2023Activity reportProject-TeamMACBES

7.1.1 EASIDRUG

• Name:
  EArly Single-cell Isolation with a Drug Response Up-Graded forecaster for live-cell microscopy assays
• Keywords:
  Machine learning, Live-cell microscopy, FRET (Foster resonance energy transfert), Forecasting, Pharmacology, Cancer, Time-trajectories classification
• Scientific Description:
  This software will be used by the experimental team to select cancer cells during live-cell microscopy expriments.
• Functional Description:
  This software follows 4 steps: 1 - Download FRET trajectories of Hela clonal cancer cells treated with TRAIL from the article database: Roux, Jérémie, et al. "Fractional killing arises from cell-to-cell variability in overcoming a caspase activity threshold." Molecular systems biology 11.5 (2015): 803 and identification of the TRAIL treatment response phenotype. 2 - Extraction of more than 900 mechanical and statistical features of the FRET signal for each cell. 3 - Selection of a group of N characteristics to identify the future response (tolerant/sensitive) to TRAIL treatment for a maximum number of cells and creation of a response forecasting algorithm (SVM 1d) taking these fetaures as input. 4 - Cross-validation of the algorithm
• Release Contributions:
  First version, to be improved and transformed into a platform
• Publications:
  hal-03868577, hal-03868542, hal-03868569, hal-03868584, hal-03522480
• Contact:
  Marielle Pere
• Participants:
  Marielle Pere, Jeremie Roux, Asma Chalabi, Madalena Chaves
• Partner:
  Institut de Pharmacologie moléculaire et cellulaire (IPMC)

8.1.1 Cellular response and cell-to-cell variability

8.1.2 Intercellular communication in peripheral clocks

The intercellular interactions between peripheral circadian clocks, located in tissues and organs other than the suprachiasmatic nuclei of the hypothalamus, are still very poorly understood. To investigate this question, we performed a theoretical and computational study of the coupling between two or more clocks, using a reduced model of the mammalian circadian clock previously developed in 1. Based on a piecewise linearization of the dynamics of the mutual CLOCK:BMAL1 / PER:CRY inactivation term, we proposed a segmentation of the circadian cycle into six stages, to help analyze different types of synchronization between two clocks, including single stage duration, total period, and maximal amplitudes. Our model reproduces some recent experimental results on the effects of different regimes of fasting/feeding alternance in liver circadian clocks of mice  52. This method helps to further characterize the synchronization steps between two clocks of distinct (but close) periods. This work was presented by Odile Burckard at the 48th Congress of the Société Francophone de Chronobiologie 28. In addition, through the analytical study of the above piecewise linear model of the clock, we proposed an Algorithm to generate biologically-consistent circadian oscillators. Our study provides a characterization of the cycle dynamics in terms of four fundamental threshold parameters and one scaling parameter, as it recapitulates the main observations from the literature. Moreover, our analysis shows robustness of the circadian system and its period, and identifies critical points for correct cycle progression 46, 38. This work is in collaboration with F. Delaunay (ANR InSync), and is part of Odile Burckard PhD thesis.

8.1.3 Cell economy and control of cell growth

Microbial growth consists of the conversion of nutrients from the environment into biomass and small energy cofactors (ATP, NADH, NADPH, ...) driving biomass synthesis forward. Two macroscopic criteria for characterizing microbial growth are growth rate and growth yield. The former refers to the rate of conversion of substrate into biomass, and the latter to the efficiency of the process, that is, the fraction of substrate taken up by the cells that is converted into biomass.

