安徽东至华龙洞遗址洞穴演化与古人类活动

doi:10.16359/j.1000-3193/AAS.2022.0022

人类学学报 ›› 2022, Vol. 41 ›› Issue (04): 593-607.doi: 10.16359/j.1000-3193/AAS.2022.0022

安徽东至华龙洞遗址洞穴演化与古人类活动

裴树文¹^,²(), 蔡演军³, 董哲⁴, 同号文¹^,², 盛锦朝⁵, 金泽田⁵, 吴秀杰¹^,², 刘武¹^,²

1.中国科学院脊椎动物演化与人类起源重点实验室,中国科学院古脊椎动物与古人类研究所,北京 100044
2.中国科学院生物演化与环境卓越创新中心,北京 100044
3.西安交通大学全球环境变化研究院,北京 710054
4.安徽省文物考古研究所,合肥 230061
5.安徽省东至县文物管理所,东至 247200

收稿日期:2022-03-04 修回日期:2022-04-29 出版日期:2022-08-12 发布日期:2022-08-10
作者简介:裴树文,研究员,主要从事地质考古学和旧石器时代考古学研究。Email: peishuwen@ivpp.ac.cn
基金资助:
中国科学院战略性先导科技专项（B 类）(XDB26000000)

Evolution of cave system at Hualongdong, Anhui and its relation to human occupation

PEI Shuwen¹^,²(), CAI Yanjun³, DONG Zhe⁴, TONG Haowen¹^,², SHENG Jinchao⁵, JIN Zetian⁵, WU Xiujie¹^,², LIU Wu¹^,²

1. Key Laboratory of Vertebrate Evolution and Human Origins, Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044
2. CAS Center for Excellence in Life and Paleoenvironment, Beijing, 100044
3. Institute of Global Environmental Change, Xi'an Jiaotong University, Xi’an 710054
4. Institute of Archaeology and Cultural Relics, Anhui Province, Hefei 230061
5. Office for Cultural Relics Administration of Dongzhi County, Anhui Province, Dongzhi 247200

Received:2022-03-04 Revised:2022-04-29 Online:2022-08-12 Published:2022-08-10

摘要/Abstract

摘要：

安徽东至华龙洞因发现距今约30万年的古人类头骨化石和大量动物化石及石制品受到学术界广泛关注。本文对华龙洞遗址的地质、地貌、沉积物特点及洞穴演化过程与古人类活动的关系进行分析。华龙洞地处扬子陆块区西北缘,周边呈现低山—丘陵—湖泊平原地貌景观。与华龙洞遗址密切关联的岩溶洞穴,发育在上寒武统微晶灰岩和白云质灰岩岩系内,中更新以来的地壳运动和岩溶发育是其形成的主要营力。华龙洞遗址是一处坍塌的洞穴,其发育大致经历发育初期（中更新世早期甚至更早）—稳定发育期（中更新世中期）—坍塌埋藏期（中更新世中晚期）等三个阶段,岩溶发育和洞外溪谷的侵蚀使得原始洞穴和堆积物一起在重力作用下坍塌。洞穴坍塌沉积物主要包括围岩岩块与碎屑、各种岩溶沉积物和文化遗物,胶结坚硬,不规则地埋藏于裂隙和巨石之间。古人类在遗址的活动时间处在距今约30万年前的稳定发育期,石制品和骨骼表面痕迹证据表明,华龙洞古人类具备依据不同原料的特点采取砸击法与锤击法并用的技术策略;石片边缘的使用痕迹和动物骨骼表面痕迹显示,古人类在遗址可能进行过肢解动物的行为。本研究对揭示长江下游中更新世中晚期古人类演化与适应生存行为具有重要意义。

关键词: 华龙洞遗址, 洞穴演化, 人类演化, 中更新世, 安徽

Abstract:

The Hualongdong (HLD) site (latitude 30°06′34.1"N, longitude 116°56′54.2"E, 40 m above sea level) is located in Dongzhi County, Anhui Province, China. It was discovered in 2005. The initial excavations at the HLD site in 2006 yielded a hominin frontal fragment and a lower second molar. Renewed excavations were carried out from 2014 to 2019 field seasons which resulted in the discovery of more than 30 human fossils, an abundance of lithic artifacts and fossil mammal fauna. Biostratigraphic study of faunal remains, as well as Uranium-Thorium dating of speleothems and animal teeth from the brecciated deposits indicated that early human occupied the site most probably took place in the late Middle Pleistocene, ca. 300 ka (270-330 ka). This paper presents the cave development and evolutionary history of the HLD site, and provides explanations of the hominin adapted behavior and the function of the site.

