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Vlastimil Krivan: List of publications

   Pocet nalezených prací: 112

   2024

   [1] Krivan, V., Cressman, R. (2024) The Ideal Free Distribution with travel
   costs. Journal of Theoretical Biology, 579, 111717
   Support: 955708 (European Union Horizon 2020)
   [18]Link to this work
   doi number: [19]https://doi.org/10.1016/j.jtbi.2023.111717

   2023

   [2] Galanthay, T. E.,Krivan, V., Cressman, R., Revilla, T. A. (2023) Evolution of
   aggression in consumer-resource models. Dynamic Games and Applications
   13:1049-1065
   Support: EU 955708 (Horizon 2020)
   [20]Link to this work
   doi number: [21]https://doi.org/10.1007/s13235-023-00496-w

   2022

   [3] Cressman, R, Krivan, V. (2022) Using chemical reaction network theory to show
   stability of distributional dynamics in game theory. Journal of Dynamics and
   Games 9:351-371
   Support: EU 955708 (Horizon 2020)
   [22]Link to this work
   doi number: [23]10.3934/jdg.2021030

   [4] Darwell, C.T., Souto-Vilaros, D., Michalek, J., Boutsi, S., Isua, B., Sisol,
   M., Kuyaia, T., Weiblen, G., Krivan, V., Novotny, V., Segar, S.T. (2022)
   Predicting distributions of Wolbachia strains through host ecological contact --
   who's manipulating whom?. Ecology and Evolution 12:e8826
   doi number: [24]https://doi.org/10.1002/ece3.8826

   [5] Krivan, V., Cressman, R. (2022) The asymmetric Hawk-Dove game with costs
   measured as time lost. Journal of Theoretical Biology, 547:111162
   Support: 955708 (EU Horizon 2020)
   [25]Link to this work
   doi number: [26]https://doi.org/10.1016/j.jtbi.2022.111162

   [6] Revilla, T., Krivan, V. (2022) Prey-predator dynamics with adaptive
   protection mutualism. Applied Mathematics and Computation 433:127368
   Support: 955708 (Horizon 2020)
   [27]Link to this work
   doi number: [28]https://doi.org/10.1016/j.amc.2022.127368

   2021

   [7] Revilla, T., Marcou, T., Krivan, V. (2021) Plant competition under
   simultaneous adaptation by herbivores and pollinators. Ecological Modelling
   455:109634
   doi number: [29]https://doi.org/10.1016/j.ecolmodel.2021.109634

   2020

   [8] Broom, M., Krivan, V. (2020) Two-strategy games with time constraints on
   regular graphs. Journal of Theoretical Biology, 506:110426
   Support: 690817 (EU Horizon 2020)
   [30]Link to this work
   doi number: [31]https://doi.org/10.1016/j.jtbi.2020.110426

   [9] Cressman, R., Krivan, V. (2020) Reducing courtship time promotes marital
   bliss: The Battle of the Sexes game revisited with costs measured as time lost.
   Journal of Theoretical Biology 503:110382
   Support: MSC 690817 (EU Horizon 2020)
   [32]Link to this work
   doi number: [33]https://doi.org/10.1016/j.jtbi.2020.110382

   [10] Krivan, V., Cressman, R. (2020) Defectors' intolerance of others promotes
   cooperation in the repeated public goods game with opting out. Scientific Reports
   10:19511
   Support: H2020-MSCA-RISE-2015 grant agreement No 690817.
   [34]Link to this work
   doi number: [35]https://doi.org/10.1038/s41598-020-76506-3

   [11] Mazepa, S., Dostálek, L., Krivan, V., Banakh, S. (2020) Cybercrime in
   Ukraine and the Cyber Security Game. Pages 787-790 in 10th International
   Conference on Advanced Computer Information Technologies (ACIT), Deggendorf,
   Germany, 2020
   doi number: [36]doi: 10.1109/ACIT49673.2020.9208942

   [12] Schreiber, S. J., Krivan, V. (2020) Holt (1977) and apparent competition.
   Theoretical Population Biology 133:17-18
   [37]Link to this work
   doi number: [38]https://doi.org/10.1016/j.tpb.2019.09.006

