Ecoepidemiology: a More Comprehensive View of Population Interactions

E. Venturino

doi:10.1051/mmnp/201611104

Geodesic

Parcourir par

Ecoepidemiology: a More Comprehensive View of Population Interactions

E. Venturino ¹

¹ Dipartimento di Matematica “Giuseppe Peano” Università di Torino, Italy

Mathematical modelling of natural phenomena, Tome 11 (2016) no. 1, pp. 49-90.

Voir la notice de l'article provenant de la source EDP Sciences

Résumé

Models proposed for the description of population interactions with pathogenic agents are presented. We review some basic quadratic-interactions models, then move to more complex demographics, structured models, models involving several populations, delays, plankton dynamics, the Allee effect and group behavior. In most of these cases basic reproduction numbers are evaluated and commented.

DOI : 10.1051/mmnp/201611104

Affiliations des auteurs :

E. Venturino ¹

¹ Dipartimento di Matematica “Giuseppe Peano” Università di Torino, Italy

@article{MMNP_2016_11_1_a3,
     author = {E. Venturino},
     title = {Ecoepidemiology: a {More} {Comprehensive} {View} of {Population} {Interactions}},
     journal = {Mathematical modelling of natural phenomena},
     pages = {49--90},
     publisher = {mathdoc},
     volume = {11},
     number = {1},
     year = {2016},
     doi = {10.1051/mmnp/201611104},
     language = {en},
     url = {https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/201611104/}
}

TY  - JOUR
AU  - E. Venturino
TI  - Ecoepidemiology: a More Comprehensive View of Population Interactions
JO  - Mathematical modelling of natural phenomena
PY  - 2016
SP  - 49
EP  - 90
VL  - 11
IS  - 1
PB  - mathdoc
UR  - https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/201611104/
DO  - 10.1051/mmnp/201611104
LA  - en
ID  - MMNP_2016_11_1_a3
ER  -

%0 Journal Article
%A E. Venturino
%T Ecoepidemiology: a More Comprehensive View of Population Interactions
%J Mathematical modelling of natural phenomena
%D 2016
%P 49-90
%V 11
%N 1
%I mathdoc
%U https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/201611104/
%R 10.1051/mmnp/201611104
%G en
%F MMNP_2016_11_1_a3

E. Venturino. Ecoepidemiology: a More Comprehensive View of Population Interactions. Mathematical modelling of natural phenomena, Tome 11 (2016) no. 1, pp. 49-90. doi : 10.1051/mmnp/201611104. https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/201611104/

Bibliographie
Cité par

[1] V. Ajraldi, M. Pittavino, E. Venturino Nonlinear Analysis Real World Applications 2011 2319 2338

[2] H. R. Akcakaya Ecol. Monogr. 1992 119 142

[3] W. C. Allee. The Social Life of Animals. New York: Norton and Co. (1938).

[4] R. M. Anderson, R. M. May Philos. Trans. R. Soc. London B 1986 533 570

[5] O. Arino, M. Delgado, M. Molina-Becerra Discrete and Continuous Dynamical Systems Series B 2004 501 515

[6] R. A. Armstrong, R. Mcgehee The American Naturalist 1980 151 170

[7] P. Auger, R. Mchich, T. Chowdhury, G. Sallet, M. Tchuente, J. Chattopadhyay Journal of Theoretical Biology 2009 344 351

[8] N. Bairagi, P.K. Roy, J. Chattopadhyay Journal of Theoretical Biology 2007 10 25

[9] N. Bairagi, S. Chaudhuri, J. Chattopadhyay Mathematical Biosciences 2009 134 144

[10] N. Bairagi, R.R. Sarkar, J. Chattopadhyay Bulletin of Mathematical Biology 2008 2017 2038

