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1. Dipole Response of Millennial Variability in Tropical South American Precipitation and δ18Op During the Last Deglaciation: Part II: δ18Op response

   https://doi.org/10.1175/JCLI-D-22-0289.1  

   Bao, Yuntao; Liu, Zhengyu; He, Chengfei (March 2023, Journal of Climate)

   Abstract Understanding the hydroclimate representations of precipitation δ 18 O (δ 18 O p ) in tropical South America (TSA) is crucial for climate reconstruction from available speleothem caves. Our preceding study (Part I) highlights a heterogeneous response in millennial hydroclimate over the TSA during the last deglaciation (20-11ka before the present), characterized by a northwest-southeast (NW-SE) dipole in both rainfall and δ 18 O p , with opposite signs between central-western Amazon and eastern Brazil. Mechanisms of such δ 18 O p dipole response are further investigated in this study with the aid of moisture tagging simulations. In response to increased meltwater discharge, the Intertropical Convergence Zone (ITCZ) migrates southward, causing moisture source location shift and depleting the isotopic value of the vapor transported into eastern Brazil, which almost entirely contributes to the δ 18 O p depletion in eastern Brazil (SE pole). In contrast, moisture source location change and local condensation change (due to the lowering convergence level and increased rain reevaporation in unsaturated sub-cloud layers) contribute nearly equally to the δ 18 O p enrichment in the central-western Amazon (NW pole). Therefore, although a clear inverse relationship between δ 18 O p and rainfall in both dipole regions seems to support the “amount effect”, we argue that the local rainfall amount only partially interprets the millennial δ 18 O p change in the central-western Amazon, while δ 18 O p does not document local rainfall change in eastern Brazil. Thus, the paleoclimate community should be cautious when using δ 18 O p as a proxy for past local precipitation in the TSA region. Finally, we discuss the discrepancy between the model and speleothem proxies on capturing the millennial δ 18 O p dipole response and pose a challenge in reconciling the discrepancy. 

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2. South American monsoon intensification during the last millennium driven by joint Pacific and Atlantic forcing

   https://doi.org/10.1126/sciadv.ado9543  

   Lyu, Zhiqiang; Vuille, Mathias; Goosse, Hugues; Orrison, Rebecca; Novello, Valdir F; Cruz, Francisco W; Stríkis, Nicolás M; Cauhy, Julio (September 2024, Science Advances)

   The South American summer monsoon (SASM) profoundly influences tropical South America’s climate, yet understanding its low-frequency variability has been challenging. Climate models and oxygen isotope data have been used to examine the SASM variability over the last millennium (LM) but have, at times, provided conflicting findings, especially regarding its mean-state change from the Medieval Climate Anomaly to the Little Ice Age. Here, we use a paleoclimate data assimilation (DA) method, combining model results and δ¹⁸O observations, to produce a δ¹⁸O-enabled, dynamically coherent, and spatiotemporally complete austral summer hydroclimate reconstruction over the LM for tropical South America at 5-year resolution. This reconstruction aligns with independent hydroclimate and δ¹⁸O records withheld from the DA, revealing a centennial-scale SASM intensification during the MCA-LIA transition period, associated with the southward shift of the Atlantic Intertropical Convergence Zone and the strengthening Pacific Walker circulation (PWC). This highlights the necessity of accurately representing the PWC in climate models to predict future SASM changes. 

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3. Summer and nonsummer climatic signals in speleothem δ ¹⁸ O revealed by loess microcodium δ ¹⁸ O in East Asia

   https://doi.org/10.1073/pnas.2425565122  

   Zhang, Zeke; Liu, Zhengyu; Li, Gaojun; Cai, Yanjun; Wen, Qin; Cheng, Hai; Lawrence_Edwards, R; Lei, Jing; Liu, Heng; Jing, Zhaowei; et al (July 2025, Proceedings of the National Academy of Sciences)

