Reconciling East Asia's mid-Holocene temperature discrepancy through vegetation-climate feedback
(2024) In Science Bulletin- Abstract
The term “Holocene temperature conundrum” refers to the inconsistencies between proxy-based reconstructions and transient model simulations, and it challenges our understanding of global temperature evolution during the Holocene. Climate reconstructions indicate a cooling trend following the Holocene Thermal Maximum, while model simulations indicate a consistent warming trend due to ice-sheet retreat and rising greenhouse gas concentrations. Various factors, such as seasonal biases and overlooked feedback processes, have been proposed as potential causes for this discrepancy. In this study, we examined the impact of vegetation-climate feedback on the temperature anomaly patterns in East Asia during the mid-Holocene (∼6 ka). By utilizing... (More)
The term “Holocene temperature conundrum” refers to the inconsistencies between proxy-based reconstructions and transient model simulations, and it challenges our understanding of global temperature evolution during the Holocene. Climate reconstructions indicate a cooling trend following the Holocene Thermal Maximum, while model simulations indicate a consistent warming trend due to ice-sheet retreat and rising greenhouse gas concentrations. Various factors, such as seasonal biases and overlooked feedback processes, have been proposed as potential causes for this discrepancy. In this study, we examined the impact of vegetation-climate feedback on the temperature anomaly patterns in East Asia during the mid-Holocene (∼6 ka). By utilizing the fully coupled Earth system model EC-Earth and performing simulations with and without coupled dynamic vegetation, our objective was to isolate the influence of vegetation changes on regional temperature patterns. Our findings reveal that vegetation-climate feedback contributed to warming across most of East Asia, resulting in spatially diverse temperature changes during the mid-Holocene and significantly improved model-data agreement. These results highlight the crucial role of vegetation-climate feedback in addressing the Holocene temperature conundrum and emphasize its importance for simulating accurate climate scenarios.
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- author
- Chen, Jie ; Zhang, Qiong ; Lu, Zhengyao LU ; Duan, Yanwu ; Cao, Xianyong ; Huang, Jianping and Chen, Fahu
- organization
- publishing date
- 2024
- type
- Contribution to journal
- publication status
- epub
- subject
- keywords
- East Asia, Holocene temperature conundrum, Holocene Thermal Maximum, Paleoclimate simulations, Vegetation-climate feedback
- in
- Science Bulletin
- publisher
- Science China Press
- external identifiers
-
- scopus:85191838000
- pmid:38693017
- ISSN
- 2095-9273
- DOI
- 10.1016/j.scib.2024.04.012
- language
- English
- LU publication?
- yes
- id
- 745f0874-e294-4b04-bdfd-02899ad95794
- date added to LUP
- 2024-05-21 15:09:42
- date last changed
- 2024-06-18 16:47:57
@article{745f0874-e294-4b04-bdfd-02899ad95794, abstract = {{<p>The term “Holocene temperature conundrum” refers to the inconsistencies between proxy-based reconstructions and transient model simulations, and it challenges our understanding of global temperature evolution during the Holocene. Climate reconstructions indicate a cooling trend following the Holocene Thermal Maximum, while model simulations indicate a consistent warming trend due to ice-sheet retreat and rising greenhouse gas concentrations. Various factors, such as seasonal biases and overlooked feedback processes, have been proposed as potential causes for this discrepancy. In this study, we examined the impact of vegetation-climate feedback on the temperature anomaly patterns in East Asia during the mid-Holocene (∼6 ka). By utilizing the fully coupled Earth system model EC-Earth and performing simulations with and without coupled dynamic vegetation, our objective was to isolate the influence of vegetation changes on regional temperature patterns. Our findings reveal that vegetation-climate feedback contributed to warming across most of East Asia, resulting in spatially diverse temperature changes during the mid-Holocene and significantly improved model-data agreement. These results highlight the crucial role of vegetation-climate feedback in addressing the Holocene temperature conundrum and emphasize its importance for simulating accurate climate scenarios.</p>}}, author = {{Chen, Jie and Zhang, Qiong and Lu, Zhengyao and Duan, Yanwu and Cao, Xianyong and Huang, Jianping and Chen, Fahu}}, issn = {{2095-9273}}, keywords = {{East Asia; Holocene temperature conundrum; Holocene Thermal Maximum; Paleoclimate simulations; Vegetation-climate feedback}}, language = {{eng}}, publisher = {{Science China Press}}, series = {{Science Bulletin}}, title = {{Reconciling East Asia's mid-Holocene temperature discrepancy through vegetation-climate feedback}}, url = {{http://dx.doi.org/10.1016/j.scib.2024.04.012}}, doi = {{10.1016/j.scib.2024.04.012}}, year = {{2024}}, }