Acatitla TC, Bautista MN, Vera GJ, Romero NJ y Calyecac CHG. 2004. Ciclo biológico y tasas de supervivencia y reproducción de Copitarsia incommoda Walker (Lepidoptera: Noctuidae) en cinco dietas artificiales. Agrociencia 38: 355-363.
Acatitla TC, Bautista MN, Carrillo SJL, Cibrián TJ, Del Río GSL, Osorio CJA, Sánchez HV, Suárez AD y Torres NRA. 2003. El gusano corazón de la col, Copitarsia
decolora. Biología, Taxonomía y Ecología. Colegio de Postgraduados.
Montecillos. México. 30p.
Angulo A y Olivares T. 2010. La polilla Copitarsia decolora: revisión del complejo de especies con base en la morfología genital masculina y de los huevos (Lepidoptera: Noctuidae). Revista Biología Tropical 58: 769-776.
Arnqvist G y Nilsson T. 2000. The evolution of polyandry: multiple mating and female fitness in insects. Animal Behaviour 60: 145–164.
Berger D, Walters R y Gotthard K. 2008. What limits insect fecundity? Body size- and temperature-dependent egg maturation and oviposition in a butterfly. Functional Ecology 22: 523–529.
Boggs LC. 1990. A general model of the role of male-donated nutrients in female insects´ reproduction. The American Naturalist 136: 598-617.
Bonduriansky R. 2001. The evolution of male mate choice in insects: a synthesis of ideas and evidence. Biological Reviews 76: 305-339.
Blanckenhorn WU. 2000. The evolution of body size: what keeps organisms small? Quarterly Review of Biology 75:385–407.
Calvo D y Molina JM. 2005. Fecundity–body size relationship and other reproductive aspects of Streblote panda (Lepidoptera: Lasiocampidae) Annals of the Entomological Society of America 98: 191-196.
Castrejón GVR y Cibrián TJ. 2000. Mating frequency in wild females of Copitarsia
consueta (Lepidoptera: Noctuidae). Florida Entomologist 83: 374-376.
Cordero C. 2000. Trade-off between fitness components in males of the polygynous butterfly Callophrys xami (Lycaenidae): the effect of multiple mating on longevity. Behavior Ecology and Sociobiology 48: 458–462.
Cook PA y Wedell N. 1996. Ejaculate dynamics in butterflies: a strategy for maximizing fertilization success? Proceedings of the Royal Society B. Biological Sciences 263: 1047-1051.
De Loof A. 2011. Longevity and aging in insects: is reproduction costly; cheap; beneficial or irrelevant? A critical evaluation of the ‘‘trade-off’’ concept. Journal of Insect Physiology 57: 1–11.
Emlen ST y Oring LW 1977. Ecology, sexual selection and evolution of animal mating systems. Science 187: 215-223.
Flores PLR. 2003. Ciclo de la vida y tasas de supervivencia y reproducción de
Copitarsia incommoda (Walter) (Lepidoptera: Noctuidae) en tres cultivares de Brassica oleracea L. Tesis de Maestría. Instituto de Fitosanidad, Colegio de
Postgraduados. Montecillo, Estado de México.
Foster SP y Ayers RH. 1996. Multiple mating and its effects in the Lightbrown Apple Moth, Epiphyas postvittana (Walker). Journal of Insect Physiology 42: 651-667. Foster SP y Howard AJ. 1999. The effects of mating, age at mating, and plant stimuli,
on the lifetime fecundity and fertility of the generalist herbivore Epiphyas
postvittana. Entomologia Experimentalis et Applicata 91: 287–295.
Gillot C. 2003. Male accessory gland secretions: modulators of female reproductive physiology and behaviour. Annals Review of Entomology 48: 163-184.
Heppner JB. 2004. Atlas of Neotropical Lepidoptera. 5a Edition. Association for Tropical Lepidoptera, Scientific Publishers. 439p.
Jennions DM y Petrie M. 2000. Why do females mate multiply? A review of the genetic benefits. Biological Reviews 75: 21-64
Jiao X, Xuan W y Sheng C. 2006. Effects of delayed mating and male mating history on longevity and reproductive performance of the rice stem borer, Chilo suppresalis (Walker) (Lep., Pyralidae). Journal of Applied Entomology 130: 108-112.
Jiménez-Pérez A y Wang Q. 2003a. Effect of mating delay on the reproductive performance of Cnephasia jactatana (Lepidoptera: Tortricidae). Annals of the Entomological Society of America 96: 592:598.
Jiménez-Pérez A, Wang Q y Markwick N. 2003b. Remating behavior of Cnephasia
jactatana Walker females (Lepidoptera: Tortricidae). Journal of Insect
Jiménez-Pérez A y Wang Q. 2004a. Effect of body weight on reproductive performance in Cnephasia jactatana (Lepidoptera: Tortricidae). Journal of Insect Behaviour 17: 511-522.
Jiménez-Pérez A y Wang Q. 2004b. Male remating behavior and its effect on female reproductive fitness in Cnephasia jactatana Walker (Lepidoptera: Tortricidae). Journal of Insect Behaviour 17: 685-694.
