Your search keyword '"species strategy"' showing total 6 results

1. The role of plant traits and their plasticity in the response of pasture grasses to nutrients and cutting frequency.

Author

Pontes, Laíse da Silveira, Louault, Frédérique, Carrère, Pascal, Maire, Vincent, Andueza, Donato, and Soussana, Jean-François

Subjects

*GRASS varieties, *PLANT shoots, *PERENNIALS, *PASTURE ecology, *LAND use

Abstract

Background and Aims: Although plant functional traits (PFTs) appear to be important indicators of species' responses to land use changes, there is no clear understanding of how the variations in traits and their plasticity determine variations in species performance. This study investigated the role of functional shoot traits and their plasticity for variation in above-ground net primary productivity (ANPP) due to changes in N supply and in cutting frequency for 13 native perennial C3 grass species. [ABSTRACT FROM PUBLISHER]

Published

2010

2. Leaf dry matter content and lateral spread predict response to land use change for six subalpine grassland species.

Author

Gross, Nicolas, Suding, Katharine Nash, and Lavorel, Sandra

Subjects

*LEAVES, *PLANT growth, *PLANT communities, *LAND use, *GRASSLANDS, *BIOMASS, *ECOLOGY, *SPECIES, *PLANT ecology

Abstract

Question: Land-use change has a major impact on terrestrial plant communities by affecting fertility and disturbance. We test how particular combinations of plant functional traits can predict species responses to these factors and their abundance in the field by examining whether trade-offs at the trait level (fundamental trade-offs) are linked to trade-offs at the response level (secondary trade-offs). Location: Central French Alps. Methods: We conducted a pot experiment in which we characterized plant trait syndromes by measuring whole plant and leaf traits for six dominant species, originating from contrasting subalpine grassland types. We characterized their response to nutrient availability, shading and clipping. We quantified factors linked with different land usage in the field to test the relevance of our experimental treatments. Results: We showed that land management affected nutrient concentration in soil, light availability and disturbance intensity. We identified particular suites of traits linked to plant stature and leaf structure which were associated with species responses to these environmental factors. Leaf dry matter content separates fast and slow growing species. Height and lateral spread separated tolerant and intolerant species to shade and clipping. Discussion and Conclusion: Two fundamental trade-offs based on stature traits and leaf traits were linked to two secondary trade-offs based on response to fertilization shade and mowing. Based on these trade-offs, we discuss four different species strategies which could explain and predict species distributions and traits syndrome at community scale under different land-uses in subalpine grasslands. [ABSTRACT FROM AUTHOR]

Published

2007

3. Species strategy and N fluxes in grassland soil: A question of root litter quality or rhizosphere activity?

Author

Personeni, E. and Loiseau, P.

Subjects

*PLANT communities, *PLANT ecology, *NITROGEN cycle, *FOOD chains

Abstract

A clear understanding of the feedback between plant communities and soil nutrient cycles is necessary to predict the dynamics of grassland ecosystems. Nitrogen fluxes may depend on specific functional plant traits in relation to dead and living roots, which determine a litter and a rhizosphere effect of the plant community. Two species of nutrient-rich grasslands that demonstrate either a more conservative (Dactylis) or more competitive strategy (Lolium) for nitrogen were grown at a non-optimal level of N availability and at optimal water, P and K supply. In a factorial experiment, monocultures of both species were sown on soil monoliths containing the intact dead root litter system of either species. The N fluxes were measured for two years in these microcosms.The presence of a growing stand increased the N mineralisation rate of the root litter. Both the type of root litter and that of the rhizosphere significantly affected the N fluxes. A greater N harvest was recorded in the Dactylis stand and on the Lolium litter; while greater N loss by leaching occurred under the Lolium stand and from the Lolium litter. Lolium induced a greater N turnover in SOM, while Dactylis caused a faster decay rate of litter N. Dactylis favoured the “short” N cycle between stand and root litter, while Lolium favoured the “complete” N cycle between stand and SOM. The chemical composition of the root litter was similar, but the species effects on the N cycles could be accounted for by differences in morphological root traits. A set of functional root processes is proposed that differentiates species strategies towards the nitrogen cycle. Dynamic consequences for a mixture of the two species are discussed. [Copyright &y& Elsevier]

Published

2005

4. Leaf dry matter content and lateral spread predict response to land use change for six subalpine grassland species

Author

Nicolas Gross, Katharine Nash Suding, Sandra Lavorel, Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), Department of Ecology and Evolutionary Biology, University of California [Irvine] (UCI), and University of California-University of California