[11] M. Banerjee, E. Venturino Ecological Complexity 2011 239 248

[12] A. M. Bate, F. M. Hilker Bull. Math. Biol. 2013 2059 2078

[13] A. M. Bate, F. M. Hilker Journal of Theoretical Biology 2013 1 8

[14] A. M. Bate, F. M. Hilker Theor. Ecol. 2014 87 100

[15] S. Bhattacharyya, D. K. Bhattacharya J. Theor. Biol. 2006 177 196

[16] J. Beddington J.Anim. Ecol. 1975 331 340

[17] E. Beltrami, T.O. Carroll J. Math. Biol. 1994 857 863

[18] S. Belvisi, E. Venturino SIMPAT 2013 144 155

[19] E. Beretta, Y. Kuang Math. Biosci. 1998 57 76

[20] A. Berruti, V. La Morgia, E. Venturino, S. Zappalà. Competition among invasive and native species: the case of European and mountain hares, CMMSE 14, July 3rd-7th, 2014, Costa Ballena, Rota, Cádiz (Spain), (J. Vigo-Aguiar, I.P. Hamilton, J. Medina, P. Schwertfeger, W. Sproessig, M. Demiralp, E. Venturino, V.V. Kozlov, P. Oliveira Editors) v. I, 170–181.

[21] F. Bianco, E. Cagliero, M. Gastelurrutia, E. Venturino Int. J. Comp. Math. 2012 1764 1780

[22] C. Bosica, A. De Rossi, N. L. Fatibene, M. Sciarra, E. Venturino Applied Math. Inf. Sci. 2015 1677 1685

[23] P. A. Braza Nonlinear Analysis: Real World Applications 2012 1837 1843

[24] I. M. Bulai, R. Cavoretto, B. Chialva, D. Duma, E. Venturino Nonlinear Dynamics 2015 1881 1900

[25] S. Busenberg, P. Van Den Driessche J. of Math. Biology 1990 257 270

[26] E. Cagliero, E. Venturino. Ecoepidemics with infected prey in herd defence: the harmless and toxic cases. International Journal of Computer Mathematics, (2015), to appear. DOI: 10.1080/00207160.2014.988614

[27] R. Cavoretto, S. Collino, B. Giardino, E. Venturino Theoretical Ecology 2015 37 52

[28] R. Cavoretto, A. De Rossi, E. Perracchione, E. Venturino, Reliable approximation of separatrix manifolds in competition models with safety niches, to appear in International Journal of Computer Mathematics.

[29] S. Chatterjee, J. Chattopadhyay Mathematical and Computer Modelling of Dynamical Systems: Methods, Tools and Applications in Engineering and Related Sciences 2007 99 114

[30] S. Chatterjee, K. Das, J. Chattopadhyay Nonlinear Analysis: Real World Applications 2007 1472 1493

[31] S. Chatterjee, M. Isaia, E. Venturino Journal of Theoretical Biology 2009 352 362

[32] J. Chattopadhyay, O. Arino Nonlinear Analysis 1999 747 766

[33] J. Chattopadhyay, N. Bairagi Ecological Modelling 2001 103 112

[34] J. Chattopadhyay, S. Chatterjee, E. Venturino Journal of Theoretical Biology 2008 289 295

[35] J. Chattopadhyay, R.R. Sarkar, G. Ghosal Ecological Modelling 2002 113 121

[36] J. Chattopadhayay, R. R. Sarkar, S. Mandal J. Theor. Biol. 2002 333 344

[37] J. Chattopadhyay, R. R. Sarkar, S. Pal BioSystems 2003 5 17

[38] S. Chaudhuri, A. Costamagna, E. Venturino Int. J. Comp. Math. 2012 561 584

[39] S. Chaudhuri, J. Chattopadhyay, E. Venturino J. of Biological Physics 2012 331 348

[40] S. Chaudhuri, A. Costamagna, E. Venturino Mathematical Medicine and Biology 2013 73 93

[41] C. Clark. Mathematical bioeconomics: the optimal management of renewable resources. Wiley, New York, (1976).

