Paul Pui-Hay But1, Ren-Wang Jiang, Pang-Chui Shaw. 1. School of Life Sciences, The Chinese University of Hong Kong, Tai Po Road, Shatin, N.T., Hong Kong, PR China. paulbut@hotmail.com
Abstract
ETHNOPHARMACOLOGICAL RELEVANCE: Red edible bird's nests are regarded as of higher beneficial value for health and hence fetch a higher price than the white ones. Their red colour remains a myth. AIM OF THE STUDY: To determine if white edible bird's nests can turn red by vapours generated from sodium nitrite in acidic conditions and by vapours from 'bird soil'. MATERIALS AND METHODS: White edible bird's nests were exposed to vapours from sodium nitrite dissolved in 2% HCl or from 'bird soil' in hot and humid conditions. CONCLUSIONS: Vapours from sodium nitrite dissolved in 2% HCl or from 'bird soil' containing guano droppings from swiftlet houses were able to turn white edible bird's nests red. The reddening agent in 'bird soil' was water-soluble and heat-stable. The red colour of edible bird's nests is likely caused by the environmental factors in cave interiors and swiftlet houses.
ETHNOPHARMACOLOGICAL RELEVANCE: Red edible bird's nests are regarded as of higher beneficial value for health and hence fetch a higher price than the white ones. Their red colour remains a myth. AIM OF THE STUDY: To determine if white edible bird's nests can turn red by vapours generated from sodium nitrite in acidic conditions and by vapours from 'bird soil'. MATERIALS AND METHODS: White edible bird's nests were exposed to vapours from sodium nitrite dissolved in 2% HCl or from 'bird soil' in hot and humid conditions. CONCLUSIONS: Vapours from sodium nitrite dissolved in 2% HCl or from 'bird soil' containing guano droppings from swiftlet houses were able to turn white edible bird's nests red. The reddening agent in 'bird soil' was water-soluble and heat-stable. The red colour of edible bird's nests is likely caused by the environmental factors in cave interiors and swiftlet houses.
Authors: Ting Hun Lee; Waseem A Wani; Chia Hau Lee; Kian Kai Cheng; Sheikh Shreaz; Syieluing Wong; Norfadilah Hamdan; Nurul Alia Azmi Journal: Front Pharmacol Date: 2021-04-19 Impact factor: 5.810