TY - JOUR
T1 - Concentration of vitamin D2 in white button mushrooms (Agaricus bisporus) exposed to pulsed UV light
AU - Koyyalamudi, Sundar Rao
AU - Jeong, Sang-Chul
AU - Pang, Gerald
AU - Teal, Anthony
AU - Biggs, Tony
PY - 2011
Y1 - 2011
N2 - Enrichment of vitamin D2 in Agaricus bisporus white button mushroom (WBM) using continuous UV light needs a longer exposure time, which can lead to discoloration. Using a Xenon pulsed UV light source, the yield of vitamin D2 was evaluated in freshly harvested button mushrooms and mushroom slices after exposure to 2.5, 3, 6 and 9 pulses of UV light at an average dose of 1.150 J/cm2 energy per pulse. Increase in vitamin D2 content was proportionate to the number of pulses of UV light. There was no difference in the vitamin D2 content of mushrooms between 200 g and 500 g punnets for the corresponding number of pulses (737 ± 81, 847 ± 38, 1148 ± 182, 1611 ± 444% versus 747 ± 48, 911 ± 35, 1307 ± 109, 2028 ± 181% Daily Value/serving, respectively; P > 0.05). Mushrooms in the top layer showed significantly higher amounts of vitamin D2 content than those in the bottom layer of a 500 g punnet (657 ± 22, 796 ± 76, 1433 ± 138, 1878 ± 178% versus 129 ± 60, 237 ± 117, 403 ± 35, 830 ± 257% DV/serving, respectively; P < 0.01). A single layer of sliced mushrooms (∼5 mm thick) showed higher amounts of vitamin D2 content than sliced mushrooms packaged together after pulsed UV light exposure (7882 ± 1074, 6867 ± 944, 10,826 ± 472, 13,001 ± 1635% versus 1221 ± 281, 1293 ± 210, 1598 ± 207, 2018 ± 459% DV/serving, respectively; P < 0.001). Discoloration of whole or sliced mushrooms was not observed. Thus, pulsed UV light provides a highly effective method for increasing vitamin D2 levels in A. bisporus white button mushroom.
AB - Enrichment of vitamin D2 in Agaricus bisporus white button mushroom (WBM) using continuous UV light needs a longer exposure time, which can lead to discoloration. Using a Xenon pulsed UV light source, the yield of vitamin D2 was evaluated in freshly harvested button mushrooms and mushroom slices after exposure to 2.5, 3, 6 and 9 pulses of UV light at an average dose of 1.150 J/cm2 energy per pulse. Increase in vitamin D2 content was proportionate to the number of pulses of UV light. There was no difference in the vitamin D2 content of mushrooms between 200 g and 500 g punnets for the corresponding number of pulses (737 ± 81, 847 ± 38, 1148 ± 182, 1611 ± 444% versus 747 ± 48, 911 ± 35, 1307 ± 109, 2028 ± 181% Daily Value/serving, respectively; P > 0.05). Mushrooms in the top layer showed significantly higher amounts of vitamin D2 content than those in the bottom layer of a 500 g punnet (657 ± 22, 796 ± 76, 1433 ± 138, 1878 ± 178% versus 129 ± 60, 237 ± 117, 403 ± 35, 830 ± 257% DV/serving, respectively; P < 0.01). A single layer of sliced mushrooms (∼5 mm thick) showed higher amounts of vitamin D2 content than sliced mushrooms packaged together after pulsed UV light exposure (7882 ± 1074, 6867 ± 944, 10,826 ± 472, 13,001 ± 1635% versus 1221 ± 281, 1293 ± 210, 1598 ± 207, 2018 ± 459% DV/serving, respectively; P < 0.001). Discoloration of whole or sliced mushrooms was not observed. Thus, pulsed UV light provides a highly effective method for increasing vitamin D2 levels in A. bisporus white button mushroom.
KW - Agaricus bisporus
KW - Basidiomycota
KW - Vitamin D
KW - cultivated mushroom
KW - food analysis
KW - food composition
KW - ultraviolet radiation
UR - http://handle.uws.edu.au:8081/1959.7/526242
U2 - 10.1016/j.jfca.2011.02.007
DO - 10.1016/j.jfca.2011.02.007
M3 - Article
SN - 0889-1575
VL - 24
SP - 976
EP - 979
JO - Journal of Food Composition and Analysis
JF - Journal of Food Composition and Analysis
IS - 7
ER -