Middle Pliocene Warm Period

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Mid-Pliocene reconstructed annual sea surface temperature anomaly
δ18O Benthic foraminifera 0–7 Ma

The Middle Pliocene Warm Period (mPWP), also known as the Mid-Piacenzian Warm Period or the Pliocene Thermal Maximum, was an interval of warm climate during the Pliocene epoch that lasted from 3.3 to 3.0 Ma.[1]

Climate

The global average temperature in the mid-Pliocene was 2–3 °C higher than today,[2] global sea level 25 meters higher,[3] and the Northern Hemisphere ice sheet was ephemeral before the onset of extensive glaciation over Greenland that occurred in the late Pliocene around 3 Ma.[4] Global precipitation was marginally increased by 0.09 mm/yr according to CCSM4 simulations.[5] As during the Quaternary glaciation, glacial-interglacial cycles existed during the mPWP and it was not a uniform and stable climatic interval.[6]

Carbon dioxide concentration during the Middle Pliocene has been estimated at around 400 ppmv from 13C/12C ratio in organic marine matter[7] and stomatal density of fossilised leaves,[8] although lower estimates of between 330 and 394 ppm over the course of the whole mPWP and 391 ppm in the KM5c interglacial, during the warmest phase of the mPWP, have been given.[9]

Mid-Pliocene reconstructed terrain and ice sheet elevation

Comparison with present global warming

Pliocene biomes.

The mPWP is considered a potential analogue of future climate.[10][11] The intensity of the sunlight reaching the Earth, the global geography, and carbon dioxide concentrations were similar to present. Furthermore, many mid-Pliocene species are extant, helping calibrate paleotemperature proxies. Model simulations of mid-Pliocene climate produce warmer conditions at middle and high latitudes, as much as 10–20 °C warmer than today above 70°N. They also indicate little temperature variation in the tropics. Model-based biomes are generally consistent with Pliocene palaeobotanical data indicating a northward shift of the tundra and taiga and an expansion of savanna and warm-temperate forest in Africa and Australia.[12] The increased intensity of tropical cyclones during the mPWP has been cited as evidence that intensification of such storms will occur as anthropogenic global warming continues.[13]

See also

References

  1. ^ Scotese, Christopher R.; Song, Haijun; Mills, Benjamin J. W.; van der Meer, Douwe G. (1 April 2021). "Phanerozoic paleotemperatures: The earth's changing climate during the last 540 million years". Earth-Science Reviews. 215: 103503. Bibcode:2021ESRv..21503503S. doi:10.1016/j.earscirev.2021.103503. Retrieved 13 September 2023 – via Elsevier Science Direct.
  2. ^ Robinson, M.; Dowsett, H. J.; Chandler, M. A. (2008). "Pliocene role in assessing future climate impacts" (PDF). Eos. 89 (49): 501–502. Bibcode:2008EOSTr..89..501R. doi:10.1029/2008EO490001. Archived from the original (PDF) on 2011-10-22.
  3. ^ Dwyer, G. S.; Chandler, M. A. (2009). "Mid-Pliocene sea level and continental ice volume based on coupled benthic Mg/Ca palaeotemperatures and oxygen isotopes" (PDF). Philosophical Transactions of the Royal Society A. 367 (1886): 157–168. Bibcode:2009RSPTA.367..157D. doi:10.1098/rsta.2008.0222. hdl:10161/6586. PMID 18854304. S2CID 3199617. Archived from the original (PDF) on 2011-10-21.
  4. ^ Bartoli, G.; et al. (2005). "Final closure of Panama and the onset of northern hemisphere glaciation". Earth and Planetary Science Letters. 237 (1–2): 33–44. Bibcode:2005E&PSL.237...33B. doi:10.1016/j.epsl.2005.06.020.
  5. ^ Rosenbloom, N. A.; Otto-Bliesner, B. L.; Brady, E. C.; Lawrence, P. J. (26 April 2013). "Simulating the mid-Pliocene Warm Period with the CCSM4 model". Geoscientific Model Development. 6 (2): 549–561. Bibcode:2013GMD.....6..549R. doi:10.5194/gmd-6-549-2013. ISSN 1991-9603. Retrieved 26 April 2024.
  6. ^ Prescott, Caroline L.; Haywood, Alan M.; Dolan, Aisling M.; Hunter, Stephen J.; Pope, James O.; Pickering, Steven J. (15 August 2014). "Assessing orbitally-forced interglacial climate variability during the mid-Pliocene Warm Period". Earth and Planetary Science Letters. 400: 261–271. Bibcode:2014E&PSL.400..261P. doi:10.1016/j.epsl.2014.05.030. Retrieved 26 April 2024 – via Elsevier Science Direct.
  7. ^ Raymo, M. E.; Grant, B.; Horowitz, M.; Rau, G. H. (1996). "Mid-Pliocene warmth: Stronger greenhouse and stronger conveyor". Marine Micropaleontology. 27 (1–4): 313–326. Bibcode:1996MarMP..27..313R. doi:10.1016/0377-8398(95)00048-8.
  8. ^ Kurschner, W. M.; van der Burgh, J.; Visscher, H.; Dilcher, D. L. (1996). "Oak leaves as biosensors of late Neogene and early Pleistocene paleoatmospheric CO2 concentration". Marine Micropaleontology. 27 (1–4): 299–312. Bibcode:1996MarMP..27..299K. doi:10.1016/0377-8398(95)00067-4.
  9. ^ De la Vega, Elwyn; Chalk, Thomas B.; Wilson, Paul A.; Bysani, Ratna Priya; Foster, Gavin L. (9 July 2020). "Atmospheric CO2 during the Mid-Piacenzian Warm Period and the M2 glaciation". Scientific Reports. 10 (1): 11002. Bibcode:2020NatSR..1011002D. doi:10.1038/s41598-020-67154-8. PMC 7347535. PMID 32647351.
  10. ^ Burke, K. D.; Williams, J. W.; Chandler, M. A.; Haywood, A. M.; Lunt, D. J.; Otto-Bliesner, B. L. (26 December 2018). "Pliocene and Eocene provide best analogs for near-future climates". Proceedings of the National Academy of Sciences of the United States of America. 115 (52): 13288–13293. Bibcode:2018PNAS..11513288B. doi:10.1073/pnas.1809600115. ISSN 0027-8424. PMC 6310841. PMID 30530685.
  11. ^ Haywood, Alan M.; Dowsett, Harry J.; Dolan, Aisling M. (16 February 2016). "Integrating geological archives and climate models for the mid-Pliocene warm period". Nature Communications. 7 (1): 10646. Bibcode:2016NatCo...710646H. doi:10.1038/ncomms10646. ISSN 2041-1723. PMC 4757764. PMID 26879640.
  12. ^ Salzmann, U.; Haywood, A. M.; Lunt, D. J. (2009). "The past is a guide to the future? Comparing Middle Pliocene vegetation with predicted biome distributions for the twenty-first century". Philosophical Transactions of the Royal Society A. 367 (1886): 189–204. Bibcode:2009RSPTA.367..189S. doi:10.1098/rsta.2008.0200. PMID 18854302. S2CID 20422374.
  13. ^ Yan, Qing; Wei, Ting; Korty, Robert L.; Kossin, James P.; Zhang, Zhongshi; Wang, Huijun (15 November 2016). "Enhanced intensity of global tropical cyclones during the mid-Pliocene warm period". Proceedings of the National Academy of Sciences of the United States of America. 113 (46): 12963–12967. Bibcode:2016PNAS..11312963Y. doi:10.1073/pnas.1608950113. ISSN 0027-8424. PMID 27799528.
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