by Martin G. Kelly Department of Biology Buffalo State College Hawthorn trees grow throughout North America and they produce a small fruit which is eaten by a small fly larva. In 1864, apple growers discovered an unknown maggot had started feeding on apples. Through the years, hawthorn and apple maggot flies have progressively become more distinct. Below I present evidence taken from the original scientific literature for you to consider and evaluate. From what may be incomplete and ambiguous data, I hope you will be able to answer what appear to be two simple questions: 1. Do hawthorn maggot flies and apple maggot flies belong to the same species? 2. If not, and if apple maggot flies belong to their own species, what would be a biologically reasonable scenario for how the speciation occurred? Facts about Hawthorn and Apple Maggot Flies (Rhagoletis pomonella) The Organisms The apple maggot fly (Rhagoletis pomonella, Walsh) is native to eastern North America. It originally bred in the large fruits of hawthorn trees (Reissig, 1991). Apple maggot flies are about 5 mm long. The tip of a female’s abdomen is more narrowly pointed than a male’s. Hawthorn and apple maggot flies are assigned to the same taxonomic species (Rhagoletis pomonella) (Bush, 1966; Bush, 1969; Bush, 1975: cited in Berlocher and Feder, 2002). ! Hawthorn maggot flies and apple maggot flies are physically indistinguishable. ! There is no geographic isolation or physical separation between adult maggot flies. ! As host-races of the same species, these flies are not typically given different common names. Figure 1: Apple maggot flies (male—left, female—right) https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com R. pomonella belongs to a set of four fly species that cannot be physically distinguished. Figure 2 displays the conventional classification of Rhagoletis. The abbreviated categories are: tribe (T.), closely related genera (R.G.), genus (G.), derived species groups (D.G.), and species group (S.G.). The classification bar at the bottom of the figure arranges the nodes of divergence from the most inclusive taxonomic category (the tribe, T) to groups of closely related species (species groups, SG). Maggot Fly Reproduction ! The female fly lays fertilized eggs into the fruit (Reissig, 1991). ! Maggots (larvae) emerge from the egg, eat and grow, and pupariate where the last larval skin is retained and hardened to form the protective covering for metamorphosis (Reissig, 1991). ! Pupariating individuals develop into adult flies, emerge and reproduce (Reissig, 1991). Facts about Hawthorn and Apple Plants Both the hawthorn and the apple are woody plants belonging to the same taxonomic family (the Rose Family) (Newcomb, 1977). Figure 2: Taxonomic Tree of Rhagoletis (adapted from Berlocher and Bush, 1982) Figure 3: Apple spoiled by apple maggot larvae. 2 https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com Figures 4a and 4b: Photo and diagram of Crataegus marshallii. ! Hawthorns are native to North America. ! Hawthorns are a large and complex group of trees and shrubs with over 50 species native to North America (North-eastern and North-central). ! Hawthorns belong to the plant genus Crataegus. ! Most hawthorn species are identified by fruits that differ in size—for example, C. marshalli has a fruit that is 4.9 mm in diameter, while C. pedicellata has a fruit that is nearly four times larger (19.5 mm). The apple is the most widely grown fruit in North America (Seelig and Hirsh, 1978). ! Apples belong to the plant genus Malus. The taxonomic name Malus domesticus is preferred for the large-fruited, edible apple. ! Early European colonists brought both seeds and grafted apple trees to North America. Records of grafting desirable apple varieties onto wild rootstocks date back to 1647 in Virginia. Figure 6 below is a general representation of the timing of fly emergence (solid and dashed lines) and fruit ripening (colored filled-in curves). Adult flies emerge from the puparium to reproduce before fruits are mature (Reissig, 1991). Apple fruits ripen approximately 1 month earlier than hawthorn fruits, but there is overlap at the end of the apple fruiting season and the beginning of the hawthorn fruiting season (Feder and Filchak, 1999; Feder et al., 1994; Filchak and Feder, 1999; Smith, 1988: cited in Berlocher and Feder, 2002). The female fly then lays fertilized eggs into the ripe fruit (Reissig, 1991). Maggots (larvae) hatch from the egg, eat fruit, grow, and pupate (Reissig, 1991). Figure 5: Empire red apples. 3 https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com In Figure 6, the taxonomic term “race” is used to identify the maggot flies that reproduce on apples or the maggot flies that reproduce on hawthorns. In 1864 maggot flies were first noted to infest apples grown in New York’s Hudson River Valley (Bush, 1969). ! Maggot flies ultimately became a major fruit pest in the northeastern United States and Canada (Reissig, 1991). ! Thorough control of the maggot flies is needed to produce the highest quality and most marketable fruits (Reissig, 1991). Fruit Characteristics Apples are bigger fruits than hawthorns. ! The typical commercial apple fruit has a diameter of 2.75 inches (70 mm). ! The typical wild hawthorn fruit has a diameter of 0.5 inches (12.6 mm). The larger fruits of apple trees provide 5.5 times more depth (based on diameter) to developing maggots than do hawthorn fruits. ! Parasitoid wasps lay eggs into the maggot’s body, with the wasp larvae ultimately killing the maggot. ! Apple maggots are better able to escape parasitoid wasps by burrowing deeper into the fruit than the wasp can penetrate with its egg-layer (ovipositor) (Feder, 1995: cited in Berlocher and Feder, 2002). ! Apple maggots bear 70% fewer parasitoid wasp eggs than do hawthorn maggots (Feder, 1995: cited in Berlocher and Feder, 2002). Figure 6: Emergence of Rhagoletis pomonella (adapted from Bush, 1969) Figure 7: Blemishes indicate burrowing larvae. 