TY - CHAP
T1 - The Nazca Ridge and Uplift of the Fitzcarrald Arch
T2 - Implications for Regional Geology in Northern South America
AU - Espurt, Nicolas
AU - Baby, Patrice
AU - Brusset, Stéphane
AU - Roddaz, Martin
AU - Hermoza, Wilber
AU - Barbarand, Jocelyn
PY - 2011/7/14
Y1 - 2011/7/14
N2 - The Fitzcarrald Arch corresponds to a NE-SW-trending widespread dissected relief of about 400,000 km2 located to the east of the sub-Andean thrust front. Analyses of drainage maps demonstrate that this regional uplift controls the modern Amazonian drainage network. During the Miocene, the Fitzcarrald Arch did not exist and this area corresponded to the subsiding foredeep of the Amazonian foreland basin. Analyses of the Miocene deposits outcropping within the Fitzcarrald Arch area indicate that deposition was controlled by tidal current and consisted of tide-dominated deltas and estuaries. The tidal Miocene deposits were followed by fl uvial conglomerate and sandstone sediments, probably Pliocene to Pleistocene in age. Modelling of the vitrinite refl ectance data shows that the uplift of the Fitzcarrald Arch began in Pliocene times; this date is further confi rmed by sedimentary evidence such as provenance and a change of palaeocurrent directions from the Pliocene and Pleistocene record. Geophysical data show that the Fitzcarrald Arch uplift superimposed on the eastern part of the Nazca Ridge fl at slab segment. The fl at subduction process linked to the buoyancy of the Nazca Ridge has been active since ~4 Ma. Thus, the coincidence of the initiation of fl at slab subduction with the Pliocene uplift of the Fitzcarrald Arch implies that the fl at subduction of the Nazca Ridge is the cause of uplift. The Nazca Ridge fl at subduction is the process responsible for the modern confi guration of the Amazon drainage basin and may be one of the decisive factors that triggered large-scale modifi cation of the Amazonian landscape inducing drastic biota changes in the Amazonian basin during the last 4 million years.
AB - The Fitzcarrald Arch corresponds to a NE-SW-trending widespread dissected relief of about 400,000 km2 located to the east of the sub-Andean thrust front. Analyses of drainage maps demonstrate that this regional uplift controls the modern Amazonian drainage network. During the Miocene, the Fitzcarrald Arch did not exist and this area corresponded to the subsiding foredeep of the Amazonian foreland basin. Analyses of the Miocene deposits outcropping within the Fitzcarrald Arch area indicate that deposition was controlled by tidal current and consisted of tide-dominated deltas and estuaries. The tidal Miocene deposits were followed by fl uvial conglomerate and sandstone sediments, probably Pliocene to Pleistocene in age. Modelling of the vitrinite refl ectance data shows that the uplift of the Fitzcarrald Arch began in Pliocene times; this date is further confi rmed by sedimentary evidence such as provenance and a change of palaeocurrent directions from the Pliocene and Pleistocene record. Geophysical data show that the Fitzcarrald Arch uplift superimposed on the eastern part of the Nazca Ridge fl at slab segment. The fl at subduction process linked to the buoyancy of the Nazca Ridge has been active since ~4 Ma. Thus, the coincidence of the initiation of fl at slab subduction with the Pliocene uplift of the Fitzcarrald Arch implies that the fl at subduction of the Nazca Ridge is the cause of uplift. The Nazca Ridge fl at subduction is the process responsible for the modern confi guration of the Amazon drainage basin and may be one of the decisive factors that triggered large-scale modifi cation of the Amazonian landscape inducing drastic biota changes in the Amazonian basin during the last 4 million years.
KW - Andean Nazca Ridge subduction imprints
KW - Fitzcarrald Arch - WSW-ENE-trending upland in southeastern Peru and western Brazil
KW - Fitzcarrald Arch regional uplift - causes of appearance
KW - Fitzcarrald Arch, major geomorphic features - Amazon drainage basin landscape
KW - Global Magnetic Polarity Time Scale (GMPTS)
KW - Neogene succession in Fitzcarrald Arch areas
KW - Pleistocene deposits of Fitzcarrald Arch and Upper Solimões Formation
KW - Pliocene deposits, coarse-grained alluvial fan and fluvial deposits
KW - Shuttle Radar Topographic Mission (SRTM)
KW - Timing of Fitzcarrald Arch uplift
UR - http://www.scopus.com/inward/record.url?scp=84886167105&partnerID=8YFLogxK
U2 - 10.1002/9781444306408.ch6
DO - 10.1002/9781444306408.ch6
M3 - Chapter
AN - SCOPUS:84886167105
SN - 9781405181136
SP - 89
EP - 100
BT - Amazonia
PB - Wiley-Blackwell
ER -