   2019

   [13] Broom, M., Cressman, R., Krivan, V. (2019) Revisiting the "fallacy of
   averages" in ecology: Expected gain per unit time equals expected gain divided by
   expected time. Journal of Theoretical Biology 483:109993
   Support: No 690817 (EU Horizon 2020)
   [39]Link to this work
   doi number: [40]10.1016/j.jtbi.2019.109993

   [14] Cressman, R., Krivan, V. (2019) Bimatrix games that include interaction
   times alter the evolutionary outcome: The owner-intruder game. Journal of
   Theoretical Biology 460:262-273
   Support: MSC 690817 (EU Horizon 2020)
   [41]Link to this work
   doi number: [42]10.1016/j.jtbi.2018.10.033

   [15] Krivan, V., Revilla, T. (2019) Plant coexistence mediated by adaptive
   foraging preferences of exploiters or mutualists. Journal of Theoretical Biology
   480:112-128
   Support: 690817 (EU Horizon 2020)
   [43]Link to this work
   doi number: [44]10.1016/j.jtbi.2019.08.003

   2018

   [16] Akimenko, V., Krivan, V. (2018) Asymptotic stability of delayed consumer
   age-structured population models with an Allee effect. Mathematical Biosciences
   306:170-179
   doi number: [45]10.1016/j.mbs.2018.10.001

   [17] Broom, M., Krivan, V. (2018) Biology and evolutionary games. Pages 1039-1077
   in T. Basar, G. Zaccour (eds.), Handbook of Dynamic Game Theory. Springer
   International Publishing AG
   Support: 690817 (Horizon 2020), 60077344 (RVO)
   [46]Link to this work
   doi number: [47]10.1007/978-3-319-27335-8_31-1

   [18] Krivan, V., Galanthy, T. E., Cressman, R. (2018) Beyond replicator dynamics:
   From frequency to density dependent models of evolutionary games. Journal of
   theoretical biology 455:232-248
   Support: RVO:60077344 (Institute of Entomology), 690817 (EU Horizon 2020)
   [48]Link to this work
   doi number: [49]https://doi.org/10.1016/j.jtbi.2018.07.003

   [19] Revilla, T., Krivan, V. (2018) Competition, trat-mediated facilitation, and
   the structure of plant-pollinator communities. Journal of theoretical biology
   440:42-57
   Support: RVO:60077344 (Institute of Entomology), 690817 (Marie Sklodowska-Curie
   2020)
   [50]Link to this work
   doi number: [51]https://doi.org/10.1016/j.jtbi.2017.12.019

   2017

   [20] Krivan, V. (2017) Kdyz se matematika potka s biologii: Matematicka ekologie
   (When mathematics meets biology: Mathematical ecology). PMFA 62:185-201
   Support: AV0Z50070508 (Institute of Entomology), Marie Sklodowska-Curie grant No
   690817
   [52]Link to this work

   [21] Krivan, V., Cressman, R. (2017) Interaction times change evolutionary
   outcomes: Two-player matrix games. Journal of theoretical biology, 416:199-207
   Support: RVO:60077344 (Institute of Entomology), 690817 (Horizon 2020)
   [53]Link to this work
   doi number: [54]http://dx.doi.org/10.1016/j.jtbi.2017.01.010

   2016

   [22] Krivan, V., Lewis, M., Bentz, B., Bewick, S., Lenhart, S., Liebhold, A.
   (2016) A dynamical model for bark beetle outbreaks. Journal of Theoretical
   Biology 407:25-37
   Support: EF-0832858 (NIMBIOS),RVO:60077344 (Institute of Entomology)
   [55]Link to this work
   doi number: [56]10.1016/j.jtbi.2016.07.009

   [23] Mariani, P., Krivan, V., MacKenzie, B. R., Mullon, C. (2016) The migration
   game in habitat network: the case of tuna. Theoretical Ecology 9:219-232
   Support: RVO:60077344 (Institute of Entomology), DMS0931642(NSF)
   [57]Link to this work

   [24] Revilla, T. A., Krivan, V. (2016) Pollinator foraging flexibility and the
   coexistence of competing plants. Plos One 11: e0160076
   Support: RVO:60077344 (Institute of Entomology), RISE 690817
   [58]Link to this work
   doi number: [59]10.1371/journal.pone.0160076