[42] C. Cosner, D. L. De Angelis Theoretical Population Biology 1999 65 75

[43] K. P. Das, S. Roy, J. Chattopadhyay BioSystems 2009 188 199

[44] K. P. Das, J. Chattopadhyay Math. Meth. Appl. Sci. 2012 659 675

[45] K. P. Das, K. Kundu, J. Chattopadhyay Ecological Complexity 2011 68 80

[46] D. De Angelis, R. Goldstein, R. O’Neill Ecology 1975 881 892

[47] A. De Rossi, F. Lisa, L. Rubini, A. Zappavigna, E. Venturino Ecological Complexity 2015 233 245

[48] M. Delgado, M. Molina-Becerra, A. Suarez Math. Methods Appl. Sci. 2005 349 362

[49] B. Dennis Nat. Res. Model. 1989 481 538

[50] J. Z. Farkas, A. Y. Morozov Math. Model. Nat. Phenom. 2014 26 46

[51] L. Ferreri, E. Venturino Ecological Complexity 2013 8 20

[52] Q.L. Gao, H.W. Hethcote J. Math. Biol. 1992 717 731

[53] S. A. H. Geritz, M. Gyllenberg J. Math. Biol. 2013 705 717

[54] G. Gimmelli, B. W. Kooi, E. Venturino Ecological Complexity 2015 50 58

[55] E. González-Olivares, R. Ramos-Jiliberto Ecological Modelling 2003 135 146

[56] E. González-Olivares, R. Ramos-Jiliberto Ecological Modelling 2012 158 160

[57] D. Greenhalgh, M. Haque Math. Meth. Appl. Science 2007 911 929

[58] M. E. Gurtin, R. C. Mccamy Archs. Ration. Mech. Analysis 1974 281 300

[59] M. Gyllenberg, J. Hemminki, T. Tammaru Theor. Pop. Biol. 1999 231 242

[60] K.P. Hadeler, H.I. Freedman J. Math. Biol. 1989 609 631

[61] L. Han, Z. Ma, H.W. Hethcote Math. Comp. Modelling 2001 849 858

[62] I. Hanski, M. Gilpin (Editors) Metapopulation biology: ecology, genetics and evolution, Academic Press, London (1997).

[63] I. Hanski, A. Moilanen, T. Pakkala, M. Kuussaari Conservation Biology 1996 578 590

[64] M. Haque, J. Chattopadhyay Nonlinear Studies 2003 373 388

[65] M. Haque, S. Rahman, E. Venturino BioSystems 2013 98 117

[66] M. Haque, S. Sarwardi, S. Preston, E. Venturino Mathematical Biosciences 2011 47 57

[67] M. Haque, J. Zhen, E. Venturino Mathematical Methods in the Applied Sciences 2009 875 898

[68] M. Haque, E. Venturino Theoretical Population Biology 2006 273 288

[69] M. Haque, E. Venturino HERMIS 2006 39 60

[70] M. Haque, E. Venturino Math. Meth. Appl. Sci. 2007 1791 1809

[71] M. Haque, E. Venturino Journal of Biological Systems 2008 445 461

[72] M. Haque, E. Venturino. Mathematical models of diseases spreading in symbiotic communities. in J.D. Harris, P.L. Brown (Editors), Wildlife: Destruction, Conservation and Biodiversity, NOVA Science Publishers, New York, (2009) 135–179.

[73] H. W. Hethcote SIAM Review 2000 599 653

[74] H. W. Hethcote, H. W. Stech, and P. van den Driessche. Periodicity and stability in epidemic models: A survey. In Differential Equations and Applications in Ecology, Epidemics and Population Problems, S. N. Busenberg and K. L. Cooke, eds., Academic Press, New York (1981), 65–82.

