Trends, stability and stress in the Colombian Central Andes

Mountain ecosystems have been projected to experience faster rates of warming than surrounding lowlands. These changes in climatic conditions could have significant impacts on high-altitude Andean environments, affecting the quality and magnitude of their economic and environmental services. Even th...

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Bibliographic Details
Published in:Climatic change 2012-06, Vol.112 (3-4), p.717-732
Main Authors: Ruiz, Daniel, Martinson, Douglas G., Vergara, Walter
Format: Article
Language:English
Subjects:
Alpine environments
Altitude
Atmospheric Sciences
Atmospherics
Biodiversity
Climate change
Climate Change/Climate Change Impacts
Climatic conditions
Climatology. Bioclimatology. Climate change
Colombia
Datasets
Dry season
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Ecosystems
Environmental services
Exact sciences and technology
External geophysics
Global warming
Humidity
Meteorology
Mountain ecosystems
Mountains
Observatories
Rain
Relative humidity
Sample variance
Stability
Temperature
Terrestrial ecosystems
Time series
Trends
Variables
Weather
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Summary:Mountain ecosystems have been projected to experience faster rates of warming than surrounding lowlands. These changes in climatic conditions could have significant impacts on high-altitude Andean environments, affecting the quality and magnitude of their economic and environmental services. Even though long-term data in these regions are limited, it is important to identify any discernible long-term trends in local climatic conditions. Time series of several variables were analyzed to detect statistically significant long-term linear trends that occurred over recent years in a páramo ecosystem of the Colombian Central Andes. Records included cloud characteristics, sunshine, rainfall, minimum and maximum temperatures, diurnal temperature range, and relative humidity. Conditions of atmospheric stability were also explored. Total sunshine exhibited decreasing trends ranging from −3.7 to −8.5% per decade at altitudes around the pluviometric optimum. The strongest changes in sunshine occurred during the December-January-February season. Mean relative humidity observed at altitudes around and below this threshold showed increasing trends of +0.6 to +0.7% per decade. Annual rainfall and mean relative humidity above the optimum showed decreasing trends ranging from −7 to −11% per decade and from −1.5 to −3.6% per decade, respectively. Minimum temperatures on the coldest days and maximum temperatures on the warmest days exhibited increasing trends at all altitudes ranging from +0.1 to +0.6, and from +0.2 to +1.1°C per decade, respectively. Increases in minimum and maximum temperatures at higher altitudes were significantly greater than those observed in average at lower altitudes. The strongest changes in minimum temperatures, particularly, occurred during the December–January–February and June–July–August dry seasons. All these changes suggest that atmospheric conditions in the area are shifting from statically unstable conditions to conditionally unstable or statically stable conditions. Observed historical trends indicate that climate impacts and other human activities have stressed these unique and fragile environments.
ISSN:0165-0009
1573-1480
DOI:10.1007/s10584-011-0228-0