   2015

   [25] Broom, M., Krivan V., Riedel F. (2015) Dynamic Games and Applications:
   Second Special Issue on Population Games: Introduction. Dynamic Games and
   Applications 5:155-156
   [60]Link to this work
   doi number: [61]10.1007/s13235-015-0153-3

   [26] Krivan V., Berec L. (2015) Matematika ve sluzbách biologie. Scientific
   American, Czech edition 2015(2):17

   [27] Krivan V., Jana D. (2015) Effects of animal dispersal on harvesting with
   protected areas. Journal of Theoretical Biology 364:131-138
   Support: DMS 0931642 (NSF), RVO:60077344 (Institute of Entomology),
   CZ.1.07/2.3.00/30.0032 (Postdok-BIOGLOBE)
   [62]Link to this work
   doi number: [63]http://dx.doi.org/10.1016/j.jtbi.2014.09.010

   [28] Krivan, V. (2015) Population games. Biomath Communications 2:14-19
   Support: RVO:6007734 (Institute of Entomology), Biglobe
   [64]Link to this work
   doi number:
   [65]https://biomath.math.bas.bg/biomath/index.php/conference/article/view/416

   [29] Krivan, V., Pryiadarshi, A. (2015) L-shaped prey isocline in the Gause
   predator-prey experiments with a prey refuge. Journal of theoretical biology
   370:21-26
   Support: RVO:60077344, BIOGLOBE (CZ.1.07/2.3.00/30.0032), NSF EF-0832858
   [66]Link to this work

   [30] Melian, C. J., Krivan, V., Altermatt, F., Stary, P. , Pellissier, L., De
   Laender, F. (2015) Dispersal Dynamics in Food Webs. American Naturalist
   185:157-168
   Support: RVO60077344 (Institute of Entomology). NSF DEB-0553768 (NCEAS)
   [67]Link to this work
   doi number: [68]10.1086/679505

   [31] Vrkoc, I., Krivan, V. (2015) Asymptotic stability of tri-trophic food chains
   sharing a common resource. Mathematical Biosciences, 270:90-94
   Support: RVO:60077344 (Institute of Entomology), NSF DMS 0931642 (MBI)
   [69]Link to this work
   doi number: [70]10.1016/j.mbs.2015.10.005

   2014

   [32] Broom, M., Krivan, V., Riedel, F. (2014) Dynamic Games and Applications:
   Introduction to the special issue on population games. Dynamic Games and
   Application

   [33] Cressman, R., Krivan, V., Garay, J., Brown, J. (2014) Game-theoretic methods
   for functional response and optimal foraging behavior. PLoS ONE 9(2): e88773.
   Support: RVO:60077344
   [71]Link to this work
   doi number: [72]doi:10.1371/journal.pone.0088773

   [34] Krivan, V. (2014) Competition in di- and tri-trophic food web modules.
   Journal of Theoretical Biology, 343,127-137
   Support: DMS 0931642(NSF),EF-0832858(NSF),AV0Z50070508, RVO60077344 (Institute of
   Entomology)
   [73]Link to this work
   doi number: [74]http://dx.doi.org/10.1016/j.jtbi.2013.11.020

   [35] Krivan, V. (2014) The Allee-type Ideal Free Distribution. Journal of
   Mathematical Biology 69:1497-1513
   Support: RVO:60077344
   [75]Link to this work
   doi number: [76]10.1007/s00285-013-0742-y

   [36] Xu, Fei, Cressman, R., Krivan, V. (2014) Evolution of mobility in
   predator-prey systems. Discrete and Continuous Dynamical Systems, Series B
   (DCDS-B)19:3397-3432
   Support: RVO:60077344
   [77]Link to this work
   doi number: [78]10.3934/dcdsb.2014.19.3397

   2013

   [37] Cressman, R., Krivan, V. (2013) Two-patch population models with adaptive
   dispersal: The effects of varying dispersal speeds. Journal of Mathematical
   Biology 67:329-358
   Support: DMS0931642 (MBI),EF-0832858(NIMBioS),AV0Z50070508 (AV),RVO 60077344(AV)
   [79]Link to this work
   doi number: [80]DOI 10.1007/s00285-012-0548-3

