Abstract
The origin and development of agriculture and its relationship with climate change are hotly debated topics among environmental archaeologists. In this study, we analyzed wood charcoal materials from the Neolithic Xinglong site in northern China in order to understand the woody vegetation around the site and how early millet farmers shaped local woodlands. Our results suggest that the area around the Xinglong sites during 8700–7000 yr BP was primarily woodlands, including Prunus sibirica shrubs, Ulmus and Acer forests, and Populus stands near waterways. From 8000 to 7000 yr BP, the warm and humid climate probably contributed to the expansion of Acer, Rhamnus, and Juniperus, and may have facilitated the development of early millet agriculture. Among these ancient wood fragments that we studied, the high percent of Prunus charcoal appears to indicate an abundance of fruit trees, which might have constituted the main component of local vegetation. Meanwhile, the wood taxa illustrate the existence of a variety of ecological habitats, and it is logical to assume that people made full use of the locally available wood resources. Notably, Populus and Ulmus were the dominant sources of fuel. The results of tree-ring curvature analyses indicate that people mainly collected trunks or large branches of Ulmus, Populus, Acer, and Juniperus timbers. We interpret the increasing use of Prunus twigs and the declining percentage of Prunus charcoal in the period between 8000–7000 yr BP as indicating that people started to protect and manage wild fruit trees. They may have started pruning to acquire more food resources as part of the cultural responses and adaptation strategies employed by these early millet cultivators.
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References
Asouti E, Austin P. 2005. Reconstructing woodland vegetation and its exploitation by past societies, based on the analysis and interpretation of archaeological wood charcoal macro-remains. Environ Archaeol, 10: 1–18
Asouti E, Kabukcu C, White C E, Kuijt I, Finlayson B, Makarewicz C. 2015. Early Holocene woodland vegetation and human impacts in the arid zone of the southern Levant. Holocene, 25: 1565–1580
Asouti E, Kabukcu C. 2014. Holocene semi-arid oak woodlands in the Irano-Anatolian region of Southwest Asia: Natural or anthropogenic? Quat Sci Rev, 90: 158–182
Atahan P, Itzstein-Davey F, Taylor D, Dodson J, Qin J, Zheng H, Brooks A. 2008. Holocene-aged sedimentary records of environmental changes and early agriculture in the lower Yangtze, China. Quat Sci Rev, 27: 556–570
Bellwood P S. 2005. The first farmers: the origins of agricultural societies. London: Blackwell Pub
Bestel S, Bao Y, Zhong H, Chen X, Liu L. 2018. Wild plant use and multi-cropping at the early Neolithic Zhuzhai site in the middle Yellow River region, China. Holocene, 28: 195–207
Cao J, Rao Z, Shi F, Lian E, Jia G. 2021. Lake-level records support a mid-Holocene maximum precipitation in northern China. Sci China Earth Sci, 64: 2161–2171
Chen F, Xu Q, Chen J, Birks H J B, Liu J, Zhang S, Jin L, An C, Telford R J, Cao X, Wang Z, Zhang X, Selvaraj K, Lu H, Li Y, Zheng Z, Wang H, Zhou A, Dong G, Zhang J, Huang X, Bloemendal J, Rao Z. 2015. East Asian summer monsoon precipitation variability since the last deglaciation. Sci Rep, 5: 11186
Cheng J, Yang J, Liu P. 1992. Wood Anatomy of China (in Chinese). Beijing: China Forestry Publishing House
Cheng Z, Weng C, Steinke S, Mohtadi M. 2018. Anthropogenic modification of vegetated landscapes in southern China from 6,000 years ago. Nat Geosci, 11: 939–943
Crawford G W, Chen X, Luan F, Wang J. 2016. People and plant interaction at the Houli Culture Yuezhuang site in Shandong Province, China. Holocene, 26: 1594–1604
