Ligustrum lucidum invasion alters the soil water dynamic in a seasonally multi-specific dry forest
•Ligustrum lucidum tree invasion alters the water balance in a seasonally dry forest.•Runoff was almost nil in both native and L. lucidum forest stands.•L. lucidum forest showed higher annual evapotranspiration rates than native forest.•L. lucidum forest showed drier soil profiles, particularly in t...
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Published in | Forest ecology and management Vol. 549; p. 121493 |
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Main Authors | , , , , , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
01.12.2023
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Subjects | |
Online Access | Get full text |
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Summary: | •Ligustrum lucidum tree invasion alters the water balance in a seasonally dry forest.•Runoff was almost nil in both native and L. lucidum forest stands.•L. lucidum forest showed higher annual evapotranspiration rates than native forest.•L. lucidum forest showed drier soil profiles, particularly in the deepest soil layers.
Plant invasion is one of the major global environmental threats with the potential to alter the ecosystem stability and functioning. In water-limited ecosystems, the impacts of non-native invasive trees on the water balance are particularly relevant since they can compromise the use of water by native taxa of the ecosystem and water provision for humans. In this paper, we assessed the hydrological impacts of the Ligustrum lucidum (Chinese glossy privet) invasion on a mountain seasonally dry forest of the Chaco region (Central Argentina). More specifically, we determined volumetric soil water content, runoff, and actual evapotranspiration, and their relations to the size of rainfall events in native forest stands and its adjacent invaded stands. We combined three-years field measurements and remote sensing data. L. lucidum stands showed less water content through the soil profiles than the native forest (0–70 cm depth; 19.6 and 23.1 %, respectively), particularly during the dry conditions. The drier condition in the deeper soil layers compared to the upper ones in the invaded stands indicated less rainwater percolation throughout the soil profile over the year, independently of the magnitude of the rainfall events. Daily variation of deep-water content (60–70 cm depth), only observed in L. lucidum stands, showed nightly increase and day-time decrease in dry conditions. Runoff was similar and almost nil in both native and invaded forests, even after large rainfall events (>30 mm). L. lucidum stands showed ∼ 18% higher annual actual evapotranspiration rates than native stands. Based on our results, relatively higher water consumption for mono-specific L. lucidum stands in periods when photosynthetic activity of multi-specific native dry forest is still low may represent a competitive advantage in terms of plant invasion, and at the same time it generates negative impacts on water resources, reducing soil water content and limiting deep-water recharge in a water-limited ecosystem. |
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ISSN: | 0378-1127 |
DOI: | 10.1016/j.foreco.2023.121493 |