4 https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com The larger fruits of apple trees provide 220 times more food (based on volume) to the growing and developing maggot than the smaller fruits of hawthorns. ! Apple maggot flies lay more eggs per fruit than do hawthorn maggot flies. ! Though the bigger apple provides more food (quantity), it does not provide better food (quality) to the growing maggot (Reissig and Smith, 1978: cited in Berlocher and Feder, 2002). ! The nutritional quality of hawthorn fruit is indicated by the better survival of both types of maggots in hawthorn fruits; 52% of maggot fly eggs survived in hawthorn fruits and 27% of maggot fly eggs survived in apple fruits (Prokopy et al., 1988 cited in p. 329 Freeman and Herron, 1998). ! Caterpillars and weevils may also feed on the larger apple, reducing the quantity of food available to apple maggots. Evolutionary Outcomes in Apple Maggot Flies ! Fidelity to fruit type acts as a strong barrier to gene flow between the two types of maggot flies. ! There is only a 4 to 6% hybridization rate between hawthorn maggot flies and apple maggot flies (Feder, 1998; Feder et al., 1994: cited in Berlocher and Feder, 2002). ! Hawthorn maggot flies strongly prefer to mate on and lay fertilized eggs into hawthorns. ! Apple maggot flies strongly prefer to mate on and lay fertilized eggs into apples. ! Hawthorn and apple maggot flies are genetically distinguishable (have recognizable genetic profiles) (Feder, 1998; Feder et al., 1988; Feder et al., 1997; McPheron et al., 1988: cited in Berlocher and Feder, 2002) Questions In your groups, address the following and list the evidence used to make your decisions. 1. What species concept should be used in this case? 2. Are apple maggot flies distinct as a species from hawthorn maggot flies? 3. Propose a biologically reasonable scenario that explains how apple maggot flies evolved. 4. How did you weigh the different pieces of evidence to reach a conclusion to questions (2) and (3)? What evidence was most important, what was least important, etc.? 5. What further information would you need to increase your confidence in the conclusions you reached? 5 https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com References ! Berlocher, S.H. and G.L. Bush. 1982. An electrophoretic analysis of Rhagoletis (Diptera: Tephritidae) phylogeny. Systematic Zoology 31:136-155. ! Berlocher, S.H. and J.L. Feder. 2002. Sympatric speciation in phytophagous insects: moving beyond controversy? Annual Review of Entomology 47:773-815. ! Bush, G.L. 1969. Sympatric host race formation and speciation in frugivorous flies of the genus Rhagoletis (Diptera: Tephritidae). Evolution 23:237-251. ! Freeman, S. and J.C. Herron. 1998. Evolutionary Analysis. Upper Saddle River, NJ: Prentice-Hall. ! Freeman, S. and J.C. Herron. 2001. Evolutionary Analysis, 2nd edition. Upper Saddle River, NJ: Prentice-Hall. ! Newcomb, L. 1977. Newcomb’s Wildflower Guide (NE and NC North America). Boston: Little Brown and Co. ! Prokopy, R.J., S.R. Diehl and S.S. Cooley. 1988. Behavioral evidence for host races in Rhagoletis pomonella flies. Oecologia 76:138-147. ! Reissig, W.H. 1991. Insect Identification Sheet No. 7: Apple Maggot, Rhagoletis pomonella (Walsh). Cornell University and the New York State IPM Program. ! Seelig, R.A. and D. Hirsh. 1978. March - Fruit and vegetable pointers: Apples. United States Fresh Fruit and Vegetable Association. Washington, DC. Image Credits: Figure 1—Photo of Rhagoletis pomonella from UC IPM Pest Management Guidelines: Apple, UC ANR Publication 3432. Used with permission from University of California Statewide IPM Program (http://www.ipm.ucdavis.edu), J. K. Clark, photographer. Figure 2—Jim Stamos, artist, adapted from Bush, 1969. Figure 3—Photo of apple maggot larvae burrowing in apple is used with permission from University of California Statewide IPM Program (http://www.ipm.ucdavis.edu), J. K. Clark, photographer. Figure 4a—Robert H. Mohlenbrock @ USDA-NRCS PLANTS Database / USDA SCS. 1991. Southern wetland flora: Field office guide to plant species. South National Technical Center, Fort Worth, TX. Figure 4b—USDA-NRCS PLANTS Database / Britton, N.L., and A. Brown. 1913. Illustrated flora of the northern states and Canada. Vol. 2: 320. Figure 5—Photo of Empire apples is courtesy of © New York Apple Association (http://www.nyapplecountry.com). Figure 6—Jim Stamos, artist, adapted from Bush, 1969. Figure 7—Photo of damaged apple is used with permission from University of California Statewide IPM Program (http://www.ipm.ucdavis.edu), J. K. Clark, photographer. Date Posted: 12/03/03 nas Originally published at http://www.sciencecases.org/maggot_fly/maggot_fly.asp Copyright © 2003 by the National Center for Case Study Teaching in Science. Please see our usage guidelines, which outline our policy concerning permissible reproduction of this work. 6 https://www.coursehero.com/file/35916523/maggot-flypdf/ This study resource was shared via CourseHero.com Powered by TCPDF (www.tcpdf.org)