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Referencias:

• Adis, J., Bustorf, E., Lhano, M.G., Amédègnato, C., Nunes, A.L., Distribution of Cornops grasshoppers (Leptysminae: Acrididae: Orthoptera) in Latin America and the Caribbean Islands (2007) Stud. Neotrop. Fauna Environ, 42, pp. 11-24
• Adis, J., Sperber, C.F., Brede, E.G., Capello, S., Franceschini, M.C., Hill, M.L., Lhano, M.G., Polar, P., Morphometric differences in the grasshopper Cornops aquaticum (Bruner, 1906) from South America and South Africa (2008) J. Orthopt. Res, 17, pp. 141-147
• Adrion, J.R., Hahn, M.W., Cooper, B.S., Revisiting classic clines in Drosophila melanogaster in the age of genomics (2015) Trends Genet, 31, pp. 434-444
• Balanyà, J., Huey, R.B., Gilchrist, G.W., Serra, L., The chromosomal polymorphism of Drosophila subobscura: a microevolutionary weapon to monitor global change (2009) Heredity, 103, pp. 364-367
• Bidau, C.J., The complex Robertsonian system of Dichroplus pratensis (Melanoplinae: Acrididae). II. Effects of the fusion polymorphisms on chiasma frequency and distribution (1990) Heredity, 64, pp. 145-159
• Bidau, C.J., Hasson, E.R., Population cytology of Leptysma argentina Bruner (Leptysminae, Acrididae) (1984) Genetica, 62, pp. 161-175
• Bidau, C.J., Martí, D.A., Variability of chiasma frequency and morphological characters along a latitudinal gradient in Dichroplus pratensis (Orthoptera, Acrididae) (2005) Eur. J. Entomol, 102, pp. 1-12
• Bidau, C.J., Mirol, P.M., Orientation and segregation of Robertsonian trivalents in Dichroplus pratensis (Acrididae) (1988) Genome, 30, pp. 947-955
• Bidau, C.J., Giménez, M.D., Palmer, C.L., Searle, J.B., The effects of Robertsonian fusions on chiasma frequency and distribution in the house mouse (Mus musculus domesticus) from a hybrid zone in northern Scotland (2001) Heredity, 87, pp. 305-313
• Blackburn, T.M., Gaston, K.J., Loder, N., Geographic gradients in body size: a clarification of Bergmann's rule (1999) Divers. Distrib, 5, pp. 175-274
• Blanckenhorn, W.U., Demont, M., Bergmann and converse Bergmann latitu dinal clines in arthropods: two ends of a continuum? (2004) Integr. Com par. Biol, 44, pp. 413-424
• Bownes, A., (2009) Evaluation of a plant-herbivore system in determining potential efficacy of a candidate biological control agent, Cornops aquaticum for water hyacinth, Eichhornia crassipes, p. 204. , PhD Thesis, Rhodes University, Grahamstown
• Bownes, A., King, A., Nongogo, A., Pre-release studies and release of the grasshopper Cornops aquaticum in South Africa-a new biological control agent for water hyacinth, Eichhornia crassipes (2013) Proc, pp. 3-13. , Wu Y. et al. (eds). of the XIII. International Symposium on Biological Control of Weeds, Waikoloa, Hawaii, USA, 11-16 September, 2011. USDA Forest Service, Pacific Southwest Research Station, Institute of Pacific Islands Forestry, Hilo
• Camacho, J.P., Sharbel, T.F., Beukeboom, L.W., B-chromosome evolution (2000) Phil. Trans. R. Soc. Lond. (B), 355, pp. 163-178
• Capello, S., Wysiecki, M., Marchese, M., Feeding patterns of the aquatic grasshopper Cornops aquaticum (Bruner) (Orthoptera: Acrididae) in the middle Paraná River, Argentina (2010) Neotrop. Entomol, 40, pp. 170-175
• Center, T.D., Hill, M.P., Cordo, H., Julien, M.H., Waterhyacinth (2002) Biological Control of Invasive Plants in the Eastern United States, pp. 41-64. , Van Driesche R.B., Blossey M., Hoddle L.S. & Reardon R. (eds). Forest Health and Technology Enterprises Team, West Virginia
