Ambrose S H, Butler B M, Hanson D B, Hunter-Anderson R L, Krueger H W
Department of Anthropology, University of Illinois, Urbana 61801, USA.
Am J Phys Anthropol. 1997 Nov;104(3):343-61. doi: 10.1002/(SICI)1096-8644(199711)104:3<343::AID-AJPA5>3.0.CO;2-W.
Proportions of marine vs. terrestrial resources in prehistoric human diets in the southern Mariana Islands (Guam, Rota, Saipan), Micronesia, have been estimated by analysis of stable isotope ratios of carbon and nitrogen in bone collagen and of carbon in apatite. The isotopic composition of marine and terrestrial food resources from the Marianas have also been determined. Experimental evidence shows that collagen carbon isotopes mainly reflect those of dietary protein sources and thus overestimate the contribution of marine animal foods. Marine protein consumption apparently ranges from approximately 20% to approximately 50% on these islands. Experiments also demonstrate the carbon isotope ratio of bone apatite carbonate accurately reflects that of the whole diet. Carbonate carbon isotope data suggest some individuals consumed significant amounts of 13C-enriched (C4) plants or seaweeds. Sugar cane is an indigenous C4 crop and seaweeds are eaten throughout the Pacific, but they have not been considered by archaeologists to have been prehistoric dietary staples. Apatite carbon isotope analysis has apparently identified previously unrecognized prehistoric dietary adaptations in the Mariana Islands, but this must be confirmed by archaeobotanical evidence.
通过分析骨胶原中碳和氮的稳定同位素比率以及磷灰石中碳的稳定同位素比率,已估算出密克罗尼西亚马里亚纳群岛南部(关岛、罗塔岛、塞班岛)史前人类饮食中海洋资源与陆地资源的比例。同时,也已确定了来自马里亚纳群岛的海洋和陆地食物资源的同位素组成。实验证据表明,胶原碳同位素主要反映膳食蛋白质来源的同位素,因此高估了海洋动物食物的贡献。在这些岛屿上,海洋蛋白质的摄入量显然在大约20%至大约50%之间。实验还表明,骨磷灰石碳酸盐的碳同位素比率准确反映了整个饮食的碳同位素比率。碳酸盐碳同位素数据表明,一些个体食用了大量富含13C的(C4)植物或海藻。甘蔗是当地的C4作物,整个太平洋地区都有人食用海藻,但考古学家此前并未将它们视为史前的主食。磷灰石碳同位素分析显然已识别出马里亚纳群岛此前未被认识到的史前饮食适应情况,但这必须通过考古植物学证据加以证实。