Crawford G W, Chen X, Wang J. 2013. A preliminary analysis on plant remains of the Yuezhuang site in Changqing District, Jinan City, Shandong Province (in Chinese). Jianghan Kaogu, 2: 107–116
Crawford G W. 2006. East Asian Plant Domestication. In: Stark M T, ed. Archaeology of Asia. Oxford: Blackwell Publishing Ltd. 77–95
deMenocal P B. 2001. Cultural responses to climate change during the late Holocene. Science, 292: 667–673
Dong G, Li R, Lu M, Zhang D, James N. 2020. Evolution of human-environmental interactions in China from the Late Paleolithic to the Bronze Age. Prog Phys Geogr-Earth Environ, 44: 233–250
Dong G, Liu F, Yang Y, Wang L, Chen F. 2016. Cultural expansion and its influencing factors during Neolithic Phase in the Yellow River valley, northern China (in Chinese). Chin J Nat, 38: 248–252
Dong G, Lu Y, Zhang S, Huang X, Ma M. 2022. Spatiotemporal variation in human settlements and their interaction with living environments in Neolithic and Bronze Age China. Prog Phys Geogr-Earth Environ, 46: 949–967
Editorial Committee of Flora of Hebei. 1986. Flora of Hebei (Volume 1) (in Chinese). Shijiazhuang: Hebei Science & Technology Publishing House
Editorial Committee of Flora of Hebei. 1989. Flora of Hebei (Volume 2) (in Chinese). Shijiazhuang: Hebei Science & Technology Publishing House
Editorial Committee of Vegetation Map of China, Chinese Academy of Sciences. 2001. Vegetation Map of China (1:1000000) (in Chinese). Beijing: Science Press
Fall P L, Falconer S E, Lines L. 2002. Agricultural intensification and the secondary products revolution along the Jordan Rift. Hum Ecol, 30: 445–482
Hou Y, Long H, Tsukamoto S, Gao L, Zhang J, Tamura T, Frechen M. 2023. Late Quaternary evolution of Daihai Lake in northern China and implications to the variation of the East Asian summer monsoon. Quat Sci Rev, 309: 108097
Innes J B, Blackford J J, Rowley-Conwy P A. 2013. Late Mesolithic and early Neolithic forest disturbance: A high resolution palaeoecological test of human impact hypotheses. Quat Sci Rev, 77: 80–100
Janick J. 2005. The origins of fruit, fruit growing, and fruit breeding. Plant Breed Rev, 25: 255–320
Jiang X, Cheng Y, Yin Y. 2010. Wood Anatomy of Gymnospermous Woods in China (in Chinese). Beijing: Science Press
Kaplan J O, Krumhardt K M, Zimmermann N. 2009. The prehistoric and preindustrial deforestation of Europe. Quat Sci Rev, 28: 3016–3034
Knapp H, Nelle O, Kirleis W. 2015. Charcoal usage in medieval and modern times in the Harz Mountains Area, Central Germany: Wood selection and fast overexploitation of the woodlands. Quat Int, 366: 51–69
Li H. 2018. Study on the utilization strategies of major crops from Neolithic to historic Phases in the western Loess Plateau (in Chinese). Doctoral Dissertation. Lanzhou: Lanzhou University
Li X, Shang X, Dodson J, Zhou X. 2009. Holocene agriculture in the Guanzhong Basin in NW China indicated by pollen and charcoal evidence. Holocene, 19: 1213–1220
Li X, Sun N, Dodson J, Ji M, Zhao K, Zhou X. 2011. The impact of early smelting on the environment of Huoshiliang in Hexi Corridor, NW China, as recorded by fossil charcoal and chemical elements. Palaeogeogr Palaeoclimatol Palaeoecol, 305: 329–336
Li X, Zhou J, Shen J, Weng C, Zhao H, Sun Q. 2004. Vegetation history and climatic variations during the last 14 ka BP inferred from a pollen record at Daihai Lake, north-central China. Rev Palaeobot Palynol, 132: 195–205
Liu C, Kong Z, Lang S. 2004. Plant remains found in the Dadiwan site and its implication on past environment (in Chinese). Cult Relics Cent China, 4: 26–30
Liu L, Field J, Fullagar R, Zhao C, Chen X, Yu J. 2010. A functional analysis of grinding stones from an early holocene site at Donghulin, North China. J Archaeol Sci, 37: 2630–2639
