Mariya Ptashnyk scite author profile

Summary• Root hairs are known to be important in the uptake of sparingly soluble nutrients by plants, but quantitative understanding of their role in this is weak. This limits, for example, the breeding of more nutrient-efficient crop genotypes.• We developed a mathematical model of nutrient transport and uptake in the root hair zone of single roots growing in soil or solution culture. Accounting for root hair geometry explicitly, we derived effective equations for the cumulative effect of root hair surfaces on uptake using the method of homogenization.• Analysis of the model shows that, depending on the morphological and physiological properties of the root hairs, one of three different effective models applies. They describe situations where: (1) a concentration gradient dynamically develops within the root hair zone; (2) the effect of root hair uptake is negligibly small; or (3) phosphate in the root hair zone is taken up instantaneously. Furthermore, we show that the influence of root hairs on rates of phosphate uptake is one order of magnitude greater in soil than solution culture.• The model provides a basis for quantifying the importance of root hair morphological and physiological properties in overall uptake, in order to design and interpret experiments in different circumstances.

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Derivation of a Macroscopic Receptor-Based Model Using Homogenization Techniques

Marciniak-Czochra

Ptashnyk²

2008

SIAM J. Math. Anal.

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Boundedness of Solutions of a Haptotaxis Model

Marciniak–Czochra

Ptashnyk

2010

Math. Models Methods Appl. Sci.

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In this paper we prove the existence of global solutions of the haptotaxis model of cancer invasion for arbitrary non-negative initial conditions. Uniform boundedness of the solutions is shown using the method of bounded invariant rectangles applied to the reformulated system of reaction-di®usion equations in divergence form with a diagonal di®usion matrix. Moreover, the analysis of the model shows how the structure of kinetics of the model is related to the growth properties of the solutions and how this growth depends on the ratio of the sensitivity function (describing the size of haptotaxis) and the di®usion coe±cient. One of the implications of our analysis is that in the haptotaxis model with a logistic growth term, cell density may exceed the carrying capacity, which is impossible in the classical logistic equation and its reaction-di®usion extension.

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Two-Scale Convergence for Locally Periodic Microstructures and Homogenization of Plywood Structures

Ptashnyk¹

2013

Multiscale Model. Simul.

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The introduced notion of locally-periodic two-scale convergence allows to average a wider range of microstructures, compared to the periodic one. The compactness theorem for the locally-periodic two-scale convergence and the characterisation of the limit for a sequence bounded in H 1 (Ω) are proven. The underlying analysis comprises the approximation of functions, which periodicity with respect to the fast variable depends on the slow variable, by locally-periodic functions, periodic in subdomains smaller than the considered domain, but larger than the size of microscopic structures. The developed theory is applied to derive macroscopic equations for a linear elasticity problem defined in domains with plywood structures.

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Mariya Ptashnyk

A dynamic model of nutrient uptake by root hairs

Derivation of a Macroscopic Receptor-Based Model Using Homogenization Techniques

Boundedness of Solutions of a Haptotaxis Model

Two-Scale Convergence for Locally Periodic Microstructures and Homogenization of Plywood Structures

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