Sunday, October 17, 2021

Largest Study of Asia’s Rivers Unearths 800 Years of Paleoclimate Patterns

813 years of annual river discharge at 62 stations, 41 rivers in 16 countries, from 1200 to 2012. That is what researchers at the Singapore University of Technology and Design (SUTD) produced after two years of research in order to better understand paleoclimate patterns of the Asian Monsoon region.

Home to many populous river basins, including 10 of the world’s biggest rivers (Figure 1), the Asian Monsoon region provides water, energy, and food for more than 3 billion people. This makes it crucial for us to understand past climate patterns so that we can better predict long-term changes in the water cycle and the impact they will have on the water supply.

Figure 1. Map of the Asian Monsoon region; river basins involved in this study are highlighted by subregion, rivers belonging to the world’s 30 biggest are shown with names indicated in blue. (Image: Singapore University of Technology and Design)

To reconstruct histories of river discharge, the researchers relied on tree rings. An earlier study by Cook et al (2010) developed an extensive network of tree ring data sites in Asia and created a paleodrought record called the Monsoon Asia Drought Atlas (MADA). SUTD researchers used the MADA as an input for their river discharge model.

They developed an innovative procedure to select the most relevant subset of the MADA for each river based on hydroclimatic similarity. This procedure allowed the model to extract the most important climate signals that influence river discharge from the underlying tree ring data. First author Nguyen Tan Thai Hung, a Ph.D. student from SUTD, explained:

“Our results reveal that rivers in Asia behave in a coherent pattern. Large droughts and major pluvial periods have often occurred simultaneously in adjacent or nearby basins. Sometimes, droughts stretched as far as from the Godavari in India to the Mekong in Southeast Asia (Figure 2). This has important implications for water management, especially when a country’s economy depends on multiple river basins, like in the case of Thailand.”

Using modern measurements, it has been known that the behavior of Asian rivers is influenced by the oceans. For instance, if the Pacific Ocean becomes warmer in its tropical region in an El Niño event, this will alter atmospheric circulations and likely cause droughts in South and Southeast Asian rivers.

Figure 2. This ‘heat map’ shows the reconstructed history of 62 river reaches (each row) over 812 years (each column). The stations are arranged approximately north to south (top down on y axis) and divided into five regions as delineated in Figure 1: CA (Central Asia), EA (East Asia), WA (West Asia), CN (eastern China), SEA (Southeast Asia), and SA (South Asia). (Image: Singapore University of Technology and Design)

However, the SUTD study revealed that this ocean-river connection is not constant over time. The researchers found that rivers in Asia were much less influenced by the oceans in the first half of the 20th century compared to the 50 years before and 50 years after that period. Principal investigator Associate Professor Stefano Galelli said:

“This research is of great importance to policymakers; we need to know where and why river discharge changed during the past millennium to make big decisions on water-dependent infrastructure.

“One such example is the development of the ASEAN Power Grid, conceived to interconnect a system of hydropower, thermoelectric, and renewable energy plants across all ASEAN countries. Our records show that ‘mega-droughts’ have hit multiple power production sites simultaneously, so we can now use this information to design a grid that is less vulnerable during extreme events.”

Provided by: Singapore University of Technology and Design [Note: Materials may be edited for content and length.]

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Troy Oakes
Troy was born and raised in Australia and has always wanted to know why and how things work, which led him to his love for science. He is a professional photographer and enjoys taking pictures of Australia's beautiful landscapes. He is also a professional storm chaser where he currently lives in Hervey Bay, Australia.
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