• Ciplak, B., Sirin, D., Taylan, M.S., Kaya, S., Altitudinal size clines, species richness and population density: case studies in Orthoptera (2008) J. Orthopt. Res, 17, pp. 157-163
• Coetzee, J.A., Hill, M.P., Byrne, M.J., Bownes, A., A review on the biological control programmes on Eichhornia crassipes (C. Mart.) Solms (Pontederiaceae), Salvinia molesta D.S. Mitch (Salviniaceae), Pistia stratiotes L. (Araceae), Myriophyllum aquaticum (Vell.) Verdc. (Haloragaceae) and Azolla filiculoides Lam. (Azollaceae) in South Africa (2011) Afr. Entomol, 19, pp. 451-468
• Colombo, P.C., Effects of centric fusions on chiasma frequency and position in Leptysma argentina (Acrididae: Orthoptera). I. Spontaneous and stable polymorphic centric fusions (1987) Genetica, 72, pp. 171-179
• Colombo, P.C., Chromosome polymorphisms affecting recombination and exophenotypic traits in Leptysma argentina (Orthoptera): a populational survey (1989) Heredity, 62, pp. 289-299
• Colombo, P.C., Effects of centric fusions on chiasma frequency and position in Leptysma argentina (Acrididae: Orthoptera). II. Intra-and interchromosome effects (1990) Caryologia, 43, pp. 131-147
• Colombo, P.C., Chromosome polymorphisms and natural selection in Leptysma argentina (Orthoptera). II. Gametic phase disequilibrium and differential adult male viability (1993) Heredity, 71, pp. 295-299
• Colombo, P.C., Exophenotypic effects of chromosomal change: the case of Leptysma argentina (Orthoptera) (1997) Heredity, 79, pp. 631-637
• Colombo, P.C., Chromosome polymorphisms and natural selection in Leptysma argentina (Orthoptera). IV. Survival selection acts on karyotype polymorphisms at the adult stage and before (2000) Hereditas, 133, pp. 189-193
• Colombo, P.C., Effects of polymorphic Robertsonian rearrangements on the frequency and distribution of chiasmata in the water-hyacinth grasshopper, Cornops aquaticum (Orthoptera: Acrididae) (2007) Eur. J. Entomol, 104, pp. 653-665
• Colombo, P.C., Cytogeography of three parallel Robertsonian polymorphisms in the water-hyacinth grasshopper, Cornops aquaticum (2008) Eur. J. Entomol, 105, pp. 59-64
• Colombo, P.C., Environment-dependent regime of longevity selection in the chromosomally polymorphic species Leptysma argentina (Acrididae: Orthoptera) (2012) Caryologia, 65, pp. 126-129
• Colombo, P.C., Micro-evolution in grasshoppers mediated by polymorphic Robertsonian translocations (2013) J. Insect Sci, 13, p. 22
• Colombo, P.C., Confalonieri, V.A., An adaptive pattern of inversion polymor phisms in Trimerotropis pallidipennis (Orthoptera). Correlation with envi ronmental variables: an overall view (1996) Hereditas, 125, pp. 289-296
• Colombo, P.C., Remis, M.I., Morphometric variation in chromosomally polymorphic grasshoppers (Orthoptera: Acrididae) from South America: Bergmann and converse Bergmann patterns (2015) Fla Entomol, 98, pp. 570-574
• Colombo, P.C., Pensel, S., Remis, M.I., Chromosomal polymorphism, morphometric traits and mating success in Leptysma argentina Bruner (Orthoptera) (2004) Genetica, 121, pp. 25-31
• Dolskiy, A.A., Lemskaya, N.A., Maksimova, Y.V., Shorina, A.R., Kolesnikova, I.S., Yudkin, D.V., Robertsonian translocation 13/14 associated with rRNA genes overexpression and intellectual disability (2018) Egypt. J. Medic. Hum. Genet, 19, pp. 141-145
• Dumas, D., Britton-Davidian, J., Chromosomal rearrangements and evolution of recombination: comparison of chiasma distribution patterns in standard and Robertsonian populations of the house mouse (2002) Genetics, 162, pp. 1355-1366
