TY - JOUR
T1 - Geomorphologic and Glacial Evolution of the Cachapoal and southern Maipo catchments in the Andean Principal Cordillera, Central Chile (34°-35º S)
AU - Iturrizaga, Lasafam
AU - Charrier, Reynaldo
AU - Carretier, Sébastien
AU - Regard, Vincent
N1 - Funding Information:
eW acknowledge financial support from Grant Nº DI-128-12/R from the Universidad de Andrés Bello, Santiago, Chile, to R.C., the Alexander von Humboldt Foundation to L.I., and funding from IRD through the
Funding Information:
We acknowledge financial support from Grant N? DI-128-12/R from the Universidad de Andr?s Bello, Santiago, Chile, to R.C., the Alexander von Humboldt Foundation to L.I., and funding from IRD through the LMI COPEDIM are thanked. We thank the ASTER team in Cerege for samples preparation and cosmogenic nuclide measurements. We gratefully thank the essential collaboration of the many arrieros that accompanied R.C. in field campaigns in the study region along several decades, particularly C. Mart?nez, from San Gabriel, in the Maipo catchment, J. V?squez, named ?El Negro de la Cancha?, from Coya, and R. Lara, P. Lara and A. Lara, from Chacayes. A. Lara and J. Berr?os accompanied R.C. and L.I. in the last two campaigns, during which we collected the dated samples reported in this paper. We wish to acknowledge the exceptional skill and disposition of pilot Ren? ?Titino? Pairoa in several helicopter campaigns to the highest and almost inaccessible regions of the study region. We also thank the Reserva Los Cipreses (CONAF) for making easier the transit in and across the protected area and Carabineros de Chile for their help in the field in several circumstances. Colleagues M. Far?as and R. Thiele (Departamento de Geolog?a, Universidad de Chile) have been helpful with valuable discussions. Finally, we wish to thank the two anonymous reviewers for their valuable contribution to the manuscript, particularly Reviewer 2, for the exhaustive analysis of the manuscript, and his most enriching suggestions and comments.
Publisher Copyright:
© 2019, Servicio Nacional de Geologia y Mineria. All rights reserved.
PY - 2019/5/1
Y1 - 2019/5/1
N2 - We present here a reconstruction of the post late Miocene landscape evolution of the western slope of the Andean Cordillera Principal near 34°20’ S. We base our analysis on the available geological information, a morphological characterization of the landform assemblages in the Cachapoal and southern Maipo catchments, and the first10Be exposure ages for moraines in this area. The Cachapoal drainage basin is characterized by a variety of morphological features, like an elevated low-relief surface, volcanoes and lava flows on valley slopes, U-shaped valley sections, roches moutonnées, and large glaciated areas. Different kinds of deposits have been included in the study, such as moraines, lacustrine and landslide deposits, and a well-developed system of fluvial terraces in the more distal part of the Cachapoal catchment. Landslides are mostly developed on rocks of the late Eocene-early Miocene Abanico Formation. and are less frequent in outcrops of the overlying, early to middle Miocene Farellones Formation. We estimate that the lowest end moraine in the Cachapoal catchment is located next to the locality Bocatoma Chacayes (~950 m altitude), though covered by a major landslide. No evidence exist for glacial deposits further down stream in this region. Lateral moraine ridges of the Cachapoal Glacier at Los Cerrillos yielded10Be exposure ages of 20.3±2.9 and 21.9±5.3 ka that indicate they are associated with the Last Glacial Maximum (LGM). Holocene moraines exist next to all glacier tongues. Of particular interest in this region is the 12 km-long debris-covered Cachapoal Glacier, the longest valley glacier in the central Chilean Andes, and its distal and proximal moraine deposits. Two lateral moraines adjacent to the present-day Cachapoal Glacier yielded exposure average ages of 13.5±2.4 ka for the external ridge, indicating the Younger Dryas, and 3.8±0.8 ka for the internal ridge, an age that coincides with the 4.2 ka global climatic event that marks the beginning of the Meghalayan Age, at the end of the Holocene. The large size of this moraine on both sides of the ice tongue indicates the great development of the glacier at that time. Some of these ages coincide with ages obtained further north in the Maipo drainage basin, at the latitude of Santiago, and in the eastern flank of the cordillera, however, no pre-LGM deposits were found here, unlike the other mentioned regions. This difference together with the much lower altitude of the LGM moraine deposits in the study region suggests that the Cachapoal catchment is a transition zone to a more humid region further south, and indicates the great need for further reconnaissance and dating of glacial deposits in this Andean region. Our analysis of the geomorphological evolution is consistent with incision start for the Cachapoal Valley in latest Miocene. In this process, glacier incision was apparently not much effective until mid-Pleistocene time, when volcanism was active in the higher regions of the mountain range covering areas not yet incised, whereas in the western Principal Cordillera lavas flowed in deeply incised valleys. Pleistocene glaciers deepened and shaped the already incised valleys, which are presently mostly occupied by rivers.
