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128 results on '"Diele, Fasma"'

1. Patterns in soil organic carbon dynamics: integrating microbial activity, chemotaxis and data-driven approaches

Author

Monti, Angela, Diele, Fasma, Lacitignola, Deborah, and Marangi, Carmela

Subjects
Mathematics - Numerical Analysis, Quantitative Biology - Quantitative Methods
Abstract

Models of soil organic carbon (SOC) frequently overlook the effects of spatial dimensions and microbiological activities. In this paper, we focus on two reaction-diffusion chemotaxis models for SOC dynamics, both supporting chemotaxis-driven instability and exhibiting a variety of spatial patterns as stripes, spots and hexagons when the microbial chemotactic sensitivity is above a critical threshold. We use symplectic techniques to numerically approximate chemotaxis-driven spatial patterns and explore the effectiveness of the piecewice dynamic mode decomposition (pDMD) to reconstruct them. Our findings show that pDMD is effective at precisely recreating chemotaxis-driven spatial patterns, therefore broadening the range of application of the method to classes of solutions different than Turing patterns. By validating its efficacy across a wider range of models, this research lays the groundwork for applying pDMD to experimental spatiotemporal data, advancing predictions crucial for soil microbial ecology and agricultural sustainability.

Published
2024

4. Evaluating the impact of increasing temperatures on changes in Soil Organic Carbon stocks: sensitivity analysis and non-standard discrete approximation

Author

Diele, Fasma, Luiso, Ilenia, Marangi, Carmela, and Martiradonna, Angela

Subjects
Mathematics - Numerical Analysis, Quantitative Biology - Populations and Evolution, 86A08, 65L05, 86-10, 86-08
Abstract

A novel model is here introduced for the SOC change index defined as the normalized difference between the actual Soil Organic Carbon and the value assumed at an initial reference year. It is tailored on the RothC carbon model dynamics and assumes as baseline the value of the SOC equilibrium under constant environmental conditions. A sensitivity analysis is performed to evaluate the response of the model to changes of temperature, Net Primary Production (NPP), and land use soil class (forest, grassland, arable). A non-standard monthly time-stepping procedure has been proposed to approximate the SOC change index in the Alta Murgia National Park, a protected area in the Italian Apulia region, selected as test site. In the case of arable class, the SOC change index exhibits a negative trend which can be inverted by a suitable organic fertilization program here proposed., Comment: 34 pages, 13 figures

Published
2021

8. Optimal Control of Invasive Species with Budget Constraint: Qualitative Analysis and Numerical Approximation

Author

Martiradonna, Angela, Diele, Fasma, Marangi, Carmela, Formaggia, Luca, Editor-in-Chief, Pedregal, Pablo, Editor-in-Chief, Larson, Mats G., Series Editor, Martínez-Seara Alonso, Tere, Series Editor, Parés, Carlos, Series Editor, Pareschi, Lorenzo, Series Editor, Tosin, Andrea, Series Editor, Vázquez-Cendón, Elena, Series Editor, Zubelli, Jorge P., Series Editor, Zunino, Paolo, Series Editor, Aguiar, Maira, editor, Braumann, Carlos, editor, Kooi, Bob W., editor, Pugliese, Andrea, editor, Stollenwerk, Nico, editor, and Venturino, Ezio, editor

Published
2020
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9. Mathematical Tools for Controlling Invasive Species in Protected Areas

Author

Marangi, Carmela, Casella, Francesca, Diele, Fasma, Lacitignola, Deborah, Martiradonna, Angela, Provenzale, Antonello, Ragni, Stefania, Patrizio, Giorgio, Editor-in-Chief, Canuto, Claudio, Series Editor, Moscariello, Gioconda, Series Editor, Cannarsa, Piermarco, editor, Mansutti, Daniela, editor, and Provenzale, Antonello, editor

Published
2020
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11. Differential Equation Models in Applied Mathematics. Theoretical and Numerical Challenges.

