Xin Jia, Zhiping Zhang, Yonggang Sun, Runqi Jiang, Shuangwen Yi, Wei Chen, Jue Sun, Guoqiang Li, Shuzhi Wang, Enrui Li, Xiaonong Hu, Qingchun Bao, Harry F. Lee, Huayu Lu
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After that, by identifying carbonized grains in the Yumin site and the multi-proxy analysis of each section, we investigated the relationship between the origin of agriculture and climate change in this region. The results revealed that the timing of the origin of agriculture recorded in the Yumin site lagged behind the timing of a significant increase of precipitation during the early Holocene but coincided with the timing of a significant increase of vegetation around 8.4 ka. This phenomenon was further confirmed by the published high-resolution paleoenvironmental records from the surrounding area of the Yumin Culture. We propose that with the gradual amelioration of hydrothermal conditions since the beginning of the Holocene, the regional ecosystem had been improved, resulting in the gradual conversion of the land surface from infertile sand to organic-rich soil, providing an appropriate environmental foundation for the origin of dryland farming in northern China around 8.4 ka. This study highlighted that the “accumulative environmental effects” during the early Holocene played a vital role in the origin of agriculture in northern China and provided a reference for agricultural management in the context of future climate change.</p>","PeriodicalId":21651,"journal":{"name":"Science China Earth Sciences","volume":"28 1","pages":""},"PeriodicalIF":6.0000,"publicationDate":"2024-07-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Amelioration of habitat since the early Holocene contributed to the origin of agriculture in the farming-pastoral zone of northern China\",\"authors\":\"Xin Jia, Zhiping Zhang, Yonggang Sun, Runqi Jiang, Shuangwen Yi, Wei Chen, Jue Sun, Guoqiang Li, Shuzhi Wang, Enrui Li, Xiaonong Hu, Qingchun Bao, Harry F. 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引用次数: 0
摘要
中国北方农牧区的农业起源仍存在争议。内蒙古高原中部地区位于农牧区的核心地带,是探索中国北方旱地农业起源的关键地区。本研究选择了裕民文化--内蒙古新石器时代文化的开端--的裕民遗址和巴南遗址作为研究对象。根据对裕民遗址(YM)和巴南遗址(BN1 和 BN2)沉积剖面的石英光致发光(OSL)测年,建立了各剖面的全新世年代框架。随后,通过对裕民遗址碳化颗粒的鉴定和各断面的多代理分析,研究了该地区农业起源与气候变化之间的关系。结果显示,裕民遗址记录的农业起源时间滞后于全新世早期降水量显著增加的时间,但与 8.4 ka 前后植被显著增加的时间相吻合。已发表的裕民文化周边地区高分辨率古环境记录进一步证实了这一现象。我们认为,随着全新世以来水热条件的逐步改善,区域生态系统得到了改善,使地表由贫瘠的沙土逐渐转化为富含有机质的土壤,为8.4 ka前后中国北方旱地农业的起源提供了适宜的环境基础。该研究强调了全新世早期的 "环境累积效应 "在中国北方农业起源过程中发挥了重要作用,并为未来气候变化背景下的农业管理提供了参考。
Amelioration of habitat since the early Holocene contributed to the origin of agriculture in the farming-pastoral zone of northern China
The origin of agriculture in the farming-pastoral zone of northern China remains in dispute. The central region of the Inner Mongolia Plateau is located in the core area of the farming-pastoral zone; thus, it is a critical region for exploring the origin of the dryland farming system in northern China. This study selected the Yumin Site and Banan Site, which belong to the Yumin Culture-the beginning of Neolithic culture in Inner Mongolia-as the research objects. Based on the quartz optically stimulated luminescence (OSL) dating on the sedimentary sections from the Yumin site (YM) and Banan site (BN1 and BN2), the Holocene chronology framework of each section was established. After that, by identifying carbonized grains in the Yumin site and the multi-proxy analysis of each section, we investigated the relationship between the origin of agriculture and climate change in this region. The results revealed that the timing of the origin of agriculture recorded in the Yumin site lagged behind the timing of a significant increase of precipitation during the early Holocene but coincided with the timing of a significant increase of vegetation around 8.4 ka. This phenomenon was further confirmed by the published high-resolution paleoenvironmental records from the surrounding area of the Yumin Culture. We propose that with the gradual amelioration of hydrothermal conditions since the beginning of the Holocene, the regional ecosystem had been improved, resulting in the gradual conversion of the land surface from infertile sand to organic-rich soil, providing an appropriate environmental foundation for the origin of dryland farming in northern China around 8.4 ka. This study highlighted that the “accumulative environmental effects” during the early Holocene played a vital role in the origin of agriculture in northern China and provided a reference for agricultural management in the context of future climate change.
期刊介绍:
Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.