The effects of experimental thinning on throughfall and stemflow: A contribution towards hydrology-oriented silviculture in Aleppo pine plantations

► Hydrology effects of experimental thinning in a dense Aleppo pine plantation were examined. ► Thinning intensity treatments (low, moderate and high) have been established. ► Throughfall and stemflow were both modified after thinning. Low intensity thinning did not have a significant effect. ► Mode...

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Published in:	Forest ecology and management Vol. 269; pp. 206 - 213
Main Authors:	Molina, Antonio J., del Campo, Antonio D.
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier B.V 01-04-2012 Elsevier
Subjects:	Animal and plant ecology Animal, plant and microbial ecology Artificial regeneration. Forest nurseries. Planting basal area Biological and medical sciences Forest management Forest management. Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration forest types Forestry Fundamental and applied biological sciences. Psychology Hydrology Interception leaf area index Pinus halepensis Pinus halepensis Mill plantations rain Rainfall partitioning semiarid zones silviculture Sowing and planting Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration stemflow Synecology Terrestrial ecosystems throughfall trees water resources Rainfall partitioning Hydrology Forest management Interception Pinus halepensis Mill Partition Throughfall Pinus halepensis Meteorological phenomenon Silviculture Forest ecology Stemflow Rain Partitioning Artificial forest stand Softwood forest tree Gymnospermae Forestry Experimentation Coniferales Spermatophyta Atmospheric precipitation
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Abstract	► Hydrology effects of experimental thinning in a dense Aleppo pine plantation were examined. ► Thinning intensity treatments (low, moderate and high) have been established. ► Throughfall and stemflow were both modified after thinning. Low intensity thinning did not have a significant effect. ► Models were developed to allow foresters to easily implement a “hydrology-oriented silviculture”. Rainfall interception by the forest cover causes an important reduction in bulk rainfall in semiarid climates, such as the Mediterranean. Unmanaged, dense pine stands in this area are expected to have an important impact on water resources. This paper studies the effect of forest management on the partitioning of rainfall into throughfall and stemflow in an Aleppo pine plantation in eastern Spain. Three thinning-intensity treatments were compared with unmanaged stands that served as the control. The results revealed a very low throughfall in the control treatments during the study period of 55.9%, whereas throughfall increased significantly after thinning to 83.8%, 67.7% and 61.3% of the bulk rainfall for high-, moderate- and low-intensity treatments, respectively. Total throughfall was negatively and linearly related to the tree density, forest cover, basal area and leaf area index. In contrast, weekly throughfall was modelled by considering these variables together with bulk rainfall in a multiple exponential expression; the weekly throughfall R2 values (corrected Pearson coefficient) were above 0.9. These models would facilitate the implementation of hydrology-oriented silviculture via a more accurate prediction of the impacts of thinning on throughfall in this type of forest.
AbstractList	Rainfall interception by the forest cover causes an important reduction in bulk rainfall in semiarid climates, such as the Mediterranean. Unmanaged, dense pine stands in this area are expected to have an important impact on water resources. This paper studies the effect of forest management on the partitioning of rainfall into throughfall and stemflow in an Aleppo pine plantation in eastern Spain. Three thinning-intensity treatments were compared with unmanaged stands that served as the control. The results revealed a very low throughfall in the control treatments during the study period of 55.9%, whereas throughfall increased significantly after thinning to 83.8%, 67.7% and 61.3% of the bulk rainfall for high-, moderate- and low-intensity treatments, respectively. Total throughfall was negatively and linearly related to the tree density, forest cover, basal area and leaf area index. In contrast, weekly throughfall was modelled by considering these variables together with bulk rainfall in a multiple exponential expression; the weekly throughfall R² values (corrected Pearson coefficient) were above 0.9. These models would facilitate the implementation of hydrology-oriented silviculture via a more accurate prediction of the impacts of thinning on throughfall in this type of forest. ► Hydrology effects of experimental thinning in a dense Aleppo pine plantation were examined. ► Thinning intensity treatments (low, moderate and high) have been established. ► Throughfall and stemflow were both modified after thinning. Low intensity thinning did not have a significant effect. ► Models were developed to allow foresters to easily implement a “hydrology-oriented silviculture”. Rainfall interception by the forest cover causes an important reduction in bulk rainfall in semiarid climates, such as the Mediterranean. Unmanaged, dense pine stands in this area are expected to have an important impact on water resources. This paper studies the effect of forest management on the partitioning of rainfall into throughfall and stemflow in an Aleppo pine plantation in eastern Spain. Three thinning-intensity treatments were compared with unmanaged stands that served as the control. The results revealed a very low throughfall in the control treatments during the study period of 55.9%, whereas throughfall increased significantly after thinning to 83.8%, 67.7% and 61.3% of the bulk rainfall for high-, moderate- and low-intensity treatments, respectively. Total throughfall was negatively and linearly related to the tree density, forest cover, basal area and leaf area index. In contrast, weekly throughfall was modelled by considering these variables together with bulk rainfall in a multiple exponential expression; the weekly throughfall R2 values (corrected Pearson coefficient) were above 0.9. These models would facilitate the implementation of hydrology-oriented silviculture via a more accurate prediction of the impacts of thinning on throughfall in this type of forest.
Author	Molina, Antonio J. del Campo, Antonio D.
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Keywords	Rainfall partitioning Hydrology Forest management Interception Pinus halepensis Mill Partition Throughfall Pinus halepensis Meteorological phenomenon Silviculture Forest ecology Stemflow Rain Partitioning Artificial forest stand Softwood forest tree Gymnospermae Forestry Experimentation Coniferales Spermatophyta Atmospheric precipitation
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Snippet	► Hydrology effects of experimental thinning in a dense Aleppo pine plantation were examined. ► Thinning intensity treatments (low, moderate and high) have... Rainfall interception by the forest cover causes an important reduction in bulk rainfall in semiarid climates, such as the Mediterranean. Unmanaged, dense pine...
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SubjectTerms	Animal and plant ecology Animal, plant and microbial ecology Artificial regeneration. Forest nurseries. Planting basal area Biological and medical sciences Forest management Forest management. Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration forest types Forestry Fundamental and applied biological sciences. Psychology Hydrology Interception leaf area index Pinus halepensis Pinus halepensis Mill plantations rain Rainfall partitioning semiarid zones silviculture Sowing and planting Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration stemflow Synecology Terrestrial ecosystems throughfall trees water resources
Title	The effects of experimental thinning on throughfall and stemflow: A contribution towards hydrology-oriented silviculture in Aleppo pine plantations
URI	https://dx.doi.org/10.1016/j.foreco.2011.12.037
Volume	269
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