Inicio  /  Forests  /  Vol: 10 Núm: 1 Par: January (2019)  /  Artículo
ARTÍCULO
TITULO

Landscape-Scale Mixtures of Tree Species are More Effective than Stand-Scale Mixtures for Biodiversity of Vascular Plants, Bryophytes and Lichens

Steffi Heinrichs    
Christian Ammer    
Martina Mund    
Steffen Boch    
Sabine Budde    
Markus Fischer    
Jörg Müller    
Ingo Schöning    
Ernst-Detlef Schulze    
Wolfgang Schmidt    
Martin Weckesser and Peter Schall    

Resumen

Tree species diversity can positively affect the multifunctionality of forests. This is why conifer monocultures of Scots pine and Norway spruce, widely promoted in Central Europe since the 18th and 19th century, are currently converted into mixed stands with naturally dominant European beech. Biodiversity is expected to benefit from these mixtures compared to pure conifer stands due to increased abiotic and biotic resource heterogeneity. Evidence for this assumption is, however, largely lacking. Here, we investigated the diversity of vascular plants, bryophytes and lichens at the plot (alpha diversity) and at the landscape (gamma diversity) level in pure and mixed stands of European beech and conifer species (Scots pine, Norway spruce, Douglas fir) in four regions in Germany. We aimed to identify compositions of pure and mixed stands in a hypothetical forest landscape that can optimize gamma diversity of vascular plants, bryophytes and lichens within regions. Results show that gamma diversity of the investigated groups is highest when a landscape comprises different pure stands rather than tree species mixtures at the stand scale. Species mainly associated with conifers rely on light regimes that are only provided in pure conifer forests, whereas mixtures of beech and conifers are more similar to beech stands. Combining pure beech and pure conifer stands at the landscape scale can increase landscape level biodiversity and conserve species assemblages of both stand types, while landscapes solely composed of stand scale tree species mixtures could lead to a biodiversity reduction of a combination of investigated groups of 7 up to 20%.

 Artículos similares

       
 
Teresa Fonseca,Luísa Monteiro,Teresa Enes,Adelaide Cerveira     Pág. e006
Aim of study: The study aims to evaluate the maximum potential stocking level in cork oak (Quercus suber L.) woodlands, using the ecologically-based size-density relationship of the self-thinning law.Area of study: The study area refers to cork oak fores... ver más
Revista: Forest Systems

 
Jose Javier Gorgoso-Varela,Juan Daniel García-Villabrille,Alberto Rojo-Alboreca,Klaus von Gadow,Juan Gabriel Álvarez-González     Pág. eSC07
Aim of study: In this study we compare the accuracy of three bivariate distributions: Johnson?s SBB, Weibull-2P and LL-2P functions for characterizing the joint distribution of tree diameters and heights.Area of study: North-West of Spain.Material and me... ver más
Revista: Forest Systems

 
Ana D. Torres,Juan M. Cellini,María V. Lencinas,Marcelo D. Barrera,Rosina Soler,Ricardo Diaz-Delgado,Guillermo J. Martínez Pastur     Pág. e016
Aim of study: Harvesting proposals (e.g. variable retention) for Nothofagus pumilio forests are based on canopy opening, to increase recruitment and enhance seedling growth, by modifying light and soil moisture. Seed production and seedling recruitment w... ver más
Revista: Forest Systems

 
Hans Pretzsch,Gerhard Schütze     Pág. 560 - 572
Mixed species forests are presently on the advance and widely held to provide many ecosystem functions and services better than pure stands. Recent studies well explored species mixing effects at the individual tree or stand level. However, the link betw... ver más
Revista: Forest Systems

 
Kamil Bielak,Malgorzata Dudzinska,Hans Pretzsch     Pág. 573 - 589
Aim of study: The objective of this study was to analyse the effect of species mixing of Scots pine and Norway spruce on the productivity at the stand and species level. We also analysed to what extent the mixing effects is modified by drought stress.Are... ver más
Revista: Forest Systems