HLD cave is situated in the south slope of a small anticline named Meiyuan Hill. Constrained by the regional geological background, geomorphic features around HLD include lower mountains in the southeast, gentle hills and a lake plain in the northwest. The ancient HLD cave developed in the Upper Cambrian Formation, which consists of banded micritic limestone and dolomitic limestone, materials formed in a deep marine environment, and has been moderately karstified and mineralized over time. The initial formation of the ancient HLD cave likely commenced not later than the early Middle Pleistocene, as many broken speleothems were dated beyond the upper limits of the U-series dating. The original cave deposits were about 20 m higher above its current location, as indicated by the in situ flowstone and stalagmites exposed, which were formed inside the ancient HLD cave. Synsedimentary dismantlement, downward slippage, and bedrock weathering are indicated by the brecciated arrangement of the limestone rock blocks, cemented angular, subangular clasts and archaeological remains within the excavation area. Slipping and collapsing of the cave system proceeded from north to south, probably driven by the down-cutting of the valley and karst erosion.

Bone fragmentation is common and includes both diagenetic and green fractures probably produced by carnivore bone cracking and hominin hammerstone breaking. Additionally, carnivore (tooth pits, gnawing and scores marks) and human (cut marks) actions are documented over the bones. The stone tool assemblage is typical of Mode 1, i.e. the core-and-flake industries. Typologically, the HLD lithic assemblage is small (n=38) and is dominated by quartz (65.8%) and chert (21.1%), plus some lava (10.5%) and limestone (2.6%) artifacts. Most stone tools are complete flakes (60.5%) or debitage (31.6%), with only one specimen each of core, retouched and battered artifact categories. Quartz and lava show fluvial cortex and suggest sourcing from streams, whereas chert nodules derive from the nearby Sinian siliceous carbonate-clastic strata formation. A minimum of 44.4% of the quartz products were obtained through bipolar flaking, whereas all of the chert flakes were knapped with a freehand technique. The raw material quality of chert flakes is high, which may explain heavier reduction observed in their dorsal faces. Most chert flakes show use-wear, probably associated with carcass processing given the presence of cutmarks on some bones.

Although human presence at HLD site is attested by the recovery of their fossils and the small samples of cut-marked bones and stone tools, human activity seems to have been marginal at the site. Two possible scenarios can be deduced, either humans occasionally visited HLD site to briefly process animal remains attracted by carcasses abandoned by carnivores, or natural transport processes such as slope wash or gravity resulted in a fortuitous association between the carnivore-accumulated bone assemblage and lithics.

Key words: Hualongdong site, Cave system evolution, Human evolution, Middle Pleistocene, Anhui Province

中图分类号:

裴树文, 蔡演军, 董哲, 同号文, 盛锦朝, 金泽田, 吴秀杰, 刘武. 安徽东至华龙洞遗址洞穴演化与古人类活动[J]. 人类学学报, 2022, 41(04): 593-607.

PEI Shuwen, CAI Yanjun, DONG Zhe, TONG Haowen, SHENG Jinchao, JIN Zetian, WU Xiujie, LIU Wu. Evolution of cave system at Hualongdong, Anhui and its relation to human occupation[J]. Acta Anthropologica Sinica, 2022, 41(04): 593-607.

图/表 8

图1 华龙洞遗址地理位置与地貌图 a-b.华龙洞遗址地理位置Geographic location of HLD site;c.华龙洞遗址周边地貌景观Photo showing the geomorphological landscape of HLD site

Fig.1 Geographic location and geomorphology of HLD site

图2 华龙洞遗址周边地质与构造图（修改自文献[14]） I.淮南陆表盆地Huainan epicontinental basin;II.苏鲁高压-超高压变质折返带Sulu ultrahigh-pressure metamorphic exhumation belt;III.北淮阳-佛子岭增生杂岩带North Huaiyang-Foziling accretion zone;IV.大别高压-超高压变质折返带Dabie high pressure ultrahigh pressure metamorphic exhumation belt;V.长江中下游弧后裂谷盆地Back-arc rift basin in the middle and lower reaches of the Yangtze River;VI.下扬子被动陆缘Passive continental margin in Lower Yangtze;VII.南华陆缘裂谷盆地Nanhua continental margin rift basin;VIII.江南古岛弧Jiangnan paleoisland arc.

