Cite as:
Makowski Giannoni, S.; Rollenbeck, R.; Trachte, K. &amp; Bendix, J. (2014): <b>Natural or anthropogenic? On the origin of atmospheric sulfate deposition in the Andes of southeastern Ecuador</b>. <i>Atmospheric Chemistry and Physics</i> <b>14</b>, 11297– 11312.

Resource Description

Title: Natural or anthropogenic? On the origin of atmospheric sulfate deposition in the Andes of southeastern Ecuador
FOR816dw ID: 34
Publication Date: 2014-10-28
License and Usage Rights: PAK 823-825 data user agreement. (
Resource Owner(s):
Individual: Sandro Makowski Giannoni
Individual: Rütger Rollenbeck
Individual: Katja Trachte
Individual: Jörg Bendix
Atmospheric sulfur deposition above certain limits can represent a threat to tropical forests, causing nutrient<br/> imbalances and mobilizing toxic elements that impact biodiversity and forest productivity. Atmospheric sources of sulfur deposited by precipitation have been roughly identified in only a few lowland tropical forests. Even scarcer are studies of this type in tropical mountain forests, many of them mega- diversity hotspots and especially vulnerable to acidic deposition. In these places, the topographic complexity and related streamflow conditions affect the origin, type, and intensity of deposition. Furthermore, in regions with a variety of natural and anthropogenic sulfur sources, like active volcanoes and biomass burning, no source emission data has been used for determining the contribution of each source to the deposition. The main goal of the current study is to evaluate sulfate (SO?4) deposition by rain and occult precipitation at two to- pographic locations in a tropical mountain forest of southern Ecuador, and to trace back the deposition to possible emission sources applying back-trajectory modeling. To link upwind natural (volcanic) and anthropogenic (urban/industrial and biomass-burning) sulfur emissions and observed sulfate deposition, we employed state-of-the-art inventory and satellite data, including volcanic passive degassing as well. We conclude that biomass-burning sources generally dominate sulfate deposition at the evaluated sites. Minor sulfate transport occurs during the shifting of the predominant winds to the north and west. Occult precipitation sulfate deposition and likely rain sulfate deposition are mainly linked to biomass-burning emissions from the Amazon lowlands. Volcanic and anthropogenic emissions from the north and west contribute to occult precipitation sulfate deposition at the mountain crest Cerro del Consuelo meteorological station and to rain-deposited sulfate at the upriver mountain pass El Tiro meteorological station.
| Andes | atmospheric deposition | source-receptor model | sulphate |
Literature type specific fields:
Journal: Atmospheric Chemistry and Physics
Volume: 14
Page Range: 11297– 11312
Publisher: European Geoscience Union
Metadata Provider:
Individual: Sandro Makowski Giannoni
Online Distribution:
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