   [38] Krivan, V. (2013) Behavioral refuges and predator-prey coexistence. Journal
   of Theoretical Biology 339:112-121
   Support: DMS 0931642(NSF),EF-0832858(NIMBioS),AV0Z50070508, RVO60077344
   (Institute of Entomology)
   [81]Link to this work
   doi number: [82]10.1016/j.jtbi.2012.12.016

   [39] Krivan, V., Zaccour, G. (2013) Preface. Pages v-vii in V. Krivan and G.
   Zaccour, eds. Advances in Dynamic Games - Theory, Applications, and Numerical
   Methods. Birkhauser
   [83]Link to this work

   2011

   [40] Krivan, V. (2011) On the Gause predator-prey model with a refuge: A fresh
   look at the history. Journal of Theoretical Biology 274:67-73
   Support: AV0Z50070508 (Institute of Entomology), EF-0832858 (NIMBioS)
   [84]Link to this work
   doi number: [85]10.1016/j.jtbi.2011.01.016

   2010

   [41] Berec, L., Eisner, J., Krivan, V. (2010) Adaptive foraging does not always
   lead to more complex food webs. Journal of Theoretical Biology 266:211-218
   Support: Z50070508 (Institute of Entomology), IAA100070601 (GAAVCR)
   [86]Link to this work
   doi number: [87]10.1016/j.jtbi.2010.06.034

   [42] Cressman, R., Krivan, V. (2010) The Ideal Free Distribution as an
   Evolutionarily Stable State in Density-Dependent Population Games. Oikos,
   119:1231-1242
   Support: IAA100070601 (GAAVCR),AV0Z50070508 (Institute of Entomology)
   [88]Link to this work
   doi number: [89]10.1111/j.1600-0706.2009.17845.x

   [43] Krivan, V. (2010) Evolutionary stability of optimal foraging: partial
   preferences in the diet and patch models. Journal of theoretical Biology
   267:486-494
   Support: AV0Z50070508 (Institute of Entomology), NSF #EF-0832858 371 (NIMBioS)
   [90]Link to this work

   2009

   [44] Krivan, V. (2009) Evolutionary games and population dynamics. Proceedings of
   Seminar in Differential Equations, Kamenice nad Lipou, Volume II, ed. P. Drabek.
   Vydavatelsky servis, Plzen. ISBN 978-80-86843-25-4
   Support: IAA100070601 (GAAVCR)

   [45] Krivan, V., Cressman, R., (2009) On evolutionary stability in prey-predator
   models with fast behavioral dynamics. Evolutionary Ecology Research 11:227-251
   Support: IAA100070601 (GAAVCR),AV0Z50070508 (Institute of Entomology), NCEAS
   [91]Link to this work

   [46] Melian, C. J., Bascompte, J., Jordano, P., Krivan, V. (2009) Diversity in a
   complex ecological network with two interaction types. Oikos 118:122-130
   Support: A100070601, NCEAS
   [92]Link to this work

   2008

   [47] Boukal, D. S., Berec, L., Krivan, V. (2008) Does sex-selective predation
   stabilize or destabilize predator-prey dynamics?. PloS ONE 3(7): e2687
   Support: KJB600070602 (GAAVCR), IAA100070601 (GAAVCR), Z50070508 (Institute of
   Entomology)
   [93]Link to this work
   doi number: [94]10.1371/journal.pone.0002687

   [48] Krivan, V. (2008) Prey-predator models. Pages 2929-2940 in S. E. Jørgensen
   and B. D. Fath, eds. Population Dynamics. Vol. 4 of Encyclopedia of Ecology, 5
   vols. Elsevier, Oxford. Reprinted in Elsevier Reference Module in Earth Systems
   and Environmental Sciences, 2012.
   [95]Link to this work

   [49] Krivan, V. (2008) Dispersal dynamics: Distribution of lady beetles..
   European Journal of Entomology 105:405-409
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology)
   [96]Link to this work

   [50] Krivan, V., Cressman, R., Schneider, C. (2008) The Ideal Free Distribution:
   A review and synthesis of the game theoretic perspective. Theoretical Population
   Biology 73:403-425 THEORETICAL POPULATION BIOLOGY TOP CITED ARTICLE 2008-2010
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology),
   MSM6007665801 (MSMT)
   [97]Link to this work
   doi number: [98]doi:10.1016/j.tpb.2007.12.009