In the framework of the ANR Maximic project (collab. H. de Jong, MICROCOSME team, and T. Gedeon, Montana State University), we developed a coarse-grained model of coupled energy and mass fluxes in microorganisms, based on minimal assumptions, and used it to explore the variability of rate-yield phenotypes obtained by change in proteome allocation strategy 11. The model predictions were verified by means of a database of hundreds of published rate-yield and uptake-secretion phenotypes of Escherichia coli strains grown in standard laboratory conditions. We found a very good quantitative agreement between the range of predicted and observed growth rates, growth yields, and glucose uptake and acetate secretion rates. These results support the hypothesis that resource allocation is a major explanatory factor of the observed variability of growth rates and growth yields across different bacterial strains. One of the main outcomes of our model, supported by the experimental data, is that high growth rates are not necessarily accompanied by low growth yields. The resource allocation strategies enabling high-rate, high-yield growth of E. coli lead to a higher saturation of enzymes and ribosomes, and thus to a more efficient utilization of proteomic resources.

The model is currently used to investigate the set of adaptation strategies that microbial cells can use to increase their growth rate or their growth yield in a given environment. Preliminary results suggest that multiple allocation choices are possible, depending on the initial allocation state of the cell and its biomass composition.

8.2.1 Dynamics in networks of cellular oscillators

8.2.2 Optimization and optimal control in the cell

8.3.1 Ecophysiological modeling of plant-microbiota interactions

Root-knot nematodes (RKN) are microscopic root parasites that cause considerable yield losses in numerous crops worldwide. We are particularly interested in understanding the mechanisms that underlie plant tolerance, that is the ability of certains plants to sustain RKN infestation with limited damages. To address this, we built an ecophysiological model of plant growth, including both the vegetative and the reproductive phases, coupled with a model of nematode population dynamics. Briefly, the plant is divided into shoots, which provide carbon, and roots, which provide water for plant growth. During the reproductive phase, fruit onset marks the addition of a new carbon sink for the plant. Nematodes are explicitly considered as feeding on plant resources, so that any change in the plant physiological status or plant composition will in turn affect pest growth and multiplication, and vice versa. The apparition of fruits, in particular, can substantially modify the ressource allocation pattern of the plant, with important consequences on plant susceptibility to pest attack. The model was calibrated for two plant species using experimental data collected in the framework of INRAE ArchiNem project (2020-2021). A dedicated calibration pipeline was developed in order to combine heterogeneous data at different time-scales. Eventually, the model will be used to explore the dynamical behaviour of the system and to gain insight into the relative role of plant development and phenotypic traits (including physiological and architectural features), pest development and environmental factors in the progression of the infection.

This work is part of the PhD thesis of Joseph Penlap Tamagoua (Inria-INRAE funding 2022-2025) and was presented at several international conferences 49, 33, 34. Two publications are currently in preparation, focusing respectively on the experimental results and on model development and calibration.

8.3.2 Epidemiological modeling of plant-enemy interactions

8.4.1 Design and control of synthetic microbial ecosystems

In the framework of ANR project Ctrl-AB, we considered a synthetic algal-bacterial consortium. The co-culture of E. coli with Chlorella could lead to higher biomass and lipid productivity. We developed a model, studied its dynamical behaviour and built observers to try to optimize some output 26. Moreover, we studied the effects of control on the system (PhD thesis of Rand Aswad, Grenoble, in collaboration with E. Cinquemani (Microcosme )).

In the framework of IPL Cosy (led by E. Cinquemani), we studied the coexistence of two strains of bacteria E. Coli in a bioreactor. The strains had been modified synthetically. The aim was to obtain a better productivity in the consortium than in a single strain, by control methods 57. We obtained optimization results for the optimal production or yield 18.

8.4.2 Design of biological control strategies

8.4.3 Sustainable management of plant resistance

We studied other plant protection methods dedicated to fight plant pathogens. One such method is the introduction of plant cultivars that are resistant to one pathogen. This often leads to the appearance of virulent pathogen strains that are capable of infecting the resistant plants.

We built a generic spatio-temporal epidemiological model representing (fungal) disease spread on annual field crops in a multi-pathogen context. This work benefits from data collected in INRAE projects COCODIV and DYNAMO on wheat diseases. It will pe pursued in the ENDURANCE and PAPEETE projects (section 10.4).