Kawagoe T, Suzuki N y Matsumoto K. 2001. Multiple mating reduces longevity of females of the windmill butterfly Atrophaneura alcinous. Ecological Entomology 26: 258-262.
Koudelova J y Cook PA. 2001. Effect of gamma radiation and sex-linked recessive lethal mutations on sperm transfer in Ephestia kuehniella (Lepidoptera: Pyralidae). Florida Entomologist 84: 172-182.
LaMunyon CW y Huffman TS. 2001. Determinants of sperm transfer by males of the noctuid moth Heliothis virescens. Journal of Insect Behaviour 14: 187:199. Marcotte M, Delisle J y McNeil JN. 2006. Impact of male mating history on the
postmating resumption of sexual receptivity and lifetime reproductive success in
Choristoneura rosaceana females. Physiological Entomology 31: 227–233.
Marshall L y McNeil J. 1989. Spermatophore mass as an estimate of male nutrient investment: a closer look in Pseudaletia unipuncta Haworth (Lepidoptera: Noctuidae). Functional Ecology 3: 605-612.
McNamara BK, Elgar MA y Jones TM. 2008a. A longevity cost of re-mating but no benefits of polyandry in the almond moth, Cadra cautella. Behavior Ecology and Sociobiology 62: 1433-1440.
McNamara BK, Elgar MA y Jones TM. 2008b. Seminal compounds, female receptivity and fitness in the almond moth, Cadra cautella. Animal Behaviour 76: 771-777. McNamara BK, Elgar MA y Jones TM. 2009. Large spermatophores reduce female
receptivity and increase male paternity success in the almond moth, Cadra
cautella. Animal Behaviour 77 931–936.
McNamara BK, Jones TM y Elgar MA. 2007. No cost of male mating experience on female reproductive success in the almond moth, Cadra cautella (Lepidoptera; Pyralidae). Behavior Ecology and Sociobiology 61: 1177–1184.
Miller JR, Gut LJ, DE Lame FM y Stelinski LL. 2006. Differentiation of competitive vs. non-competitive mechanisms mediating disruption of moth sexual communication by point sources of sex pheromone: (Part 1) Theory. Journal of Chemical Ecology 32: 2089–2114.
Milonas PG y Andow DA. 2010. Virgin male age and mating success in Ostrinia
nubilalis (Lepidoptera: Crambidae). Animal Behaviour 79: 509–514.
Moreno F y Serna FC. 2006. Biología de Copitarsia decolora (Lepidoptera: Noctuidae: Cuculliinae), en flores cultivadas del híbrido comercial de Alstroemeria spp. Revista de la Facultad Nacional Agronómica Medellín 59: 3257-3270.
Muñiz RE, Cibrian JT, Rojas JL, Díaz OG, Carrasco JV y Bautista NM. 2007. Capturas de Copitarsia decolora (Lepidoptera: Noctuidae) en trampas con diferentes proporciones de feromona sexual. Agrociencia 41: 575-581.
Oberhauser KS. 1997. Fecundity, lifespan and egg mass in Butterflies: effects of male- derived nutrients and female size. Functional Ecolology 11: 166-175.
Pinto PA, Sant´ Ana J y Botton M. 2005. Influência da idade da fêmea na performance reprodutiva e longevidade de Argyrotaenia sphaleropa (Lepidoptera, Tortricidae). Iheringia Série Zoología 95:435-440.
Poiani A. 2006. Complexity of seminal fluid: a review. Behavior Ecology and Sociobiology 60: 289-310.
Proshold FI, Karpenko CP y Graham CK. 1982. Egg production and oviposition in the tobacco budworm: effect of the age at mating. Annals of the Entomological Society of America 75: 51-55.
Proshold FI. 1996. Reproductive capacity of laboratory-reared Gypsy moths (Lepidoptera: Lymantriidae): effect of age of female at time of mating. Ecotoxicology 89:337-342.
Reyes PH. 2010. Efecto de la edad de los machos, el apareamiento y la pre-exposición sobre la respuesta a la feromona sexual de Copitarsia decolora Guenée (Lepidoptera: Noctuidae). Tesis de Maestría en Ciencias en Manejo Agroecológico de Plagas y Enfermedades. Centro de Desarrollo de Productos Bióticos. Instituto Politécnico Nacional. Morelos, México.
Rojas JC y Cibrián TJ. 1994. Reproductive behavior of Copitarsia consueta (Walker) (Lepidoptera: Noctuidae): mating frequency, effect of age on mating, and influence of delayed mating on fecundity and egg fertility. Pan Pacific Entomologist 70: 276-282.
Rojas JC, Virgen A y Cruz-López L. 2003. Chemical and tactile cues influencing oviposition of a generalist moth, Spodoptera frugiperda (Lepidoptera: Noctuidae). Environmental Entomology 32: 1386-1392.
Rojas J, Cruz LL, Malo AE, Díaz GO, Calyecac G y Cibrian TJ. 2006. Identification of the sex pheromone of Copitarsia decolora (Lepidoptera: Noctuidae). Horticultural Entomology 99: 797-802.
