributing to Cd accumulation. Cd concentrations in the substrates and subsequent fruit bodies declined rapidly after the first, second and third harvest wave. A quick rinse of the fruit bodies in water reduced the Cd concentration by 27-54% depending on the strain. The Cd concentration in the fruit bodies decreased as the fruit body yield m... or fruit body number m... increased, while it increased as the substrate Cd content or fruit body size increased. Cd accumulation was positively associated with phosphorus (P) uptake. The results suggests that, in the A. blazei-growing region studied, Cd and P concentrations in the substrates and casing soil should be reduced in order to effectively minimise Cd accumulation in the fruit bodies. It is also necessary to improve fruit body yield by increasing the number of medium-sized fruit bodies. Overgrowth of individual fruit bodies stimulates Cd accumulation in A. blazei. (ProQuest: ... denotes formulae/symbols omitted.)
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However, there are growing health concerns on cadmium (Cd) accumulation by A. blazei. Experiments were conducted to investigate Cd accumulation patterns in A. blazei and to identify key factors contributing to Cd accumulation. Cd concentrations in the substrates and subsequent fruit bodies declined rapidly after the first, second and third harvest wave. A quick rinse of the fruit bodies in water reduced the Cd concentration by 27-54% depending on the strain. The Cd concentration in the fruit bodies decreased as the fruit body yield m... or fruit body number m... increased, while it increased as the substrate Cd content or fruit body size increased. Cd accumulation was positively associated with phosphorus (P) uptake. The results suggests that, in the A. blazei-growing region studied, Cd and P concentrations in the substrates and casing soil should be reduced in order to effectively minimise Cd accumulation in the fruit bodies. It is also necessary to improve fruit body yield by increasing the number of medium-sized fruit bodies. Overgrowth of individual fruit bodies stimulates Cd accumulation in A. blazei. 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However, there are growing health concerns on cadmium (Cd) accumulation by A. blazei. Experiments were conducted to investigate Cd accumulation patterns in A. blazei and to identify key factors contributing to Cd accumulation. Cd concentrations in the substrates and subsequent fruit bodies declined rapidly after the first, second and third harvest wave. A quick rinse of the fruit bodies in water reduced the Cd concentration by 27-54% depending on the strain. The Cd concentration in the fruit bodies decreased as the fruit body yield m... or fruit body number m... increased, while it increased as the substrate Cd content or fruit body size increased. Cd accumulation was positively associated with phosphorus (P) uptake. The results suggests that, in the A. blazei-growing region studied, Cd and P concentrations in the substrates and casing soil should be reduced in order to effectively minimise Cd accumulation in the fruit bodies. It is also necessary to improve fruit body yield by increasing the number of medium-sized fruit bodies. Overgrowth of individual fruit bodies stimulates Cd accumulation in A. blazei. 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subjects	Agriculture Chemical compounds Fruits Phosphorus
title	Cadmium accumulation in Agaricusbiazei Murrill
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