An epidemiological model of gene-for-gene interaction has been designed, considering increased defense to pathogen infections following previous exposure to a pathogen or an elicitor, namely priming. Priming provides a sort of immunity to virulent pathogens for resistant plants having undergone an infection attempt by an avirulent pathogen. We developed an epidemiological model to explore how mixing two distinct resistant varieties can reduce disease prevalence. We considered a pathogen population composed of three genotypes infecting either one or both varieties. We found that host mixtures should not contain an equal proportion of resistant plants, but a biased ratio to minimize disease prevalence, and that it should contain a lower proportion of the costliest resistance for the pathogen to break 14. This was done in collaboration with Frédéric Hamelin (Institut Agro) in the framework of Pauline Clin's thesis.

We also participated in an opinion paper advocating that the theoretical framework of population genetics could bridge the gap existing between evolution/epidemiology approaches and molecular approaches to the durability of resistance problem 20. The ENDURANCE ANR project is built upon the findings presented in this paper (section 10.4).

10.1.1 Associate Teams in the framework of an Inria International Lab or in the framework of an Inria International Program

10.2.1 Visits of international scientists

10.2.2 Visits to international teams

10.3.1 Horizon Europe

• NEM-EMERGE: "An integrated set of novel approaches to counter the emergence and proliferation of invasive and virulent soil-borne nematodes" (2023-2027). This project aims at providing sustainable, science-based solutions for both conventional and organic farming sectors based on the principles of IPM (integrated pest management), including optimized crop rotations schemes, tailored host plant resistances, and optimal use of the native antagonistic potential of soils. Moreover, monitoring and risk assessment tools will be generated to support plant health authorities in decision and policy making.

10.4.1 Inria funding

• Inria Startup Studio: The CellEmax startup project is supported by the Inria Startup Studio for 12 months (2023-2024), granted to Marielle Péré (see Section 9). The Start-up Studio is helping with the entrepreneurial development of the project.

10.4.2 INRAE funding

• COCODIV: “Crop disease co-occurrence in cereal systems: determinants, role and management of cultivated and wild diversity from plot scale to landscape level integration”, INRAE SuMCrop Metaprogramme (2022–2023), in which MACBES is a partner with INRAE Sophia Antipolis.
• DYNAMO: “Drivers of the epidemic dynamics of wheat rusts at the landscape scale of the Zone Atelier Plaine & Val de Sèvre”, INRAE SPE Division (2022-2024), in which MACBES is a partner with INRAE Sophia Antipolis.

11.1.1 Scientific events: organisation

11.1.2 Journal

11.1.3 Invited talks

• Jean-Luc Gouzé and Madalena Chaves gave talks at the "Computing combinatorial dynamics in high dimensional biological networks", October 2023, Lorenz Center, Leiden, Netherlands.
• Madalena Chaves gave a talk at a Focus session on Network Biology at the Network Science Conference, July 2023, Vienna, Austria 23. She also gave talks at the Canceropole PACA Webinar (30 May 2023) and at the Journées Nationales de l'Informatique Mathématique, Paris (April 2023).
• Ludovic Mailleret gave a talk at the conference "Le MOnde des Mathématiques Industrielles", MOMI2023, Sophia Antipolis, April 2023.

11.1.4 Scientific expertise

• Suzanne Touzeau participated in selection panels for INRAE junior research scientists.
• Madalena Chaves , Frédéric Grognard , and Ludovic Mailleret are members of the INRAE Commission Scientifique Spécialisée (CSS) for Mathématique, Informatique, Sciences et Technologies du numérique, Intelligence artificielle et Robotique (MISTI).

