对照饲养试验研究了不同比例陆源和海洋饲粮蛋白质对猪组织稳定碳同位素组成的影响

E. Webb, J. Lewis, Anika Shain, E. Kastrisianaki-Guyton, Noah V. Honch, A. Stewart, B. Miller, J. Tarlton, R. Evershed
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引用次数: 59

摘要

近年来,利用稳定同位素组成对古饮食进行有意义评估的能力明显存在局限性。这些限制部分是因为人们对组织-饮食关系的许多基本假设知之甚少。为了弥补这一缺陷,进行了一项对照饲养试验,以确定陆源和海洋来源的膳食蛋白质消耗对消费者组织碳同位素组成(δ13C)的影响。两代猪分别饲喂五种不同比例的陆生(大豆)和海洋(鱼粉)蛋白质饲料中的一种。49头猪的组织和体液进行了δ13C分析。观察到的组织-全日粮和组织-日粮蛋白质碳同位素补偿高度依赖于日粮中海洋蛋白质的百分比。我们认为,δ13C偏移的趋势很可能是由于随着日粮中海洋蛋白质比例的增加,非必需氨基酸,特别是甘氨酸的代谢增加。这些发现表明,单独使用体δ13C组成不仅掩盖了有关饮食的大量信息,而且可能导致对过去海洋和陆地资源消耗的错误表示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of varying proportions of terrestrial and marine dietary protein on the stable carbon-isotope compositions of pig tissues from a controlled feeding experiment
ABSTRACT In recent years, it has become evident that limitations exist in our ability to meaningfully assess palaeodiet using stable isotope compositions. These limitations in part arise because many of the fundamental assumptions about tissue-diet relationships are poorly understood. In order to redress this deficiency, a controlled feeding experiment was undertaken to define the impact of terrestrial- vs. marine-derived dietary protein consumption on consumer tissue carbon isotopic compositions (δ13C). Two generations of pigs were raised on one of five feeds with varying proportions of terrestrial (soy) and marine (fish meal) protein. A comprehensive range of tissues and fluids from 49 pigs was submitted for δ13C analysis. The observed tissue–whole diet and tissue–dietary protein carbon isotopic offsets were found to be highly dependent on the percentage of marine protein in diet. We suggest that the trend in δ13C offsets most likely derives from the increased routing of non-essential amino acids, especially glycine, with the increasing proportion of marine protein in the diet. These findings demonstrate that solely using bulk δ13C compositions not only masks considerable information about diet, but may also lead to erroneous representations of marine and terrestrial resource consumption in the past.
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