光谱学与光谱分析 |
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Study on Provenance of Kraak Porcelains from "Nan’ao Ⅰ" Shipwreck |
DU Jing-nan1, 2, CHEN Yue1, 2, LI Nai-sheng3, MING Chao-fang1, 2, ZHU Jian1, 2, LUO Wu-gan1, 2* |
1. Key Laboratory of Vertebrate Evolution and Human Origins of Chinese Academy of Sciences, Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044, China 2. Department of Scientific History and Archaeometry, University of Chinese Academy of Sciences, Beijing 100049, China 3. Chinese Academy of Cultural Heritage, Beijing 100029, China |
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Abstract The “Kraak Porcelain” was a kind of Blue and White Porcelain which exported from China to Europe in Ming and Qing period. The study of Kraak Porcelain is a focus issue in international field of porcelain research. In 2007, the discovery of “Nan’ao Ⅰ” Shipwreck of Ming Dynasty and the porcelains loaded in it, provided precious materials for the research on Kraak Porcelain. In this paper, we explored the provenance of 10 Kraak Porcelain samples from Nan’ao Ⅰ, using both traditional visual method and WDXRF.
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Received: 2014-05-09
Accepted: 2014-08-14
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Corresponding Authors:
LUO Wu-gan
E-mail: xiahua@ucas.ac.cn
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[1] Mikami Tsugio(三上次男). Porcelain Road(陶瓷之路). Translated by LI Xi-jing, GAO Xi-mei(李锡经,高喜美,译). Beijing: Cultural Relics Press(北京:文物出版社),1984. 155. [2] Volker T. Porcelain and The Dutch East India Company. Leiden: E. J. Brill, 1954. 9. [3] Maura Rinaldi. Kraak Porcelain. London: Bamboo Publishing, 1989. 61. [4] Isabel M Dias, Isabel M Prudêncio, Pinto M A De Matos, et al. Journal of Archaeological Science, 2013, 40: 3046. [5] Ma Hongjiao, Zhu Jian, Julian Henderson, et al. Journal of Archaeological Science, 2012, 39: 1218. [6] Bosch S C Reitz. The Metropolitan Museum of Art Bulletin, 1919, 14(11): 236. [7] CUI Yong(崔 勇). Cultural Relics(文物), 2011, (5): 25. [8] CUI Yong(崔 勇). News of Chinese Cultural Relics(中国文物报), 2011, 25(4): 3. [9] XIONG Huan(熊 寰). Palace Museum Journal(故宫博物院院刊), 2006,(3): 113. [10] MA Hong-jiao, YANG Zheng, ZHU Jian(马泓蛟,杨 征,朱 剑). Fujian Wenbo(福建文博), 2009, (2): 46. [11] Tite M S. Journal of Archaeological Method and Theory, 1999, 6(3): 181. [12] Tite M S. Archaeometry, 1991, 33(2): 139. [13] Wu J, Leung P L, Li J Z, et al. X-Ray Spectrometry, 2000, 29(3): 239. [14] Li Baoping, Zhao Jianxin, Kenneth D. Chinese Science Bulletin, 2003, 48(12): 1219. [15] SONG Zhong-lei, LI Fei-yan(宋中雷, 黎飞艳). Cultural Relics(文物), 2013, (3): 60. [16] SUI Hai-yan(隋海燕). Journal of Ceramics(陶瓷学报), 2008, 29(2): 143. [17] CHEN Tie-mei(陈铁梅). Quantitative Archaeology(定量考古学). Beijing: Peking University Press(北京:北京大学出版社),2005. 213. [18] Cui Jianfeng, Nigel Wood, Qin Dashu, et al. Journal of Archaeological Science, 2012, 39: 818. [19] Zhu Jiping, Shan Jie, Qiu Ping, et al. Journal of Archaeological Science, 2004, 31: 1685. [20] Xu Anwu, Wang Changsui, Chi Jinqi, et al. Archaeometry,2001, 43(1): 35. |
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