Registro:

Referencias:

• (2015), http://www.accuweather.com, com; Aghajanian, G.K., Marek, G.J., Serotonin and hallucinogens (1999) Neuropsychopharmacol, 21, pp. 16-23
• Agrawal, A.A., Weber, M.G., On the study of plant defence and herbivory using comparative approaches: how important are secondary plant compounds (2015) Ecology Letters, 18, pp. 985-991
• Bakker, K., Feeding period, growth, and pupation in larvae of Drosophila melanogaster (1959) Entomologia Experimentalis et Applicata, 2, pp. 171-186
• Bakker, K., Nelissen, F.X., On the relations between the duration of the larval and pupal period, weight and diurnal rhythm in emergence in Drosophila melanogaster (1963) Entomologia Experimentalis et Applicate, 6, pp. 37-52
• Bartholomew, G.A., The role of physiology and behavior in the maintenance of homeostasis in the desert environment (1964) Symposia of the Society for Experimental Biology, 18, pp. 7-29
• Bateman, M.A., The effects of light and temperature on the rhythm of pupal ecdysis in the Queensland fruit-fly, Dacus (Strumeta) tryoni (Frogg.) (1955) Australian Journal of Zoology, 3, pp. 22-33
• Bates, D., Mächler, M., Bolker, B., Walker, S., (2014) Fitting linear mixed-effects models using lme4, , https://arxiv.org/abs/1406.5823, arXiv preprint
• Bliss, C.I., Temperature characteristics for prepupal development in Drosophila melanogaster (1926) Journal of General Physiology, 9, pp. 467-495
• Bono, J.M., Matzkin, L.M., Castrezana, S., Markow, T.A., Molecular evolution and population genetics of two Drosophila mettleri cytochrome P450 genes involved in host plant utilization (2008) Molecular Ecology, 17, pp. 3211-3221
• Boake, C.R.B., (1994) Quantitative Genetic Studies of Behavioral Evolution, , (ed., C.R.B. Boake, University of Chicago Press, Chicago and London, l–390
• Brett, W.J., Persistent diurnal rhythmicity in Drosophila emergence (1955) Annals of the Entomological Society of America, 48, pp. 119-131
• Bünning, E., (1958) Die physiologische Uhr, , Göttingen, Heidelberg, Springer Verlag, Berlin
• Carreira, V.P., Padró, J., Mongiardino Koch, N.M., Fontanarrosa, P., Alonso, I., Soto, I., Nutritional composition of Opuntia sulphurea G. Don Cladodes (2014) Haseltonia, 19, pp. 38-45
• Corio, C., Soto, I.M., Carreira, V., Padro, J., Betti, M.I.L., Hasson, E., An alkaloid fraction extracted from the cactus Trichocereus terscheckii affects fitness in the cactophilic fly Drosophila buzzatii (Diptera: Drosophilidae) (2013) Biological Journal of the Linnean Society, 109, pp. 342-353
• Cortese, M., Norry, F.M., Piccinali, R., Hasson, E., Direct and correlated responses to selection on wing length and developmental time in Drosophila buzzatii (2002) Evolution, 56, pp. 2541-2547
• Coyne, J.A., Bundgaard, J., Prout, T., Geographic variation of tolerance to environmental stress in Drosophila pseudoobscura (1983) American Naturalist, 122, pp. 474-488
• Cymborowski, B., Muszyńska, M., The effect of some psychotropic drugs on the circadian rhythm of locomotor activity of Acheta domesticus L (1974) Biological Rhythm Research, 5 (3-4), pp. 362-370
• Cymborowski, B., Serotonin modulates a photic response in circadian locomotor rhythmicity of adults of the blow fly (1998) Calliphora vicina. Physiological Entomology, 23, pp. 25-32
• Dahlgaard, J., Hasson, E., Loeschcke, V., Behavioral differentiation in oviposition activity in Drosophila buzzatii from highland and lowland populations in Argentina: plasticity or thermal adaptation (2001) Evolution, 55, pp. 738-747
• Danielson, P.B., Letman, J.A., Fogleman, J.C., Alkaloid metabolism by cytochrome P-450 enzymes in Drosophila melanogaster (1995) Comparative Biochemistry and Physiology B-Biochemistry & Molecular Biology, 110, pp. 683-688
• David, J.R., Gibert, P., Legout, H., Pétavy, G., Capy, P., Moreteau, B., Isofemale lines in Drosophila: an empirical approach to quantitative trait analysis in natural populations (2005) Heredity, 94, pp. 3-12
• De Panis, D.N., Padró, J., Furió Tarí, P., Tarazona Campos, S., Milla Carmona, P.S., Soto, I.M., Transcriptome modulation during host shift is driven by secondary metabolites in desert Drosophila (2016) Molecular Ecology, 25, pp. 4534-4550
• Durando, C.M., Baker, R.H., Etges, W.J., Heed, W.B., Wasserman, M., DeSalle, R., Phylogenetic analysis of the repleta species group of the genus Drosophila using multiple sources of characters (2000) Molecular phylogenetics and Evolution, 16, pp. 296-307