   2007

   [51] Abrams, P., Cressman, R., Krivan, V. (2007) The role of behavioral dynamics
   in determining the patch distributions of interacting species. American
   Naturalist 169:505-518
   Support: IAA100070601 (GAAVCR)
   [99]Link to this work

   [52] Krivan, V. (2007) The Lotka-Volterra predator-prey model with
   foraging-predation risk trade-offs. American Naturalist 170: 771-782
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology)
   [100]Link to this work

   [53] Krivan, V., Vrkoc, I. (2007) A Lyapunov function for piecewise-independent
   differential equations: stability of the ideal free distribution in two patch
   environments. Journal of Mathematical Biology 54:465-488
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology),
   MSM6007665801 (MSMT)
   [101]Link to this work
   doi number: [102]10.1007/s00285-006-0053-7

   [54] Skaloudova, B., Zemek, R., Krivan, V. (2007) The effect of predation risk on
   an acarine system. Animal Behaviour 74: 813-821
   Support: IAA60073039 (AVCR), IAA100070601, MSM6007665801 (MSMT), Z50070508 (AVCR)
   [103]Link to this work

   2006

   [55] Berec, M., Krivan, V., Berec, L. (2006) Asymmetric competition, body size
   and foraging tactics: testing the ideal free distribution in two competing
   species. Evolutionary Ecology Research 8:929-942
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology),
   MSM6007665801 (MSMT)
   [104]Link to this work

   [56] Cressman, R., Krivan, V. (2006) Migration dynamics for the Ideal Free
   Distribution. American Naturalist 168:384-397
   Support: DEB0072909 (NCEAS), IAA100070601 (GAAVCR), Z50070508 (AVCR)
   [105]Link to this work

   [57] Krivan, V. (2006) The Ideal Free Distribution and bacterial growth on two
   substrates. Theoretical Population Biology 69:181-191
   Support: DEB-0072909 (NCEAS), 201/03/0091 (GACR)
   [106]Link to this work
   doi number: [107]10.1016/j.tpb.2005.07.006

   [58] Krivan, V., Eisner, J. (2006) The effect of the Holling type II functional
   response on apparent competition. Theoretical Population Biology 70:421-430,
   doi:10.1016/j.tpb.2006.07.004
   Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology),
   DEB-0072909(NCEAS)
   [108]Link to this work

   [59] Skaloudova, B., Krivan, V., Zemek, R. (2006) Computer-assisted estimation of
   leaf damage caused by spider mites. Computers and Electronics in Agriculture
   53:81-91
   Support: A6007303 (AVCR), MSM6007665801 (MSMT), 522/02/1490 (GACR)
   [109]Link to this work

   2005

   [60] Krivan, V., Diehl, S. (2005) Adaptive omnivory and species coexistence in
   tri-trophic food webs. Theoretical Population Biology 67:85-99
   Support: 201/03/0091 (GACR), Z5007907 (AVCR)
   [110]Link to this work
   doi number: [111]10.1016/j.tpb.2004.09.003

   2004

   [61] Cressman, R., Krivan, V., Garay, J. (2004) Ideal free distributions,
   evolutionary games and population dynamics in multiple species environments. The
   American Naturalist, 164(4):473-489
   Support: 201/03/0091 (GACR),Z5007907 (AVCR), K6005114(AVCR)
   [112]Link to this work

   [62] Krivan, V. and Schmitz, O.J. (2004) Trait and density mediated indirect
   interactions in simple food webs. Oikos, 107:239-250
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [113]Link to this work

   [63] Krivan, V., Sirot, E. (2004) Do short-term behavioral responses of consumers
   in tri-trophic food chains persist at the population time scale?. Evolutionary
   Ecology Research, 6:1063-1081
   Support: Collaborative Linkage Grant 979213 (NATO), 201/03/0091 (GACR), Z5007907,
   K6005114 (AVCR)
   [114]Link to this work

