Articles in scienfic journals
B. Espigulé, D. Juher, J. Saldaña: Collinear fractals and Bandt's conjecture. Fractal and Fractional 8 (2024), 725. doi: https://doi.org/10.3390/fractalfract8120725
Ll. Bosch, J. Pueyo-Ros, M. Comas-Cufí, J. Saldaña, J. Ripoll, E. Calle, P. Fonseca, J. Garcia, C.M. Borrego, Ll. Corominas: Watching the guards: A data-driven method to trigger warnings in national wastewater surveillance networks. Journal of Water and Health, 22 (2024): 1209-1221. doi: 10.2166/wh.2024.043
Q. Yang, J. Saldaña, C. Scoglio: Generalized epidemic model incorporating non-Markovian infection processes and waning immunity. Physical Review E, 108 (2023), article 014405. doi:10.1103/PhysRevE.108.014405
D. Juher, D. Rojas, J. Saldaña: Saddle-node bifurcation of limit cycles in an epidemic model with two levels of awareness. Physica D, 448 (2023), article 133714.
J. Saldaña, C. Scoglio: Influence of heterogeneous age-group contact patterns on critical vaccination rates for herd immunity to SARS-CoV-2, Scientific Reports, 12 (2022), article 2640. doi:10.1038/s41598-022-06477-0
D. Juher, D. Rojas, J. Saldaña: Robustness of behaviourally-induced oscillations in epidemic models under a low rate of imported cases. Physical Review E, 102 (2020), article 052301. arXiv:2007.15938
A. Vajdi, D. Juher, J. Saldaña, C. Scoglio: A multilayer temporal network model for STD spreading accounting for permanent and casual partners. Scientific Reports, 10 (2020) article 3846.
J. Saldaña, M. Aguareles, A. Avinyó, M. Pellicer, J.
Ripoll: An
age-dependent population approach for the mathematical modeling of
urban burglaries. SIAM J. Appl. Dyn. Syst., 17(4),
2733-2760, 2018. doi:10.1137/17M1142090. Featured in SIAM
News, Forbes
and Dartmouth Math Soc.
D. Juher, J. Saldaña: Tuning the overlap and the cross-layer correlations in two-layer networks: Application to a susceptible-infectious-recovered model with awareness dissemination. Physical Review E, 97 (2018), 032303. doi:10.1103/PhysRevE.97.032303
W. Just, J. Saldaña, Y. Xin: Oscillations in epidemic models with spread of awareness, Journal of Mathematical Biology, 76 (2018): 1027-1057. doi:10.1007/s00285-017-1166-x
D. Juher, J. Saldaña, R. Kohn, K. Bernstein, C. Scoglio: Network-centric interventions to contain the syphilis epidemic in San Francisco, Scientific Reports, 7 (2017), article 6464. doi: 10.1038/s41598-017-06619-9
T. Britton, D. Juher, J. Saldaña: Erratum to: A network epidemic model with preventive rewiring: comparative analysis of the initial phase. Bulletin of Mathematical Biology, 79 (2017): 1687-1689. doi:10.1007/s11538-017-0295-0T.
