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1. Input file name or enter from keyboard |
File / Keyboard |
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2. Output file name |
_____ |
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3. Produce data files for plotting? |
N |
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4. Display population sizes during iterations? |
N |
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5. Number of simulations? |
_____ |
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6. Number of years each simulation will run? |
_____ |
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7. Time interval of
extinction reports? |
_____ |
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8. Extinction defined as: 0 =only one sex; or # =min. pop. size? |
_____ |
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9. Number of populations? |
_____ |
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10. Inbreeding Depression? |
Y/N |
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(a) How many lethal equivalents per diploid genome are in the
population? |
_____ |
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(b) What percent of genetic load is due to lethal alleles? |
_____ |
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11. Correlate EV (repro) with EV (survival)? |
Y/N |
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12. Number of catastrophes? |
_____ |
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13. (M)onogamous or (P)olygamous breeding? |
M/P |
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14. Female first age of reproduction? |
_____ |
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15. Male first age of reproduction? |
_____ |
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16. Maximum age or lifespan? |
_____ |
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17. Sex ratio at birth? |
_____ |
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18. Maximum litter size? |
_____ |
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19. Is reproduction density-dependent? |
Y/N |
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| 20. Reproduction Data: | ||
| 21. You specified that ( _____ ) % of adult females produce young in a given year. What is the SD of this? | _____ | |
| 22-25. Mortality Data: | ||
| Female | Male | |||
| Age Class | % Mortality | S.D. | % Mortality | S.D. |
| 0 (0 to 1) | ||||
| 1 (1 to 2) | ||||
| 2 | ||||
| 3 | ||||
| 4 | ||||
| adults (> 5) | ||||
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26. Probability of Type I catastrophe? |
_____ |
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Severity with respect to reproduction? |
_____ |
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Severity with respect to survival? |
_____ |
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27. Probability of Type II catastrophe? |
_____ |
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Severity with respect to reproduction? |
_____ |
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Severity with respect to survival? |
_____ |
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28. Are all adult males in the breeding pool? |
Y/N |
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If no, percentage of males in breeding pool? |
_____ |
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29. Starting proportions according to stable age distribution? |
Y/N |
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If yes, what is the initial population size? |
_____ |
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If no, then enter number of females/males at each age class. |
_____ |
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30. Carrying capacity (K)? |
_____ |
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31. Standard deviation in K? |
_____ |
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32. Is there a trend in K? |
Y/N |
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If yes, over how many years will it change? |
_____ |
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What is the % annual increase/decrease? |
_____ |
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33. Harvest the population? |
Y/N |
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34. Supplement the population? |
Y/N |
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1. Indicate values: (found near top of report) |
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r |
_____ |
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lambda |
_____ |
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R0 |
_____ |
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2. Generation time for: |
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females |
_____ |
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males |
_____ |
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3. Simulations run: |
_____ |
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Number extinct/survived: |
____/____ |
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Probability of extinction/SE |
____/____ |
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Probability of success/SE |
____/____ |
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4. For those that went extinct: |
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Median time to first extinction: |
_____ |
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Mean time to first extinction: |
_____ |
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SE/SD: |
____/____ |
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5. Mean final population for successful cases: |
_____ |
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SE/SD |
____/____ |
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6. Final expected / observed heterozygosity |
____/____ |
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7. Final number of alleles |
_____ |
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