Rogers CE y Marti OG. 1994. Reproductive potential of once-mated moths of the fall armyworm (Lepidoptera: Noctuidae). Florida Entomologist 77: 402-410.
Rogers CE y Marti OG. 1996. Beet Armyworm (Lepidoptera: Noctuidae): effects of age at first mating on reproductive potential. Florida Entomologist 79: 342-352. Ridley M. 1988. Mating frequency and fecundity in insects. Biological Reviews of the
Cambridge Philosophical Society 63: 509-549.
Ryne C, Zhu JW, Dongen SV y Löfstedt C. 2001. Spermatophore size and multiple mating: effects on reproductive success and post-mating behaviour in the Indian meal moth. Behaviour 138: 947-963
Sadek MM. 2001. Polyandry in field-collected Spodoptera littoralis moths and laboratory assessment of the effects of male mating history. Entomologia Experimentalis et Applicata 98: 165–172.
SAS Institute. 1996. PROC user's manual, version 6.12 ed. SAS Institute, Cary, NC. SIAP Servicio de Información Agrícola y Pesquera. http://www. siap.sagarpa.gob.mx.
(consulta en enero 2012).
Simmons RB y Pogue MG. 2004. Redescription of two often confused noctuidae pests,
Copitarsia decolora and Copitarsia incommoda (Lepidoptera: Noctuidae:
Cuculliinae). Annals of the Entomological Society of America 97: 675-680. Swallow GJ y wilkinson SG. 2002. The long and short of sperm polymorphisms in
insects. Biological Reviews 77: 153-182.
Stelinski LL y Gut LJ. 2009. Delayed mating in tortricid leafroller species: simultaneously aging both sexes prior to mating is more detrimental to female
reproductive potential than aging either sex alone. Bulletin of Entomological Research 99: 245–251.
Stjernholm F, Karlsson B y Boggs CL. 2005. Age-related changes in thoracic mass: possible reallocation of resources to reproduction in butterflies. Biological Journal of the Linnean Society 86: 363-380.
Svensson MGE, Marling E y Lofqvist J. 1998. Mating behavior and reproductive potential in the turnip moth Agrotis segetum (Lepidoptera: Noctuidae). Journal of Insect Behaviour 11: 343-359.
Tammaru T, Esperk T y Castellanos I. 2002. No evidence for costs of being large in females of Orgyia spp. (Lepidoptera, Lymantriidae): larger is always better.
Oecologia 133: 430–438.
Teng ZQ y Zhang QW. 2009. Determinants of male ejaculate investment in the cotton bollworm Helicoverpa armigera: mating history, female body size and male age. Physiological Entomology 34: 338–344.
Thornhill R y Alcock J. 1983. The evolution of insect mating systems. Harvard University Press, Massachusetts, USA.
Torres-Vila LM, Stockel J y Molina MCR. 1997. Physiological factors regulating polyandry in Lobesia botrana (Lepidoptera: Tortricidae). Physiological Entomology 22: 387-393.
Tovar HH, Bautista MN, Vera GJ, Suarez VAD y Ramírez AS. 2007. Fluctuación poblacional y parasitismo de larvas de Copitarsia decolora Guenée, Plutella
xilostella L. y Trichoplusia ni Hübner (Lepidoptera) en Brassica olareacea. L.
Acta Zoologica Mexicana 23: 183:196.
Trager MD y JC. Daniels. 2011. Size effects on mating and egg production in the Miami blue butterfly. Journal of Insect Behaviour 24: 34–43.
(USDA) U. S. Department of Agriculture. 2009. Fresh fruits and vegetables. USDA, Department of Agriculture, Riverdale, MD.
Vahed K. 1998. The function of nuptial feeding in insects: a review of empirical studies. Biological Reviews 73: 43-78
Venette RC y Gould JR. 2006. A pest risk assessment for Copitarsia spp., insects associated with importation of commodities into the United States. Euphytica 148: 165–183.
Wang XP, Fang YL y Zhang ZN. 2005. Effect of male and female multiple mating on the fecundity, fertility, and longevity of diamondback moth, Plutella xylostella (L.) Journal of Applied Entomology 129: 39–42.
Wedell N. 2005. Female receptivity in butterflies and moths. The Journal of Experimental Biology 208: 3433-3440.
Wenninger EJ y Averill AL. 2006. Effects of delayed mating on reproductive output of female oriental beetle Anomala orientalis (Coleoptera: Scarabaeidae). Agricultural and Forest Entomology 8: 221-231.
Wiklund C y Forsberg J. 1991. Sexual size dimorphism in relation to female polygamy and protandry in butterflies: a comparative study of Swedish Pieridae and Satyridae. Oikos 60: 373-381.
Xu J y Wang Q. 2009a. Male moths undertake both pre- and in-copulation mate choice based on female age and weight. Behavior Ecology and Sociobiology 63: 801– 808.
Xu, J y Wang Q. 2009b. A polyandrous female moth discriminates against previous mates to gain genetic diversity. Animal Behaviour 78: 1309–1315.
Xu J y Wang Q. 2011. Seminal fluid reduces female longevity and stimulates egg production and sperm trigger oviposition in a moth. Journal of Insect Physiology 57: 385-390.