Fig.2 Geologic and tectonic map in the adjacent area of HLD site (modified after [14])

图3 华龙洞遗址发掘现场平面图以及堆积剖面示意图左：2017年照片。右上：南北向剖面;右下：东西向剖面。

Fig.3 A bird’s-eye view of the excavation at HLD site and the sketch maps of the deposits’ cross sections left: Photo in 2017. right up: south-north section; right down: east west section

图4 华龙洞遗址标本空间分布图

Fig.4 Spatial distribution of the archaeological remains from HLD site

图5 华龙洞遗址洞穴演化阶段示意图 a.古洞穴坍塌前东西向剖面East-west section of the ancient cave before its dismantlement;b.古洞穴坍塌前南北向剖面North-south section of the ancient cave;c.现在遗址堆积及周边山体分布南北向剖面（古洞穴坍塌后）North-south section of the present hill and the deposits at the HLD site after the cave’s dismantlement

Fig.5 Schematic figures illustrating the evolution of the Hualongdong relics

图6 华龙洞遗址骨骼表面痕迹证据 1. 食草类肱骨骨骺部位保留的牙齿痕迹(HLD-14-10-21)Tooth score on humerus epiphysis of herbivore; 2. 近骨骺部位保留的牙齿咬坑(HLD-14-10-49) Tooth pit on a near-epiphysis of indeterminable element; 3. 食草类掌(跖)骨骨干部位保留踩踏痕迹(HLD-14-10-01) Trampling marks on midshaft of herbivore metapodial bone; 4. 食草类肢骨骨干部位保留的割切和砍砸痕迹(HLD-14-10-50) Cut and chopping marks on midshaft of herbivore limb bone; 5. 化石骨干部位保留的牙齿痕迹(HLD-14-10-11) Tooth mark on midshaft of indeterminable element; 6. 食草类肢骨骨干部位保留的割切痕迹(HLD-14-10-30) Cut marks on midshaft of herbivore limb bone

Fig.6 Bones with surface modification at Hualongdong site

图7 华龙洞遗址出土部分石制品 a): 1.玄武岩石片Flake made on basalt（DH03）,2-5.带使用痕迹脉石英石片Flake made on vein quartz with use wears（TG7-21, TH6-15, 17F9: 01, TG9-8）,6.燧石石核Core made on chert,7-9.脉石英石片Flakes made on vein quartz (DHTE11-3-s33, TG6-10, 17D10:04),10.燧石刮削器Scraper made on chert（TG9-8）。b):带砸击痕迹脉石英石锤Vein quartz cobble with battered marks（HLD-165-12）。c): 1.砸击法产生石英岩分裂砾石Split cobble made on quartzite by bipolar technique (DHTD11-3-s001),2-4.脉石英砸击法产品Bipolar products made on vein quartz (17G11: 02, S107, TJ4-31)

Fig.7 Selected stone artifacts from Hualongdong site

表1 华龙洞遗址出土石制品及原料统计（单位：个）

Tab.1 Lithic artifact frequencies per raw material of the Hualongdong lithic assemblage (unit: n)

类型Type	石英Quartz		燧石Chert		玄武岩Basalt		灰岩Limestone		总计Total
类型Type	数量	百分比%	数量	百分比%	数量	百分比%	数量	百分比%	数量	百分比%
石片Flake	15	60.0%	4	50.0%	3	75.0%	1	100%	23	60.5%
断块/断片Chunk/debris	9	36.0%	2	25.0%	1	25.0%	0	0	12	31.6%
石核Core	0	0	1	12.5%	0	0	0	0	1	2.6%
石器Retouched tool	0	0	1	12.5%	0	0	0	0	1	2.6%
人工痕迹砾石Battered cobble	1	4.0%	0	0	0	0	0	0	1	2.6%
合计Total	25	65.8%	8	21.1%	4	10.5%	1	2.6%	38	100%

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安徽东至华龙洞遗址洞穴演化与古人类活动

Evolution of cave system at Hualongdong, Anhui and its relation to human occupation

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