   [64] Krivan, V., Vrkoc, I. (2004) Should handled prey be considered? Some
   consequences for functional response, predator-prey dynamics and optimal foraging
   theory. Journal of theoretical Biology, 227:167-174.
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [115]Link to this work
   doi number: [116]10.1016/j.jtbi.2003.10.013

   [65] Schmitz, O. J., Krivan, V., Ovadia, O. (2004) Trophic cascades: the primacy
   of trait-mediated indirect interactions. Ecology Letters, 7:153-163
   Support: 201/03/0091 (GACR), Z5007907 (AVCR)
   [117]Link to this work
   doi number: [118]10.1111/j.1461-0248.2003.00560.x

   2003

   [66] Berec, M., Krivan, V., Berec, L. (2003) Are great tits (Parus major) really
   optimal foragers?. Canadian Journal of Zoology 81:780-788
   Support: MSM123100004 (MSMT), Z5007907 (AVCR)
   [119]Link to this work
   doi number: [120]10.1139/Z03-057

   [67] Bolker, B., Holyoak, M., Krivan, V., Rowe, L., Schmitz, O. (2003) Connecting
   theoretical and empirical studies of trait-mediated interactions. Ecology
   84:1101-1114
   Support: NCEAS, Z5007907 (AVCR)
   [121]Link to this work

   [68] Colombo, G., Dai Pra, P., Krivan, V., Vrkoc, I. (2003) Stochastic processes
   for bounded noise. Mathematics of Control, Signals, and Systems 16:95-119.
   Support: ERB-CIPA-CT-93-1554 (EU), ERB-CIPA-CT-92-0370 (EU), 201/98/0227 (GACR),
   VS96086 (MSMT)
   [122]Link to this work
   doi number: [123]10.1007/s00498-003-0131-y

   [69] Krivan, V. (2003) Ideal Free Distributions when resources undergo population
   dynamics. Theoretical Population Biology 64:25-38.
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [124]Link to this work
   doi number: [125]10.1016/S0040-5809(03)00065-0

   [70] Krivan, V. (2003) Competitive coexistence caused by adaptive predators.
   Evolutionary Ecology Research, 5:1163-1182.
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [126]Link to this work

   [71] Krivan, V., Eisner, J. (2003) Optimal foraging and predator-prey dynamics
   III. Theoretical Population Biology 63:269-279.
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [127]Link to this work
   doi number: [128]10.1016/S0040-5809(03)00012-1

   [72] Krivan, V., Schmitz, O. J. (2003) Adaptive foraging and flexible food web
   topology. Evolutionary Ecology Research 5:623-652
   Support: 201/03/0091 (GACR), Z5007907 (AVCR), MSM123100004 (MSMT)
   [129]Link to this work

   [73] Rospars, J-P., Lansky, P., Krivan, V. (2003) Extracellular transduction
   events under pulsed stimulation in moth olfactory sensilla. Chemical Senses
   28:509-522.
   Support: 972SL (Barrande),MSM123100004 (MSMT), Z5007907 (AVCR)
   [130]Link to this work

   2002

   [74] Krivan, V., Lansky, P., Rospars, J-P. (2002) Coding of periodic pulse
   stimulations in chemoreceptors. BioSystems 67:121-128
   Support: 972SL (Barrande), LST CLG976786 (NATO), 309/02/0168 (GACR), Z5007907
   (AVCR), MSM12300004 (MSMT)
   [131]Link to this work

   [75] Krivan, V., Sirot, E. (2002) Habitat selection by two competing species in a
   two-habitat environment. American Naturalist 160:214-234
   Support: Z5007907 (AVCR), K6005114 (AVCR), MSM123100004 (MSMT)
   [132]Link to this work

   2001

   [76] Lansky, P., Krivan, V., Rospars, J.-P. (2001) Ligand-receptor interaction
   under periodic stimulation: a modeling study of concentration chemoreceptors.
   European Biophysics Journal 30:110-120
   Support: A7011712 (GAAVCR), 201/98/0227 (GACR), MSM123100004 (MSMT)
   [133]Link to this work

   [77] van Baalen, M., Krivan, V., van Rijn, P.C.J., Sabelis, M. (2001) Alternative
   food, switching predators, and the persistence of predator-prey systems. American
   Naturalist 157:512-524
   [134]Link to this work