[75] H.W. Hethcote, W. Wang, L. Han, Z. Ma Theoretical Population Biology 2004 259 268

[76] F. M. Hilker Journal of Biological Dynamics 2010 86 101

[77] F. M. Hilker, M. Langlais, H. Malchow The American Naturalist 2009 72 88

[78] F. M. Hilker, H. Malchow Mathematical Population Studies 2006 119 134

[79] F. M. Hilker, H. Malchow, M. Langlais, S. V. Petrovskii Ecological Complexity 2006 200 208

[80] F. Hilker, K. Schmitz Journal of Theoretical Biology 2008 299 306

[81] I. S. Hotopp, H. Malchow, E. Venturino Journal of Biological Systems 2010 727 747

[82] Y.H. Hsieh, C.K. Hsiao Mathematical Medicine and Biology 2008 247 266

[83] S. Jana, T. K. Kar Chaos, Solitons & Fractals 2013 42 53

[84] S. Jana, T.K. Kar Nonlinear Dynamics 2013 667 683

[85] A. Kacha, M. H. Hbid, R. Bravo Nonlinear Analysis: Real World Applications 2009 1662 1678

[86] Y. Kang, S. K. Sasmal, A. M. Bhowmick, J. Chattopadhyay Mathematical Biosciences and Engineering 2014 877 918

[87] T. K. Kar, S. Jana Commun. Nonlinear Sci. Numer. Simul. 2013 2868 2884

[88] T. K. Kar, S. Jana BioSystems 2013 37 50

[89] Q.J.A. Khan, E. Balakrishnan, G.C. Wake Bull. Math. Biol. 2004 109 123

[90] Q.J.A. Khan, B.S. Bhatt, R.P. Jaju J. of Nonlinear Mathematical Physics 1998 212 223

[91] B. W. Kooi, G. A. K. Van Voorn, K. P. Das Ecol. Complexity 2011 113 122

[92] M. A. Lewis, P. Kareiva Theor. Popul. Biol. 1993 141 158

[93] J. Liu. Stability and Hopf bifurcation in a prey-predator system with disease in the prey and two delays. Abstract and Applied Analysis, (2014), Article ID 624546, 15 pages. DOI: 10.1155/2014/624546

[94] Z. Ma, S. Wang, Z. Li Ecological Modelling 2011 3453 3454

[95] H. Malchow, H. F. M. Hilker, S. V. Petrovskii, K. Brauer Ecological Complexity 2004 211 223

[96] H. Malchow, F. M. Hilker, R. R. Sarkar, K. Brauer Mathematical and Computer Modelling 2005 1035 1048

[97] H. Malchow, S. Petrovskii, E. Venturino. Spatiotemporal patterns in Ecology and Epidemiology. CRC, Boca Raton, (2008).

[98] J. Mena-Lorca, H. W. Hethcote J. Math. Biology 1992 693 716

[99] A. Molter, M. Rafikov Nonlinear Dynamics 2014 1141 1150

[100] M. Rafikov, J. C. Silveira Ecological Complexity 2014 67 73

[101] A. Morozov Theoretical Ecology 2012 517 532

[102] A.Y. Morozov Journal of Theoretical Biology 2010 45 54

[103] N. M. Oliveira, F. M. Hilker Bulletin of Mathematical Biology 2010 444 468

[104] S. Palomino Bean, A.C.S. Vilcarromero, J.F.R. Fernandes, O. Bonato TEMA Tend. Mat. Apl. Comput. 2006 317 326

[105] E. Renshaw. Modelling biological populations in space and time. Cambridge Univ. Press, Cambridge, UK (1991).

[106] M.G. Roberts, J.A.P. Heesterbeek J. Math. Biol. 2013 1045 1064

[107] T. Romano, M. Banerjee, E. Venturino. A comparison of several plankton models for red tides. in G. Kehayias (Editor) Zooplankton: Species Diversity, Distribution and Seasonal Dynamics, Nova Science Publishers, Hauppauge, NY, 2014, 19-63. ISBN: 978-1-62948-720-5

[108] M.L. Rosenzweig, R.H. Macarthur Am. Nat. 1963 209 223

[109] S. Roy, S. Alam, J. Chattopadhyay Bull. Math. Biol. 2006 2303 2320

[110] S. Roy, J. Chattopadhyay Math. Meth. Appl. Sci. 2005 1257 1267

[111] G.D. Ruxton Theoretical Population Biology 1995 1 17

[112] R.A. Saenz, H.W. Hethcote Mathematical Biosciences and Engineering 2006 219 235

