The Monterey Event and the Paleocene‐Eocene Thermal Maximum

Babila, Tali L.; Foster, Gavin L

doi:10.1002/9781119507444.ch17

Cited by 4 publications

(3 citation statements)

References 112 publications

(210 reference statements)

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“…It has been proposed that MMCO length was extended by a delayed silicate weathering feedback (Babila & Foster, 2021), but our model results suggest the warm interval length is consistent with the single injection of mantle CO 2 , with no clear requirement for a delay in the onset of CRBG weathering to reproduce proxy data (Figure 2). Additionally, the scale of sequestration associated with silicate weathering of the CRBG does not appear to be sufficient to drive the transition to cooler climate after ∼13.9 Ma, the end of the MMCO (Steinthorsdottir et al., 2020), with proxy evidence suggesting a much more rapid shift to cooler temperatures than the SCION reconstruction (Figure 2g).…”

Section: Resultssupporting

confidence: 47%

“…The CRBG represents the effusive phase of a Large Igneous Province (LIP) which erupted between 17 and 6 Ma (Barry et al., 2013; Kasbohm et al., 2021; Kasbohm & Schoene, 2018). Recent research indicates ∼95% of the CRBG was emplaced in a 750 kyr period from 16.7 Ma onwards (Kasbohm & Schoene, 2018), supporting the theory that volcanic greenhouse gas release may have led to the MMCO (Armstrong McKay et al., 2014; Babila & Foster, 2021).…”

Section: Introductionmentioning

confidence: 79%

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Assessing Volcanic Controls on Miocene Climate Change

Longman

Mills

Donnadieu

et al. 2022

Geophysical Research Letters

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The Miocene period saw substantially warmer Earth surface temperatures than today, particularly during a period of global warming called the Mid Miocene Climatic Optimum (MMCO; ∼17–15 Ma). However, the long‐term drivers of Miocene climate remain poorly understood. By using a new continuous climate‐biogeochemical model (SCION), we can investigate the interaction between volcanism, climate and biogeochemical cycles through the Miocene. We identify high tectonic CO2 degassing rates and further emissions associated with the emplacement of the Columbia River Basalt Group as the primary driver of the background warmth and the MMCO respectively. We also find that enhanced weathering of the basaltic terrane and input of explosive volcanic ash to the oceans are not sufficient to drive the immediate cooling following the MMCO and suggest that another mechanism, perhaps the change in ocean chemistry due to massive evaporite deposition, was responsible.

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Section: Resultssupporting

confidence: 47%

Section: Introductionmentioning

confidence: 79%

Assessing Volcanic Controls on Miocene Climate Change

Longman

Mills

Donnadieu

et al. 2022

Geophysical Research Letters

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“…Со среднемиоценовым временем, отметившимся углеродным событием Монтерей, во время которого содержание такого парникового газа, как СО 2 , в атмосфере повышалось до 470-630 ppm (Babbila, Foster, 2021), в отличие от со-ppm (Babbila, Foster, 2021), в отличие от со- (Babbila, Foster, 2021), в отличие от со-Babbila, Foster, 2021), в отличие от со-, Foster, 2021), в отличие от со-Foster, 2021), в отличие от со-, 2021), в отличие от современного, составляющего 300-450 ppm, связано формирование новокачалинского диатомита. Именно для этого диатомита была отмечена максимальная концентрация диатомей в осадках.…”

Section: влияние на скорость репродукции диатомейunclassified

Вспышки Численности Диатомовых Водорослей В Неогеновых Озерах Приморского Края: Причины И Последствия

Avramenko¹,

Pushkar²

2023

Vestn. Sev.-Vost. naučn. centra Dal'nevost. otd. RAN

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Diatoms from three sections of siliceous organogenic deposits in the Southern Primorye, that reflect the high productivity of diatoms in the Miocene and Pliocene, were studied. Monodominant floras with Aulacoseira praegranulata var. praeislandica f. praeislandica in the Middle Miocene (western shore of Lake Khanka) and Pliocene (near the village of Terekhovka) deposits, as well as those with Staurosira venter in Late Pliocene (upper flow of the Sergeyevka River) have been exposed. This high productivity of diatoms might have been caused by the development of the dense lake-river system in the south of Primorye; the long vegetation season under the conditions of a monsoon climate with its mild winter, formed by that time; active volcanism with eruption products that were the source of substances necessary for the diatom valve formation.

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Cryptic degassing and protracted greenhouse climates after flood basalt events

Black,

Karlstrom,

Mills

et al. 2024

Nat. Geosci.

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Large igneous provinces erupt highly reactive, predominantly basaltic lavas onto Earth’s surface, which should boost the weathering flux leading to long-term CO2 drawdown and cooling following cessation of volcanism. However, throughout Earth’s geological history, the aftermaths of multiple Phanerozoic large igneous provinces are marked by unexpectedly protracted climatic warming and delayed biotic recovery lasting millions of years beyond the most voluminous phases of extrusive volcanism. Here we conduct geodynamic modelling of mantle melting and thermomechanical modelling of magma transport to show that rheologic feedbacks in the crust can throttle eruption rates despite continued melt generation and CO2 supply. Our results demonstrate how the mantle-derived flux of CO2 to the atmosphere during large igneous provinces can decouple from rates of surface volcanism, representing an important flux driving long-term climate. Climate–biogeochemical modelling spanning intervals with temporally calibrated palaeoclimate data further shows how accounting for this non-eruptive cryptic CO2 can help reconcile the life cycle of large igneous provinces with climate disruption and recovery during the Permian–Triassic, Mid-Miocene and other critical moments in Earth’s climate history. These findings underscore the key role that outgassing from intrusive magmas plays in modulating our planet’s surface environment.

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The Monterey Event and the Paleocene‐Eocene Thermal Maximum

Cited by 4 publications

References 112 publications

Assessing Volcanic Controls on Miocene Climate Change

Assessing Volcanic Controls on Miocene Climate Change

Вспышки Численности Диатомовых Водорослей В Неогеновых Озерах Приморского Края: Причины И Последствия

Cryptic degassing and protracted greenhouse climates after flood basalt events

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