Exploring the feedbacks of vegetation and carbon cycle processes to climate changes under thermal events in Northeast China by reconstructing Eocene climate and atmospheric CO2 levels

IF 4 1区地球科学 Q1 GEOGRAPHY, PHYSICAL

Global and Planetary Change Pub Date : 2025-08-04 DOI:10.1016/j.gloplacha.2025.105009

Jianan Kang , Qingtao Meng , Fei Hu , Chenxiang Li , Penglin Zhang , Yini Wang , Lin Ma , Baoyi Li

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引用次数: 0

Abstract

Paleoclimate fluctuations recorded in lake sediments provide critical evidence for global carbon cycle disturbances. The Eocene epoch marks a pivotal period in Earth's transition to modern climate patterns and vegetation, offering insights into future global warming and ecological responses. Lacustrine deposits in Northeast China preserve important “deep-time” paleoclimatic information, providing a terrestrial perspective for studying Eocene climate change. This study reconstructed Eocene vegetation dynamics, climate parameters and CO₂ levels of the Yilan Basin in Northeast China through palynological analysis, the Coexistence Approach (CA) method, the Climate Amplitude Method (CAM) and δ¹³C_wood records. An Eocene climate evolution model for Northeast China was established, addressing climate sensitivity, oceanic-lacustrine thermal event correlations, vegetation responses, and post-thermal event climate regulation mechanisms against the backdrop of extreme hot-cold alternations during the Eocene. Our study fills the gap in understanding the Eocene climate of Heilongjiang Province. By comparing the Yilan Basin's climate reconstruction results with those from other regions, as well as CO₂ reconstruction data with global Eocene atmospheric CO₂ trends, we elucidated the climate evolution dynamics of Northeast China throughout the entire Eocene. The Yilan Basin featured a typical Ca (Humid subtropical) climate with significant seasonal variations, with a MAT of 11.6 ± 0.1–21.3 ± 0.6 °C and MAP of 652 ± 40–1823 ± 99 mm. Thermal events (ETM2, ETM3) and warmer intervals (EECO, MECO) triggered significant negative carbon isotope excursions, with these continental responses lagging behind their marine counterparts. Regional temperature and precipitation associated with thermal events increased notably, and vegetation and CO₂ feedbacks to thermal and cooling events during the Eocene were consistent and coordinated. In post-thermal event climate regulation, silicate weathering and organic carbon burial played crucial roles, exerting negative feedbacks on CO₂-driven warming.

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通过重建始新世气候和大气CO2水平，探索东北地区热事件下植被和碳循环过程对气候变化的反馈

湖泊沉积物中记录的古气候波动为全球碳循环扰动提供了重要证据。始新世标志着地球向现代气候模式和植被过渡的关键时期，为未来全球变暖和生态反应提供了见解。东北湖相沉积保存了重要的“深时”古气候信息，为研究始新世气候变化提供了陆地视角。通过孢粉分析、共存法（CA）、气候振幅法（CAM）和δ13Cwood记录，重建了宜兰盆地始新世植被动态、气候参数和CO2水平。基于始新世极端冷热交替背景下的气候敏感性、海湖热事件相关性、植被响应和热事件后气候调节机制，建立了东北始新世气候演化模型。本研究填补了对黑龙江省始新世气候认识的空白。通过将宜兰盆地的气候重建结果与其他地区的气候重建结果进行比较，并将CO2重建数据与全球始新世大气CO2趋势进行比较，阐明了东北地区整个始新世的气候演化动态。宜兰盆地为典型的湿润亚热带气候，季节变化明显，MAT值为11.6±0.1 ~ 21.3±0.6°C， MAP值为652±40 ~ 1823±99 mm。热事件（ETM2, ETM3）和温暖间隔（EECO， MECO）触发了显著的负碳同位素漂移，这些大陆响应滞后于海洋响应。始新世与热事件相关的区域温度和降水显著增加，植被和CO2对热事件和冷事件的反馈是一致和协调的。在热事件后的气候调节中，硅酸盐风化和有机碳埋藏在co2驱动的增温过程中发挥了重要的负反馈作用。

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来源期刊

Global and Planetary Change 地学天文-地球科学综合

CiteScore

7.40

自引率

10.30%

发文量

226

审稿时长

63 days

期刊介绍： The objective of the journal Global and Planetary Change is to provide a multi-disciplinary overview of the processes taking place in the Earth System and involved in planetary change over time. The journal focuses on records of the past and current state of the earth system, and future scenarios , and their link to global environmental change. Regional or process-oriented studies are welcome if they discuss global implications. Topics include, but are not limited to, changes in the dynamics and composition of the atmosphere, oceans and cryosphere, as well as climate change, sea level variation, observations/modelling of Earth processes from deep to (near-)surface and their coupling, global ecology, biogeography and the resilience/thresholds in ecosystems. Key criteria for the consideration of manuscripts are (a) the relevance for the global scientific community and/or (b) the wider implications for global scale problems, preferably combined with (c) having a significance beyond a single discipline. A clear focus on key processes associated with planetary scale change is strongly encouraged. Manuscripts can be submitted as either research contributions or as a review article. Every effort should be made towards the presentation of research outcomes in an understandable way for a broad readership.