The Silvicultural Prize
The Silvicultural Prize
This Prize is awarded annually to the author(s) of the best paper published in Forestry on the subject of silviculture, as defined below, during the preceding three years. It can also be awarded to an individual or team for a consistently high standard of papers over a period of five to ten years. In making the award preference is given to papers describing the results of original research in silviculture and to original contributions to the theory and practice of silviculture. For purposes of the award 'silviculture' is defined as the theory and practice of controlling the establishment, composition and growth of forests and shall include the relationship of tree growth to environmental and economic factors and the effects on tree growth of other plants, micro-organisms, insects, birds and other animals.
2006 Silvicultural Prize
P. Balandier, C. Collet, J.H. Miller, P.E. Reynolds, and S.M. Zedaker
Designing forest vegetation management strategies based on the mechanisms and dynamics of crop tree competition by neighbouring vegetation
Forestry 2006 79(1): 3-27
Designing forest vegetation management strategies based on the mechanisms and dynamics of crop tree competition by neighbouring vegetation P. Balandier1,*, C. Collet2, J.H. Miller3, P.E. Reynolds4 and S.M. Zedaker5
1 Cemagref, Team of Applied Ecology of Woodlands, Clermont-Ferrand Regional Centre, 24 avenue des Landais, BP 50085, F-63172 Aubière Cedex, France
2 INRA, Laboratoire d’Etude des Ressources Forêt-Bois, UMR INRA-ENGREF 1092, F-54 280 Champenoux, France
3 Southern Research Station, USDA Forest Service, Auburn, AL 36849-5418, USA
4 NRCan, Canadian Forest Service, 1219 Queen St East, Sault Ste. Marie, Ontario, Canada P6A 2E5
5 Department of Forestry (0324), College of Natural Resources, Virginia Polytechnic Institute and State University, Blacksburg, VA 24061, USA
* Corresponding author. E-mail: philippe.balandier@cemagref.fr
Plant interactions can be defined as the ways plants act upon the growth, fitness, survival and reproduction of other plants, largely by modifying their environment. These interactions can be positive (facilitation) or negative (competition or exploitation). During plantation establishment or natural forest regeneration after a disturbance, high light levels and, sometimes, increased availability of water and nutrients favour the development of opportunistic, fast-growing herbaceous and woody species which capture resources at the expense of crop trees. As a consequence, the growth and survival of crop trees can be dramatically reduced. Although the effects of this competition are well documented, the physical and physiological mechanisms of competition are not. Moreover, the competition process is never constant in time or space. We present a conceptual competition model based on plant growth forms common in global forests, i.e. graminoids, forbs, small shrubs, large shrubs and mid-storey trees, and main-storey trees. Their competitive attributes and successional dynamics are examined. An overview is presented on the way forest vegetation management (FVM) treatments influence these components and outcomes regarding crop tree performance and diversity conservation. Finally, a synthesis of literature yields FVM guidelines for efficiently optimizing crop tree performance and safeguarding diversity. Future research needs to further sustainable FVM are presented.
