Your search keyword '"EuMIXFOR"' showing total 2 results

1. Tree diversity effect on dominant height in temperate forest

Author

Patrick Vallet, Thomas Perot, Ecosystèmes forestiers (UR EFNO), and Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)

Subjects

EUMIXFOR, 0106 biological sciences, Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, Fagus sylvatica, Forest ecology, SPECIES MIXTURE, Ecosystem, Nature and Landscape Conservation, DOMINANT HEIGHT, biology, Ecology, MODELLING, Temperate forest, Forestry, Picea abies, 15. Life on land, biology.organism_classification, Abies alba, TEMPERATE FOREST, [SDE]Environmental Sciences, Quercus petraea, NATIONAL FOREST INVENTORY, 010606 plant biology & botany, Woody plant

Abstract

International audience; For forest ecosystems, studies dealing with diversity-productivity relationships are often based on diameter increment observations. Studying how height growth is affected by species interactions can provide new insights on this issue. We studied the mixture effect on dominant height growth in order to answer two questions. Do species interactions in mixed forest modify the dominant height growth of species? Does the diversity effect on diameter found in previous studies correspond to actual overyielding, or rather to an effect on allocation of growth between diameter and height? We used the French National Forest Inventory (NFI) data to model the mixture effect on dominant height. We included biophysical factors in the models to compare the dominant height of mixed and monospecific stands, all other parameters being equal. We studied five target species – Quercus petraea (Matt.) Liebl., Fagus sylvatica L., Picea abies (L.) Karst., Abies alba Mill., and Pinus sylvestris L. – in association with sixteen other species. Mixture effects on dominant height were weak, though often significant. They were either positive or negative according to species association. We showed that mixture effect on dominant height corresponds to a leveling process between species: the taller one limits its growth while the smaller one’s growth increases. Furthermore, most of the time, mixture effects on dominant height are in the same direction as those found on diameter, though with a lower magnitude. Our results confirm that tree diversity results in overyielding rather than in a different allocation of volume between the parts of the tree.

Published

2016

2. European Mixed Forests: Definition and research perspectives

Author

Bravo-Oviedo, Andres, Pretzsch, Hans, Ammer, Christian, Andenmatten, Ernesto, Barbati, Anna, Barreiro, Susana, Brang, Peter, Bravo, Felipe, Coll, Lluis, Corona, Piermaria, den Ouden, Jan, Ducey, Mark J., Forrester, David I., Giergiczny, Marek, Jacobsen, Jette B., Lesinski, Jerzy, Löf, Magnus, Mason, Bill, Bratislav, Matovic, Metslaid, Marek, Morneau, François, Motiejunaite, Jurga, O’Reilly, Conor, Pach, Maciej, Ponette, Quentin, del Rio, Miren, Short, Ian, Skovsgaard, Jens Peter, Soliño, Mario, Spathelf, Peter, Sterba, Hubert, Stojanovic, Dejan, Strelcova, Katarina, Svoboda, Miroslav, Kris, Verheyen, von Lüpke, Nikolas, Zlatanov, Tzvetan, European Co-Operation in Science and Technology, FP1206, and UCL - SST/ELI/ELIE - Environmental Sciences

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Biodiversity, PURE STANDS, 01 natural sciences, Basal area, Ecosystem services, european miexed forests, lcsh:Forestry, BIOMASS ALLOCATION, fagus-sylvatica l, Valuation (finance), SPECIES STANDS, biodiversity, CLIMATE-CHANGE, PRODUCTIVITY, species stands, Environmental resource management, pure stands, NORWAY SPRUCE, Forestry, silviculture, STAND-DENSITY INDEX, PE&RC, PICEA-ABIES, stand-density index, Geography, norway spruce, FAGUS-SYLVATICA L, climate-change, admixtures of species, European Mixed forests, mixed-species forests, productivity, Soil Science, Climate change, COST Action, Comparative research, Bosecologie en Bosbeheer, Ecology, Evolution, Behavior and Systematics, mixed-species forest, 0105 earth and related environmental sciences, business.industry, Simulation modeling, Biology and Life Sciences, EuMIXFOR, 15. Life on land, Forest Ecology and Forest Management, Earth and Environmental Sciences, lcsh:SD1-669.5, BIODIVERSITY, Monoculture, biomass allocation, picea-abies, business, 010606 plant biology & botany

Abstract

Aim of study: We aim at (i) developing a reference definition of mixed forests in order to harmonize comparative research in mixed forests and (ii) review the research perspectives in mixed forests.Area of study: The definition is developed in Europe but can be tested worldwide.Material and Methods: Review of existent definitions of mixed forests based and literature review encompassing dynamics, management and economic valuation of mixed forests.Main results: A mixed forest is defined as a forest unit, excluding linear formations, where at least two tree species coexist at any developmental stage, sharing common resources (light, water, and/or soil nutrients). The presence of each of the component species is normally quantified as a proportion of the number of stems or of basal area, although volume, biomass or canopy cover as well as proportions by occupied stand area may be used for specific objectives. A variety of structures and patterns of mixtures can occur, and the interactions between the component species and their relative proportions may change over time.The research perspectives identified are (i) species interactions and responses to hazards, (ii) the concept of maximum density in mixed forests, (iii) conversion of monocultures to mixed-species forest and (iv) economic valuation of ecosystem services provided by mixed forests.Research highlights: The definition is considered a high-level one which encompasses previous attempts to define mixed forests. Current fields of research indicate that gradient studies, experimental design approaches, and model simulations are key topics providing new research opportunities. Aim of study: We aim at (i) developing a reference definition of mixed forests in order to harmonize comparative research in mixed forests and (ii) review the research perspectives in mixed forests.Area of study: The definition is developed in Europe but can be tested worldwide.Material and Methods: Review of existent definitions of mixed forests based and literature review encompassing dynamics, management and economic valuation of mixed forests.Main results: A mixed forest is defined as a forest unit, excluding linear formations, where at least two tree species coexist at any developmental stage, sharing common resources (light, water, and/or soil nutrients). The presence of each of the component species is normally quantified as a proportion of the number of stems or of basal area, although volume, biomass or canopy cover as well as proportions by occupied stand area may be used for specific objectives. A variety of structures and patterns of mixtures can occur, and the interactions between the component species and their relative proportions may change over time.The research perspectives identified are (i) species interactions and responses to hazards, (ii) the concept of maximum density in mixed forests, (iii) conversion of monocultures to mixed-species forest and (iv) economic valuation of ecosystem services provided by mixed forests.Research highlights: The definition is considered a high-level one which encompasses previous attempts to define mixed forests. Current fields of research indicate that gradient studies, experimental design approaches, and model simulations are key topics providing new research opportunities.

Published

2014