Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru

Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru

Almost half of the tributaries of the Amazon River originate in the tropical Andes and support large populations in mountain regions and downstream areas. However, it is difficult to assess hydroclimatic conditions or to evaluate future scenarios due to the scarcity of long, high‐quality instrumental records. Data from the Global Precipitation Climatology Project (GPCP) provide a complete record since 1979 and offer a good representation of rainfall over the tropical Andes. Longer records are needed to improve our understanding of rainfall variability and summer monsoon behavior at various scales. We developed the first annually resolved precipitation reconstruction for the tropical Andes in Peru, based on tree‐ring chronologies of Cedrela and Juglans species. The annual (November–October) reconstruction extends the short instrumental records back to 1817, explaining 68% of the total variance of precipitation over the 1979–2007 calibration period. The reconstruction reveals the well‐documented influence of El Niño‐ Southern Oscillation (ENSO) on Amazon Rainfall at interannual scales (~19% of total variance) and significant multidecadal variability with alternating periods of about 40 years (~13% of rainfall variability) related to the Atlantic Multidecadal Oscillation (AMO). Both oscillatory modes can explain dry and humid periods observed within the reconstruction and are likely associated with the negative trends of rainfall in the short instrumental records and the increased drought recurrence in recent decades. Our results show that montane tropical tree rings can be used to reconstruct precipitation with exceptionally high fidelity, characterize the interannual to multidecadal variability, and identify remote forcings in the hydroclimate over the Andean Amazon Basin of Peru.