11.1.5 Research administration

• Madalena Chaves is member of the local Inria committee for doctoral studies (CSD) and head of the committee NICE for welcoming external researchers (post-docs, “delegations”). She is also a representative of Inria at the Canceropole PCA. She is the coordinator of the UE Biologie Systémique 1 of the new Master option on Bioinformatics and Computational Biology of the EUR Sciences du Vivant et de la Santé. Madalena Chaves is a member of the scientific committee of Labex Signalife (since 2020).
• Frédéric Grognard is a member of the steering committee of Academy 3, Space, Environment, Risk and Resilience of UCA-JEDI. He is co-head of the MSc Risk of UCA-JEDI and is a member of the Scientific Committee of the Agroecosysems department of INRAE.
• Ludovic Mailleret is the head of the M2P2 team (Models and Methods for Plant Protection) of ISA. He is in the Unit and scientific council of Institut Sophia Agrobiotech, and in the council of the INRAE PACA centre.
• Ludovic Mailleret is an elected member (since 2020) of the Scientific and Pedagogic Council (CoSP) of the EUR LIFE (Graduate school in Life and Health Sciences ) of Université Côte d'Azur.
• Suzanne Touzeau is a member of the steering committee of the INRAE Metaprogramme SuMCrop“Sustainable Management of Crop Health” (since 2016).
• Valentina Baldazzi and Suzanne Touzeau are elected members of the Institut Sophia Agrobiotech council.
• Jean-Luc Gouzé is in the Inria committee supervising the doctoral theses (until June), a member of the steering committee of Labex SIGNALIFE of Université Côte d’Azur, and of the scientific committee of Académie 4 (Life Sciences) of UCA. He is a member of the board of the SFBT (French Speaking Society for Theoretical Biology).

11.2.1 Supervision

• HDR: Frédéric Grognard . "Modelling and control of managed ecosystems, from bioreactors to agroecosystems", Université Côte d’Azur, defended February 20th.
• PhD: Marielle Péré . “Modeling cancer drug response dynamics in single-cells to predict the emergence of drug-tolerant cells", Université Côte d’Azur, defended March 27th. Supervisors: Madalena Chaves and Jérémie Roux .
• PhD: Clotilde Djuikem . “Modelling and control of perennial plant phytopathogens”, Université Côte d'Azur, defended January 5th. Supervisors: Frédéric Grognard , Suzanne Touzeau and Samuel Bowong (Univ. Douala, Cameroon).
• PhD: Melina Cointe. “Mieux prédire la propagation spatiale de groupes de trichogrammes pour améliorer le biocontrôle : de l'écologie du mouvement à la dispersion dans les cultures”, Université Côte d'Azur, defended Octobre 13th. Supervisors: Vincent Calcagno , Ludovic Mailleret .
• PhD in progress: Aurelien Kambeu Youmbi . "Self-Financing Model for Cabbage Crops with Pest Management", University of Dschang,Cameroon, since 2020. Supervisors: Berge Tsanou, Suzanne Touzeau and Frédéric Grognard .
• PhD in progress: Odile Burckard . "Coupling, synchronization, and control of cellular oscillators through mathematical modeling and analysis", Université Côte d'Azur, since 2021. Supervisor: Madalena Chaves .
• PhD in progress: Marine Courtois. "Modélisation de la technique de l'insecte stérile dans un contexte agricole : comment intégrer les réalités biologiques et techniques pour optimiser son déploiement ?", Université Côte d'Azur, since 2022. Supervisors: Ludovic Mailleret , Suzanne Touzeau and Louise Van Oudenhove De Saint Gery .
• PhD in progress: Rand Asswad. “Développement de stratégies de contrôle pour les consortiums microbiens synthétiques”, since 2022, Université Grenoble-Alpes. Supervisors: Jean-Luc Gouzé and Eugenio Cinquemani (Microcosme, Inria Grenoble).
• PhD in progress: Joseph Junior Penlap Tamagoua . "Ecophysiological modeling of plant-nematode interactions: Understanding the origins and consequences of differential plant susceptibility", Université Côte d'Azur, since 2022. Supervisors: Valentina Baldazzi , Frédéric Grognard and Suzanne Touzeau .
• PhD in progress: Frank Kemayou Mangwa . "Mathematical modeling and analysis of the impact of Radopholus similis on the banana-plantain production", University of Douala, Cameroon, since 2022. Supervisors: Samuel Bowong, Suzanne Touzeau and Frédéric Grognard .
• PhD in progress: Benjamin Böbel . "Mathematical models for robustness and control of intercellular coupling and synchronization between peripheral circadian clocks", Université Côte d'Azur, since April 2023. Supervisors: Madalena Chaves and Jean-Luc Gouzé .
• PhD in progress: Pauline Mazel . "Modeling, analysis and control of cancer cell population dynamics", Université Côte d'Azur, since 2023. Supervisors: Walid Djema and Frédéric Grognard .
• PhD in progress: Javier Innerarity Imizcoz "Allocation optimale de ressources pour des modèles mathématiques de micro-organismes dans des conditions environnementales dynamiques", since October 2023, Université Côte d'Azur, Supervisors: Jean-Luc Gouzé , Walid Djema (team Biocore) and Francis Mairet (Ifremer Nantes).

