Abstract
Andean ecosystems provide important ecosystem services including streamflow regulation and carbon sequestration, services that are controlled by the water retention properties of the soils. Even though these soils have been historically altered by pine afforestation and grazing, little research has been dedicated to the assessment of such impacts at local or regional scales. To partially fill this knowledge gap, we present an evaluation of the impacts of pine plantations and grazing on the soil hydro-physical properties and soil organic matter (SOM) of high montane forests and páramo in southern Ecuador, at elevations varying between 2705 and 3766 m a.s.l. In total, seven study sites were selected and each one was parceled into undisturbed and altered plots with pine plantation and grazing. Soil properties were characterized at two depths, 0–10 and 10–25 cm, and differences in soil parameters between undisturbed and disturbed plots were analyzed versus factors such as ecosystem type, sampling depth, soil type, elevation, and past/present land management. The main soil properties affected by land use change are the saturated hydraulic conductivity (Ksat), the water retention capacity (pF 0 to 2.52), and SOM. The impacts of pine afforestation are dependent on sampling depth, ecosystem type, plantation characteristics, and previous land use, while the impacts of grazing are primarily dependent on sampling depth and land use management (grazing intensity and tilling activities). The site-specific nature of the found relations suggests that extension of findings in response to changes in land use in montane Andean ecosystems is risky; therefore, future evaluations of the impact of land use change on soil parameters should take into consideration that responses are or can be site specific.
Highlights
High montane forests and páramo [1], typical Andean ecosystems, provide important services such as water supply regulation and carbon storage [2]
Considering the role of soil properties in the provision of ecosystem services in Ecuador’s Andean environments, and the past and present anthropogenic pressures resulting from afforestation and grazing activities, the main objective of this study was to evaluate the impact of pine afforestation and grazing on the hydro-physical properties and soil organic matter (SOM) content of the surface horizons of high montane forest and páramo soils
Tree development was greater at F1Pi, F2Pi and Tg7Pi with a diameter at breast height (DBH) >18 cm, a tree height (Ht) >9 m, and a canopy diameter (CD) ≥5 m
Summary
High montane forests and páramo [1], typical Andean ecosystems, provide important services such as water supply regulation and carbon storage [2]. The hydrological services provided by Andean ecosystems have been closely related to the characteristic functions played by their soils at watershed. Despite the important role soils play with respect to the provision of ecosystem services in the Andean region, they have been increasingly altered by anthropogenic activities since pre-Hispanic times [13], and only a limited number of evaluations of the effects of anthropogenic land-use changes on soil properties exist. Grazing in the montane Andean ecosystems has been carried out since pre-Hispanic times (XV century), and this practice results mainly from extensive to intensive animal farming (cattle, horses, and sheep) [13]
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