• Endler, J.A., (1986) Natural Selection in the Wild, p. 336. , Princeton University Press, Princeton, NJ
• Excoffier, L., Ray, N., Surfing during population expansions promotes genetic revolutions and structuration (2009) Trends Ecol. Evol, 23, pp. 347-351
• Faria, R., Navarro, A., Chromosomal speciation revisited: rearranging theory with pieces of evidence (2010) Trends Ecol. Evol, 25, pp. 660-669
• França Rocha, M.F., Souza, M.J., Moura, R.C., Karyotype analysis, constitutive heterochromatin and NOR distribution in five grasshopper species of the subfamily Leptysminae (Acrididae) (2004) Caryologia, 57, pp. 107-116
• Franceschini, M.C., De Wysiecki, M.L., Poi De Neiff, A., Galassi, M.E., Martínez Fedra, S., The role of the host-specific grasshopper Cornops aquaticum (Orthoptera: Acrididae) as consumer of native Eichhornia crassipes (Pontederiaceae) floating meadows (2011) Rev. Biol. Trop, 59, pp. 1407-1418
• Franchini, P., Colangelo, P., Solano, E., Capanna, E., Verheyen, E., Castiglia, R., Reduced gene flow at pericentromeric loci in a hybrid zone involving chromosomal races of the house mouse Mus musculus domesticus (2010) Evolution, 64, pp. 2020-2032
• Franchini, P., Colangelo, P., Meyer, A., Fruciano, C., Chromosomal rearrangements, phenotypic variation and modularity: a case study from a contact zone between house mouse Robertsonian races in Central Italy (2016) Ecol. Evol, 6, pp. 1353-1362
• Hallatschek, O., Hersen, P., Ramanathan, S., Nelson, D.R., Genetic drift at expanding frontiers promotes gene segregation (2007) Proc. Natl. Acad. Sci. USA, 104, pp. 19926-19930
• Hewitt, G.M., (1979) Orthoptera: Grasshoppers and Cricke, 3, p. 170. , Animal Cytogenetics: Insecta 1. Gebrüder Borntraeger, Berlin
• Hewitt, G.M., Schroeter, G., Population cytology of the genus Oedaleonotus. I. The karyotypic facies of Oedaleonotus enigma (Scudder) (1967) Chromosoma, 25, pp. 121-140
• John, B., The role of chromosome change in the evolution of orthopteroid insects (1983) Chromosomes in Evolution of Eucariotic Groups, 1, pp. 1-110. , Sharma A.K. & Sharma A. (eds). CRS Press, Boca Raton, FL
• Laayouni, H., García Franco, F., Chávez Sandoval, B.E., Trotta, V., Beltran, S., Corominas, M., Santos, M., Thermal evolution of gene expression profiles in Drosophila subobscura (2007) BMC Evol. Biol, 7, p. 15
• Lehmann, G.U.C., Lehmann, A.W., Variation in body size among populations of the bushcricket Poecilimon thessalicus (Orthoptera: Phaneropteridae): an ecological adaptation (2008) J. Orthopt. Res, 17, pp. 165-169
• Lemeunier, F., Aulard, S., Inversion polymorphism in Drosophila melanogaster (1992) Drosophila Inversion Polymorphism, pp. 339-405. , Krimbas C.B. & Powell J.R. (eds). CRC Press, Boca Raton, FL
• Marques-Bonet, T., Navarro, A., Chromosomal rearrangements are associated to higher rates of molecular evolution in mammals (2005) Gene, 353, pp. 147-154
• Martí, D.A., Bidau, C.J., Male and female meiosis in a natural population of Dichroplus pratensis (Acrididae) polymorphic for Robertsonian translocations: A study of chiasma frequency and distribution (1995) Hereditas, 123, pp. 227-235
• Martí, E., Castillo, E.R., Martí, D.A., Taffarel, A., Polimorfi smo de fusiones céntricas en poblaciones naturales de Scotussa cliens (Stal, 1861) (Acrididae: Melanoplinae) (2017) J. Basic Appl. Genet. (Suppl.), 28, p. 52
• Mcclung, C.E., The multiple chromosomes of Hesperotettix and Mermiria (Orthoptera) (1917) J. Morphol, 29, pp. 519-605