11.2.2 Master theses and internships

• L2: Jules Baldous. "Inflation écologique, interactions proies-prédateurs et modélisation des augmentoriums." Supervisor: Ludovic Mailleret .
• M2: Taha Belkhayate. "Modélisation de la technique de l’insecte stérile avec sexage imparfait", Université de Pau et des Pays de l'Adour. Supervisors: Marine Courtois, Louise Van Oudenhove De Saint Gery and Ludovic Mailleret .
• M2: Javier Innerarity Imizcoz "Optimisation de la croissance microbienne sous conditions périodiques", Sorbonne Université. Supervisors: Jean-Luc Gouzé and Walid Djema (Biocore team).
• M1: Dylan Cormet. "Développement d’un package Julia pour l’épidémiologie saisonnière des maladies des plantes", Polytech Nice. Supervisors: Ludovic Mailleret and Frédéric Grognard

11.2.3 Juries

• Jean-Luc Gouzé was a member of the jury for the PhD thesis of Clotilde Djuikem (UniCA), for the HDR of Frédéric Grognard (UniCA), and was a rapporteur for the HDR of D. Bichara (Univ. Bordeaux). Jean-Luc Gouzé was in the PhD committee of P. Jacquet (Univ. Grenoble) and A. Pavlou (Univ. Grenoble).
• Madalena Chaves was a rapporteur for the PhD thesis of Ana Bulovic (Institut für Biologie, Humboldt-Universität zu Berlin, April 17th 2023) and for the PhD thesis of Gian-Karlo Aguirre-Samboní (Université Paris-Saclay, December 14th 2023). She was a member of the jury for the PhD thesis of Maaike Sansgter (Université Grenoble Alpes, May 11th 2023). Madalena Chaves is in the Comité de Suivi Doctoral of: Romain Michelucci (UniCA), Adel Anabi (UniCA), Joseph Penlap (UniCA), and Clémence Métayer (Institut Curie).
• Suzanne Touzeau was a member of the PhD examination committee of Andrea Radici (Avignon Université, December 11th 2023).

11.3.1 Internal or external Inria responsibilities

• Madalena Chaves is in the local committee for selection of speakers for the monthly Inria Colloquium Morgenstern.

11.3.2 Education

• Madalena Chaves was selected to be part of a group of 101 Portuguese Women in Science, highlighted to showcase several branches of science and research, and motivate young generations to follow a scientific education. Photos of each scientist with a short phrase are on exhibition at the Pavilhão do Conhecimento - Ciência Viva museum in Lisbon and in a booklet.