T. Britton, D. Juher, J. Saldaña: A network epidemic model with preventive rewiring: comparative analysis of the initial phase. Bulletin of Mathematical Biology, 78 (2016): 2427-2454. doi:10.1007/s11538-016-0227-4
J. Ripoll, A. Avinyó, M. Pellicer, J. Saldaña: Impact of density-dependent migration flows on epidemic outbreaks in heterogeneous metapopulations. Physical Review E, 92 (2015), 022809. doi: 10.1103/PhysRevE.92.022809
C. Llensa, D. Juher, J. Saldaña: On the early epidemic dynamics for pairwise models. Journal of Theoretical Biology, 352 (2014): 71-81. doi:10.1016/j.jtbi.2014.02.037
J.L. Garcia-Domingo, J. Saldaña: A pair-approximation model for spatial patterns in tree populations with asymmetrical resource competition. Mathematical Population Studies, 20 (2013): 175-191. doi: 10.1080/08898480.2013.831698
D. Juher, J. Ripoll, J. Saldaña: Outbreak analysis of an SIS epidemic model with rewiring. Journal of Mathematical Biology, 67 (2013): 411-432. doi: 10.1007/s00285-012-0555-4
J.L. Garcia-Domingo, J. Saldaña: Extinction threshold for spatial forest dynamics with height structure. Journal of Theoretical Biology, 276 (2011): 138-149. doi: 10.1016/j.jtbi.2011.02.003
D. Juher, J. Saldaña: Uncorrelatedness in growing network models with preferential survival of nodes. Physical Review E, 83 (2011), 016110. doi: 10.1103/PhysRevE.83.016110
J. Barberillo, J. Saldaña: Corrigendum to "Navigation in large subway networks: An informational approach [Physica A 390 (2011) 374-386]". Physica A 390 (2011): 3625-3626. doi:10.1016/j.physa.2011.05.001
J. Barberillo, J. Saldaña: Navigation in large subway networks: An informational approach. Physica A, 390 (2011): 374-386. doi:10.1016/j.physa.2010.09.017
R.V. Solé, J. Saldaña, J.M. Montoya, D. H. Erwin: Simple model of recovery dynamics after mass extinction. Journal of Theoretical Biology, 267 (2010): 193-200. doi:10.1016/j.jtbi.2010.08.015
J. Saldana: Modelling the spread of infectious diseases in complex metapopulations. Mathematical Modelling of Natural Phenomema, Vol. 5, No. 6 (2010): 22-37. doi: 10.1051/mmnp/20105602
D. Juher, J. Ripoll, J. Saldaña: Analysis and Monte Carlo simulations of a model for the spread of infectious diseases in heterogeneous metapopulations. Physical Review E, 80 (2009), 041920. doi: 10.1103/PhysRevE.80.041920
J. Saldaña: Continuous-time formulation of reaction-diffusion processes on heterogeneous metapopulations. Physical Review E, 78 (2008), 012902 doi:10.1103/PhysRevE.78.012902
R.V. Solé,
C. Rodríguez-Caso, T. Deisboeck, J. Saldaña: Cancer stem cells as the engine
of unstable tumor progression. Journal of Theoretical Biology,
253 (2008): 629-637 
doi:10.1016/j.jtbi.2008.04.019
J.L. Garcia-Domingo, D. Juher, J. Saldaña: Degree correlations in growing networks with deletion of nodes. Physica D, 237 (2008): 640-651 doi:10.1016/j.physd.2007.10.012
J.L. Garcia-Domingo, J. Saldaña: Effects of heterogeneous interaction strengths on food web complexity. Oikos, 117 (2008): 336-343 doi:10.1111/j.2007.0030-1299.16261.x
J.L. Garcia-Domingo, J. Saldaña: Food-web complexity emerging from ecological dynamics on adaptive networks. Journal of Theoretical Biology, 247 (2007): 819-826. doi:10.1016/j.jtbi.2007.04.011
J. Saldaña: Continuum formalism for modeling growing networks with deletion of nodes. Physical Review E, 75 (2007), 027102. doi:10.1103/PhysRevE.75.027102
À. Calsina, J. Saldaña: Basic theory for a class of models of hierarchically structured population dynamics with distributed states in the recruitment. Mathematical Models and Methods in Applied Sciences, 16 (2006): 1695-1722.
D. Juher, J. Saldaña, J. Soler: Asymptotic behavior of connecting-nearest-neighbor models for growing networks. Physica D, 214 (2006): 132-143.
J. Ripoll, J. Saldaña, J.C. Senar: Evolutionarily stable transition rates in a stage-structured model. An application to the analysis of size distributions of badges of social status. Mathematical Biosciences, 190 (2004): 145-181.