Subjects

0106 biological sciences, plant functional trait, Plant functional types, competitive-response, [SDV.BID]Life Sciences [q-bio]/Biodiversity, Plant Science, trait relationships, 010603 evolutionary biology, 01 natural sciences, biotic interactions, primary, dominant species, secondary trade-off, species strategy, French Alps, trade-off, disturbance, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, 2. Zero hunger, stress tolerance, Ecology, fungi, food and beverages, 15. Life on land, strategies, low-rainfall, relative importance, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, ecosystems, 010606 plant biology & botany

Abstract

International audience; Question: Land-use change has a major impact on terrestrial plant communities by affecting fertility and disturbance. We test how particular combinations of plant functional traits can predict species responses to these factors and their abundance in the field by examining whether trade-offs at the trait level (fundamental trade-offs) are linked to trade-offs at the response level (secondary trade-offs). Location: Central French Alps. Methods: We conducted a pot experiment in which we characterized plant trait syndromes by measuring whole plant and leaf traits for six dominant species, originating from contrasting subalpine grassland types. We characterized their response to nutrient availability, shading and clipping. We quantified factors linked with different land usage in the field to test the relevance of our experimental treatments. Results: We showed that land management affected nutrient concentration in soil, light availability and disturbance intensity. We identified particular suites of traits linked to plant stature and leaf structure which were associated with species responses to these environmental factors. Leaf dry matter content separates fast and slow growing species. Height and lateral spread separated tolerant and intolerant species to shade and clipping. Discussion and Conclusion: Two fundamental trade-offs based on stature traits and leaf traits were linked to two secondary trade-off, based on response to fertilization shade and mowing. Based on these trade-offs, we discuss four different species strategies which could explain and predict species distributions and traits syndrome at community scale under different land-uses in subalpine grasslands.

Published

2007

5. The role of plant traits and their plasticity in the response of pasture grasses to nutrients and cutting frequency

Author

Donato Andueza, Pascal Carrère, Laíse da Silveira Pontes, Jean-François Soussana, Vincent Maire, Frédérique Louault, UR 0874 Unité de recherche sur l'Ecosystème Prairial, Institut National de la Recherche Agronomique (INRA)-Unité de recherche sur l'Ecosystème Prairial (UREP)-Ecologie des Forêts, Prairies et milieux Aquatiques (EFPA), Institut National de la Recherche Agronomique (INRA), and Unité de Recherches sur les Herbivores (URH)

Subjects

0106 biological sciences, CUTTING, Perennial plant, GRASSLAND, C3 GRASSES, Climate, Population Dynamics, Biodiversity, Tiller (botany), Plant Science, Flowers, Biology, Poaceae, 010603 evolutionary biology, 01 natural sciences, Pasture, TRAIT PLASTICITY, Species Specificity, DECOUPAGE, Photosynthesis, Ecosystem, 2. Zero hunger, geography, geography.geographical_feature_category, SPECIES STRATEGY, Plant Stems, LEAF TRAITS, Temperature, food and beverages, Original Articles, 15. Life on land, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, NITROGEN, Plant Leaves, Biodegradation, Environmental, Phenotype, Productivity (ecology), Agronomy, Trait, Monoculture, Plant Shoots, 010606 plant biology & botany, PRIMARY PRODUCTIVITY

Abstract

International audience; Background and Aims Although plant functional traits (PFTs) appear to be important indicators of species’ responses to land use changes, there is no clear understanding of how the variations in traits and their plasticity determine variations in species performance. This study investigated the role of functional shoot traits and their plasticity for variation in above-ground net primary productivity (ANPP) due to changes in N supply and in cutting frequency for 13 native perennial C3 grass species. † Methods Monocultures of the grass species were grown in a fully factorial block design combining plant species, cutting frequency and N supply as factors. † Key Results Four major trait associations were obtained by reducing the dimensions of 14 PFTs with a principal component analysis (PCA).Variations in species’ productivity in response to an increase in cutting frequency was mainly explained by traits linked to the first PCA axis, opposing high plant stature from lower shoot cellulose and lignin contents and high leaf N content. Variation in species productivity in response to change in N supply was mainly explained by a set of predictor variables combining traits (average flowering date) and a trait’s plasticity (tiller density per unit land area and leaf dry matter content, i.e. mg dry matter g fresh mass21). These traits involved are linked to the second PCA axis (‘nutrient acquisition–conservation’), which opposes distinct strategies based on response to nutrient supply. †Conclusions Variations in ANPP of species in response to an increase in cutting frequency and a decrease in N supply are controlled by a group of traits, rather than by one individual trait. Incorporating plasticity of the individual traits into these trait combinations was the key to explaining species’ productivity responses, accounting for up to 89% of the total variability in response to the changes in N supply.

Published

2010

6. Leaf Dry Matter Content and Lateral Spread Predict Response to Land Use Change for Six Subalpine Grassland Species

Author

Suding, Katharine Nash and Lavorel, Sandra

Published

2007