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Cyanobacteria facilitate parasite epidemics in <I>Daphnia</I>
Tellenbach, C., Tardent, N., Pomati, F., Keller, B., Hairston Jr., N. G., Wolinska, J., & Spaak, P. (2016). Cyanobacteria facilitate parasite epidemics in Daphnia. Ecology, 97(12), 3422-3432. https://doi.org/10.1002/ecy.1576
Quality attracts parasites: host condition-dependent chemo-orientation of trematode larvae
Seppälä, O., & Leicht, K. (2015). Quality attracts parasites: host condition-dependent chemo-orientation of trematode larvae. Functional Ecology, 29(6), 791-795. https://doi.org/10.1111/1365-2435.12392
Relative reproductive success of co-infecting parasite genotypes under intensified within-host competition
Seppälä, O., Louhi, K. R., Karvonen, A., Rellstab, C., & Jokela, J. (2015). Relative reproductive success of co-infecting parasite genotypes under intensified within-host competition. Infection, Genetics and Evolution, 36, 450-455. https://doi.org/10.1016/j.meegid.2015.08.015
Water temperature, not fish morph, determines parasite infections of sympatric Icelandic threespine sticklebacks (<I>Gasterosteus aculeatus</I>)
Karvonen, A., Kristjánsson, B. K., Skúlason, S., Lanki, M., Rellstab, C., & Jokela, J. (2013). Water temperature, not fish morph, determines parasite infections of sympatric Icelandic threespine sticklebacks (Gasterosteus aculeatus). Ecology and Evolution, 3(6), 1507-1517. https://doi.org/10.1002/ece3.568
Prevalence of infection as a predictor of multiple genotype infection frequency in parasites with multiple-host life cycle
Louhi, K. R., Karvonen, A., Rellstab, C., Louhi, R., & Jokela, J. (2013). Prevalence of infection as a predictor of multiple genotype infection frequency in parasites with multiple-host life cycle. Journal of Animal Ecology, 82(1), 191-200. https://doi.org/10.1111/j.1365-2656.2012.02028.x
Is more better? Polyploidy and parasite resistance
King, K. C., Seppälä, O., & Neiman, M. (2012). Is more better? Polyploidy and parasite resistance. Biology Letters, 8(4), 598-600. https://doi.org/10.1098/rsbl.2011.1152
Reciprocal interaction matrix reveals complex genetic and dose-dependent specificity among coinfecting parasites
Seppälä, O., Karvonen, A., Rellstab, C., Louhi, K. R., & Jokela, J. (2012). Reciprocal interaction matrix reveals complex genetic and dose-dependent specificity among coinfecting parasites. American Naturalist, 180(3), 306-315. https://doi.org/10.1086/666985
Food makes you a target: disentangling genetic, physiological, and behavioral effects determining susceptibility to infection
Seppälä, O., Karvonen, A., Haataja, M., Kuosa, M., & Jokela, J. (2011). Food makes you a target: disentangling genetic, physiological, and behavioral effects determining susceptibility to infection. Evolution, International Journal of Organic Evolution, 65(5), 1367-1375. https://doi.org/10.1111/j.1558-5646.2010.01205.x
Are cryptic host species also cryptic to parasites? Host specificity and geographical distribution of acanthocephalan parasites infecting freshwater <I>Gammarus</I>
Westram, A. M., Baumgartner, C., Keller, I., & Jokela, J. (2011). Are cryptic host species also cryptic to parasites? Host specificity and geographical distribution of acanthocephalan parasites infecting freshwater Gammarus. Infection, Genetics and Evolution, 11(5), 1083-1090. https://doi.org/10.1016/j.meegid.2011.03.024
Higher parasite resistance in <I>Daphnia</I> populations with recent epidemics
Schoebel, C. N., Wolinska, J., & Spaak, P. (2010). Higher parasite resistance in Daphnia populations with recent epidemics. Journal of Evolutionary Biology, 23(11), 2370-2376. https://doi.org/10.1111/j.1420-9101.2010.02097.x
Hybrid fitness in a locally adapted parasite
Dybdahl, M. F., Jokela, J., Delph, L. F., Koskella, B., & Lively, C. M. (2008). Hybrid fitness in a locally adapted parasite. American Naturalist, 172(6), 772-782. https://doi.org/10.1086/592866