Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts

Oroño, L.; Paulin, L.; Alberti, A.C.; Hilal, M.; Ovruski, S.; Vilardi, J.C.; Rull, J.; Aluja, M.

doi:10.1603/EN13020

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Oroño, L.; Paulin, L.; Alberti, A.C.; Hilal, M.; Ovruski, S.; Vilardi, J.C.; Rull, J.; Aluja, M. "Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts" (2013) Environmental Entomology. 42(4):790-798

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Abstract:

Herbivore host specialization includes changes in behavior, driven by locally induced adaptations to specific plants. These adaptations often result in sexual isolation that can be gauged through detection of reduced gene flow between host associated populations. Hypothetically, reduced gene flow can be mediated both by differential response to specific plant kairomones and by the influence of larval diet on some adult traits such as pheromone composition. These hypotheses could serve as a model to explain rapid radiation of phytophagous tephritid fruit flies, a group that includes several complexes of cryptic species. The South American Fruit Fly Anastrepha fraterculus (Wiedemann) is a complex of at least seven cryptic species among which pheromone mediated sexual isolation resulted in rapid differentiation. Cryptic species also exhibit differences in host affiliation. In search of a model explaining rapid radiation in this group, we studied host plant chemical composition and genetic structure of three host associated sympatric populations of A. fraterculus. Chemical composition among host plant fruit varied widely both for nutrient and potentially toxic secondary metabolite content. Adaptation to plant chemistry appears to have produced population differentiation. We found host mediated differentiation to be stronger between populations exploiting sympatric synchronic hosts differing in chemical composition, than between populations that exploit hosts that fruit in succession. Gene flow among such host associated populations was extremely low. We propose as a working hypothesis for future research, that for those differences to persist over time, isolating mechanisms such as male produced sex pheromones and female preferences resulting from adaptation to different larval diets should evolve. © 2013 Entomological Society of America.

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Documento:	Artículo
Título:	Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts
Autor:	Oroño, L.; Paulin, L.; Alberti, A.C.; Hilal, M.; Ovruski, S.; Vilardi, J.C.; Rull, J.; Aluja, M.
Filiación:	Cátedra de Biología Celular y Molecular, Facultad de Ciencias Naturales, Universidad Nacional de Chilecito, Argentina Laboiatorio de Investigaciones Ecoetológicas de Moscas de la Fruta y Sus Enemigos Naturales, División Control Biológico, Planta Piloto de Procesos Industriales Microbiologicos y Biotecnologia - CCT Tucuman - CONICET, Av. Belgrano y Pje. Caseras, T4001MVB San Miguel de Tucumán, Tucumán, Argentina Instituto de Ecología A.C. Xalapa, Mexico Laboratory, Genética de Poblaciones Aplicada, Depto. Ecología, Genética y Evolución, Universidad de Buenos Aires. IEGEBA-CONICET, Argentina Cátedra de Fisiología Vegetal, Facultad de Ciencias Naturales e IML, Universidad Nacional de Tucumán, Tucumán, Argentina
Palabras clave:	Cryptic species complex; Gene flow; Host mediated differentiation; South American fruit fly; adaptive radiation; biochemical composition; crypsis; entomology; fly; fruit; gene flow; genetic differentiation; host plant; kairomone; phytochemistry; plant-herbivore interaction; secondary metabolite; sex pheromone; specialization; species complex; sympatry; pheromone; animal; Argentina; article; chemistry; female; food chain; gene flow; genetics; interspersed repeat; physiology; polymerase chain reaction; Prunus; Psidium; species differentiation; sympatry; Tephritidae; walnut; Animals; Argentina; Female; Food Chain; Gene Flow; Genetic Speciation; Interspersed Repetitive Sequences; Juglans; Pheromones; Polymerase Chain Reaction; Prunus; Psidium; Sympatry; Tephritidae
Año:	2013
Volumen:	42
Número:	4
Página de inicio:	790
Página de fin:	798
DOI:	http://dx.doi.org/10.1603/EN13020
Título revista:	Environmental Entomology
Título revista abreviado:	Environ. Entomol.
ISSN:	0046225X
CODEN:	EVETB
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0046225X_v42_n4_p790_Orono

Referencias:

