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Krivan: Projects
Optimal resource utilization ([18]Vlastimil Krivan, Jaroslav Seda). Grant No 18002 of
the Grant Agency of the Czechoslovak Academy of Sciences. Duration: 1991-1993.
References:
[1] Kastner-Maresch, A., Krivan, V. (1995) Modelling food preferences and
viability constraints. Journal of Biological Systems 3:313-322
Support: 18002 (AVCR), 107101 (AVCR)
[19]Link to this work
[2] Antonelli, P., Krivan, V. (1993) Large amplitude periodic fluctuations in
starfish-coral dynamics. Ecological Modelling 67:251-257
Support: 18002 (AVCR), A7667 (NSERC)
[20]Link to this work
[3] 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)
[21]Link to this work
[4] 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)
[22]Link to this work
[5] 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)
[23]Link to this work
Nonprobabilistic methods for treating uncertain systems ([24]Vlastimil Krivan, Giovanni
Colombo). Grant No ERB-CIPA-CT-93-1554 by EC. Duration: 1993.
References:
[1] 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)
[25]Link to this work
doi number: [26]10.1007/s00498-003-0131-y
Differential inclusions as a tool for describing uncertain systems ([27]Vlastimil
Krivan (PI)). Grant No 107101 of the Grant Agency of the Czechoslovak Academy of
Sciences. Duration: 1993-1995.
References:
[1] 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)
[28]Link to this work
[2] Krivan, V. (1997) Dynamic ideal free distribution: effects of optimal patch
choice on predator-prey dynamics. American Naturalist 149:164-178
Support: 107101 (AVCR)
[29]Link to this work
[3] 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)
[30]Link to this work
[4] Sirot, E., Krivan, V. (1997) Adaptive superparasitsm and host-parasitoid
dynamics. Bulletin of Mathematical Biology 59:23-42
Support: 107101 (AVCR),VS96086(MSMT)
[31]Link to this work
[5] Krivan, V. (1996) Optimal foraging and predator-prey dynamics. Theoretical
Population Biology 49:265-290
Support: 107101 (AVCR)
[32]Link to this work
[6] Kastner-Maresch, A., Krivan, V. (1995) Modelling food preferences and
viability constraints. Journal of Biological Systems 3:313-322
Support: 18002 (AVCR), 107101 (AVCR)
[33]Link to this work
[7] 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)
[34]Link to this work
[8] 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)
[35]Link to this work
[9] 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)
[36]Link to this work
Mathematical methods of theoretical population biology ([37]Vlastimil Krivan (PI),
[38]David Boukal, Ivo Vrkoc, Eric P.M. Grist, [39]Ludek Berec). Grant No 201/98/0227 of
the Grant Agency of the Czech Republic. Duration: 1/1998-12/2000.
References:
[1] 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)
[40]Link to this work
doi number: [41]10.1007/s00498-003-0131-y
[2] 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)
[42]Link to this work
[3] Krivan, V. (2000) Optimal intraguild foraging and population stability.
Theoretical Population Biology 58:79-94
Support: 201/98/0227 (GACR), VS96086 (MSMT), MSM123100004 (MSMT)
[43]Link to this work
[4] 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)
[44]Link to this work
[5] 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)
[45]Link to this work
[6] 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)
[46]Link to this work
Modelling of ligand-receptor interactions ([47]Vlastimil Krivan, P. Lansky, J.-P.
Rospars). Project 972S (Barrande) (2000-2002).
Olfactory receptor cells are able to transduce chemical stimuli present in their
environment into an electrical response. A crucial step in this transduction
process is the interaction of the ligand molecules with receptor proteins borne
by the cell membrane. In the center of our interest is a mathematical description
of the steps leading the activation of the receptors on neuronal mebrane in the
presence of a periodically changing ligand concentration. When possible, analytic
solutions are given, if not for the complete model, at least forits simplified
version at low ligand concentration. Otherwise, solutions are found numerically.
The main aim of this research is to distinguish important steps in information
transfer in olfactory receptor neurons.
