Holocene human activities recorded by pollen in the Mu Us Sandy Land in north-central China

Holocene human activities recorded by pollen in the Mu Us Sandy Land in north-central China

Explaining the regional peculiarities of human activities in different phases of the Holocene is crucial for a better understanding of the development of the natural environment and of potential past, present, and future human-land relationships. However, Holocene human activity records, especially...

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Veröffentlicht in:Global and planetary change 2023-10, Vol.229, p.104243, Article 104243
Hauptverfasser: Chen, Dongxue, Lu, Ruijie, Liu, Xiaokang, Ding, Zhiyong, Ma, Luo, Du, Yue
Format: Artikel
Sprache:eng
Schlagworte:
algorithms
atmospheric precipitation
China
climate
climate change
Holocene
Holocene epoch
Human influence index
Human-related pollen taxa
humans
lifestyle
Mu Us Sandy Land
pastoralism
pollen
Random forest model
species
temperature
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container_start_page 104243
container_title Global and planetary change
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creator Chen, Dongxue
Lu, Ruijie
Liu, Xiaokang
Ding, Zhiyong
Ma, Luo
Du, Yue
description Explaining the regional peculiarities of human activities in different phases of the Holocene is crucial for a better understanding of the development of the natural environment and of potential past, present, and future human-land relationships. However, Holocene human activity records, especially anthropogenic pollen indicators, are still rare. Here, we reconstructed a human influence index (HII) for the Holocene in the Mu Us Sandy Land utilizing a pollen-based random forest model. Nine human-related species were identified based on the analysis of the main pollen species, HII, mean annual temperature, and annual precipitation. The substantial increase in the reconstructed HII and the percentage of human-related pollen indicated a significant increase in the intensity of human activity since 5.0 ka BP. During the period of 7.0–5.0 ka BP, agriculture was the main lifestyle for humans, while a mix of agricultural and pastoral activities occurred after 5.0 ka BP. In addition, by combining human activities and climate proxies, we found that the intensity of human activity was controlled by climate change, and the impact of climate change on human activity intensity gradually decreased since 2.8 ka BP. Our results may provide a significant reference for understanding the process of human adaptation to natural variation and for sustainable ecological development. •Holocene human activities intensity significantly increased after 5.0 ka BP.•Nine pollen taxa were selected for human-related pollen.•Human lifestyles were dominated by agriculture during the period of 7.0–5.0 ka BP.•Since 5.0 ka BP, humans started a mixed agricultural and pastoral lifestyle.•The impact of climate change on the intensity of human activities has weakened since 2.8 ka BP.
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source Elsevier ScienceDirect Journals Complete
subjects algorithms
atmospheric precipitation
China
climate
climate change
Holocene
Holocene epoch
Human influence index
Human-related pollen taxa
humans
lifestyle
Mu Us Sandy Land
pastoralism
pollen
Random forest model
species
temperature
title Holocene human activities recorded by pollen in the Mu Us Sandy Land in north-central China
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