Tree rings reveal increasing rainfall seasonality in the Amazon

Scientists have used clues locked into tree rings to reveal major changes in the Amazon’s rainfall cycle over the last 40 years, which show that wet seasons are getting wetter and dry seasons drier.

Oxygen isotope signals in rings from two Amazon tree species allowed the international research team led by the University of Leeds to reconstruct seasonal changes in rainfall for the recent past.  

Publishing their findings today (17 June) in Communications Earth and Environment, the researchers reveal that wet season rainfall has increased by 15-22%, and dry season rainfall decreased by 5.8-13.5% since 1980. 

The study is a result of a collaboration between the Universities of Leeds, Leicester and the National Institute for Amazon Research, in Brazil.  

Co-author Dr Bruno Cintra, who carried out the research while at Leeds, said: “The Amazon is a key component of the Earth's climate system. Understanding how its hydrological cycle is changing is essential for predicting future climate scenarios and developing effective conservation strategies. The upcoming COP30 in Belém, Brazil, presents a critical opportunity for world leaders to take decisive action.” 

Researchers believe this intensified seasonal cycle is caused by changes in temperatures of the surrounding Atlantic and Pacific oceans, influencing the atmospheric circulation. While these changes are partly driven by natural variability, there are also strong indications that anthropogenic (human-caused) climate change plays a role.  

Co-author Professor Roel Brienen from Leeds' School of Geography added: “Our research demonstrates that the Amazon's hydrological cycle is becoming more extreme. Increased wet season rainfall can lead to more frequent and severe flooding, while reduced dry season rainfall exacerbates drought conditions, impacting forest health and biodiversity.” 

The study was based on oxygen isotope ratios from tree rings of Cedrela odorata and Macrolobium acaciifolium in the Amazon from 1980 to 2010 to reconstruct past wet and dry season rainfall variability. The researchers linked oxygen isotope changes to large-scale precipitation, estimating long-term rainfall changes and uncertainties using observed data, isotope models, and sensitivity analyses to atmospheric parameters. 

The Amazon rainforest plays a critical role in global climate regulation, acting as a major carbon sink and participating in global atmospheric patterns. Observed changes in the rainfall cycle could have far-reaching effects on global climate stability.  

Co-author Dr Jochen Schöngart from the National Institute for Amazon Research (INPA) in Manaus, Brazil, added: “These findings highlight that the Amazon is not simply drying or wetting overall but experiencing more extreme seasonal swings.

“This is of relevant concern as the intensification of the hydrological cycle impacts the functioning of ecosystems, water and food security of millions of traditional and indigenous people. Urgent actions to mitigate climate change and simultaneously adapt the livelihood and traditional management of the populations are required.” 

Further information 

Top image: extreme river flood levels reach several metres depth, as indicated by the darker shade on the bark of this tree from seasonally flooded forests. Credit: Bruno B L Cintra.

For media enquiries, please contact Kersti Mitchell via k.mitchell@leeds.ac.uk.