Alberti, A.C., Rodriguero, M.S., Gomez Cendra, P., Saidman, B.O., Vilardi, J.C., Evidence indicating that argentine populations of anastrepha fraterculus(diptera: Tephritidae) belong to a single biological species (2002) Ann. Entomol. Soc. Am, 95, pp. 505-512
Alberti, A.C., Confalonieri, V.A., Zandomeni, R.O., Vilardi, J.C., Phylogeographic studies on natural populations of the South American fruit ßy, Anastrepha fraterculus(Diptera: Tephritidae (2008) Genetica, 132, pp. 1-8
Aluja, M., Piñero, J., Jácome, I., Díaz-Fleischer, F., Sivinski, J., Behavior of ßies in the genus Anastrepha(Trypetinae: Toxotrypanini (2000) Fruit Flies (Tephritidae): Phylogeny and Evolution of Behavior, pp. 375-406. , M Aluja, A. L. Norrbom (eds CRC, Boca Raton, FL
Aluja, M., Perez-Staples, D., MacIas-Ordoñez, R., Piñero, J., McPheron, B., Hernández-Ortiz, V., Nonhost status of Citrus sinensis cultivar Valencia and C paradise cultivar ruby red to mexican anastrepha fraterculus(diptera: Tephritidae (2003) J. Econ. Entomol, 96, pp. 1693-1703
Baker, S., Chan, A.S.T., Jimeno-Zavala, M.A., Dispersal and orientation of sterile ceratitis capitata and anastrepha ludens (tephritidae) in chiapas (1986) Mexico. J. Appl. Ecol, 23, pp. 27-38
Basso, A., Sonvico, A., Quesada-Allue, L., Manso, F., Karyotipic and molecular identi cation of laboratory stocks of the South American fruit ßy Anastrepha fraterculus(Wied) (Diptera: Tephritidae (2003) J. Econ. Entomol, 96, pp. 1237-1244
Becerra, J.X., Insects on plants: Macroevolutionary chemical trends in host use (1997) Science, 276, pp. 253-256
Berlocher, S.H., Radiation and divergence in the Rhagoletis pomonella species group: Inferences from allozymes (2000) Evolution, 54, pp. 543-557
Berlocher, S.H., Feder, J.L., Sympatric speciation in phytophagous insects: Moving beyond controversy? Annu (2002) Rev. Entomol, 47, pp. 773-815
Bernays, E., Graham, M., On the evolution of host speci city in phytophagous arthropods (1988) Ecology, 69, pp. 886-892
Blair, C.P., Schlanger, R.V., Diamond, S.E., Abrahamson, W.G., Nutrition as a facilitator of host-race formation: The shift of a stem-boring beetle to a gall host (2010) Ecol. Entomol, 35, pp. 396-406
Bradford, M.M., A rapid and sensitive method for the quanti cation of micrograms quantities of protein-die binding (1976) Analyt. Biochem, 72, pp. 248-254
Bush, G.L., Sympatric host race formation and speciation in frugivorous ßies of the genus rhagoletis (diptera: Tephritidae (1969) Evolution, 23, pp. 237-251
Cáceres, C., Segura, D.F., Vera, M.T., Wornoayporn, V., Cladera, J.L., Teal, P., Sapountzis, P., Robinson, A.S., Incipient speciation revealed in anastrepha fraterculus (diptera: Tephritidae) by studies on mating compatibility, sex pheromones, hybridisation and cytology (2009) Biol. J. Linn. Soc, 97, pp. 152-165
Cardini, C., Leloir, L.F., Chiriboga, J., The biosynthesis of sucrose (1955) J. Biol. Chem, 214, pp. 149-155
Clarke, A.R., Armstrong, K.F., Carmichael, A.E., Milne, J.R., Raghu, S., Roderick, G.K., Yeates, D.K., Invasive phytophagous pests arising through recent tropical evolutionary radiation: The Bactrocera dorsalis complex of fruit ßies (2004) Annu. Rev. Entomol, 50, pp. 293-319
Depres, L., David, J.P., Gallet, C., The evolutionary ecology of insect resistance to plant chemicals (2007) Trends Ecol. Evol, 22, pp. 298-307
Drès, M., Mallet, J., Host races in plant-feeding insects and their important in sympatric speciation (2002) Phil. Trans. R. Soc. B, 357, pp. 471-492
Excoffier, L., Analysis of population subdivision (2003) Handbook of Statistical Genetics, pp. 713-750. , In D. Balding, M. Bishop, and C. Cannings (eds 2nd ed. Wiley, Ltd., New York, NY