   2000

   [78] Berec, L., Krivan, V. (2000) A mechanistic model for partial preferences.
   Theoretical Population Biology 58:279-289
   Support: 201/98/P202 (GACR), VS96086 (MSMT)
   [135]Link to this work
   doi number: [136]10.1006/tpbi.2000.1491

   [79] Krivan, V. (2000) Optimal intraguild foraging and population stability.
   Theoretical Population Biology 58:79-94
   Support: 201/98/0227 (GACR), VS96086 (MSMT), MSM123100004 (MSMT)
   [137]Link to this work

   [80] Krivan, V., Havelka, J. (2000) Leslie model for predatory gall-midge
   population. Ecological Modelling 126:73-77
   [138]Link to this work

   [81] Krivan, V., Vrkoc, I. (2000) Patch choice under predation hazard.
   Theoretical Population Biology 58:329-340
   Support: 201/98/0227 (GACR), VS96086 (MSMT), MSM123100004 (MSMT)
   [139]Link to this work

   [82] Krivan, V., Vrko, I. (2000) Equilibrium stability analysis of negative
   feedback loops in simple gene regulatory networks. Mimeo.

   [83] Rospars, J-P., Krivan, V., Lansky, P. (2000) Perireceptor and receptor
   events in olfaction. Comparison of concentration and flux detectors: a modeling
   study. Chemical Senses 25:293-311
   [140]Link to this work

   1999

   [84] Boukal, D., Krivan, V. (1999) Lyapunov functions for Lotka-Volterra
   predator-prey models with optimal foraging behavior. Journal of Mathematical
   Biology 39:493-517
   [141]Link to this work

   [85] Krivan, V., Sikder, A. (1999) Optimal foraging and predator-prey dynamics
   II. Theoretical Population Biology 55:111-126
   [142]Link to this work

   1998

   [86] Krivan, V. (1998) Effects of optimal antipredator behavior of prey on
   predator-prey dynamics: role of refuges. Theoretical Population Biology
   53:131-142
   Support: 201/98/0227 (GACR), VS96086(MSMT), DEB-94-21535 (NSF)
   [143]Link to this work

   [87] Krivan, V., Colombo, G. (1998) A non-stochastic approach for modelling
   uncertainty in population dynamics. Bulletin of Mathematical Biology 60:721-751
   Support: 107101 (AVCR), 201/98/0227 (GACR), ERB-93-1554 (EU)
   [144]Link to this work

   1997

   [88] Krivan, V. (1997) Dynamic ideal free distribution: effects of optimal patch
   choice on predator-prey dynamics. American Naturalist 149:164-178
   Support: 107101 (AVCR)
   [145]Link to this work

   [89] Krivan, V. (1997) Dynamical consequences of host-feeding on parasitoid-host
   dynamics. Bulletin of Mathematical Biology 59:809-831
   Support: VS96086
   [146]Link to this work

   [90] Krivan, V., Sirot, E. (1997) Searching for food or hosts: the influence of
   parasitoids behavior on parasitoid-host dynamics. Theoretical Population Biology
   51:201-209
   Support: 107101 (AV CR)
   [147]Link to this work

   [91] Sirot, E., Krivan, V. (1997) Adaptive superparasitsm and host-parasitoid
   dynamics. Bulletin of Mathematical Biology 59:23-42
   Support: 107101 (AVCR),VS96086(MSMT)
   [148]Link to this work

   1996

   [92] Krivan, V. (1996) Optimal foraging and predator-prey dynamics. Theoretical
   Population Biology 49:265-290
   Support: 107101 (AVCR)
   [149]Link to this work

   1995

   [93] Kastner-Maresch, A., Krivan, V. (1995) Modelling food preferences and
   viability constraints. Journal of Biological Systems 3:313-322
   Support: 18002 (AVCR), 107101 (AVCR)
   [150]Link to this work

   [94] Krivan, V. (1995) Differential inclusions as a methodology tool in
   population biology. Pages 544-547 in M. Snorek, M. Sujansky, A. Verbraeck, eds.
   Proceedings of the 9th European Simulation Multiconference, The Society for
   Computer Simulation, San Diego, CA
   Support: 107101 (AVCR)
   [151]Link to this work

