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Coral records of ENSO through the late Holocene

Coral records of ENSO through the late Holocene. Kim Cobb Hussein Sayani Georgia Inst. of Technology. Chris Charles Niko Westphal Scripps Inst. of Oceanography Larry Edwards, Hai Cheng University of Minnesota. with thanks to ACS-PRF, NOAA, NCL, PARC, Cobb lab undergrads.

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Coral records of ENSO through the late Holocene

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  1. Coral records of ENSO through the late Holocene Kim Cobb Hussein Sayani Georgia Inst. of Technology Chris Charles Niko Westphal Scripps Inst. of Oceanography Larry Edwards, Hai Cheng University of Minnesota with thanks to ACS-PRF, NOAA, NCL, PARC, Cobb lab undergrads

  2. Motivation: How is the tropical Pacific climate system responding to anthropogenic forcing? Approach: Use well-dated, high-resolution paleoclimate records from the tropical Pacific to assess its response to known natural and anthropogenic climate forcings. Example: El Nino-Southern Oscillation response to insolation forcing during the current interglacial period (the “Holocene”)

  3. Why tropical Pacific climate? “El Niño-Southern Oscillation” (ENSO) ENSO is a climate phenomenon in the tropical Pacific which arises from coupled interactions between the atmosphere and ocean ENSO impacts global climate every 2-7 years tropical Pacific climate variability over decades to centuries to millennia poorly constrained; 20th century trends uncertain El Niño Temperature El Niño Precipitation Dai and Wigley, 2000

  4. Climate model response to greenhouse forcing • climate models project widely • divergent scenarios for tropical • Pacific climate under • greenhouse forcing Vecchi et al, 2008

  5. Instrumental SST trends • instrumental SST datasets contain • trends of different signs  no help Vecchi et al, 2008

  6. Ice age cycles are timed to “insolation” forcing

  7. What happened to ENSO during the mid-Holocene? • climate models generally • show reduced ENSO • activity in response • to insolation forcing… • BUT • are they correct? • - primary evidence of • reduction comes from • 2 lake and 1 marine • sediment records • (Moy et al., 2002; • Conroy et al., 2008; • Koutavas et al., 2006) • but these do not agree! Model: Clement et al., 2000; Lake P: Moy et al., 2002;

  8. A composite of available Holocene coral ENSO activity • scant fossil coral ENSO • reconstructions during • Holocene • - no statistically significant • reduction in ENSO variance • from fossil corals • - primary evidence of • reduction comes from • 2 lake and 1 marine • sediment records • (Moy et al., 2002; • Conroy et al., 2008; • Koutavas et al., 2006) • but these do not agree! Model: Clement et al., 2000; Lake P: Moy et al., 2002; Corals: Cobb et al., 2003; Tudhope et al., 2001; Woodruffe et al., 2003; McGregor and Gagan 2004; Correge et al., 2001

  9. SST, hydrology, and coral δ18O in the Line Islands AVERAGE CONDITIONS SST (°C) b EL NIÑO 150°E 180° 150°W 120°W Coral oxygen isotopes (δ18O) decreases when warm (thermodynamics) Coral δ18O decreases when rainy (lower seawater δ18O)

  10. Reminder: Palmyra coral δ18O is a sensitive proxy for ENSO Cobb et al., 2003

  11. Overlapping fossil coral δ18O records during last millennium Cobb et al., in prep

  12. The Line Islands Coral Collection 1 splice overlapping cores in last millennium 2 modern cores from three islands 3 many cores in mid-Holocene Palmyra 50 cores U/Th dated 18 cores undated Christmas 25 cores U/Th dated 51 cores undated Fanning 17 cores U/Th dated 19 cores undated

  13. Strengths of Line Islands Fossil Corals • Modern coral δ18O has high correlations with NIÑO3.4 SST index • Overlapping fossil coral δ18O records highly correlated during • last millennium; provide uncertainty estimates for single • fossil coral reconstructions • New collection of >100 fossil corals extends back 7000 years • (20-100yrs each)

  14. New fossil coral δ18O records from Fanning: 6-7kybp What do we see in the mid-Holocene fossil corals?

  15. Scanning electron microscope (SEM) photos of 6ky fossil coral • surface coatings represent no more than ~10% by mass • original coral geochemical signature likely preserved, not “altered”

  16. A modern-young fossil coral comparison Crespo et al., in prep

  17. New Line Islands Fossil Coral Data  no change in ENSO • added 650 years of • monthly-resolved data • (red dots = our stuff) • we have tripled the amount • of fossil coral data available • from the mid- to late- • Holocene What is the take-home for climate scientists? Model: Clement et al., 2000; Lake P: Moy et al., 2002; Single-foram (purple): Koutavas et al., 2006 Corals: Cobb et al., 2003; Tudhope et al., 2001; Woodruffe et al., 2003; McGregor and Gagan, 2004; Correge et al., 2001

  18. Conclusions • No fossil coral support for reduced mid-Holocene ENSO activity • climate model response questionable, so 21st century • ENSO projections of same models questionable • - Reduced ENSO activity throughout late Holocene, combined • with evidence for cooler and drier conditions • - explanation? • - need more data from the tropical Pacific!

  19. What’s next? How much does seawater δ18Osw vary today across Line Islands? Postdoc Jess Conroy Careful diagenetic investigations on fossil corals & Micro-scale Sr/Ca analyses of pristine sections of fossil coral skeletons Student Hussein Sayani We probably need many more corals! Koutavas-like approach applied to 5-10yr-long sequences?

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