泥河湾盆地火山角砾岩原料的热处理实验

doi:10.16359/j.1000-3193/AAS.2023.0075

摘要/Abstract

摘要：

泥河湾盆地内发现了众多以精致楔形细石核为特色的细石器遗址。在以往的研究中，研究者对此类石制品组合进行了技术、类型等方面的研究，但其石料来源、石料是否经过热处理等问题仍未得到妥善解决。本文开展了盆地内旧石器时代晚期晚段常用原料火山角砾岩的调查和热处理实验研究。研究表明，泥河湾盆地六棱山基岩中的火山角砾岩，直接使用时，难以满足楔形细石核压制剥片对原料品质的要求；经过600°C的热处理后，其抗力性降低、延展性提高，剥片性能显著提高，可很好地进行楔形细石核的系统压制剥片。基于实验观察，同时借鉴其他学者的研究成果，本文对下卜庄遗址的相关材料进行了初步分析，发现了石料热处理行为的线索。对泥河湾盆地旧石器时代晚期遗址开展系统的石料热处理研究，有望揭示盆地内古人类对石料热处理的复杂行为。

关键词: 旧石器时代晚期, 泥河湾盆地, 热处理, 细石叶, 实验考古学

Abstract:

Abundance of exquisite wedge-shaped microblade cores have been found at many microlithic sites in the Nihewan Basin. Through reconstructed reduction sequences of microblade technology, relationships between microblades and areas, microblade function and knowledge of lithic technology, researchers have a good understanding of human behavior, subsistence and adaptation in the Basin. However, there are still some questions such as raw material use. Bifaces and microblade cores are made of high-quality volcano breccia, showing smooth fracture faces and a greasy luster, whereas natural rocks lack these features, and the fracture patterns are rough and dull. This paradox is unexplained and some researchers suggest that heat treatment was applied to improve the quality of volcano breccia, but it has not been confirmed. By binding heat treatment experiments with flaking experiments, we have gained some important knowledge about the heat treatment of volcano breccia in the Nihewan Basin. When the volcano breccia is heated up to ≥600°C, its resistance weakens, ductility is enhanced, flaking performance is improved significantly to make sophisticated bifaces and microblade cores, which is impossible with natural breccia. But not all volcano breccias show a greasy luster or color change, and this observation is the same with previous researchers. There is no doubt that flaking performance is the main transformation with the fracture of heated volcano breccia smoother. Before heating, however, volcano breccia’s fracture is rough. So heat-treated lithics retain several scars that are removed, but after heating there are two type of scars, rough and smooth. Heat treatment also induces conchoidal fractures, which can serve as valid evidence for the use of heat in this raw material. These characteristics are observed on some microblade cores and other lithics from the Xiabuzhuang site. We suggest that heat treatment is, indeed, used in the Upper Paleolithic in the Nihewan Basin, and it increases the diversity of human raw material selection and adaptability of use.

Key words: Upper Paleolithic, Nihewan Basin, Heat Treatment, Microbalde Technology, Experimental Archeology

中图分类号:

K871.11

仝广, 李锋, 赵海龙, 闫晓蒙, 高星. 泥河湾盆地火山角砾岩原料的热处理实验[J]. 人类学学报, 2024, 43(01): 81-90.

TONG Guang, LI Feng, ZHAO Hailong, YAN Xiaomeng, GAO Xing. Heat treatment experiments on the volcanic breccia materials from the Nihewan Basin[J]. Acta Anthropologica Sinica, 2024, 43(01): 81-90.

图/表 7

图1 石料采集地点与地质概况 1. 浮图村基岩 Bedrock nearby Futu viliage；2. 双条岭基岩 Bedrock nearby Shuangtiaoling；3. 新庙庄遗址 Xinmiaozhuang Site；4. 下卜庄遗址 Xiabuzhuang site

Fig.1 The collection spots of raw material and its geology

图2 自然状态下的石料

Fig.2 Natural volcano breccia

图3 放大200X的新破裂面微观观察 a. 片状结构 sheet structure; b. 晶体crystal particle；1. 100°C-3小时热处理 heated surface with 100°C-3h；2. 400°C-3小时热处理 heated surface with 400°C-3h；3. 800°C-3小时热处理 heated surface with 700°C-3h；4. 600°C-1小时热处理 heated surface with 600°C-1h

Fig.3 Microscopic observation of the new removal surface with a magnification of 200X

图4 不同热处理等级石料的剥片效率

Fig.4 Flaking efficiency of raw materials with different heating grades

图5 不同参数的热处理石料剥片性能差异对比 1.实验样品HT6 (400°C-2h) experimental sample HT6 (400°C-2h)；2.实验样品HT4 (400°C-2h) experimental sample HT4 (400°C-2h)；3.实验样品HT10 experimental sample HT10 (600°C-2h)；4.经过600°C-2h加热的实验样品HT4 re-heated experimental sample HT4 with 600°C-2h

Fig.5 Comparison of performance differences of heat-treated raw material flaking with different parameters

图6 新旧破裂面微观观察 a.热处理前的破裂面the removal surface before heat treatment;b.热处理之后的破裂面the removal surface after heat treatment

Fig.6 Microscopic observation of the new and old removal surfaces

图7 考古标本观察 1a, 2a.热处理前的破裂面 Removal surfaces before heat treatment；1b, 2b.热处理后的破裂面 Removal surfaces after heat treatment； 1.17XBZDT2:1303，石片flake；2.17XBZDT2:2473，楔形细石核毛坯preform of wedge-shape microblade core

Fig.7 the Observations of archaeological lithics

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