Abstract
The existence of a vast array of animals that are feeding specialists presents evolutionary theory with a problem. How are we to explain their existence? Either we accept that there are adaptive reasons why many animals, particularly insects, should specialize (and then we must understand the selective forces operating to promote specialization in some circumstances, and generalization in others: Scriber 1983; Rausher 1983; Futuyma and Moreno 1988), or we must explain specialists as “dead ends” in evolution (Simpson 1944; Moran 1988).
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References
Ashburner, M (1981) Entomophagous and other bizarre Drosophilidae. In: Ashburner M, Carson HL, Thompson JN (eds) The genetics and biology of Drosophila, vol. 3a. Academic Press, New York, pp 375–429
Atkinson W (1979) A field investigation of larval competition in domestic Drosophila. J Anim Ecol 48: 91–102
Bell G (1989) A comparative method. Am Nat 133: 553–571
Benson RB (1950) An introduction to the natural history of British sawflies (Hymenoptera, Symphyta). Trans Soc Br Entomol 10: 46–142
Berenbaum MR, Zangerl AR, Nitao JK (1986) Constraints on chemical coevolution: wild parsnips and the parsnip webworm. Evolution 40: 1215–1228
Bristowe CM (1988) What makes a predator specialise? Trends Ecol Evol 3: 1–2
Cheverud JM, Dow MM (1985) An autocorrelation analysis of genetic variation due to lineal fission in social groups of Rhesus macaques. Am J Phys Anthropol 67: 113–129
Cheverud JM, Dow MM, Leutenegger W (1985) The quantitative assessment of phylogenetic constraints in comparative analyses: sexual dimorphism in body weight among primates. Evolution 39: 1335–1351
Courtney SP (1981) Coevolution of pierid butterflies and their cruciferous foodplants. III. Anthochar-is cardamines (L.). Survival, development and oviposition on different host pi ants. Oecologia 51: 91–96
Courtney, SP (1982) Coevolution of pierid butterflies and their cruciferous foodplants. V. Habitat selection, community structure and speciation. Oecologia 54: 101–107
Courtney SP (1986) The ecology of pierid butterflies: dynamics and interactions. Adv Ecol Res 15: 51–151
Creager DB, Spruijt FJ (1935) The relation of certain fungi to larval development of Eumerus tuberculatus Rond. Ann Entomol Soc Am 28: 425–437
Derrickson EM, Ricklefs RE (1988) Taxon-dependent diversification of life-history traits and the perception of phylogenetic constraints. Funct Ecol 2: 417–423
Dixon WJ (1983) BMDP statistical software: manual. University of California Press, Berkeley, CA
Donisthorpe H (1927) The guests of British ants. Routledge & Sons, London
Felsenstein J (1985) Phytogenies and the comparative method. Am Nat 125: 1–15
Fitt GP (1986) The roles of adult and larval specialization in limiting the occurrence of five species of Dacus (Diptera: Tephritidae) in cultivated fruits. Oecologia 69: 101–109
Fox LR, Morrow PA (1981) Specialization: species property or local phenomenon? Science 211: 887–893
Futuyma DJ (1983) Selective factors in the evolution of host choice by phytophagous insects. In: Ahmad S (ed) Herbivorous insects: host seeking behavior and mechanisms. Academic Press, New York, pp 227–244
Futuyma DJ, Moreno G (1988) The evolution of ecological specialization. Annu Rev Ecol Syst 19: 207–233
Futuyma DJ, Peterson SC (1985) Genetic variation in the use of resources by insects. Annu Rev Entomol 30: 217–238
Garnett WB, Akre RD, Sehlke G (1985) Cocoon mimicry and prédation by myrmecophilous Diptera (Diptera, Syrphidae). Fl Entomol 68: 615–621
Giesel JT (1986) Genetic correlation structure of life-history variables in outbred, wild Drosophila melanogaster. effects of photoperiod regimen. Am Nat 128: 593–603
Gilbert FS (1981) Foraging ecology of hoverflies (Diptera, Syrphidae): morphology of the mouthparts in relation to feeding on nectar and pollen in some common urban species. Ecol Entomol 6:249–262
Gilbert FS (1985a) Ecomorphology of hoverflies (Diptera, Syrphidae). Proc R Soc Lond [Biol] 224: 91–105
Gilbert FS (1985b) Morphological relationships in hoverflies (Diptera, Syrphidae). Proc R Soc Lond [Biol] 224: 79–90
Gilbert FS (1986) Hoverflies (Cambridge Naturalists Handbooks 5). Cambridge University Press, Cambridge
Gilbert FS, Owen J (1990) Morphology and competition in hoverfly communities. J Anim Ecol 59: 21–40
Harvey PH, Clutton-Brock T (1985) Life history variation in primates. Evolution 39: 559–581
Hayami I (1978) Notes on the rates and patterns of size change in evolution. Paleobiology 4: 252–260
Hengeveld R (1989) Caught in an ecological web. Oikos 54: 15–22
Holloway JD, Hebert PDN (1979) Ecological and taxonomic trends in macrolepidopteran host plant selection. Biol J Linn Soc 11: 229–251
