The fitness of an annual plant can be thought of as how much fruit is produced by the end of its growing season. Under the assumption that annual plants grow to maximize fitness, we can use techniques from optimal control theory to understand this process. We introduce two models for resource allocation in annual plants which extend classical work by Iwasa and Roughgarden to a case where both carbohydrates and mineral nutrients are allocated to shoots, roots, and fruits in annual plants. In each case, we use optimal control theory to determine the optimal resource allocation strategy for the plant throughout its growing season as well as develop numerical schemes to implement the models in MATLAB. Our results suggest that what is optimal fo...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
We extend the classical Smith-Fretwell model for the optimal size of an offspring to the case of all...
The fitness of an annual plant can be thought of as how much fruit is produced by the end of its gro...
International audienceIn [1] authors have formulated a model of optimal resource allocation in annua...
Much of life history theory follows from the idea that natural selection acts on the allocation of r...
Phosphorus (P) is the second most important nutrient after nitrogen (N) and can greatly diminish pla...
An optimal control methodology is proposed for plant growth. This methodology is demonstrated by sol...
Phenological changes among plants due to climate change are well documented, but often hard to inter...
International audienceAn optimal control methodology is proposed for plant growth. This methodology ...
In 1954, Lamont Cole posed a question which has motivated much ecological work in the past 50 years:...
<div><p>Plants are highly plastic in their potential to adapt to changing environmental conditions. ...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
We extend the classical Smith-Fretwell model for the optimal size of an offspring to the case of all...
The fitness of an annual plant can be thought of as how much fruit is produced by the end of its gro...
International audienceIn [1] authors have formulated a model of optimal resource allocation in annua...
Much of life history theory follows from the idea that natural selection acts on the allocation of r...
Phosphorus (P) is the second most important nutrient after nitrogen (N) and can greatly diminish pla...
An optimal control methodology is proposed for plant growth. This methodology is demonstrated by sol...
Phenological changes among plants due to climate change are well documented, but often hard to inter...
International audienceAn optimal control methodology is proposed for plant growth. This methodology ...
In 1954, Lamont Cole posed a question which has motivated much ecological work in the past 50 years:...
<div><p>Plants are highly plastic in their potential to adapt to changing environmental conditions. ...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
Plants are highly plastic in their potential to adapt to changing environmental conditions. For exam...
We extend the classical Smith-Fretwell model for the optimal size of an offspring to the case of all...