• Mesa, A., Los cromosomas de algunos Acridoideos uruguayos (Orth. Caelifera, Acridoidea) (1956) Agros, 141, pp. 32-45
• Mesa, A., Ferreira, A., Carbonell, C.S., Cariología de los acrídidos Neotropicales: estado actual de su conocimiento y nuevas contribuciones (1982) Ann. Soc. Entomol. Fr. (N.S.), 18, pp. 507-526
• Norry, F.M., Colombo, P.C., Chromosome polymorphisms and natural selection in Leptysma argentina (Orthoptera): external phenotype affected by a centric fusion predicts adult survival (1999) J. Genet, 78, pp. 57-62
• Oberholzer, I.G., Hill, M.P., How safe is the grasshopper, Cornops aquaticum for release on water hyacinth in South Africa? (2001) Biological and Integrated Control of Water Hyacinth, Eichhornia crassipes. ICIAR Proceedings, 102, pp. 82-88. , Julien M.H, Hill M.P, Centre T.D. & Ding J. (eds)
• (2012) PAST Version 2.16; Paleontol Electron, , http://www.palaeoelectronica.org/2001_1/past/issue1_01.htm
• Prevosti, A., Ribó, G., Serra, L., Aguadé, M., Balañá, J., Monclús, M., Mestres, F., Colonization of America by Drosophila subobscura: Experiment in natural populations that supports the adaptive role of chromosomal-inversion polymorphism (1988) Proc. Natn. Acad. Sci. USA, 85, pp. 5597-5600
• Remis, M.I., Cytogenetic studies in Sinipta dalmani (Orthoptera: Acrididae). I. Effects of pericentric inversions on chiasma conditions (1989) Caryologia, 42, pp. 285-294
• Remis, M.I., Cytogenetic studies in Sinipta dalmani Stal (Orthoptera: Acrididae). II. Effects of centric fusions on chiasma frequency and distribution (1990) Génét. Sélect. évol, 22, pp. 263-272
• Remis, M.I., Chromosome polymorphisms in natural populations of the South American grasshopper Sinipta dalmani (2008) Genet. Mol. Biol, 31, pp. 42-48
• Rieseberg, L.H., Chromosomal rearrangements and speciation (2001) Trends Ecol. Evol, 16, pp. 351-358
• Romero, M.L., Colombo, P.C., Remis, M.L., Morphometric differentiation in Cornops aquaticum (Orthoptera: Acrididae): associations with sex, chromosome, and geographic conditions (2014) J. Insect Sci, 14, p. 8
• Romero, M.L., Colombo, P.C., Remis, M.L., Microsatellite DNA analysis of population structure in Cornops aquaticum (Orthoptera: Acrididae), over a cline for three Robertsonian translocations (2017) Evol. Ecol, 44, pp. 273-283
• Rosetti, N.M.E., Remis, M.I., Variability of minisatellite loci and mtDNA in individuals with and without B chromosomes from populations of the grasshopper Dichroplus elongatus (2017) Evol. Biol, 44, pp. 273-283
• Strasburg, J.L., Scotti-Saintagne, C., Scotti, I., Lai, Z., Rieseberg, L.H., Genomic patterns of adaptive divergence between chromosomally differentiated sunflower species (2009) Mol. Biol. Evol, 26, pp. 1341-1355
• Taffarel, A., Bidau, C.J., Martí, D.A., Chromosome fusion polymorphisms in the grasshopper, Dichroplus fuscus (Orthoptera: Acrididae: Melanoplinae): Insights on meiotic effects (2015) Eur. J. Entomol, 112, pp. 11-19
• White, M.J.D., A cytological survey of wild populations of Trimerotropis and Circotettix (Orthoptera, Acrididae). II. Racial differentiation in T. sparsa (1951) Genetics, 36, pp. 31-53
• Whitman, D.W., The significance of body size in the Orthoptera: a review (2008) J. Orthopt. Res, 17, pp. 117-134
• Wolff, D.J., Schwartz, S., Characterization of Robertsonian translocations by using fluorescence in situ hybridization (1992) Am. J. Hum. Genet, 50, pp. 174-181

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