International journals

• 9 articleF.Flora Aubree, B.Baptiste Lac, L.Ludovic Mailleret and V.Vincent Calcagno. Migration pulsedness alters patterns of allele fixation and local adaptation in a mainland-island model.Evolution - International Journal of Organic Evolution773March 2023, 718-730HALDOIback to text
• 10 articleN.Nicolas Augier, M.Madalena Chaves and J.-L.Jean-Luc Gouzé. Weak synchronization and convergence in coupled genetic regulatory networks: Applications to damped oscillators and multistable circuits.International Journal of Robust and Nonlinear Control339June 2023, 4867-4892HALDOIback to text
• 11 articleV.Valentina Baldazzi, D.Delphine Ropers, J.-L.Jean-Luc Gouzé, T.Tomas Gedeon and H.Hidde de Jong. Resource allocation accounts for the large variability of rate-yield phenotypes across bacterial strains.eLife12May 2023, 1-29HALDOIback to text
• 12 articleP.Pierre Bernhard, M.Marc Deschamps and G.Georges Zaccour. Large satellite constellations and space debris: exploratory analysis of strategic management of the space commons.European Journal of Operational Research3043February 2023, 1140-1157HALDOI
• 13 articleV.Victor Burte, M.Melina Cointe, G.Guy Perez, L.Ludovic Mailleret and V.Vincent Calcagno. When complex movement yields simple dispersal: behavioural heterogeneity, spatial spread and parasitism in groups of micro-wasps.Movement Ecology111December 2023, 13HALDOIback to text
• 14 articleP.Pauline Clin, F.Frédéric Grognard, D.Didier Andrivon, L.Ludovic Mailleret and F. M.Frédéric M. Hamelin. The proportion of resistant hosts in mixtures should be biased towards the resistance with the lowest breaking cost.PLoS Computational Biology195May 2023, e1011146HALDOIback to text
• 15 articleM.Melina Cointe, V.V. Burte, G.G. Perez, L.Ludovic Mailleret and V.Vincent Calcagno. A double-spiral maze and hi-resolution tracking pipeline to study dispersal by groups of minute insects.Scientific Reports131December 2023, 5200HALDOIback to text
• 16 articleC.Clotilde Djuikem, F.Frédéric Grognard and S.Suzanne Touzeau. Impulsive modelling of rust dynamics and predator releases for biocontrol.Mathematical Biosciences356January 2023, 108968HALDOIback to textback to textback to text
• 17 articleY.Yves Fotso Fotso, S.Suzanne Touzeau, F.Frédéric Grognard, B.Berge Tsanou and S.Samuel Bowong. Optimal Control of Coffee Berry Borers: Synergy Between Bio-insecticide and Traps.Journal of Optimization Theory and Applications19632023, 882-899HALDOIback to textback to text
• 18 articleC.Carlos Martinez, E.Eugenio Cinquemani, H.Hidde de Jong and J.-L.Jean-Luc Gouzé. Optimal protein production by a synthetic microbial consortium: Coexistence, distribution of labor, and syntrophy.Journal of Mathematical Biology872023, 1-37HALDOIback to text
• 19 articleT.Thibaut Morel-Journel, M.Marjorie Haond, L.Lana Dunan, L.Ludovic Mailleret and E.Elodie Vercken. Colonisation debt: when invasion history impacts current range expansion.Peer Community Journal3June 2023, e59HALDOIback to text
• 20 articleM.Méline Saubin, C.Clémentine Louet, L.Lydia Bousset, F.Frédéric Fabre, P.Pascal Frey, I.Isabelle Fudal, F.Frédéric Grognard, F. M.Frédéric M. Hamelin, L.Ludovic Mailleret, S.Solenn Stoeckel, S.Suzanne Touzeau, B.Benjamin Petre and F.Fabien Halkett. Improving sustainable crop protection using population genetics concepts.Molecular Ecology3210May 2023, 2461-2471HALDOIback to text
• 21 articleA. G.Agustín Gabriel Yabo, M.Mohab Safey El Din, J.-B.Jean-Baptiste Caillau and J.-L.Jean-Luc Gouzé. Stability analysis of a bacterial growth model through computer algebra.MathematicS In Action121September 2023, 175-189HALDOIback to text