Horn H (1978) Optimal tactics of reproduction and life-history. In: Krebs JR, Davies NB (eds) Behavioural ecology. Blackwell Scientific Publishers, Oxford, pp 411–429
Jeffries MJ, Lawton JH (1984) Enemy free space and the structure of ecological communities. Biol J Linn Soc 23: 269–286
Kambysellis MP, Heed WB (1971) Studies of oogenesis in natural populations of Drosphilidae. I. Relation of ovarian development and ecological habits of the Hawaiian species. Am Nat 105:31–49
Lawton JH, Strong DR (1981) Community patterns and competition in folivorous insects. Am Nat 118: 317–338
Montague JR, Mangan RL, Starmer WT (1981) Reproductive allocation in the Hawaiian Drosophilidae: egg size and number. Am Nat 118: 865–871
Moran NA (1988) The evolution of host-plant alternation in aphids: evidence for specialization as a dead end. Am Nat 132: 681–706
Ng D (1988) A novel level of interactions in plant-insect systems. Nature 334: 611–613
Owen J, Gilbert FS (1989) On the abundance of hoverflies. Oikos 55: 183–193
Price PW (1975) Reproductive strategies of parasitoids. In: Price PW (ed) Evolutionary strategies of parasitic insects and mites. Plenum Press, New York, pp 87–111
Rausher MD (1983) Ecology of host-selection behavior in phytophagous insects. In: Denno RF, McClure MS (eds) Variable plants and herbivores in natural and managed systems. Academic Press, New York, pp 223–257
Reznick D (1985) Costs of reproduction: an evaluation of the empirical evidence. Oikos 44:257–267
Rollo D (1986) A test of the principle of allocation using two sympatric species of cockroaches. Ecology 67: 616–628
Rossiter MC (1987) Genetic and phenotypic variation in diet breadth in a generalist herbivore. Evol Ecol 1: 272–282
Rotheray GE (1988) Larval morphology and feeding patterns of four Cheilosia species (Diptera: Syrphidae) associated with Cirsium palustre L. Scopoli (Compositae) in Scotland. J Nat Hist 22:17–25
Rotheray GE, Gilbert FS (1989) Phylogeny and systematics of European predacious Syrphidae from larval and puparial stages. Zool J Linn Soc 95: 27–70
Scriber JM (1983) Evolution of feeding specialisation, physiological efficiency, and host races in selected Papilionidae and Saturniidae. In: Denno RF, McClure MS (eds) Variable plants and herbivores in natural and managed systems. Academic Press, New York, pp 373–412
Shorrocks B, Rosewall J, Edwards K, Atkinson W (1984) Interspecific competition is not a major organizing force in many insect communities. Nature 310: 310–312
Simpson GG (1944) The major features of evolution. Columbia University Press, New York
Speight MCD (1987) External morphology of adult Syrphidae (Diptera). Tijdschr Entomol 130:141–175
Stearns SC (1983) The influence of size and phylogeny on patterns of covariation among life history traits in the mammals. Oikos 41: 173–187
Strong DR, Southwood TRE, Lawton JH (1984) Insect and plants. Blackwell Scientific Publishers, Oxford
Swofford DL (1985) PAUP: phylogenetic analysis using parsimony version 2.4. Illinois Natural History Survey, Champaign, IL
Tauber CA, Tauber MJ (1987) Food specificity in predacious insects: a comparative ecophysiological and genetic study. Evol Ecol 1: 175–186
Taylor LR (1984) Assessing and interpreting the spatial distribution of insect populations. Annu Rev Ecol Syst 29: 321–357
Thompson FC (1989) World catalogue of the Syrphidae (Diptera). US Dept Agric [Held in the Smithsonian Institution]
Thompson JN (1988a) Evolutionary ecology of the relationship between oviposition preference and performance of offspring in phytophagous insects. Ent Exp Appl 47: 3–14
Thompson JN (1988b) Variation in preference and specificity in monophagous and oligophagous swallowtail butterflies. Evolution 42: 118–218
van Noordwijk A, de Jong G (1986) Acquisition and allocation of resources: their influence on variation in life history tactics. Am Nat 128: 137–142
Via S (1986) Genetic covariance between oviposition preference and larval performance in an insect herbivore. Evolution 40: 778–785
Wiklund C (1975) The evolutionary relationship between adult oviposition preferences and larval host plant range in Papilio machaon L. Oecologia 18: 185–197
Wiklund C, Karlsson B, Forsberg J (1987) Adaptive versus constraint explanations for egg-to-body size relationships in two butterfly families. Am Nat 130: 828–838
Zwölfer H (1975) Speciation and niche diversification in phytophagous insects.Verh Dtsch Zool Ges 67: 394–401
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Gilbert, F. (1990). Size, Phylogeny and Life-History in the Evolution of Feeding Specialization in Insect Predators. In: Gilbert, F. (eds) Insect Life Cycles. Springer, London. https://doi.org/10.1007/978-1-4471-3464-0_8
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DOI: https://doi.org/10.1007/978-1-4471-3464-0_8
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