Stephen Dingman scite author profile

Abstract:This paper reviews the effects of deforestation on the hydrological cycle in Amazonia according to recent modeling and observational studies performed within different spatial scales and resolutions. The predictions that follow from future scenarios of a complete deforestation in the region point to a restrained water cycle, while the simulated effects of small, disturbed areas show a contrasting tendency. Differences between coarsely spatially averaged observations and finely sampled data sets have also been encountered. These contrasts are only partially explained by the different spatial resolutions among models and observations, since they seem to be further associated with the weakening of precipitation recycling under scenarios of extensive deforestation and with the potential intensification of convection over areas of land-surface heterogeneity. Therefore, intrinsic and interrelated scale and heterogeneity dependencies on the impact of deforestation in Amazonia on the hydrological cycle are revealed and the acknowledgement of the relevance of these dependencies sets a few challenges for the future.

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Comment on “Probabilistic approach to modeling of velocity distributions in fluid flows” by C.-L. Chiu and S.-M. Hsu, Journal of Hydrology 316:28–42

Dingman

2007

Journal of Hydrology

107

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Stephen Dingman

Effective sea-level rise and deltas: Causes of change and human dimension implications

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The effects of deforestation on the hydrological cycle in Amazonia: a review on scale and resolution

Comment on “Probabilistic approach to modeling of velocity distributions in fluid flows” by C.-L. Chiu and S.-M. Hsu, Journal of Hydrology 316:28–42

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