   Speleothem δ18O records from central southern China have long been regarded as a key benchmark for Asian summer monsoon intensity. However, the similar δ18O minima observed among precession minima and their link to seasonal precipitation mixing remains unclear. Here, we present a 400,000-y record of summer precipitation δ18O from loess microcodium, which captures distinct precession cycles similar to those seen in speleothem δ18O records, particularly during glacial periods. Notably, our microcodium δ¹⁸O record reveals very low-δ¹⁸O values during precession minima at peak interglacials, a feature absent in speleothem δ¹⁸O records from central southern China. This discrepancy suggests that the mixed summer and nonsummer climatic signals substantially influence the speleothem δ¹⁸O records from central southern China. Proxy-model comparisons indicate that the lack of very low-δ¹⁸O values in speleothem δ¹⁸O records is due to an attenuated summer signal contribution, resulting from a lower summer-to-annual precipitation ratio in southern China at strong monsoon intervals. Our findings offer a potential explanation for the long-standing puzzle of the absence of 100- and 41-kyr cycles in speleothem δ¹⁸O records and underscore the critical role of seasonality in interpreting paleoclimatic proxies in central southern China. These insights also have broader implications for interpreting speleothem δ¹⁸O records globally, advocating for a more multiseason interpretive framework. 

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4. A 300-year tree-ring δ18O-based precipitation reconstruction for the South American Altiplano highlights decadal hydroclimate teleconnections

   https://doi.org/10.1038/s43247-024-01385-9  

   Rodriguez-Caton, Milagros; Morales, Mariano S; Rao, Mukund Palat; Nixon, Troy; Vuille, Mathias; Rivera, Juan Antonio; Oelkers, Rose; Christie, Duncan A; Varuolo-Clarke, Arianna M; Ferrero, M Eugenia; et al (December 2024, Communications Earth & Environment)

   Abstract Tropical South American climate is influenced by the South American Summer Monsoon and the El Niño Southern Oscillation. However, assessing natural hydroclimate variability in the region is hindered by the scarcity of long-term instrumental records. Here we present a tree-ringδ¹⁸O-based precipitation reconstruction for the South American Altiplano for 1700–2013 C.E., derived fromPolylepis tarapacanatree rings. This record explains 56% of December–March instrumental precipitation variability in the Altiplano. The tree-ringδ¹⁸O chronology shows interannual (2–5 years) and decadal (~11 years) oscillations that are remarkably consistent with periodicities observed in Altiplano precipitation, central tropical Pacific sea surface temperatures, southern-tropical Andean ice coreδ¹⁸O and tropical Pacific coralδ¹⁸O archives. These results demonstrate the value of annual-resolution tree-ringδ¹⁸O records to capture hydroclimate teleconnections and generate robust tropical climate reconstructions. This work contributes to a better understanding of global oxygen-isotope patterns, as well as atmospheric and oceanic processes across the tropics. 

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5. Zonal Indian Ocean Variability Drives Millennial‐Scale Precipitation Changes in Northern Madagascar

   https://doi.org/10.1029/2023PA004626  

   Tiger, Benjamin H; Burns, Stephen; Dawson, Robin R; Scroxton, Nick; Godfrey, Laurie R; Ranivoharimanana, Lovasoa; Faina, Peterson; McGee, David (November 2023, Paleoceanography and Paleoclimatology)

   Abstract The low latitude Indian Ocean is warming faster than other tropical basins, and its interannual climate variability is projected to become more extreme under future emissions scenarios with substantial impacts on developing Indian Ocean rim countries. Therefore, it has become increasingly important to understand the drivers of regional precipitation in a changing climate. Here we present a new speleothem record from Anjohibe, a cave in northwest (NW) Madagascar well situated to record past changes in the Intertropical Convergence Zone (ITCZ). U‐Th ages date speleothem growth from 27 to 14 ka. δ¹⁸O, δ¹³C, and trace metal proxies reconstruct drier conditions during Heinrich Stadials 1 and 2, and wetter conditions during the Last Glacial Maximum and Bølling–Allerød. This is surprising considering hypotheses arguing for southward (northward) ITCZ shifts during North Atlantic cooling (warming) events, which would be expected to result in wetter (drier) conditions at Anjohibe in the Southern Hemisphere tropics. The reconstructed Indian Ocean zonal (west‐east) sea surface temperature (SST) gradient is in close agreement with hydroclimate proxies in NW Madagascar, with periods of increased precipitation correlating with relatively warmer conditions in the western Indian Ocean and cooler conditions in the eastern Indian Ocean. Such gradients could drive long‐term shifts in the strength of the Walker circulation with widespread effects on hydroclimate across East Africa. These results suggest that during abrupt millennial‐scale climate changes, it is not meridional ITCZ shifts, but the tropical Indian Ocean SST gradient and Walker circulation driving East African hydroclimate variability. 

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