Mathematical Analysis of Vector-Borne Diseases on Plants

被引:0
|
作者
Anguelov, Roumen [1 ]
Lubuma, Jean [1 ]
Dumont, Yves [2 ]
机构
[1] Univ Pretoria, Dept Math & Appl Math, Pretoria, South Africa
[2] CIRAD, Umr AMAP, Montpellier, France
来源
2012 IEEE FOURTH INTERNATIONAL SYMPOSIUM ON PLANT GROWTH MODELING, SIMULATION, VISUALIZATION AND APPLICATIONS (PMA) | 2012年
关键词
plant epidemiology; thresholds; endemic and epidemic models; mathematical analysis; ARTHROPOD TRANSMISSION; EPIDEMIOLOGIC MODELS; COMPUTATION; VIRUSES;
D O I
暂无
中图分类号
S [农业科学];
学科分类号
09 ;
摘要
Many models of vector borne infectious diseases have been constructed and analyzed mathematically. The host populations in such models are typically animals. This work deals with the specific case of a plant host population taking into consideration the particular properties of plants. The main epidemiological issues of transmission, persistency, thresholds, interventions, etc., are all considered in this setting and discussed on a representative set of two models - one epidemic and one endemic. The main properties of the models are formulated as theorems and illustrated via computer simulations. In particular, we provide some threshold parameters that summarize the dynamics of the system and help to choose appropriate and efficient control tools or strategies for crop protection. The full proofs of the theorems are omitted but their main ideas are discussed in some detail.
引用
收藏
页码:22 / 29
页数:8
相关论文
共 50 条
  • [1] Vector-Borne Diseases
    Schmolz, G.
    Oehme, R.
    Kimmig, P.
    GESUNDHEITSWESEN, 2015, 77 (10) : 775 - 789
  • [2] Vector-borne diseases
    Gubler, D. J.
    REVUE SCIENTIFIQUE ET TECHNIQUE-OFFICE INTERNATIONAL DES EPIZOOTIES, 2009, 28 (02): : 583 - 588
  • [3] Vector-borne diseases
    More, Simon
    Bicout, Dominique
    Botner, Anette
    Butterworth, Andrew
    Calistri, Paolo
    De Koeijer, Aline
    Depner, Klaus
    Edwards, Sandra
    Garin-Bastuji, Bruno
    Good, Margaret
    Schmidt, Christian Gortazar
    Michel, Virginie
    Miranda, Miguel Angel
    Nielsen, Soren Saxmose
    Raj, Mohan
    Sihvonen, Liisa
    Spoolder, Hans
    Thulke, Hans-Hermann
    Velarde, Antonio
    Willeberg, Preben
    Winckler, Christoph
    Bau, Andrea
    Beltran-Beck, Beatriz
    Carnesecchi, Edoardo
    Casier, Pascal
    Czwienczek, Ewelina
    Dhollander, Sofie
    Georgiadis, Marios
    Gogin, Andrey
    Pasinato, Luca
    Richardson, Jane
    Riolo, Francesca
    Rossi, Gianluca
    Watts, Matthew
    Lima, Eliana
    Stegeman, Jan Arend
    EFSA JOURNAL, 2017, 15 (05)
  • [4] Mathematical modelling of vector-borne diseases and insecticide resistance evolution
    Gabriel Kuniyoshi, Maria Laura
    Pio dos Santos, Fernando Luiz
    JOURNAL OF VENOMOUS ANIMALS AND TOXINS INCLUDING TROPICAL DISEASES, 2017, 23
  • [5] Vector-borne diseases in pregnancy
    O'Kelly, Brendan
    Lambert, John S.
    THERAPEUTIC ADVANCES IN INFECTIOUS DISEASE, 2020, 7
  • [6] Vector-borne diseases and their control
    Jutta Klasen
    Birgit Habedank
    Parasitology Research, 2008, 103 : 1 - 2
  • [7] Bedbugs and Vector-Borne Diseases
    Zorrilla-Vaca, Andres
    CLINICAL INFECTIOUS DISEASES, 2014, 59 (09) : 1351 - 1352
  • [8] Vector-Borne Diseases Potpourri
    Hahn, Catherine
    Bhavsar, Sejal Makvana
    PEDIATRICS IN REVIEW, 2024, 45 (10) : 547 - 559
  • [9] Vector-Borne Viral Diseases
    Wang, Penghua
    Bai, Fengwei
    Cheng, Gong
    Dai, Jianfeng
    Conway, Michael J.
    BIOMED RESEARCH INTERNATIONAL, 2015, 2015
  • [10] Emerging Vector-Borne Diseases
    Huntington, Mark K.
    Allison, Jay
    Nair, Dilip
    AMERICAN FAMILY PHYSICIAN, 2016, 94 (07) : 551 - 557
12345