References:
[1] 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)
[48]Link to this work
[2] 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)
[49]Link to this work
[50]Understanding the role of individual-scale processes in community-level dynamics
(B. Bolker, M. Holyoak, M. Mangel, [51]Vlastimil Krivan, O. Schmitz, L. Rowe, E.
Werner). NCEAS Project 2152, [52]National Centre for Ecological Analysis and Synthesis,
Santa Barbara, CA, USA Duration:1999-2000.
References:
[1] 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)
[53]Link to this work
Population ecology of social foragers ([54]Vlastimil Krivan (PI), Etienne Sirot (PI).
NATO Collaborative Linkage Grant No 979213. Duration: 9/2002-9/2004.
References:
[1] 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)
[55]Link to this work
[56]Merging adaptive behavior and population dynamics ([57]Vlastimil Krivan). NSF
#DEB-0072909, #DEB-0553768, [58]National Centre for Ecological Analysis and Synthesis,
Santa Barbara, CA, USA Duration: 2/2005-2/2006
References:
[1] Cressman, R., Krivan, V. (2006) Migration dynamics for the Ideal Free
Distribution. American Naturalist 168:384-397
Support: DEB0072909 (NCEAS), IAA100070601 (GAAVCR), Z50070508 (AVCR)
[59]Link to this work
[2] 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)
[60]Link to this work
doi number: [61]10.1016/j.tpb.2005.07.006
[3] 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)
[62]Link to this work
Mathematical models of biological networks ([63]Vlastimil Krivan (PI), [64]Ludek Berec,
[65]David Boukal, Ivo Vrkoc, [66]Jan Eisner). Grant No A100070601 of GA AV. Duration:
1/2006-12/2009.
References :
[1] 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)
[67]Link to this work
doi number: [68]10.1016/j.jtbi.2010.06.034
[2] 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)
[69]Link to this work
doi number: [70]10.1111/j.1600-0706.2009.17845.x
[3] 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)
[4] 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
[71]Link to this work
[5] 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
[72]Link to this work
[6] 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)
[73]Link to this work
doi number: [74]10.1371/journal.pone.0002687
[7] Krivan, V. (2008) Dispersal dynamics: Distribution of lady beetles.. European
Journal of Entomology 105:405-409
Support: IAA100070601 (GAAVCR), AV0Z50070508 (Institute of Entomology)
[75]Link to this work
[8] 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)
[76]Link to this work
doi number: [77]doi:10.1016/j.tpb.2007.12.009
[9] 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)
[78]Link to this work
[10] 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)
[79]Link to this work
[11] 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)
[80]Link to this work
doi number: [81]10.1007/s00285-006-0053-7
[12] 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)
[82]Link to this work
[13] 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)
[83]Link to this work
[14] Cressman, R., Krivan, V. (2006) Migration dynamics for the Ideal Free
Distribution. American Naturalist 168:384-397
Support: DEB0072909 (NCEAS), IAA100070601 (GAAVCR), Z50070508 (AVCR)
[84]Link to this work
[15] 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)
[85]Link to this work
[86]Population games ([87]Vlastimil Krivan) Sabbatical fellowship of the [88]National
Institute for Mathematical and Biological Synthesis, University of Tennessee,
Knoxville, USA. Duration: August -December, 2010
References:
[1] 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)
[89]Link to this work
doi number: [90]10.1016/j.jtbi.2016.07.009
[2] 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)
[91]Link to this work
doi number: [92]DOI 10.1007/s00285-012-0548-3
[3] 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)
[93]Link to this work
doi number: [94]10.1016/j.jtbi.2012.12.016
[4] 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)
[95]Link to this work
doi number: [96]10.1016/j.jtbi.2011.01.016
[5] 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)
[97]Link to this work
Long term visitor at [98]Mathematical Biosciences Institute, OSU, Columbus, USA.
Duration: August 21- October 28, 2011
[99]References ...