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Main Authors: Humanes Fuente, V., Ferrero, M. E., Muñoz, A. A., González Reyes, Á., Requena Rojas, E. J., Barichivich, J., Inga, J. G., Layme Huaman, Eva Trinidad
Format: info:eu-repo/semantics/article biblioteca
Language:eng
Published: American Geophysical Union
Subjects:Amazonian montane forests, Precipitation reconstruction, SAMS, South America, Tree rings, Tropical Andes, https://purl.org/pe-repo/ocde/ford#4.01.02, Growth rings, Hydroclimatology, Anillo de crecimiento, Hidroclimatología,
Online Access:https://hdl.handle.net/20.500.12955/2178
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spelling dig-inia-pe-20.500.12955-21782023-09-22T03:15:46Z Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru Humanes Fuente, V. Ferrero, M. E. Muñoz, A. A. González Reyes, Á. Requena Rojas, E. J. Barichivich, J. Inga, J. G. Layme Huaman, Eva Trinidad Amazonian montane forests Precipitation reconstruction SAMS South America Tree rings Tropical Andes https://purl.org/pe-repo/ocde/ford#4.01.02 Growth rings Hydroclimatology Anillo de crecimiento Hidroclimatología Almost half of the tributaries of the Amazon River originate in the tropical Andes and support large populations in mountain regions and downstream areas. However, it is difficult to assess hydroclimatic conditions or to evaluate future scenarios due to the scarcity of long, high‐quality instrumental records. Data from the Global Precipitation Climatology Project (GPCP) provide a complete record since 1979 and offer a good representation of rainfall over the tropical Andes. Longer records are needed to improve our understanding of rainfall variability and summer monsoon behavior at various scales. We developed the first annually resolved precipitation reconstruction for the tropical Andes in Peru, based on tree‐ring chronologies of Cedrela and Juglans species. The annual (November–October) reconstruction extends the short instrumental records back to 1817, explaining 68% of the total variance of precipitation over the 1979–2007 calibration period. The reconstruction reveals the well‐documented influence of El Niño‐ Southern Oscillation (ENSO) on Amazon Rainfall at interannual scales (~19% of total variance) and significant multidecadal variability with alternating periods of about 40 years (~13% of rainfall variability) related to the Atlantic Multidecadal Oscillation (AMO). Both oscillatory modes can explain dry and humid periods observed within the reconstruction and are likely associated with the negative trends of rainfall in the short instrumental records and the increased drought recurrence in recent decades. Our results show that montane tropical tree rings can be used to reconstruct precipitation with exceptionally high fidelity, characterize the interannual to multidecadal variability, and identify remote forcings in the hydroclimate over the Andean Amazon Basin of Peru. 2020-09-09 info:eu-repo/semantics/article https://hdl.handle.net/20.500.12955/2178 eng Journal of Geophysical Research: Atmospheres info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by/4.0/ application/pdf American Geophysical Union Instituto Nacional de Innovación Agraria Repositorio Institucional - INIA
institution INIA PE
collection DSpace
country Perú
countrycode PE
component Bibliográfico
access En linea
databasecode dig-inia-pe
tag biblioteca
region America del Sur
libraryname Biblioteca del INIA Perú
language eng
topic Amazonian montane forests
Precipitation reconstruction
SAMS
South America
Tree rings
Tropical Andes
https://purl.org/pe-repo/ocde/ford#4.01.02
Growth rings
Hydroclimatology
Anillo de crecimiento
Hidroclimatología
Amazonian montane forests
Precipitation reconstruction
SAMS
South America
Tree rings
Tropical Andes
https://purl.org/pe-repo/ocde/ford#4.01.02
Growth rings
Hydroclimatology
Anillo de crecimiento
Hidroclimatología
spellingShingle Amazonian montane forests
Precipitation reconstruction
SAMS
South America
Tree rings
Tropical Andes
https://purl.org/pe-repo/ocde/ford#4.01.02
Growth rings
Hydroclimatology
Anillo de crecimiento
Hidroclimatología
Amazonian montane forests
Precipitation reconstruction
SAMS
South America
Tree rings
Tropical Andes
https://purl.org/pe-repo/ocde/ford#4.01.02
Growth rings
Hydroclimatology
Anillo de crecimiento
Hidroclimatología
Humanes Fuente, V.
Ferrero, M. E.
Muñoz, A. A.
González Reyes, Á.
Requena Rojas, E. J.
Barichivich, J.
Inga, J. G.
Layme Huaman, Eva Trinidad
Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
description Almost half of the tributaries of the Amazon River originate in the tropical Andes and support large populations in mountain regions and downstream areas. However, it is difficult to assess hydroclimatic conditions or to evaluate future scenarios due to the scarcity of long, high‐quality instrumental records. Data from the Global Precipitation Climatology Project (GPCP) provide a complete record since 1979 and offer a good representation of rainfall over the tropical Andes. Longer records are needed to improve our understanding of rainfall variability and summer monsoon behavior at various scales. We developed the first annually resolved precipitation reconstruction for the tropical Andes in Peru, based on tree‐ring chronologies of Cedrela and Juglans species. The annual (November–October) reconstruction extends the short instrumental records back to 1817, explaining 68% of the total variance of precipitation over the 1979–2007 calibration period. The reconstruction reveals the well‐documented influence of El Niño‐ Southern Oscillation (ENSO) on Amazon Rainfall at interannual scales (~19% of total variance) and significant multidecadal variability with alternating periods of about 40 years (~13% of rainfall variability) related to the Atlantic Multidecadal Oscillation (AMO). Both oscillatory modes can explain dry and humid periods observed within the reconstruction and are likely associated with the negative trends of rainfall in the short instrumental records and the increased drought recurrence in recent decades. Our results show that montane tropical tree rings can be used to reconstruct precipitation with exceptionally high fidelity, characterize the interannual to multidecadal variability, and identify remote forcings in the hydroclimate over the Andean Amazon Basin of Peru.
format info:eu-repo/semantics/article
topic_facet Amazonian montane forests
Precipitation reconstruction
SAMS
South America
Tree rings
Tropical Andes
https://purl.org/pe-repo/ocde/ford#4.01.02
Growth rings
Hydroclimatology
Anillo de crecimiento
Hidroclimatología
author Humanes Fuente, V.
Ferrero, M. E.
Muñoz, A. A.
González Reyes, Á.
Requena Rojas, E. J.
Barichivich, J.
Inga, J. G.
Layme Huaman, Eva Trinidad
author_facet Humanes Fuente, V.
Ferrero, M. E.
Muñoz, A. A.
González Reyes, Á.
Requena Rojas, E. J.
Barichivich, J.
Inga, J. G.
Layme Huaman, Eva Trinidad
author_sort Humanes Fuente, V.
title Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
title_short Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
title_full Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
title_fullStr Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
title_full_unstemmed Two centuries of hydroclimatic variability reconstructed from tree-ring records over the Amazonian Andes of Peru
title_sort two centuries of hydroclimatic variability reconstructed from tree-ring records over the amazonian andes of peru
publisher American Geophysical Union
url https://hdl.handle.net/20.500.12955/2178
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