Feder, J.L., The effects of parasitoids on sympatric host races of Rhagoletis pomonella (Diptera:Tephritidae (1995) Ecology, 76, pp. 801-813
Feder, J.L., Reynolds, K., Go, W., Wang, E.C., Intra and inter-speci c competition and host race formation in the apple maggot ßy, Rhagoletis pomonella (Diptera: Tephritida (1995) Oecology, 101, pp. 416-425
Ferveur, J.F., Cuticular hydrocarbons: Their evolution and roles in Drosophila pheromonal communication (2005) Behav. Genet, 35, pp. 279-295
Filchak, K.E., Roethele Amd, J.B., Feder, J.L., Natural selection and sympatric divergence in the apple maggot Rhagoletis pomonella (2000) Nature, 407, pp. 739-742
Fox, L.A., Morrow, P.A., Specialization: Species property or local phenomenon? (1981) Science, 211, pp. 887-893
Frankham, R., Ballou, J.D., Briscoe, D.A., (2002) Introduction to Conservation Genetics, , Cambridge University Press Cambridge UK
Gasperi, G., Bonizzoni, M., Gomulski, L.M., Murelli, V., Torti, C., Malacrida, A.R., Guglielmino, C.R., Genetic differentiation, gene ßow and the origin of infestations of the medßy, Ceratitis capitata (2002) Genetica, 116, pp. 125-135
Glendinning, J.I., How do herbivorous insects cope with noxious secondary plant compounds in their diet? (2002) Entomolfsti Exp. Applic, 104, pp. 15-25
Gross, J., Fatouros, N.E., Hilker, M., The signi cance of bottom-up effects for host plant specialization in Chrysomela leaf beetles (2004) Oikos, 105, pp. 368-376
Hagerman, A.E., Butler, L.G., Protein precipitation method for the quantitative determination of tannins (1978) J. Agric. Food Chem, 26, pp. 809-812
Heath, R.R., Landolt, P.J., Robacker, D.C., Dueben, B.D., Epsky, N.D., Sexual pheromones of tephritid ßies: Clues to unravel phylogeny and behavior (2000) Fruit Fly (Tephritidae) Phylogeny and Evolution of Behavior, pp. 793-809. , In M Aluja and A. L. Norrbom (eds CRC, Boca Raton, FL
Hernández-Ortiz, V., Gómez-Anaya, J.A., Sánchez, A., McPheron, B.A., Aluja, M., Morphometric analysis of mexican and south american populations of the anastrepha fraterculus complex (diptera: Tephritidae) and recognition of a distinct mexican morphotype (2004) Bull. Entomol. Res, 94, pp. 487-499
Landolt, P.J., Phillips, T.W., Host plant inßuences on sex pheromone behavior of phytophagous insects (1997) Annu. Rev. Entomol, 42, pp. 371-91
Liang, D., Silverman, J., You are what you eat" diet modi es cuticular hydrocarbons and nestmate recognition in the Argentine ant, Linepithema humile (2000) Naturwissenschaften, 87, pp. 412-416
Lynch, M., Milligan, B.G., Analysis of population genetic structure whit RAPD markers (1994) Molec. Ecol, 3, pp. 91-99
Loxdale, H.D., Lushai, G., Harvey, J.A., The evolutionary improbability of ÔgeneralismÕ in nature, with special reference to insects (2011) Biol. J. Linn. Soc, 103, pp. 1-18
Malavasi, A., Morgante, J.S., Populations genetics of Anastrepha fraterculus (Diptera, Tephritidae) in different host: Genetic differentiations and heterozygosity (1983) Genetica, 60, pp. 207-211
Mallet, J., Hybridization, ecological races and the nature of species: Empirical evidence for the ease of speciation (2008) Phil. Trans. R. Soc. B., 363, pp. 2971-2986
Mirecki, R., Teramura, A.H., Effects of ultraviolet-B irradiance on soybean v the dependence of plants sensitivity on the photosynthetic photon ßux density during and after leaf expansion (1984) Plant Physiol, 74, pp. 475-480
Mopper, S., Beck, M., Simberloff, D., Stiling, P., Local adaptation and agents of selection in a mobile insect (1995) Evolution, 49, pp. 810-815
Nei, M., Estimation of average heterozygosity and genetic distance from a small number of individuals (1978) Genetics, 89, pp. 583-590
