# Floodplain inundation in the Murray–Darling Basin under current and future climate conditions

**Authors:** Jin Teng, Francis H. S. Chiew, Hongxing Zheng, Ang Yang, David J. Penton, Catherine Ticehurst, Steve Marvanek, Jai Vaze, Fathaha Khanam, David A. Post, Carmel Pollino

PMC · DOI: 10.1038/s41598-025-93670-6 · Scientific Reports · 2025-03-14

## TL;DR

This study explores how floodplain inundation in Australia's Murray–Darling Basin has changed and may change in the future due to climate and human factors.

## Contribution

A novel framework combining satellite data and hydrological modeling to assess floodplain inundation trends and future projections.

## Key findings

- Annual maximum 30-day runoff is a key factor influencing floodplain inundation in the MDB.
- Floodplain inundation has been more frequent in recent decades compared to the long-term baseline, especially in the southern basin.
- Projected climate changes show regional variation in floodplain inundation, influenced by local conditions and human activities.

## Abstract

Predicting floodplain inundation under a changing climate is essential for adaptive management of water resources and ecosystems worldwide. This study presents a framework combining satellite observations and hydrological modeling to explore changes in floodplain inundation. We examine variability, trends, and frequency of inundation across the Murray–Darling Basin (MDB), Australia’s largest river system, over the past 35 years (1988–2022). Our analysis shows that annual maximum 30-day runoff is a primary hydrological factor influencing floodplain inundation. Using this metric as a proxy, we found that floodplain inundation, if driven solely by hydroclimate conditions, would have been more frequent in the recent decades (1988–2022) compared to the century-long baseline (1900–2022), especially in the southern basin. Despite projected declines in water availability under climate change in MDB, floodplain inundation appears to be less affected. The projected changes in floodplain inundation vary by region, influenced by local hydroclimate, human intervention, and the balance between projected more intense extreme rainfall and drier catchment conditions. This framework provides valuable insights into water resource planning and environmental management, with potential applications beyond the MDB.

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

37 references — full list in the complete paper: https://tomesphere.com/paper/PMC11909220/full.md

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Source: https://tomesphere.com/paper/PMC11909220