[113] R.R. Sarkar, S. Pal, J. Chattopadhyay BioSystems 2005 11 13

[114] S. Sarwardi, M. Haque, E. Venturino J. Applied Mathematics and Computing 2011 263 280

[115] S. Sarwardi, M. Haque, E. Venturino J. Biol. Phys. 2011 91 106

[116] S. K. Sasmal, J. Chattopadhyay Mathematical Biosciences 2013 260 271

[117] M. Semplice, E. Venturino Math. Model. Nat. Phenom. 2013 64 79

[118] M. Sen, E. Venturino. A model for which toxic and non-toxic phytoplankton are indistinguishable by the zooplantkon. AIP Conf. Proc. 1479, ICNAAM 2012 (2012), T. Simos, G. Psihoylos, Ch. Tsitouras, Z. Anastassi (Editors), 1315–1318. doi: 10.1063/1.4756397

[119] M. Sieber, F. M. Hilker Journal of Animal Ecology 2011 414 421

[120] M. Sieber, F. M. Hilker J. Math. Biol. 2012 341 360

[121] M. Sieber, H. Malchow, F. M. Hilker Ecological Complexity 2014 74 82

[122] I. Siekmann, H. Malchow, E. Venturino Mathematical Biosciences and Engineering 2008 549 565

[123] I. Siekmann, H. Malchow, E. Venturino Ecological Complexity 2010 446 457

[124] B.K. Singh, J. Chattopadhyay, S. Sinha Journal of Theoretical Biology 2004 153 166

[125] D. Stiefs, E. Venturino, U. Feudel Mathematical Biosciences and Engineering 2009 855 871

[126] C. Tannoia, E. Torre, E. Venturino J. Biol. Phys. 2012 705 720

[127] M. Tansky J. Theor. Biol. 1978 263 271

[128] R.K. Upadhyay, N. Bairagi, K. Kundu, J. Chattopadhyay Applied Mathematics and Computation 2008 392 401

[129] E. Venturino Rocky Mountain J. of Mathematics 1994 381 402

[130] E. Venturino. Epidemics in predator-prey models: disease in the prey. in Mathematical Population dynamics, Analysis of heterogeneity 1, in O. Arino, D. Axelrod, M. Kimmel, M. Langlais (Editors) (1995) 381–393.

[131] E. Venturino Math. Biosc. 2001 111 131

[132] E. Venturino IMA J. Math. Appl. Med. and Biol. 2002 185 205

[133] E. Venturino WSEAS Transactions on Biology and Biomedicine 2004 449 454

[134] E. Venturino Math. Biosc. 2007 11 30

[135] E. Venturino Journal of Computational and Applied Mathematics 2010 2883 2901

[136] E. Venturino J. of Biological Systems 2011 763 785

[137] E. Venturino Bulletin of Mathematical Biology 2011 917 950

[138] E. Venturino Appl. Math. Letters 2012 1230 1233

[139] E. Venturino, M. Isaia, F. Bona, S. Chatterjee, G. Badino Ecological Complexity 2008 157 164

[140] E. Venturino, S. Petrovskii Ecological Complexity 2013 37 47

[141] C. Viberti, E. Venturino Mathematical Modelling and Analysis 2014 371 394

[142] P. Waltman. Competition models in population biology. SIAM, Philadelphia, 1983.

[143] Y. Wang, J. Wang Nonlinear Dynamics 2012 191 201

[144] J. A. Wiens. Metapopulation dynamics and landscape ecology, in I. A. Hanski, M. E. Gilpin (Ed.s), Metapolulation Biology: Ecology, Genetics and Evolution, San Diego: Academic Press (1997) 43–62.

[145] J. Zhen, M. Haque Journal of Biological Systems 2006 373 385

Cité par Sources :