Norrbom, A.L., Host plant database for Anastrepha and Toxotrypana (Diptera: Tephritidae: Toxotrypanini (2004) Diptera Data Dissemination Disk, 2
Ovruski, S., Schliserman, P., Aluja, M., Native and introduced host plants of Anastrepha fraterculus and Ceratitis capitata (Diptera: Tephritidae) in northwestern Argentina (2003) J. Econ. Entomol, 96, pp. 1108-1118
Prokopy, R.B., Papaj, D.R., Behavior of ßies of the genera Rhagoletis, Zonosemata, and Carpomya (Trypetinae: Carpomyina (2000) Fruit Flies (Tephritidae): Phylogeny and Evolution of Behavior, pp. 219-252. , In M Aluja and A. L. Norrbom (eds CRC, Boca Raton, FL
R: A language and environment for statistical computing (2011) R Foundation for Statistical Computing, , R Development Core Team Vienna, Austria
Rundle, H.D., Chenoweth, S.F., Doughty, P., Blows, M.W., Divergent selection and the evolution of signal traits and mating preferences (2005) PLoS Biol, 3, pp. 1988-1995
Thomas, D.B., Reproductive phenology of the mexican fruit ßy, anastrepha ludens (loew) (diptera: Tephritidae) in the sierra madre oriental, northern mexico (2003) Neotrop. Entomol, 32, pp. 385-397
Schliserman, P., Abundancia estacional de himenó pteros parasitoides de Anastrepha fraterculus y Ceratitis capitata (Dõ'ptera: Tephritidae) en áreas de bosque secundario de la Sierra de San Javier, Tucumán (2001) Tesis de maestrõ'A, Universidad Nacional de la Rioja, la Rioja, Argentina
Schliserman, P., Dinámica poblacional y estructura de hábitat de ceratitis capitata y anastrepha fraterculus (diptera: Tephritidae) en la ladera oriental de la sierra de san javier, tucumán (2005) Tesis de Doctorado, , Facultad de Ciencias Naturales e IML, Universidad Nacional de Tucumán, Tucumán, Argentina
Schliserman, P., Ovruski, S.M., Colin, C., Norrbom, A., Aluja, M., First report of juglans australis (juglandaceae) as a natural host plant for anastrepha schultzi(diptera: Tephritidae) with notes on probable parasitism by doryctobracon areolatus, d brasiliensis, opius bellus(braconidae) and aganaspis pelleranoi (figitidae (2004) Fla. Entomol, 87, pp. 597-599
Segura, D.F., Vera, M.T., Cagnotti, C.F., Vaccaro, N., De Coll, N., Ovruski, S.M., Cladera, J.L., Relative abundance of ceratitis capitata and anastrepha fraterculus(diptera: Tephritidae) in diverse host species and localities of argentina (2006) Ann. Entomol. Soc. Am, 99, pp. 70-83
Segura, D.F., Vera, M.T., Rull, J., Wornoayporn, V., Islam, A., Robinson, A.S., Assortative mating among Anastrepha fraterculus (Diptera: Tephritidae) hybrids from two distinct populations as a possible route to radiation of the fraterculus cryptic species group (2011) Biol. J. Linn. Soc, 102, pp. 346-354
Selivon, D., Perondini, A.L.P., Morgante, J.S., A genetic-morphological characterization of two cryptic species of the Anastrepha fraterculus complex (diptera: Tephritidae (2005) Ann. Entomol. Soc. Am, 98, pp. 367-381
Smadja, C., Butlin, R.K., On the scent of speciation: The chemosensory system and its role in premating isolation (2009) Heredity, 101, pp. 77-97
Smith-Caldas, M.R.B., McPheron, B.A., Silva, J.G., Zucchi, R.A., Phylogenetic relationships among species of the fraterculus group (Anastrepha: Diptera: Tephritidae) inferred from DNA sequences of mitochondrial cytochrome oxidase 1 (2001) Neotrop. Entomol, 30, pp. 565-573
Inc, S., (2004) Statistica (Data Analysis Software System), Version 7, , www.statsoft.com
Steck, G.J., Biochemical systematics and population genetic structure of Anastrepha fraterculus and related species (Diptera: Tephritidae (1991) Ann. Entomol. Soc. Am, 84, pp. 10-28
