Recent extreme drought events in the Amazon rainforest: assessment of different precipitation and evapotranspiration datasets and drought indicators

Phillip Papastefanou, Christian S. Zang, Zlatan Angelov, Aline Anderson De Castro, Juan Carlos Jimenez, Luiz Felipe Campos De Rezende, Romina C. Ruscica, Boris Sakschewski, Anna A. Sörensson, Kirsten Thonicke, Carolina Vera, Nicolas Viovy, Celso Von Randow, Anja Rammig

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Over the last decades, the Amazon rainforest has been hit by multiple severe drought events. Here, we assess the severity and spatial extent of the extreme drought years 2005, 2010 and 2015/16 in the Amazon region and their impacts on the regional carbon cycle. As an indicator of drought stress in the Amazon rainforest, we use the widely applied maximum cumulative water deficit (MCWD). Evaluating nine state-of-the-art precipitation datasets for the Amazon region, we find that the spatial extent of the drought in 2005 ranges from 2.2 to 3.0 (meanCombining double low line2.7) ×106km2 (37%-51% of the Amazon basin, meanCombining double low line45%), where MCWD indicates at least moderate drought conditions (relative MCWD anomaly <-0.5). In 2010, the affected area was about 16% larger, ranging from 3.0 up to 4.4 (meanCombining double low line3.6) ×106km2 (51%-74%, meanCombining double low line61%). In 2016, the mean area affected by drought stress was between 2005 and 2010 (meanCombining double low line3.2×106km2; 55% of the Amazon basin), but the general disagreement between datasets was larger, ranging from 2.4 up to 4.1×106km2 (40%-69%). In addition, we compare differences and similarities among datasets using the self-calibrating Palmer Drought Severity Index (scPDSI) and a dry-season rainfall anomaly index (RAI). We find that scPDSI shows a stronger and RAI a much weaker drought impact in terms of extent and severity for the year 2016 compared to MCWD. We further investigate the impact of varying evapotranspiration on the drought indicators using two state-of-the-art evapotranspiration datasets. Generally, the variability in drought stress is most dependent on the drought indicator (60%), followed by the choice of the precipitation dataset (20%) and the evapotranspiration dataset (20%). Using a fixed, constant evapotranspiration rate instead of variable evapotranspiration can lead to an overestimation of drought stress in the parts of Amazon basin that have a more pronounced dry season (for example in 2010). We highlight that even for well-known drought events the spatial extent and intensity can strongly depend upon the drought indicator and the data sources it is calculated with. Using only one data source and drought indicator has the potential danger of under- or overestimating drought stress in regions with high measurement uncertainty, such as the Amazon basin.

Original languageEnglish
Pages (from-to)3843-3861
Number of pages19
JournalBiogeosciences
Volume19
Issue number16
DOIs
StatePublished - 24 Aug 2022

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