Abstract
Abstract. We compare eight pollen records reflecting climatic and environmental change from northern and southern sites in the tropical Andes. Our analysis focuses on the last 30 000 years, with particular emphasis on the Pleistocene to Holocene transition. We explore ecological grouping and downcore ordination results as two approaches for extracting environmental variability from pollen records. We also use the records of aquatic and shoreline vegetation as markers for lake level fluctuations and moisture availability. Our analysis focuses on the signature of millennial-scale climate variability in the tropical Andes, in particular Heinrich stadials (HS) and Greenland interstadials (GI). The pollen records show an overall warming trend during the Pleistocene–Holocene transition, but the onset of post-glacial warming differs in timing among records. We identify rapid responses of the tropical vegetation to millennial-scale climate variability. The signatures of HS and the Younger Dryas are generally recorded as downslope upper forest line (UFL) migrations in our transect, and are likely linked to air temperature cooling. The GI1 signal is overall comparable between northern and southern records and indicates upslope UFL migrations and warming in the tropical Andes. Our marker for lake level changes indicated a north-to-south difference that could be related to moisture availability. The air temperature signature recorded by the Andean vegetation was consistent with millennial-scale cryosphere and sea surface temperature changes but suggests a potential difference between the magnitude of temperature change in the ocean and the atmosphere. We also show that arboreal pollen percentage (AP %) and detrended correspondence analysis (DCA) scores are two complementary approaches to extract environmental variability from pollen records.
Highlights
The signature of millennial-scale climate variations is recorded in ice cores and in marine and terrestrial sediment archives both in the Northern and Southern Hemisphere (NGRIP Members, 2004; EPICA, 2006; Baker et al, 2001; Harrison and Sanchez Goñi, 2010; Hessler et al, 2010)
We show that arboreal pollen percentage (AP %) and detrended correspondence analysis (DCA) scores are two complementary approaches to extract environmental variability from pollen records
The proportions of sub-Andean and Andean forest taxa vs. vegetation located above the upper forest line (UFL) show temporal variations that appear synchronous among some sites (Fig. 2)
Summary
The signature of millennial-scale climate variations is recorded in ice cores and in marine and terrestrial sediment archives both in the Northern and Southern Hemisphere (NGRIP Members, 2004; EPICA, 2006; Baker et al, 2001; Harrison and Sanchez Goñi, 2010; Hessler et al, 2010). The clearest manifestations of millennial-scale climate events are observed in Greenland ice core records (Wolff et al, 2010) and North Atlantic marine sequences (Sánchez Goñi and Harrison, 2010). Urrego et al.: Millennial-scale vegetation changes in the tropical Andes portion of ice-rafted debris (IRD) from iceberg discharges in the Ruddiman Belt (Ruddiman, 2001). These iceberg discharges deliver fresh water into the North Atlantic and disrupt the Atlantic Meridional Overturning Circulation (Hemming, 2004), resulting in climate changes of global scale. The intervals associated with North Atlantic iceberg discharges are termed Heinrich Stadials (HS) (Sánchez Goñi and Harrison, 2010) and have been linked to temperature and precipitation changes in other regions of the world
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