Steck, G.J., Sheppard, W.S., Mitochondrial DNA variation in Anastrepha fraterculus (1993) Fruit Flies Biology and Management, pp. 9-14. , In M Aluja and P. Liedo (eds Springer, New York, NY
Stennett, M.D., Etges, W.J., Premating isolation is determined by larval rearing substrates in cactophilic Drosophila mojavensis III Epicuticular hydrocarbon variation is determined by use of different host plants in Drosophila mojavensis and Drosophila arizonae (1997) J. Chem. Ecol, 23, pp. 2803-2824
Swain, T., Hillis, W.E., The phenols constituents of Prunnus domestica i the quantitative analysis of phenolics constituents (1959) J. Sci. Food Agric, 10, pp. 63-68
Symonds, M.R., Elgar, M.A., The evolution of pheromone diversity (2008) Trends Ecol. Evol, 23, pp. 220-228
Vekemans, X., Beauwensmlemaire, T., Roldan-Ruiz, I., Data from ampli ed fragment length polymorphism(AFLP) markers show indication of size homoplasy and of a relationship between degree of homoplasy and fragment size (2002) Molec. Ecol, 11, pp. 139-151
Venables, W.N., Ripley, B.D., (2002) Modern Applied Statistics WithS, , 4th ed. Springer, New York, NY (ISBN: 0-387-95457-0
Vera, M.T., Cáceres, C., Wornoayporn, V., Islam, A., Robinson, A.S., De La Vega, M.H., Hendrichs, J., Cayol, J.P., Mating incompatibility among populations of the south american fruit ßy anastrepha fraterculus (diptera: Tephritidae (2006) Ann. Entomol. Soc. Am, 99, pp. 387-397
Xie, X., Michel, A., Schwarz, D., Rull, J., Velez, S., Forbes, A., Aluja, M., Feder, J.L., Radiation and divergence in the Rhagoletis pomonella species Group: Inferences from DNA sequence data (2008) J. Evol. Biol, 21, pp. 900-913
Zhivotovsky, L.A., Estimating population structure in diploids with multilocus dominant DNA makers (1999) Molec. Ecol, 8, pp. 907-913
Zietkiewicz, E., Rafalski, A., Labuda, D., Genome ngerprinting by simple sequence repeats (SSR)-anchored polymerase chain reaction ampli cation (1994) Genomics, 20, pp. 176-183
Zucchi, R.A., Taxonomõ (2000) Moscas-das-Frutas de Importância Econômica No Brasil, pp. 13-24. , Conhecimento Básico e Aplicado Holos Editora, Riberão Preto A. Malavasi and R. A. Zucchi (eds Brasil
Zvereva, E.L., Kruglova, O.Y., Kozlov, M.V., Drivers of host plant shifts in the leaf beetle Chrysomela lapponica: Natural enemies or competition? (2010) Ecol Entomol, 35, pp. 611-622

Citas:

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

Oroño, L., Paulin, L., Alberti, A.C., Hilal, M., Ovruski, S., Vilardi, J.C., Rull, J.,..., Aluja, M. (2013) . Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts. Environmental Entomology, 42(4), 790-798.
http://dx.doi.org/10.1603/EN13020

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

Oroño, L., Paulin, L., Alberti, A.C., Hilal, M., Ovruski, S., Vilardi, J.C., et al. "Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts" . Environmental Entomology 42, no. 4 (2013) : 790-798.
http://dx.doi.org/10.1603/EN13020

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

Oroño, L., Paulin, L., Alberti, A.C., Hilal, M., Ovruski, S., Vilardi, J.C., et al. "Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts" . Environmental Entomology, vol. 42, no. 4, 2013, pp. 790-798.
http://dx.doi.org/10.1603/EN13020

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

Oroño, L., Paulin, L., Alberti, A.C., Hilal, M., Ovruski, S., Vilardi, J.C., et al. Effect of host plant chemistry on genetic differentiation and reduction of gene flow among Anastrepha fraterculus (Diptera: Tephritidae) populations exploiting sympatric, synchronic hosts. Environ. Entomol. 2013;42(4):790-798.
http://dx.doi.org/10.1603/EN13020