[1] 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)
[100]Link to this work
doi number: [101]10.1016/j.jtbi.2016.07.009
[2] 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)
[102]Link to this work
doi number: [103]10.1016/j.mbs.2015.10.005
[3] 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)
[104]Link to this work
doi number: [105]DOI 10.1007/s00285-012-0548-3
[4] 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)
[106]Link to this work
doi number: [107]10.1016/j.jtbi.2012.12.016
[5] 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)
[108]Link to this work
doi number: [109]10.1016/j.jtbi.2011.01.016
[6] 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)
[110]Link to this work
Long term visitor at [111]Mathematical Biosciences Institute, OSU, Columbus, USA.
Duration: August - November 2013
References:
[1] 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)
[112]Link to this work
doi number: [113]10.1016/j.jtbi.2016.07.009
[2] 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)
[114]Link to this work
doi number: [115]10.1016/j.mbs.2015.10.005
[3] 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)
[116]Link to this work
doi number: [117]DOI 10.1007/s00285-012-0548-3
[4] 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)
[118]Link to this work
doi number: [119]10.1016/j.jtbi.2012.12.016
[5] 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)
[120]Link to this work
doi number: [121]10.1016/j.jtbi.2011.01.016
[6] 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)
[122]Link to this work
Trophic interactions and diversity-stability relationships in insect outbreak systems.
Project supported by [123]National Institute for Mathematical and Biological
Synthesis, University of Tennessee, Knoxville, USA.Duration: March 1-March 6, 2014
References:
[1] 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)
[124]Link to this work
doi number: [125]10.1016/j.jtbi.2016.07.009
[2] 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)
[126]Link to this work
doi number: [127]DOI 10.1007/s00285-012-0548-3
[3] 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)
[128]Link to this work
doi number: [129]10.1016/j.jtbi.2012.12.016
[4] 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)
[130]Link to this work
doi number: [131]10.1016/j.jtbi.2011.01.016
[5] 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)
[132]Link to this work
[133]Conflict, Competition, Cooperation and Complexity: Using Evolutionary Game Theory
to Model Realistic Populations. European Union's Horizon 2020 research and innovation
programme under the Marie Skl/odowska-Curie grant agreement No 690817. Duration:
January 2016-December 2019
References:
[1] 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)
[134]Link to this work
doi number: [135]https://doi.org/10.1016/j.jtbi.2020.110426
[2] 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)
[136]Link to this work
doi number: [137]https://doi.org/10.1016/j.jtbi.2020.110382
[3] 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.
[138]Link to this work
doi number: [139]https://doi.org/10.1038/s41598-020-76506-3
[4] 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)
[140]Link to this work
doi number: [141]10.1016/j.jtbi.2019.109993
[5] 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)
[142]Link to this work
doi number: [143]10.1016/j.jtbi.2018.10.033
[6] 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)
[144]Link to this work
doi number: [145]10.1016/j.jtbi.2019.08.003
[7] 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)
[146]Link to this work
doi number: [147]10.1007/978-3-319-27335-8_31-1
[8] 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)
[148]Link to this work
doi number: [149]https://doi.org/10.1016/j.jtbi.2018.07.003
[9] 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)
[150]Link to this work
doi number: [151]https://doi.org/10.1016/j.jtbi.2017.12.019
[10] 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
[152]Link to this work
[11] 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)
[153]Link to this work
doi number: [154]http://dx.doi.org/10.1016/j.jtbi.2017.01.010
[12] 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
[155]Link to this work
doi number: [156]10.1371/journal.pone.0160076
Long-term effect of fish reduction on Daphnia in a large reservoir and confounding
effect of changes of carbon and phosphorus load from the watershed (J. Seda (PI)). GACR
GA15-24309S. Duration: 2015-2017
References:
[157]EvoGamesPlus (Evolutionary games and population dynamics: from theory to
applications) H2020-MSCA-ITN-2020. Duration: 2021-2024
References:
Centrum matematické biologie
[158]Ústav matematiky
[159]Prírodovedecká fakulta
[160]Jihoceská univerzita v Ceských Budejovicích
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