4.7 Article

Changes in Long-Term Light Properties of a Mixed Conifer-Broadleaf Forest in Southwestern Europe

Journal

FORESTS
Volume 12, Issue 11, Pages -

Publisher

MDPI
DOI: 10.3390/f12111485

Keywords

mixedwoods; long-term research; light properties; thinning; windstorms; sustainable forest management; Scots pine; European beech; hemispherical photography; time-series analysis

Categories

Funding

  1. Spanish Ministry of Economy and Competitiveness [AGL2006-08288, AGL2009-11287, AGL2012-33465, AGL2016-76463]
  2. La Caixa Foundation
  3. Caja Navarra Foundation [LCF/PR/PR13/51080004]

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This study in a conifer-broadleaf mixed forest in the Southwestern Pyrenees of Spain found that non stand-replacing disturbances such as windstorms, thinning, or droughts can play an important role in modifying structural and light-related canopy properties, potentially influencing natural processes of stand development and ecological succession.
Natural and anthropogenic factors affect forest structure worldwide, primarily affecting forest canopy and its light properties. However, not only stand-replacing events modify canopy structure, but disturbances of lower intensity can also have important ecological implications. To study such effects, we analyzed long-term changes in light properties of a conifer-broadleaf mixed forest in the Southwestern Pyrenees, placed in the fringe between the Mediterranean and Eurosiberian biogeographical regions. At this site, a thinning trial with different intensities (0%, 20%, and 30-40% basal area removed) took place in 1999 and 2009, windstorms affected some plots in 2009 and droughts were recurrent during the sampling period (2003, 2005, 2011). We monitored light properties during 14 years (2005-2019) with hemispherical photographs. We applied partial autocorrelation functions to determine if changes between years could be attributed to internal canopy changes or to external disturbances. In addition, we mapped the broadleaf canopy in 2003, 2008, and 2016 to calculate broadleaf canopy cover and richness at the sampling points with different buffer areas of increasing surface. We applied generalized linear mixed models to evaluate the effects of light variables on canopy richness and cover. We found that light variables had the most important changes during the period 2008 to 2010, reacting to the changes caused that year by the combined effects of wind and forest management. In addition, we found that an area of 4.0 m radius around the sampling points was the best to explain the relationship between light properties and species richness, whereas a radius of 1.0 m was enough to estimate the relationship between light and canopy cover. In addition, light-related variables such as diffuse light and leaf area index were related to species richness, whereas structural variables such as canopy openness were related to canopy cover. In summary, our study demonstrates that non stand-replacing disturbances such as windstorms, thinning, or droughts can have an important role in modifying structural and light-related canopy properties, which in turn may influence natural processes of stand development and ecological succession.

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