Add to ORKGWe investigated how shoot and root allocation in plants responds to increasing levels of competitive stress at different levels of soil fertility. In addition, we analyzed whether different responses were due to adaptive plasticity or should be attributed to ontogenetic drift. Plantago lanceolata plants were grown during 18 weeks at five plant densities and four nutrient supply levels in pots in the greenhouse. Thereafter root and shoot biomass was measured. There were clear negative effects of increasing plant densities on plant weights revealing strong intraspecific competition. At the lower N-treatments, the proportional allocation to root mass increased with increasing competitive stress, indicating the important role of belowground com...
In natural habitats, the availability of essential mineral nutrients may vary widely from place to p...
Plant strategy and life-history theories make different predictions about reproductive efficiency un...
To clarify the role of seasonal change, competitive response and nutrient availability in the compet...
We investigated how shoot and root allocation in plants responds to increasing levels of competitive...
Background - Theory predicts that plant species win competition for a shared resource by more quickl...
Background - Theory predicts that plant species win competition for a shared resource by more quickl...
In a complex soil environment, competitive and environmental factors will interact with individual t...
Abstract Aim How plants cope with increases in population density via root plasticity is not well do...
1. Plants are known to respond to heterogeneous distribution of nutrients in the soil, and they also...
The model proposed in the first paper in this series predicts that in mixtures of plant species with...
Changes in plant biomass allocation in response to varying resource availabilities may result from o...
Changes in plant biomass allocation in response to varying resource availabilities may result from o...
Theory predicts that plant species win competition for a shared resource by more quickly preempting ...
Theory predicts that plant species win competition for a shared resource by more quickly preempting ...
Root systems are highly plastic as they express a range of responses to acquire patchily distributed...
In natural habitats, the availability of essential mineral nutrients may vary widely from place to p...
Plant strategy and life-history theories make different predictions about reproductive efficiency un...
To clarify the role of seasonal change, competitive response and nutrient availability in the compet...
We investigated how shoot and root allocation in plants responds to increasing levels of competitive...
Background - Theory predicts that plant species win competition for a shared resource by more quickl...
Background - Theory predicts that plant species win competition for a shared resource by more quickl...
In a complex soil environment, competitive and environmental factors will interact with individual t...
Abstract Aim How plants cope with increases in population density via root plasticity is not well do...
1. Plants are known to respond to heterogeneous distribution of nutrients in the soil, and they also...
The model proposed in the first paper in this series predicts that in mixtures of plant species with...
Changes in plant biomass allocation in response to varying resource availabilities may result from o...
Changes in plant biomass allocation in response to varying resource availabilities may result from o...
Theory predicts that plant species win competition for a shared resource by more quickly preempting ...
Theory predicts that plant species win competition for a shared resource by more quickly preempting ...
Root systems are highly plastic as they express a range of responses to acquire patchily distributed...
In natural habitats, the availability of essential mineral nutrients may vary widely from place to p...
Plant strategy and life-history theories make different predictions about reproductive efficiency un...
To clarify the role of seasonal change, competitive response and nutrient availability in the compet...