勒瓦娄哇的剥片模式与技术组合

doi:10.16359/j.1000-3193/AAS.2024.0067

摘要/Abstract

摘要：

勒瓦娄哇技术是旧石器时代中期的代表性技术之一，其特点是通过预制石核来生产特定的石片产品。早年中国发现的勒瓦娄哇技术产品较少，所以对于此类技术的研究有限。本文重点介绍勒瓦娄哇技术的概念、产品及其剥片模式的具体特点，回顾目前在中国发现的勒瓦娄哇遗存，梳理相关技术特征和遗址内石器工业的技术面貌，对相关的研究材料做了补充，希望能对后续的考古研究提供一些参考。

关键词: 石制品, 石核, 剥片, 勒瓦娄哇技术

Abstract:

Levallois technology, denominated after the Levallois-Perret site located in the northern suburbs of Paris, France, was initially recognized and demarcated by the archaeologist Henri Breuil. This particular technology, which necessitates the fabrication of specific flake products through core preparation, forms a distinctive hallmark of the Middle Paleolithic epoch in the western region of the Old World (referred to as the Middle Stone Age in the African context). It epitomizes the primary technological expression of Mode 3 preformed cores within Clark’s five-mode technological classification system. Marked by the pre-shaping of cores and the generation of specialized flake varieties, Levallois technology held sway in the Mousterian industrial complex.

Levallois technology originally sprang up during the late phase of the Lower Paleolithic Acheulian industry and subsequently experienced further progression within the Mousterian technological paradigm during the Middle Paleolithic period. The incidence and application of Levallois technology exhibited pronounced variations among diverse Paleolithic assemblages; nevertheless, it unfailingly materialized in a multitude of stone tool industries spanning the Near East, Europe, Africa, and Asia. This lithic technology was noteworthy for its elaborate preforming sequence and the production of standardized implements, attesting to the elevated cognitive capabilities of ancient humans. As a result, this technology is routinely contemplated in the reconstructions of human intellectual evolution, given that it intimates advanced powers of conceptualization, abstraction, intelligence, and language.

In contradistinction to its widespread prevalence in other regions, the documentary evidence of Levallois technology in China remains comparatively scant, attributable to the paucity of archaeological vestiges. Some scholars previously attributed the deficiency of Levallois technology in East Asia to meager effective population sizes and the absence of the Acheulian heritage. However, in recent years, with the strides made in archaeological excavations, the discovery of artifacts embodying Levallois technology at Chinese sites has galvanized the attention of the academic fraternity. Indicative Levallois artifacts have been unearthed at several locations in northern China, especially in areas proximate to Russia and Mongolia. These sites, dating back approximately 50,000 to 40,000 years ago, include Shuidonggou, Jinsitai, and Tongtian Cave. These findings have subverted prior assumptions and furnished novel vantage points for grasping technological assemblages, technological dissemination, as well as the divergences from representative sites of the late Middle Pleistocene and early Late Pleistocene in northern China.

This paper strives to introduce and encapsulate the Levallois concepts, products, and idiosyncratic traits of the reduction pattern. It clarifies the extant evidence of Levallois technology unearthed in China and the characteristics of the affiliated industries. By dint of this endeavor, we aspire to proffer valuable perspectives for further research undertakings.

Key words: stone artifacts, core, flaking, Levallois technology

中图分类号:

K871

王潇玉, 高星. 勒瓦娄哇的剥片模式与技术组合[J]. 人类学学报, 2025, 44(01): 1-13.

WANG Xiaoyu, GAO Xing. Reduction patterns and assemblage of the Levallois technology[J]. Acta Anthropologica Sinica, 2025, 44(01): 1-13.

图/表 2

图1 勒瓦娄哇石核的预制与剥片示意图 1.燧石结核Flint nodule；2.边缘进行一周的修理Flake it off all around themargins；3, 4.剥落毛坯的上表面Flake away the upper surfaceof the nodule；5.剥取勒瓦娄哇石片Strike off a levallois flake；6.打片完成Flaking completed。本图改绘自参考文献[14]。

Fig.1 Predetermination and flaking of Levallois core

图2 勒瓦娄哇技术的剥片方式示意图 1.勒瓦娄哇石核Levallois Core；2.优先剥片法Preferential Method；3. 单向循环剥片法Unidirectional Recurrent Method；4. 向心循环剥片法Centripetal Recurrent Method；5. 对向循环剥片法Bidirectional Recurrent Method；6.汇聚型剥片法Convergent Recurrent Method

Fig.2 Levallois debitage methods

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