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BIOL3060

Distribution of a plant parasite on its host: gall distribution on the flowering dogwood, Cornus florida. BIOL3060. Overview. (A) Parasite: Gall Midge Fly ( Resseliella clavula ) (B) Host: Flowering dogwood ( Cornus floria ) Process

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BIOL3060

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  1. Distribution of a plant parasite on its host: gall distribution on the flowering dogwood, Cornusflorida BIOL3060

  2. Overview (A) Parasite: Gall Midge Fly (Resseliellaclavula) (B) Host: Flowering dogwood (Cornusfloria) • Process • Female fly lays eggs near terminal dogwood bud (late spring). • Eggs hatch & larvae enter dogwood shoots. • Abnormal swelling (galls) form on twig ends (summer). • Larvae exit galls and overwinter in soil. Pupate in early spring. Become adults in late spring. • Larvae get protection and food source. • Plants expend more energy regenerating tissue.

  3. Purpose • To determine the distribution of midge galls on dogwood trees and to investigate some environmental factors that might influence distribution. Questions • 1) How are the galls distributed spatially? • Random vs. clumped vs. uniform • 2) Could gall distribution be related to: • Size/age of the plant? Nearest neighbor distance? Sunny versus shady microhabitat?

  4. Question 2. Could gall distribution be related to: • Tree size • Older and infirm trees might be more likely to be attacked by the midge parasite. How could this affect distribution? • Distance to nearest neighbor • If trees are close together, they might be more likely to “catch” galls. How could this affect distribution? • Collect data in two habitats • Warmer environments might be better for midges. Environments with more vigorous trees might affect midge choices. How could this affect distribution?

  5. Clumped Distribution • Most trees have few parasites, and some a lot. • Typically associated with: • disease outbreaks • tree densities (“contagious”) • age-related effects 0 0 0 0 30 0 0 30 30 0 0 0 30 0 0 0 0 0 30 0

  6. Even Distribution • “Regular”: Organisms are evenly spaced in the environment. In our case, every tree would have the same number of galls. This would suggest that the parasites are competing for the trees. 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10

  7. Random Distribution • Parasites are randomly distributed within the environment. If midges flew until they “hit” a dogwood haphazardly … 20 20 20 30 30 20 40 40 20 20 20 30 30 30 40 30 20 20 10 20 30 40

  8. Hypotheses and predictions H1 Midge galls are like a disease for dogwoods, some are attacked while others are not. prediction: the distribution of galls on dogwoods is clumped. H2 Gall midges compete for laying sites, and larvae cannot survive if they are too close to each other. prediction: the distribution of galls on dogwoods is regular (even).

  9. Task 1. Student’s T-test1) # galls2) dbh3) dnnAlso use the excel function TTEST Degrees of Freedom: Df = (n1-1) + (n2-1) P=0.05

  10. Probability Levels for Student’s t-Distribution (Two-sided Probability Level)

  11. Task 2. HistogramUse countif statements

  12. Task 3. What is the distribution of galls in the forest? • Index of Dispersion (Id)

  13. Critical Values of the Chi-Square Distribution For p = 0.05 Degrees of FreedomLowerUpper 10 3.94 18.31 15 7.26 25.00 18 9.39 28.90 19 10.10 30.14 20 10.85 31.41 25 14.61 37.65 30 18.49 43.77 35 22.47 49.80 40 26.51 55.76 45 30.61 61.66 50 even 34.76 rand 67.51 clump 55 38.96 73.31 60 43.19 79.08 65 47.45 84.82 70 51.74 90.53 75 56.05 96.22

  14. Task 4. Correlations1) dbh vs. # galls2) dnn vs. # galls • Degrees of Freedom: • Df= (n-2) • P=0.05

  15. Task 5. Scatter plots (2)

  16. Before you leave today: • Fill out chart on Pg 51 • 3 graphs (histogram, 2 correlation plots)

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