   [95] Krivan, V. (1995) Individual behavior and population dynamics. Pages 17-31
   in M. Candev, ed. Lecture notes on biomathematics and bioinformatics'95. DATECS
   Publ., Sofia.
   Support: 107101 (AVCR)
   [152]Link to this work

   1994

   [96] Colombo, G., Krivan, V. (1994) Robustness of viability controllers under
   small perturbations. Journal of Optimization, Theory and Applications 83:207-215
   [153]Link to this work

   1993

   [97] Antonelli, P., Bradbury, R., Krivan, V., Shimada, H. (1993) A dynamical
   theory of heterochrony: time-sequencing changes in ecology, development and
   evolution. Journal of Biological Systems 1:451-487
   [154]Link to this work

   [98] Antonelli, P., Krivan, V. (1993) Large amplitude periodic fluctuations in
   starfish-coral dynamics. Ecological Modelling 67:251-257
   Support: 18002 (AVCR), A7667 (NSERC)
   [155]Link to this work

   [99] Colombo, G., Krivan, V. (1993) A viability algorithm. Journal of
   Differential Equations 102:236-243

   [100] Colombo, R., Krivan, V. (1993) Selective strategies in food webs. IMA
   Journal of Mathematics Applied in Medicine and Biology 10:281-291
   Support: 18002 (AVCR), 107101 (AVCR)
   [156]Link to this work

   [101] Krivan, V. (1993) Projection of differential inclusions. Pages 119-130 in
   A. Kurzhanski, V. Veliov, eds. Set-Valued Analysis and Differential Inclusions.
   Birkhauser, Boston
   Support: 18002 (AVCR)
   [157]Link to this work

   1992

   [102] Antonelli, P., Krivan, V. (1992) Fuzzy differential inclusions as
   substitutes for stochastic differential equations in population biology. Open
   Systems and Information Dynamics in Physical and Life Sciences 1:217-232
   Support: A7667 (NSERC), 18002 (AVCR)
   [158]Link to this work

   [103] Colombo, G., Krivan, V. (1992) Fuzzy differential inclusions and
   nonprobabilistic likelihood. Dynamic Systems and Applications 1:419-440
   [159]Link to this work

   [104] Krivan, V., Vrkoc, I. (1992) Continuous and Lipschitzian selections from
   measurable set valued map. Journal of Mathematical Analysis and Applications
   166:582-590
   [160]Link to this work

   1991

   [105] Krivan, V. (1991) Construction of population growth equations in the
   presence of viability constraints. Journal of Mathematical Biology 29:379-387
   [161]Link to this work

   [106] Krivan, V. (1991) Perturbation of viability problem. Journal of
   Mathematical Analysis and Applications 155:131-139
   [162]Link to this work

   [107] Krivan, V. (1991) On the intersection of contingent cones. Journal of
   Optimization Theory and Applications 10:395-402
   [163]Link to this work

   1990

   [108] Krivan, V. (1990) Construction of population growth equations in the
   presence of viability constraints. Contribution SMR.478-34 in Lecture Notes of
   Third Autumn Course on Mathematical Ecology. International Atomic Energy Agency,
   UNESCO, ICTP, Trieste
   [164]Link to this work

   [109] Krivan, V. (1990) What is viability theory (In Czech). Pokroky matematiky,
   fyziky a astronomie 35:113-120
   [165]Link to this work

   [110] Krivan, V., Vrkoc, I. (1990) Absolutely continuous selections from
   absolutely continuous set valued map. Czechoslovak Mathematical Journal
   40:503-513
   [166]Link to this work

   1989

   [111] Krivan, V., Seda, J. (1989) Application of guaranteed regression model to
   trophic interaction in aquatic systems. Ecological Modelling 49:1-6
   [167]Link to this work

   1988

   [112] Krivan, V., Lhotka, L. (1988) Matematické modely v ekologii (Dynamic models
   in ecology). Vesmír 67:208-211
   [168]Link to this work

   Centrum matematické biologie
   [169]Ústav matematiky
   [170]Prírodovedecká fakulta
   [171]Jihoceská univerzita v Ceských Budejovicích
   Branisovská 1760
   37005 Ceské Budejovice
   Webmaster: Ludek Berec
   ludek.berec(at)prf.jcu.cz

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