Tactics and Vectors 98/99
                           

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Great Circle Hypotheis  

Magnetoclinic Hypothesis

Magnetic-Latitude Hypothesis

Compass Bearings Hypothesis

Suns' Azimuth Hypothesis

Expansion-Contraction Hypothesis

Always Advance Hypothesis

Never Go Back Hypothesis

 

 

Analyses of Pooled Field Data: Descriptive Statistics

Descriptive circular statistics of the pooled directional data for the 1978, 1979, and 1981 Monarch butterfly (Danaus plexippus) migrations in Southern Ontario.

 ¦ Up   ¦ Tables:  ¦ IIIIII,   IVVVIVII,  VIII aVIII bIXX,  XI,  XII  ¦

left arrowarrow leftTable II*

Mean Bearings of migrating Danaus plexippus for eight wind conditions

Directional data were grouped according to wind direction at the time of the observation.

Wind

N

Mean Bearing

r

A.D.

95% C.I.

North

  53  

          185° (S)

    0.90***

±26°

±8°

Northeast

  64 

          229° (SW)

    0.90***

±26°

±7°

East

150 

          247° (WSW)

    0.84***

±32°

±5°

Southeast

131 

          257° (WSW)

    0.86***

±30°

±5°

South

  15  

          237° (WSW)

0.51*

±57°

   ±39°

Southwest

  35  

          143° (SE)

0.30*

±68°

   ±52°

West

  20  

          128° (SE)

     0.59***

±52°

  ±29°

Northwest

107 

          153° (SSE)

     0.83***

±33°

±5°

Population

575  

         222° (SW)

     0.60***

±47°

±5°

* Adapted from Gibo, D. L.,  19861990

Definitions of abbreviations and symbols:  N = number in sample, S = South, SW = Southwest, WSW = West-Southwest, etc., r = length of mean vector, A.D. = Angular deviation, C.I. = Confidence Intervals.   Asterisks indicate significance level for Rayleigh tests (* =  P< 0.05, ** =  P< 0.01,   and *** =  P< 0.001)   

Comments

  1. The significance levels of the Rayleigh test for N, NE, E, W, and NW winds meant that the probability that the population being sampled (e.g. all monarch butterflies flying in North winds in southern Ontario during late summer and fall) from which the sample (i.e. 53  vanishing bearings of monarch butterflies that I observed flying in North winds) was taken actually has no directional bias (i.e. vanishing bearings are randomly distributed in the population) is less than one in a thousand.    In other words, the chance was less than one in a thousand chance that the directional bias of my samples of monarchs were simply runs of (good? bad?) luck.

  2. The above discussion also applies to the directional data for monarch butterflies flying in S or SW winds, except that the results are less convincing.   Because P was less than 0.05, but greater than 0.01, the probability that the butterflies were actually flying about in random directions was less than one in twenty but greater than one in a hundred.  Therefore, we are less confident of the results for South winds and Southwest winds than the results for the other six wind conditions.   The high values for the Confidence Intervals for South and Southwest winds are further indications that it would be best to get more information (i.e. increase the sample size for these two wind conditions) before we accept the results as representative of the two populations.