光谱学与光谱分析 |
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Preliminary Study on the Function of Potteries of Liangzhu Culture |
LI Nai-sheng1,LI Qing-lin2*,YAO Zheng-quan3,MAO Zhen-wei4 |
1. Chinese Academy of Cultural Heritage, Beijing 100029, China 2. History School of Wuhan University, Wuchang 430072, China 3. Anhui Institute of Archaeology and Cultural Relics, Hefei 230061, China 4. United Key Laboratory of Archaeometry, University of Science and Technology of China, Hefei 230026, China |
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Abstract Liangzhu Culture is an important late neolithic culture of China, but there are different opinions on the function of some potteries of Liangzhu Culture, for example vat and Ding. In the present paper, for discussing the function of these potteries, the content of Cl, Ca and P of some shard samples of vat and Ding from Liangzhu site were analyzed by using EDXRF line scanning technology. The results show that the content of element Cl in the outside and inside parts of the bottom of vat sample is not different from that of other contemporaneous archaic potteries, and that the distribution of element Cl in the outside part of the bottom of vat sample is the same as that in the inside part of the bottom, so it is concluded that the function of vat from Liangzhu Culture is not related to the production or storage of salt, but with regard to the true function of this pottery more works remain to be done. The analytical results also show that the content of two elements, Ca and P, in the bottom of the other pottery, Ding, is obviously higher than that in vat and other contemporaneous archaic potteries, and that the content of two elements, Ca and P, in the outside part of the bottom of Ding sample is higher than that in the inside part of the bottom. So it is concluded that Ding from Liangzhu Culture is a kind of cooking ware and its main function is meal cooking.
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Received: 2007-09-22
Accepted: 2007-12-26
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Corresponding Authors:
LI Qing-lin
E-mail: lqinglin76@sina.com
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[1] MIAO Jian-min, YU Jun-yue, LI De-hui(苗建民,余君岳,李德卉). Nuclear Techniquess(核技术), 1997,20(9):538. [2] GUO Jing-kang, CHENG Huan-sheng, CHEN Xian-qiu, et al(郭景康,承焕生,陈显求,等). Journal of Ceramics(陶瓷学报), 1999, 20(3): 153. [3] LI Qing-lin, ZHU Jun-xiao, QIN Ying, et al(李清临,朱君孝,秦 颍,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(10): 1700. [4] LI Qing-lin, ZHU Jun-xiao, QIN Ying, et al(李清临,朱君孝,秦 颍,等). Science of Conservation and Archaeology(文物保护与考古科学), 2004, 16(3): 13. [5] HUANG Yun-lan, PENG Zi-cheng, YANG Zhao-qing(黄允兰,彭子成,杨肇清). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 1997, 17(6): 89. [6] LI Nai-sheng, YANG Yi-min, HE Nu, et al(李乃胜,杨益民,何 驽,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2008, 28(4): 946. [7] CHENG Jun, YANG Xue-ming, YANG Xiao-yong, et al(程 军,杨学明,杨晓勇,等). Chinese Rare Earths(稀土), 2000, 21(4): 1. [8] WANG Rong, FENG Min, WU Wei-hong, et al(王 荣,冯 敏,吴卫红,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(9): 1422. [9] LIANG Bao-liu, MAO Zhen-wei, LI De-hui, et al(梁宝鎏,毛振伟,李德卉,等). Science in Chian(Series B)(中国科学, B辑), 2003, 33(4): 340. [10] LING Xue, MAO Zhen-wei, FENG Min, et al(凌 雪,毛振伟,冯 敏,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(7): 1145. [11] ZHU Tie-quan, WANG Chang-sui, MAO Zhen-wei, et al(朱铁权,王昌燧,毛振伟,等). China Ceramics(中国陶瓷),2006, 42(3): 44. [12] ZHU Jian, MAO Zhen-wei, ZHANG Shi-ding(朱 剑,毛振伟,张仕定). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2006, 26(12): 2341. [13] ZHU Ji-ping, WANG Qing, YAN Sheng-dong, et al(朱继平,王 青,燕生东,等). Journal of University of Science and Technology of China(中国科学技术大学学报), 2005, 35(1): 139. [14] ZHU Ji-ping, WANG Chang-sui, QIN Ying, et al(朱继平,王昌燧,秦 颍,等). Journal of University of Science and Technology of China(中国科学技术大学学报), 2003, 33(4): 500. [15] LI Jia-zhi(李家治). History of Science and Technology of China, Volume Porcelain(中国科学技术史-陶瓷卷). Beijing: Science Press(北京: 科学出版社), 1998. 33. |
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