Author

Diele, Fasma and Diele, Fasma

Subjects
Mathematics & science, Research & information: general, Mittag-Leffler function, Sobolev type equation, backward bifurcation, boundary value problems, chemotaxis, dynamical systems, epidemic models, finite difference schemes, food chain, fourth-order differential equations, fractional differential equations, hastings-powell model, high-order equation, hysteresis, indirect methods, inverse problem, linear systems, method of successive approximations, multi-domain network, multi-order systems, n/a, neutral delay, on-off intermittency, optimal control, oscillation, polynomial boundedness of operator pencils, reaction-diffusion models, referral marketing, self-information, stability, stochastic forcing, theoretical ecology, transmission conditions
Abstract

Summary: The present book contains the articles published in the Special Issue "Differential Equation Models in Applied Mathematics: Theoretical and Numerical Challenges" of the MDPI journal Mathematics. The Special Issue aimed to highlight old and new challenges in the formulation, solution, understanding, and interpretation of models of differential equations (DEs) in different real world applications. The technical topics covered in the seven articles published in this book include: asymptotic properties of high order nonlinear DEs, analysis of backward bifurcation, and stability analysis of fractional-order differential systems. Models oriented to real applications consider the chemotactic between cell species, the mechanism of on-off intermittency in food chain models, and the occurrence of hysteresis in marketing. Numerical aspects deal with the preservation of mass and positivity and the efficient solution of Boundary Value Problems (BVPs) for optimal control problems. I hope that this collection will be useful for those working in the area of modelling real-word applications through differential equations and those who care about an accurate numerical approximation of their solutions. The reading is also addressed to those willing to become familiar with differential equations which, due to their predictive abilities, represent the main mathematical tool for applying scenario analysis to our changing world.

17. On–Off Intermittency and Long-Term Reactivity in a Host–Parasitoid Model with a Deterministic Driver.

Author

Diele, Fasma, Lacitignola, Deborah, and Monti, Angela

Subjects
*NONLINEAR dynamical systems, *BIOLOGICAL pest control agents, *CONTINUOUS time models, *ENVIRONMENTAL monitoring, *ECOSYSTEM services
Abstract

Bursting behaviors, driven by environmental variability, can substantially influence ecosystem services and functions and have the potential to cause abrupt population breakouts in host–parasitoid systems. We explore the impact of environment on the host–parasitoid interaction by investigating separately the effect of grazing-dependent habitat variation on the host density and the effect of environmental fluctuations on the average host population growth rate. We hence focus on the discrete host–parasitoid Beddington–Free–Lawton model and show that a more comprehensive mathematical study of the dynamics behind the onset of on–off intermittency in host–parasitoid systems may be achieved by considering a deterministic, chaotic system that represents the dynamics of the environment. To this aim, some of the key model parameters are allowed to vary in time according to an evolution law that can exhibit chaotic behavior. Fixed points and stability properties of the resulting 3D nonlinear discrete dynamical system are investigated and on–off intermittency is found to emerge strictly above the blowout bifurcation threshold. We show, however, that, in some cases, this phenomenon can also emerge in the sub-threshold. We hence introduce the novel concept of long-term reactivity and show that it can be considered as a necessary condition for the onset of on–off intermittency. Investigations in the time-dependent regimes and kurtosis maps are provided to support the above results. Our study also suggests how important it is to carefully monitor environmental variability caused by random fluctuations in natural factors or by anthropogenic disturbances in order to minimize its effects on throphic interactions and protect the potential function of parasitoids as biological control agents. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Direct Optimization Using Gaussian Quadrature and Continuous Runge-Kutta Methods: Application to an Innovation Diffusion Model

Author

Diele, Fasma, Marangi, Carmela, Ragni, Stefania, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Bubak, Marian, editor, van Albada, Geert Dick, editor, Sloot, Peter M. A., editor, and Dongarra, Jack, editor

Published
2004
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23. On Computing the Spectral Decomposition of Symmetric Arrowhead Matrices