Invited conferences

• 22 inproceedingsV.Valentina Baldazzi, D.Delphine Ropers, J.-L.Jean-Luc Gouzé, T.Tomas Gedeon and H.Hidde de Jong. Resource allocation strategies behind rate-yield phenotypes in E.coli.2023 - Workshop on Advanced School on Quantitative Principles in Microbial Physiology: from Single Cells to Cell CommunitiesTrieste, ItalyJuly 2023, 1HAL
• 23 inproceedingsM.Madalena Chaves. Cycle dynamics and synchronization analysis for biological oscillators.International School and Conference on Network ScienceVienna, AustriaJuly 2023HALback to text
• 24 inproceedingsL.Ludovic Mailleret. Hands on Pluto : dynamical systems with reactive Julia notebooks.Julia daySophia Antipolis, FranceJanuary 2023HAL
• 25 inproceedingsL.Ludovic Mailleret. Pulsed perturbations in population dynamics.MOMI2023 - Le MOnde des Mathématiques IndustriellesSophia Antipolis (06), FranceApril 2023HAL

International peer-reviewed conferences

• 26 inproceedingsJ. C.Juan Carlos Arceo, O.Olivier Bernard and J.-L.Jean-Luc Gouzé. Observer Design via Non-Monotone Lyapunov Functions for Monitoring Heterotrophic Microalgae.IfacOnLine22nd IFAC World CongressYokohama, Japan2023HALback to text
• 27 inproceedingsC.Cécile Bresch, L.Louise van Oudenhove, J.Julie Nardini, L.Lucas Browet, L.Lydia Ottenwaelder and L.Ludovic Mailleret. Ringed micro-habitats as supplementations for predatory mites.IOBC-WPRS WGs 2023 - Integrated control in protected crops, temperate and mediterranean climateBrest, FranceAugust 2023HAL
• 28 inproceedingsO.Odile Burckard, M.Madalena Chaves, F.Franck Delaunay and M.Michèle Teboul. Couplage et synchronisation d’horloges circadiennes périphériques.Médecine du Sommeil48ème congrès de la Société Francophone de Chronobiologie204Paris, FranceDecember 2023, 249HALDOIback to text

Conferences without proceedings

• 29 inproceedings M.Marine Courtois, K.Kévan Rastello, F.Frédéric Grognard, L.Ludovic Mailleret, S.Suzanne Touzeau and L.Louise van Oudenhove. How does residual fertility impact the effectiveness of the sterile insect technique in controlling Ceratitis capitata? MPDEE 2023 - Mathematical Population Dynamics, Ecology and Evolution Marseille, France April 2023 HAL back to text
• 30 inproceedingsC.Clotilde Djuikem, F.Frédéric Grognard and S.Suzanne Touzeau. Impulsive modelling of rust dynamics and predator releases.CMPD6 - Computational and Mathematical Population DynamicsWinnipeg, CanadaMay 2023HALback to text
• 31 inproceedingsA.Aurelien Kambeu Youmbi, S.Suzanne Touzeau, F.Frédéric Grognard and B.Berge Tsanou. Self-financing model for cabbage crops.MPDEE 2023 - Conference on Mathematical Population Dynamics, Ecology and EvolutionMarseille, FranceApril 2023HALback to text
• 32 inproceedingsC.Crésus Kounoudji, S.Suzanne Touzeau, F.Frédéric Grognard, L.Louise van Oudenhove and L.Ludovic Mailleret. A sex- and stage-structured population dynamics model for pest control using the sterile insect technique.MPDEE 2023 - Mathematical Population Dynamics, Ecology and EvolutionMarseille, FranceApril 2023HALback to text
• 33 inproceedingsJ. J.Joseph Junior Penlap Tamagoua, S.Suzanne Touzeau, F.Frédéric Grognard and V.Valentina Baldazzi. Modelling plant - nematode interactions to understand plant tolerance.MPDEE 2023 - Conference on Mathematical Population Dynamics, Ecology and EvolutionMarseille, FranceApril 2023HALback to text
• 34 inproceedingsJ. J.Joseph Junior Penlap Tamagoua, S.Suzanne Touzeau, F.Frédéric Grognard and V.Valentina Baldazzi. Modelling plant-nematodes interactions to understand plant tolerance.IMACS 2023 - 21st World Congress of the International Association for Mathematics and Computers in SimulationRome, ItalySeptember 2023HALback to text

