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Outputs (3)

An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia (2023)
Journal Article
Hughes, D., Birkinshaw, S., Parkin, G., Bovolo, C. I., Ó Dochartaigh, B., MacDonald, A., …Pereira, R. (2023). An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia. International Journal of River Basin Management, 1-11. https://doi.org/10.1080/15715124.2023.2278678

Tropical river basins – crucial components of global water and carbon cycles – are threatened by logging, mining, agricultural conversion, and climate change. Thus, decision-makers require hydrological impact assessments to sustainably manage threate... Read More about An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia.

An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia (2023)
Journal Article
Hughes, D., Birkinshaw, S., Parkin, G., Bovolo, C. I., Ó Dochartaigh, B., MacDonald, A., …Pereira, R. (2023). An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia. International Journal of River Basin Management, https://doi.org/10.1080/15715124.2023.2278678

Tropical river basins – crucial components of global water and carbon cycles – are threatened by logging, mining, agricultural conversion, and climate change. Thus, decision-makers require hydrological impact assessments to sustainably manage threate... Read More about An innovative hydrological model for the sparsely-gauged Essequibo River basin, northern Amazonia.

A systematic comparison of deforestation drivers and policy effectiveness across the Amazon biome (2023)
Journal Article
Hänggli, A., Levy, S., Armenteras Pascual, D., Bovolo, I., Brandao, J., Rueda, X., & Garrett, R. D. (2023). A systematic comparison of deforestation drivers and policy effectiveness across the Amazon biome. Environmental Research Letters, 18(7), Article 073001. https://doi.org/10.1088/1748-9326/acd408

The Amazon biome, spanning nine countries, has one of the highest rates of deforestation worldwide. This deforestation contributes to biodiversity loss, climate change, the spread of infectious diseases, and damage to rural and indigenous livelihoods... Read More about A systematic comparison of deforestation drivers and policy effectiveness across the Amazon biome.