1. Lab 2: Estimating Population Sizes Changes in population sizes are an indicator for important changes in community structure. Such changes may take years to become evident due to the long lifespan and slow reproduction in some seabird species. A change in population trends might trigger further research to investigate the causes of change, and management might formulate “species action plans” to maintain a healthy seabird community.

2. Today’s Objectives Become familiar with methods of random sampling Apply sampling methods to estimate patterns of dispersion Understand the importance of sample size and replication and how it can affect results

3. What is a population? biological definition: A group of individuals of the same species in a given area

4. Why might we sample population size? Endangered/threatened species efforts Monitor invasive species Effects of pathogen Understand impacts of different species on community structure Iris lacustris Cryphonectria parasitica Castanea dentata Pacifastacus leniusculus Gasterosteus aculeatus Apis mellifera

5. Estimating population size Typically not feasible to sample all individuals (= actual population size) –Not enough resources –Scarce individuals So, we estimate population sizes

6. Estimating population sizes can be difficult Very small organisms Rare species Aquatic and arboreal Nocturnal Distribution pattern (random, even, or clumped)

7. Methods Available Census (rarely feasible) Sampling: Mobile organisms - Mark Recapture Non mobile (mostly) - Quadrats - Point Center Quarter (PCQ)

8. The Quadrat Randomize start point Mark first point Count the number of individuals within a quadrat *Try to be consistent with first point as corner

9. Point Center Quarter (PCQ) Randomize start point (center) Split to 4 Quadrants Measure distance to nearest individual in each quadrant

10. Problems with quadrat and PCQ Can be affected by patchiness of the populations.

11. Sample Size & Replication Sample size –Total # of observations Replication –Repetition of an experimental treatment or sampling –One way to increase sample size Why is it important to get a large sample size? –Improves precision of mean estimate Standard Error (SE): SE = s / √n

12. Today’s Lab Estimate population size & dispersion of trees in Sanford Woodlot Sample populations using Quadrat & PCQ methods Return to class to analyze the data Materials to take with you: –Random # table (pg 190) –Lab activity –Data sheet

13. Mark-Recapture!

14. Mark-Recapture M = Total marked in first sample n = Number in second sample R = Number of recaptures marked individuals in second sample N = Total population what we are estimating Nn M R Solving for N = N = nM R

15. Mark-Recapture: Assumptions All individuals in the population have an equal and independent chance of being captured. The ratio of marked to unmarked individuals does not change between the 1 st and 2 nd samples. (no birth, death, em/immigration) Marked individuals distribute themselves homogeneously with respect to unmarked individuals. Why would failure to meet assumptions affect population estimate? N = nM R

16. Data Analysis Each group calculates ‘estimation in a hectare’ for Quadrat & PCQ method Quadrat –Count the number of individuals (x) –Find Quadrat area (Q) in m 2 –(x / Qm 2 ) * (10,000m 2 / 1 ha) = # indiv./ha PCQ –Take mean of four distance measurements in meter (d) –10,000m 2 / d 2 = # indiv./ha

17. Data Analysis Each group calculations ‘estimation in a hectare’ for Quadrat & PCQ method For PCQ, calculate descriptive stats: –Mean, variance, standard deviation, standard error For point-to-plant data, calculate coefficient of aggregation (A)

18. Data Analysis Turn in sheet when finished. One per group. After all groups are done, we’ll discuss group projects. Review proposal feedback while you wait for other groups to finish.

19. Quiz (Surprise!) –10 min –Turn over when finished After quiz, write responses on one-third sheet: –How is your group communicating about the project? –Anything you would change about your or others’ contributions to the project? When everyone’s finished, we will discuss group projects

20. Group Projects – Time to Start! Greenhouse: see e-mails 25 Nat Sci Lab: come during office hours Spring break Review proposals Discuss with me any questions about methods Check out any needed materials You can continue to check out/return materials during office hours Next week = spring break! Enjoy!