Doctoral dissertations and habilitation theses

• 35 thesisC.Clotilde Djuikem. Mathematical modelling and control of perennial plant phytopathogens.Université Côte d'AzurJanuary 2023HALback to textback to textback to text
• 36 thesisF.Frédéric Grognard. Modelling and control of managed ecosystems, from bioreactors to agroecosystems.Université Côte D'AzurFebruary 2023HALback to text
• 37 thesisM.Marielle Péré. Modeling cancer drug response dynamics in single-cells to predict the emergence of drug-tolerant cells.Université Côte d'AzurMarch 2023HALback to text

Reports & preprints

• 38 miscO.Odile Burckard and M.Madalena Chaves. Analytic solutions for the circadian oscillator characterize cycle dynamics and its robustness.December 2023HALDOIback to text
• 39 miscM.Melina Cointe, V.Victor Burte, G.Guy Perez, L.Ludovic Mailleret and V.Vincent Calcagno. A double-spiral maze and hi-resolution tracking pipeline to study dispersal by groups of minute insects.2023HALDOI
• 40 miscJ.Jacky Cresson, M.Marielle Péré and A.Anna Szafranska. Numerical approach to the identification of fractional differential equations and applications in epidemics.April 2023HAL
• 41 miscM.Marc Deschamps and P.Pierre Bernhard. Cournot oligopoly: a discrete time sticky-prices paradox.January 2024HAL
• 42 miscY.Yves Fotso Fotso, S.Suzanne Touzeau, B.Berge Tsanou, F.Frédéric Grognard and S.Samuel Bowong. Optimal impulsive control of coffee berry borers in a berry age-structured epidemiological model.2023HALback to textback to textback to text
• 43 miscH.Hussein Kanso, M.-M.Mohamed-Mahmoud Memah, V.Valentina Baldazzi, B.Bénédicte Quilot-Turion and C.Charlotte Baey. Assessing Inter-Individual Genetic Variability in Peach Sugar Metabolism through Reliable Parameter Estimation of a Kinetic Model.August 2023HALDOI
• 44 miscT.Thibaut Morel-Journel, M.Marjorie Haond, L.Lana Dunan, L.Ludovic Mailleret and E.Elodie Vercken. Colonisation debt: when invasion history impacts current range expansion.November 2022HALDOI
• 45 miscA. G.Agustín Gabriel Yabo, J.-B.Jean-Baptiste Caillau and J.-L.Jean-Luc Gouzé. Optimal bacterial resource allocation strategies in batch processing.September 2023HAL

Other scientific publications

• 46 inproceedingsO.Odile Burckard and M.Madalena Chaves. Benchmark for quantitative characterization of circadian clock models.21st International Conference on Computational Methods in Systems BiologyLNCS.LNBI-14137Computational Methods in Systems Biology 21st International Conference, CMSB 2023, Luxembourg City, Luxembourg, September 13–15, 2023, ProceedingsLuxembourg City, LuxembourgSeptember 2023HALback to text
• 47 inproceedingsM.Marine Courtois, K.Kévan Rastello, F.Frédéric Grognard, L.Ludovic Mailleret, S.Suzanne Touzeau and L.Louise van Oudenhove. Sterile Insect Technique for crop protection: accounting for residual fertility.Le MOnde des Mathématiques Industrielles, MOMI2023Sophia Antipolis, FranceApril 2023HALback to text
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