Analysis of vegetation changes in high Andean wetlands in southern Peru
- based on remotely sensed data sets
Bofedal-Andean wetland in an altitude of
5000 meters with grazing Alpaca
- © Institute of Ecology
Wetlands of the high Andean mountains are exceptional ecosystems due to their hydrological characteristics in a surrounding arid environment. This group of tropical
peat lands is situated in southern Peru, Bolivia and northern Chile and known as "Bofedales". Bofedales provide a natural habitat which serve as
grass land for South-American cameloids like Alpaca (Vicugna pacos) as a domesticated form of wild South American cameloid Vicuņa (Vicugna vicugna)
and Guanaco (Lama guanicoe). The study area includes some of the greatest Bofedales of southern Peru as part of a national reserve
(La Reserva Nacional Salinas y Aguada Blanca).One problem for reserve managers and decision makers of communities is the need of low cost,
current and accurate information upon which they can base there decisions. Important questions are e.g.: "What are the effects of pasturing,
irrigation and drainage and how effective is protection of Bofedales?" "What are the services which they provided and how could they be evaluated?"
The availability of no-cost data (e.g. MODIS) and automated data processing techniques can provide a cost effective tool to answer those questions.
Landsat and Modis (NDVI)
- © Institute of Ecology
The study shows that using high resolution data like Landsat ETM+ combined with elevation models derived from SRTM data
(Shuttle Radar Topography Mission) clearly improves existing wetland classifications. It shows Bofedales as an inhomogeneous land cover
type due to different characteristics mostly depending on relief, geology and climate. To investigate this inhomogeneity time analysis
using the vegetation index (NDVI) is applied and compared with other vegetation cover types situated in the same study area.
Dependencies between climate, hydrological conditions and changes of vegetation are examined by using reanalyzed climate data sets
combined with hydrologic models. Recommendations and conclusions are aimed to emphasize the need for research because much more work
is required to develop resource management and conservation programs based on scientific research to ensure protection and sustainable
use of Bofedales and therefore to ensure the future livelihoods of the indigenous peoples who depend on them.