Author

Diele, Fasma, Mastronardi, Nicola, Van Barel, Marc, Van Camp, Ellen, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Laganá, Antonio, editor, Gavrilova, Marina L., editor, Kumar, Vipin, editor, Mun, Youngsong, editor, Tan, C. J. Kenneth, editor, and Gervasi, Osvaldo, editor

Published
2004
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24. Numerical Methods Based on Gaussian Quadrature and Continuous Runge-Kutta Integration for Optimal Control Problems

Author

Diele, Fasma, Marangi, Carmela, Ragni, Stefania, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Laganá, Antonio, editor, Gavrilova, Marina L., editor, Kumar, Vipin, editor, Mun, Youngsong, editor, Tan, C. J. Kenneth, editor, and Gervasi, Osvaldo, editor

Published
2004
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26. A Novel Fractional-Order RothC Model.

Author

Bohaienko, Vsevolod, Diele, Fasma, Marangi, Carmela, Tamborrino, Cristiano, Aleksandrowicz, Sebastian, and Woźniak, Edyta

Subjects
*DISCRETIZATION methods, *CARBON in soils, *SOIL dynamics
Abstract

A new fractional q-order variation of the RothC model for the dynamics of soil organic carbon is introduced. A computational method based on the discretization of the analytic solution along with the finite-difference technique are suggested and the stability results for the latter are given. The accuracy of the scheme, in terms of the temporal step size h, is confirmed through numerical testing of a constructed analytic solution. The effectiveness of the proposed discrete method is compared with that of the classical discrete RothC model. Results from real-world experiments show that, by adjusting the fractional order q and the multiplier term ζ (t , q) , a better match between simulated and actual data can be achieved compared to the traditional integer-order model. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Stability and errors estimates of a second-order IMSP scheme.

Author

Diele, Fasma, Martiradonna, Angela, and Trenchea, Catalin

Subjects
PREDATION, POPULATION dynamics, COMPUTER simulation, OPTIMISM, HOPFIELD networks
Abstract

We analyze a second-order accurate implicit-symplectic (IMSP) scheme for reaction-diffusion systems modeling spatiotemporal dynamics of predator-prey populations. We prove stability and errors estimates of the semi-discrete-in-time approximations, under positivity assumptions. The numerical simulations confirm the theoretically derived rates of convergence and show an improved accuracy in the second-order IMSP in comparison with the first-order IMSP, at same computational cost. [ABSTRACT FROM AUTHOR]

Published
2022
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46. POSITIVE SYMPLECTIC INTEGRATORS FOR PREDATOR-PREY DYNAMICS.

Author

Diele, Fasma and Marangi, Carmela

Subjects
INTEGRATORS, SYMPLECTIC geometry, HAMILTONIAN systems, PREDATION, NUMERICAL analysis
Abstract

We propose novel positive numerical integrators for approximating predator-prey models. The schemes are based on suitable symplectic procedures applied to the dynamical system written in terms of the log transformation of the original variables. Even if this approach is not new when dealing with Hamiltonian systems, it is of particular interest in population dynamics since the positivity of the approximation is ensured without any restriction on the temporal step size. When applied to separable M-systems, the resulting schemes are proved to be explicit, positive, Poisson maps. The approach is generalized to predator-prey dynamics which do not exhibit an M-system structure and successively to reaction-diffusion equations describing spatially extended dynamics. A classical polynomial Krylov approximation for the diffusive term joint with the proposed schemes for the reaction, allows us to propose numerical schemes which are explicit when applied to well established ecological models for predator-prey dynamics. Numerical simulations show that the considered approach provides results which outperform the numerical approximations found in recent literature. [ABSTRACT FROM AUTHOR]

Published
2018
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50. The radius of bioremediation of wells in the optimal subsurface flows management

Author

Diele Fasma, Notarnicola Filippo, and Sgura Ivonne

Subjects
bioventing, mathematical modeling, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, fluid dynamics in porous media, wells injection
Abstract

In bioventing the radius of effectiveness of a single injection well play a very important rule. The mathematical model exposed uses the radius of bioremediantion to set-up an optimal strategy for the spatial collocation of the injection wells in the polluted site.

Published
1999

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