EAR-PF: Calibrating timescales and measuring pCO2 to test the role of volcanic forcing in the Miocene Climate Optimum
EAR-PF:校准时间尺度并测量 pCO2 以测试火山强迫在中新世气候最佳状态中的作用
基本信息
- 批准号:1952753
- 负责人:
- 金额:$ 17.4万
- 依托单位:
- 依托单位国家:美国
- 项目类别:Fellowship Award
- 财政年份:2020
- 资助国家:美国
- 起止时间:2020-07-01 至 2023-06-30
- 项目状态:已结题
- 来源:
- 关键词:
项目摘要
Dr. Jennifer Kasbohm has been awarded an NSF EAR Postdoctoral Fellowship to carry out research investigating when and why the Miocene Climate Optimum occurred. She is conducting this research at Yale University under the mentorship of Dr. Pincelli Hull. The Miocene Climate Optimum (MCO) is a period of global warming that occurred approximately 17 to 15 million years ago, during which Earth experienced elevated global temperatures and atmospheric carbon dioxide (CO2) concentrations that were as high as they are today. It has been suggested that this warming could have been caused by massive volcanism from the Columbia River Basalt Group (CRBG), which released large amounts of CO2 into the atmosphere and blanketed the northwestern United States with a pile of lava flows more than half a mile thick. During her PhD, Dr. Kasbohm used radioisotopic dating to show that the CRBG erupted much faster than previously thought, and her postdoctoral research is now focused on the timing of the MCO. As an NSF EAR Postdoctoral Fellow, Dr. Kasbohm is performing geochemical measurements on microfossils to estimate atmospheric CO2 levels during the MCO and determine whether the CRBG is likely to have caused the MCO. This research will yield new insights into how quickly Earth responds to massive injections of CO2, similar to what the planet is experiencing today. The research will also investigate how long it takes for temperatures and atmospheric CO2 levels to decline. While conducting this research at Yale, Dr. Kasbohm will mentor junior researchers, undergo training in STEM education, and establish a departmental support network for fellow women in Earth Science, to enhance diversity and improve retention of women in the field.A topic of debate among earth scientists is the extent to which large igneous province emplacement can cause global climatic and biotic change. The potential relationship between the CRBG and the MCO provides an ideal opportunity to test this connection. A variety of paleoclimate proxies document the MCO, but until now, none have been constrained by absolute radiometric dates. In her postdoctoral research, Dr. Kasbohm is pursuing a novel integration of the boron-11 proxy for pCO2, performed at Yale University, with high-precision U-Pb zircon geochronology, undertaken at Princeton University, to reconstruct the timeline of atmospheric CO2 fluctuations during the MCO. This project will provide critical absolute constraints on several means by which age models for climate records are calibrated, as well as enhanced correlations of the MCO at different locations, thereby improving our understanding of the global dynamics of this event. Dr. Kasbohm will advance the broader impacts of her work by establishing Women in Earth & Planetary Sciences at Yale (WEPSY), a departmental support network that will seek to improve the experiences and retention of female early career researchers in Earth Science. This project received co-funding from the Earth Science section of the Paleo Perspectives on Climate Change program.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Jennifer Kasbohm博士被授予NSF博士后奖学金,以开展研究调查何时以及为什么中新世气候最佳发生。她正在耶鲁大学进行这项研究的指导下博士平切利船体。中新世气候适宜期(MCO)是大约1700万至1500万年前发生的全球变暖时期,在此期间,地球经历了全球气温升高和大气二氧化碳(CO2)浓度与今天一样高。有人认为,这种变暖可能是由哥伦比亚河玄武岩群(CRBG)的大规模火山活动造成的,它向大气中释放了大量的二氧化碳,并用一堆超过半英里厚的熔岩流覆盖了美国西北部。在她的博士学位期间,Kasbohm博士使用放射性同位素测年法表明CRBG爆发的速度比以前认为的要快得多,她的博士后研究现在集中在MCO的时间上。作为NSF的博士后研究员,Kasbohm博士正在对微体化石进行地球化学测量,以估计MCO期间的大气CO2水平,并确定CRBG是否可能导致MCO。这项研究将产生新的见解,了解地球对大量二氧化碳注入的反应有多快,类似于地球今天所经历的。该研究还将调查温度和大气二氧化碳水平下降需要多长时间。Kasbohm将指导初级研究人员,接受STEM教育培训,并为地球科学领域的女性同事建立一个部门支持网络,以增强多样性并提高女性在该领域的保留率。地球科学家之间的一个辩论主题是大型火成岩省的就位可能导致全球气候和生物变化的程度。CRBG和MCO之间的潜在关系为测试这种联系提供了理想的机会。各种各样的古气候代理文件MCO,但到目前为止,没有一个受到绝对辐射日期的限制。在她的博士后研究中,Kasbohm博士正在寻求一种新的整合,将在耶鲁大学进行的pCO 2的硼-11代理与在普林斯顿大学进行的高精度U-Pb锆石地质年代学相结合,以重建MCO期间大气CO2波动的时间轴。这个项目将提供关键的绝对约束的几种手段,气候记录的年龄模型进行校准,以及增强相关性的MCO在不同的位置,从而提高我们的理解全球动态的这一事件。Kasbohm博士将通过建立耶鲁大学地球行星科学女性(WEPSY)来推动她的工作产生更广泛的影响,这是一个部门支持网络,旨在改善女性早期职业研究人员在地球科学领域的经验和保留。该项目获得了古气候变化展望项目地球科学部分的共同资助。该奖项反映了NSF的法定使命,并通过使用基金会的知识价值和更广泛的影响审查标准进行评估,被认为值得支持。
项目成果
期刊论文数量(2)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
Igneous Rock Associations 29. The Nenana Magnetitite Lava Flow, Alaska Range, Alaska
火成岩协会 29. 阿拉斯加阿拉斯加山脉内纳纳磁铁矿熔岩流
- DOI:10.12789/geocanj.2023.50.197
- 发表时间:2023
- 期刊:
- 影响因子:0
- 作者:Reidel, Stephen P.;Ross, Marty E.;Kasbohm, Jennifer
- 通讯作者:Kasbohm, Jennifer
Eruption history of the Columbia River Basalt Group constrained by high-precision U-Pb and 40Ar/39Ar geochronology
高精度U-Pb和40Ar/39Ar地质年代学约束的哥伦比亚河玄武岩群喷发历史
- DOI:10.1016/j.epsl.2023.118269
- 发表时间:2023
- 期刊:
- 影响因子:5.3
- 作者:Kasbohm, Jennifer;Schoene, Blair;Mark, Darren F.;Murray, Joshua;Reidel, Stephen;Szymanowski, Dawid;Barfod, Dan;Barry, Tiffany
- 通讯作者:Barry, Tiffany
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Jennifer Kasbohm其他文献
Eruption history of the Columbia River Basalt Group constrained by high-precision U-Pb and sup40/supAr/sup39/supAr geochronology
哥伦比亚河玄武岩群的喷发历史受高精度 U-Pb 和 40Ar/39Ar 年代学限制
- DOI:
10.1016/j.epsl.2023.118269 - 发表时间:
2023-09-01 - 期刊:
- 影响因子:5.100
- 作者:
Jennifer Kasbohm;Blair Schoene;Darren F. Mark;Joshua Murray;Stephen Reidel;Dawid Szymanowski;Dan Barfod;Tiffany Barry - 通讯作者:
Tiffany Barry
Jennifer Kasbohm的其他文献
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