R.V. Solé, D. Alonso, J. Saldaña: Habitat fragmentation and biodiversity collapse in neutral communities. Ecological Complexity, 1 (2004): 65-75.
J. Saldaña, S. F. Elena, R. V. Solé: Coinfection and Superinfection in RNA virus populations: A selection-mutation model. Mathematical Biosciences, 183 (2003): 135-160.
À. Calsina, J. Saldaña: Global dynamics and optimal life history of a structured population model. SIAM Journal on Applied Mathematics, 59 (1999): 1667-85.
C. Ibàñez, J. Saldaña, N. Prat: A model to determine the advective circulation in a three layer, salt wedge estuary: application to the Ebre river estuary. Estuarine, Coastal and Shelf Science, 48 (1999): 271-279.
À. Calsina, J. Saldaña: Asymptotic behaviour of a model of hierarchically structured population dynamics. Journal of Mathematical Biology, 35 (1997): 967-987.
À. Calsina, J. Saldaña: A model of physiologically structured population dynamics with a nonlinear growth rate. Journal of Mathematical Biology, 33 (1995): 335-364.
À. Calsina, C. Perelló, J. Saldaña: Non-local reaction-diffusion equations modelling predator-prey coevolution. Publicacions Matemàtiques, 38 (1994): 315-325.
J.E. Cohen, S.L. Pimm, P. Yodzis, J. Saldaña: Body sizes of animal predators and animal prey in food webs. Journal of Animal Ecology, 62 (1993): 67-78.
A. Azuara, A. Vilarroya, J. Saldaña, M. Ríos: Tests estadísticos sobre la distribución exponencial basados en la distancia de Rao. Qüestiió, 15 (1991): 163-176.
Popular science
articles, book chapters and other papers
J.M. Hyman, F. Milner, J. Saldaña: Preface. Mathematical Modelling of Natural Phenomena, Vol. 9, No. 2 (2014): 1-3.
J. Saldaña: Modelos de propagación de enfermedades (Models for the spread of disease). Investigación y Ciencia (Spanish edition of Scientific American), October 2013, 56-57. (in Spanish)
J. Saldaña: La modelización de la propagación de epidemias. Matematicalia, Vol. 6 num. 2, 2010. (in Spanish)
J. Saldaña: Controvèrsies que enriqueixen. Revista "Engega" de la UdG, num. 9, p. 48, 2009. (in Catalan)
J. Saldaña: Modelling complex food webs. In: "2nd UniNet Workshop: Data, Networks and Dynamics", M. Kirkilionis, U. Kummer, I. Stoleriu (Eds), p.112-117, Logos Verlag Berlin, 2006 (ISBN: 3-8325-1308-6).
J. Saldaña: Models per entendre l'evolució biològica. Butlletí de la Societat Catalana de Matemàtiques, 19 (2004): 75-102. (in Catalan)
M. Kirkilionis, J. Saldaña: A height structured forest model. Preprint 2001-03 (SFB 359), Universitat Heidelberg.
J. Nadal, J.M. Soriano, J. Saldaña: Geochemical behaviour of catchments with different land cover: effect of land abandonment. Cuadernos de Investigación Geográfica, 27 (2001): 39-46.
J. Saldaña: Equacions quasi-lineals a la dinàmica de poblacions estructurades, tesi de doctorat realitzada al departament de Matemàtiques de la UAB sota la direcció del Dr. Àngel Calsina Ballesta, Publicacions de la Universitat Autònoma de Barcelona, 1996. ISBN: 84-490-0460-8.
M. Ríos, J. Saldaña, A. Azuara: Utilización de la distancia de Rao en la construcción del modelo de Regresión Logística. Actes del congrés de la SEIO, "XVIII Reunión Nacional de Estadística, Investigación Operativa e Informática": pp. 412-16, setembre 1989.