• Etges, W.J., Trotter, M.V., Oliveira, C.C., Rajpurohit, S., Gibbs, A.G., Deciphering life history transcriptomes in different environments (2015) Molecular Ecology, 24, pp. 151-179
• Fanara, J., Fontdevila, A., Hasson, E.R., Oviposition preference, viability, developmental time and body size in the cactophilic sibling species Drosophila koepferae and D. buzzatii in association to their natural hosts (1999) Evolutionary Ecology, 13, pp. 173-190
• Feder, M.E., Blair, N., Figueras, H., Oviposition site selection: unresponsiveness of Drosophila to cues of potential thermal stress (1997) Animal Behavior, 53, pp. 585-588
• Feder, M.E., Roberts, S.P., Bordelon, A.C., Molecular thermal telemetry of free-ranging adult Drosophila melanogaster (2000) Oecologia, 123, pp. 460-465
• Fogleman, J.C., Response of Drosophila melanogaster to selection for P450-mediated resistance to isoquinoline alkaloids (2000) Chemico-Biological Interactions, 125, pp. 93-105
• Folguera, G., Ceballos, S., Spezzi, L., Fanara, J.J., Hasson, E., Clinal variation in developmental time and viability, and the response to thermal treatments in two species of Drosophila (2008) Biological Journal of the Linnean Society, 95, pp. 233-245
• Fontdevila, A., Pla, C., Hasson, E., Ruiz, A., Drosophila koepferae: a new member of the Drosophila serido (Diptera: Drosophilidae) superspecies taxon (1988) Annals of the Entomological Society of America, 81, pp. 380-385
• Fox, J., Weisberg, S., (2011) An {R} Companion to Applied Regression, , http://socserv.socsci.mcmaster.ca/jfox/Books/Companion, 2nd edn, Thousand Oaks CA, Sage
• Froy, O., Cytochrome P450 and the biological clock in mammals (2009) Current Drug Metabolism, 10, pp. 104-115
• Hasson, E., Naveira, H., Fontdevila, A., The breeding sites of the Argentinian species of the Drosophila mulleri complex (subgenus Drosophila-repleta group) (1992) Revista Chilena de Historia Natural, 65, pp. 319-326
• Hoffmann, A.A., Heritable variation for territorial success in field-collected Drosophila melanogaster (1991) American Naturalist, 138, pp. 668-679
• Hoffmann, A.A., Parsons, P.A., (1991) Evolutionary Genetics and Environmental Stress, , Oxford Univ. Press, New York
• Hurtado, J., Soto, E.M., Orellana, L., Hasson, E., Mating success depends on rearing substrate in cactophilic Drosophila (2012) Evolutionary Ecology, 26, pp. 733-743
• Junge-Berberovic, R., Effect of thermal environment on life histories of free-living Drosophila melanogaster and D. subobscura (1996) Oecologia, 108, pp. 262-272
• Krebs, R.A., Bean, K.L., The mating behavior of Drosophila mojavensis on organ pipe and agria cactus (1991) Psyche, 98, pp. 101-109
• Manfrin, M.H., Sene, F.M., Cactophilic Drosophila in South America: a model for evolutionary studies (2006) Genetica, 126, pp. 57-75
• Markow, T.A., O'Grady, P., (2005) Drosophila: A Guide to Species Identification and Use, , Academic Press, Cambridge, Massachusetts
• Matzkin, L.M., Watts, T.D., Bitler, B.G., Machado, C.A., Markow, T.A., Functional genomics of cactus host shifts in Drosophila mojavensis (2006) Molecular Ecology, 15, pp. 4635-4643
• Mongiardino Koch, N.M., Soto, I.M., Galvagno, M., Hasson, E., Iannone, L., Biodiversity of cactophilic microorganisms in western Argentina: community structure and species composition in the necroses of two sympatric cactus hosts (2015) Fungal Ecology, 13, pp. 167-180
• Narberhaus, I., Zintgraf, V., Dobler, S., Pyrrolizidine alkaloids on three trophic levels–evidence for toxic and deterrent effects on phytophages and predators (2005) Chemoecology, 15, pp. 121-125
• Nishinokubi, I., Tomioka, K., Analysis of the mechanism underlying the rhythm reversal from diurnal to nocturnal in the cricket Gryllus bimaculatus, with special reference to the role of serotonin (2000) Zoological Science, 17, pp. 1075-1080
• Norry, F.M., Bubliy, O.A., Loeschcke, V., Developmental time, body size and wing loading in Drosophila buzzatii from lowland and highland populations in Argentina (2001) Hereditas, 135, pp. 35-40
• Oliveira, D.C.S.G., Almeida, F.C., O'Grady, P.M., Armella, M.A., DeSalle, R., Etges, W.J., Monophyly, divergence times, and evolution of host plant use inferred from a revised phylogeny of the Drosophila repleta species group (2012) Molecular Phylogenetics and Evolution, 64, pp. 533-544
• Onishi, Y., Kawano, Y., Yamazaki, Y., Lycorine, a candidate for the control of period length in mammalian cells (2012) Cellular Physiology and Biochemistry, 29 (3-4), pp. 407-416