Liu X, Zhang J, Sun, Y, Zhao B. 2022. Analysis of climate change characteristics and its impact on agricultural production of Kangbao in recent 59 years (in Chinese). J Agric Catastrophol, 12: 66–68
Lu H, Zhang J, Liu K, Wu N, Li Y, Zhou K, Ye M, Zhang T, Zhang H, Yang X, Shen L, Xu D, Li Q. 2009. Earliest domestication of common millet (Panicum miliaceum) in East Asia extended to 10,000 years ago. Proc Natl Acad Sci USA, 106: 7367–7372
Lu J, Xu Q, Liu Y, Hu Y, Li M, Zhang S. 2018. Holocene environmental changes and human activity at the Jijitan site in the Nihewan Basin, China. Holocene, 28: 1151–1159
Marguerie D, Hunot J Y. 2007. Charcoal analysis and dendrology: data from archaeological sites in north-western France. J Archaeol Sci, 34: 1417–1433
Miller A J, Gross B L. 2011. From forest to field: Perennial fruit crop domestication. Am J Bot, 98: 1389–1414
Mu Y, Qin X, Zhang L, Xu B. 2016. Holocene climate change evidence from high-resolution loess/paleosol records and the linkage to fire-climate change-human activities in the Horqin dunefield in northern China. J Asian Earth Sci, 121: 1–8
National Museum of China, Hebei Provincial Institute of Cultural Relics and Archaeology, Institute of Cultural Relics and Archaeology of Zhangjiakou City, Cultural Heritage Administration of Kangbao County, The Department of History of Jinan University. 2021. A preliminary report on the excavation during 2018–2019 in the Xinglong site, Kangbao County, Hebei Province (in Chinese). Archaeology, 1: 3–25
Neumann K, Bostoen K, Höhn A, Kahlheber S, Ngomanda A, Tchiengué B. 2012. First farmers in the Central African rainforest: A view from southern Cameroon. Quat Int, 249: 53–62
Qi H, Liu X, Li H, Li J, Cao X, Herzschuh U. 2018. The vegetation and climate changes since the late glacial Phase inferred from pollen record of a sediment core in Anguli-Nuur Lake, Hebei Province (in Chinese). Quat Sci, 38: 1203–1210
Qiu Z, Wu X, Guo M, Wang G. 2023. Flotation results and analysis of plant remains excavated during 2018–2019 in the Xinglong site, Kangbao County, Hebei Province (in Chinese). Archaeology, 1: 106–120
Ruddiman W F. 2003. The anthropogenic greenhouse era began thousands of years ago. Clim Change, 61: 261–293
Ruddiman W F. 2008. Earth’s Climate: Past and Future. 2nd ed. New York: W H Freeman & Co Ltd
Shen H, Li X, Spengler R, Zhou X, Zhao K. 2021. Forest cover and composition on the Loess Plateau during the Middle to Late-Holocene: Integrating wood charcoal analyses. Holocene, 31: 38–49
Shen H, Zhou X, Zhao K, Betts A, Jia P W, Li X. 2018. Wood types and human impact between 4300 and 2400 yr BP in the Hexi Corridor, NW China, inferred from charcoal records. Holocene, 28: 629–639
Sun N, Li X, Dodson J, Zhou X, Zhao K, Yang Q. 2013. Plant diversity of the Tianshui Basin in the western Loess Plateau during the mid-Holocene-Charcoal records from archaeological sites. Quat Int, 308–309: 27–35
Tan Z, Huang C, Pang J, Zhou Q. 2008. Charcoal recorded Holocene fire history in the northern part of the Longdong Loess Plateau (in Chinese). Quat Sci, 28: 733–738
Wang C, Lu H, Gu W, Zuo X, Zhang J, Liu Y, Bao Y, Hu Y. 2018. Temporal changes of mixed millet and rice agriculture in Neolithic-Bronze Age Central Plain, China: Archaeobotanical evidence from the Zhuzhai site. Holocene, 28: 738–754
Wang S. 2022. Xylonarchaeology: Theories, Methods and Practice (in Chinese). Beijing: Science Press
Wang X, Xiao J, Cui L, Ding Z. 2013. Holocene changes in fire frequency in the Daihai Lake region (north-central China): indications and implications for an important role of human activity. Quat Sci Rev, 59: 18–29
Weiss H, Bradley R S. 2001. What drives societal collapse? Science, 291: 609–610