AB - We present here a reconstruction of the post late Miocene landscape evolution of the western slope of the Andean Cordillera Principal near 34°20’ S. We base our analysis on the available geological information, a morphological characterization of the landform assemblages in the Cachapoal and southern Maipo catchments, and the first10Be exposure ages for moraines in this area. The Cachapoal drainage basin is characterized by a variety of morphological features, like an elevated low-relief surface, volcanoes and lava flows on valley slopes, U-shaped valley sections, roches moutonnées, and large glaciated areas. Different kinds of deposits have been included in the study, such as moraines, lacustrine and landslide deposits, and a well-developed system of fluvial terraces in the more distal part of the Cachapoal catchment. Landslides are mostly developed on rocks of the late Eocene-early Miocene Abanico Formation. and are less frequent in outcrops of the overlying, early to middle Miocene Farellones Formation. We estimate that the lowest end moraine in the Cachapoal catchment is located next to the locality Bocatoma Chacayes (~950 m altitude), though covered by a major landslide. No evidence exist for glacial deposits further down stream in this region. Lateral moraine ridges of the Cachapoal Glacier at Los Cerrillos yielded10Be exposure ages of 20.3±2.9 and 21.9±5.3 ka that indicate they are associated with the Last Glacial Maximum (LGM). Holocene moraines exist next to all glacier tongues. Of particular interest in this region is the 12 km-long debris-covered Cachapoal Glacier, the longest valley glacier in the central Chilean Andes, and its distal and proximal moraine deposits. Two lateral moraines adjacent to the present-day Cachapoal Glacier yielded exposure average ages of 13.5±2.4 ka for the external ridge, indicating the Younger Dryas, and 3.8±0.8 ka for the internal ridge, an age that coincides with the 4.2 ka global climatic event that marks the beginning of the Meghalayan Age, at the end of the Holocene. The large size of this moraine on both sides of the ice tongue indicates the great development of the glacier at that time. Some of these ages coincide with ages obtained further north in the Maipo drainage basin, at the latitude of Santiago, and in the eastern flank of the cordillera, however, no pre-LGM deposits were found here, unlike the other mentioned regions. This difference together with the much lower altitude of the LGM moraine deposits in the study region suggests that the Cachapoal catchment is a transition zone to a more humid region further south, and indicates the great need for further reconnaissance and dating of glacial deposits in this Andean region. Our analysis of the geomorphological evolution is consistent with incision start for the Cachapoal Valley in latest Miocene. In this process, glacier incision was apparently not much effective until mid-Pleistocene time, when volcanism was active in the higher regions of the mountain range covering areas not yet incised, whereas in the western Principal Cordillera lavas flowed in deeply incised valleys. Pleistocene glaciers deepened and shaped the already incised valleys, which are presently mostly occupied by rivers.
KW - Be exposure ages
KW - Cachapoal drainage basin
KW - Central Andes
KW - Chile
KW - LGM
KW - Post-Miocene landscape evolution
KW - Principal Cordillera
KW - Younger Dryas
UR - http://www.scopus.com/inward/record.url?scp=85071115298&partnerID=8YFLogxK
U2 - 10.5027/andgeov46n2-3108
DO - 10.5027/andgeov46n2-3108
M3 - Article
AN - SCOPUS:85071115298
SN - 0718-7092
VL - 46
SP - 240
EP - 278
JO - Andean Geology
JF - Andean Geology
IS - 2
ER -