• Onishi, Y., Oishi, K., Kawano, Y., Yamazaki, Y., The harmala alkaloid harmine is a modulator of circadian Bmal1 transcription (2012) Bioscience Reports, 32, pp. 45-52
• Padró, J., Soto, I.M., Exploration of the nutritional profile of Trichocereus terscheckii (Parmentier) Britton and Rose stems (2013) Journal of the Professional Association for Cactus Development, 15, pp. 1-12
• Padró, J., Carreira, V., Corio, C., Hasson, E., Soto, I.M., Host alkaloids differentially affect developmental stability and wing vein canalization in cactophilic Drosophila buzzatii (2014) Journal of Evolutionary Biology, 27, pp. 2781-2797
• Palmén, E., Diel periodicity of pupal emergence in natural populations of some Chironomids (Diptera) (1955) Annales Botanici Societatis Zoologicæ-Botanicæ Fennicæ “Vanamo”, 17, pp. 1-30
• Pan, Y., Michael, T.P., Hudson, M.E., Kay, S.A., Chory, J., Schuler, M.A., Cytochrome P450 monooxygenases as reporters for circadian-regulated pathways (2009) Plant Physiology, 150, pp. 858-878
• Panda, S., Hogenesch, J.B., Kay, S.A., Circadian rhythms from flies to human (2002) Nature, 417 (6886), pp. 329-335
• Pittendrigh, C.S., On temperature independence in the clock system controlling emergence time in Drosophila (1954) Proceedings of the National Academy of Sciences of the United States of America, 40, pp. 1018-1029
• Pittendrigh, C.S., Adaptation, natural selection, and behavior (1958) Behavior and Evolution, 390, p. 416
• (2015) R: A Language and Environment for Statistical Computing, , http://www.R-project.org/, R Foundation for Statistical Computing, Vienna, Austria
• Reti, L., Castrillón, J.A., Cactus alkaloids. I. Trichocereus terscheckii (Parmentier) Britton and Rose (1951) Journal of the American Chemical Society, 73, pp. 1767-1769
• Saunders, D.S., (2002) Insect Clock, , ElSelvier, Amsterdam
• Sørensen, J.G., Loeschcke, V., Natural adaptation to environmental stress via physiological clock-regulation of stress resistance in Drosophila (2002) Ecological Letter, 5, pp. 16-19
• Soto, I.M., Carreira, V.P., Fanara, J.J., Hasson, E., Evolution of male genitalia: environmental and genetic factors affect genital morphology in two Drosophila sibling species and their hybrids (2007) BMC Evolutionary Biology, 7, p. 77
• Soto, E.M., Soto, I.M., Carreira, V.P., Fanara, J.J., Hasson, E., Host-related life history traits in interspecific hybrids of cactophilic Drosophila (2008) Entomologia Experimentalis et Applicata, 126, pp. 18-27
• Soto, I.M., Carreira, V.P., Soto, E.M., Hasson, E., Wing morphology and fluctuating asymmetry depend on the host plant in cactophilic Drosophila (2008) Journal of Evolutionary Biology, 21, pp. 598-609
• Soto, E.M., Goenaga, J., Hurtado, J.P., Hasson, E., Oviposition and performance in natural hosts in cactophilic Drosophila (2012) Evolutionary Ecology, 26, pp. 975-990
• Soto, I.M., Carreira, V.P., Corio, C., Padro, J., Soto, E.M., Hasson, E., Differences in tolerance to host cactus alkaloids in Drosophila koepferae and D. buzzatii (2014) PLoS ONE, 9 (2)
• Throckmorton, L.H., Handbook of genetics: invertebrates of genetic interest (1975) The Phylogeny, Ecology and Geography of Drosophila, p. 3. , (ed., R.C. King, 42l–469., Plenum, New York
• Walkiewicz, M.A., Stern, M., Increased insulin/insulin growth factor signaling advances the onset of metamorphosis in Drosophila (2009) PLoS ONE, 4
• Whitford, W.G., Invertebrates as Webmasters (1999) Keystone Arthropods as Webmasters in Desert Ecosystems, pp. 25-41. , (eds., D.C. Coleman, &, P. Hendrix, Academic Press, London
• Worthen, W.B., Tildon Jones, M., Jetton, R.M., Community structure and environmental stress: desiccation promotes nestedness in mycophagous fly communities (1998) Oikos, 81, pp. 45-54
• Worthen, W.B., Haney, D.C., Temperature tolerance in three mycophagous Drosophila species: relationships with community structure (1999) Oikos, 86, pp. 113-118
• Yadav, P., Sharma, V.K., Correlated changes in circadian clocks in response to selection for faster pre-adult development in fruit flies Drosophila melanogaster (2013) Journal of Comparative Physiology B–Biochemical Systemic and Environmental Physiology, 183, pp. 333-343
• Yuan, Q., Lin, F., Zheng, X., Sehgal, A., Serotonin modulates circadian entrainment in Drosophila (2005) Neuron, 47, pp. 115-127

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------