Xiao J, Xu Q, Nakamura T, Yang X, Liang W, Inouchi Y. 2004. Holocene vegetation variation in the Daihai Lake region of north-central China: A direct indication of the Asian monsoon climatic history. Quat Sci Rev, 23: 1669–1679
Xie G, Yao Y F, Li J F, Yang J, Bai J D, Ferguson D K, Trivedi A, Li C S, Wang Y F. 2019. Holocene climate, dynamic landscapes and environmentally driven changes in human living conditions in Beijing. Earth-Sci Rev, 191: 57–65
Xu Q, Chen F, Zhang S, Cao X, Li J, Li Y, Li M, Chen J, Liu J, Wang Z. 2017. Vegetation succession and East Asian Summer Monsoon Changes since the last deglaciation inferred from high-resolution pollen record in Gonghai Lake, Shanxi Province, China. Holocene, 27: 835–846
Xu Q, Xiao J, Li Y, Tian F, Nakagawa T. 2010. Pollen-based quantitative reconstruction of Holocene climate changes in the Daihai Lake area, Inner Mongolia, China. J Clim, 23: 2856–2868
Yang Q, Li X, Zhou X, Zhao K, Sun N. 2016. Quantitative reconstruction of summer precipitation using a mid-Holocene (δ13C common millet record from Guanzhong Basin, northern China. Clim Past, 12: 2229–2240
Yang X, Wan Z, Perry L, Lu H, Wang Q, Zhao C, Li J, Xie F, Yu J, Cui T, Wang T, Li M, Ge Q. 2012. Early millet use in northern China. Proc Natl Acad Sci USA, 109: 3726–3730
Yang X Y, Yu J C, Lü H Y, Cui T X, Guo J N, Ge Q S. 2009. Starch grain analysis reveals function of grinding stone tools at Shangzhai site, Beijing. Sci China Ser D-Earth Sci, 52: 1164–1171
Yerkes R W, Khalaily H, Barkai R. 2012. Form and function of early neolithic bifacial stone tools reflects changes in land use practices during the neolithization process in the levant. PLoS One, 7: e42442, doi: https://doi.org/10.1371/journal.pone.004244
Zhao K, Wei H, Zhao Z, Zhang Y, Liu W, Wang J, Chen G, Shen H, Du H, Cheng P, Chen S, Jia P W, Zhou X, Li X. 2023. Synchronous change in the intensified millet cultivation and ecological environment from the early to middle Holocene on the Inner Mongolia Plateau, northern China. Holocene, 33: 347–354
Zhao Z, Zhao C, Yu J, Wang T, Cui T, Guo J. 2020. Flotation results and analysis of plant remains in Donghulin site, Beijing (in Chinese). Archaeology, 7: 99–106
Zhao Z. 2004. Discussion of the Xinglonggou site flotation results and the origin of dry farming in northern China (in Chinese). In: School of Liberal Arts, Nanjing Normal University, ed. Antiquities of Eastern Asia (Volume A). Beijing: Cultural Relics Press. 189–199
Zheng Z, Ma T, Roberts P, Li Z, Yue Y, Peng H, Huang K, Han Z, Wan Q, Zhang Y, Zhang X, Zheng Y, Saito Y. 2021. Anthropogenic impacts on Late Holocene land-cover change and floristic biodiversity loss in tropical southeastern Asia. Proc Natl Acad Sci USA, 118: e2022210118
Zong Y, Chen Z, Innes J B, Chen C, Wang Z, Wang H. 2007. Fire and flood management of coastal swamp enabled first rice paddy cultivation in east China. Nature, 449: 459–462
Acknowledgements
We sincerely thank Dr. Wenhui Liu for his help in wood charcoal collection, and Drs. Peter Jia and Robert Spengler and two reviewers for their valuable suggestions on this manuscript. This work was supported by the National Natural Science Foundation of China (Grant Nos. T2192952, 42002202, 42107470) and the Youth Innovation Promotion Association of Chinese Academy of Sciences (Grant No. 2022071).
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Shen, H., Qiu, Z., Zhao, K. et al. Wood use and forest management by Neolithic millet farmers at the Xinglong site, northern China. Sci. China Earth Sci. 67, 1910–1921 (2024). https://doi.org/10.1007/s11430-023-1330-6
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DOI: https://doi.org/10.1007/s11430-023-1330-6