Question

In: Statistics and Probability

The following three columns of data represent observations (number of aphids killed per m2) following three...

The following three columns of data represent observations (number of aphids killed per m2) following three pesticide treatments (A-C), with each treatment being “replicated” five times.

A

B

C

5.1

5.7

6.5

8.2

6.3

8.1

8.3

7.7

8.9

9.5

9.8

10.2

12.1

11.2

13.6

Analyse the strength of evidence for a treatment effect (A-C) if:

  1. the experiment was completely randomised (i.e. rows have no meaning)

and alternatively if:

  1. the experiment was in randomised spatial blocks, with observations from the same block being in the same row (i.e. 5.1, 5.7, 6.5 block 1; 8.2, 6.3, 8.1 block 2…). In this case the rows have meaning.

Why do you come to different conclusions about the effects of pesticide dependent on the method applied? In each instance, please provide a statement of the null hypotheses and alternates, the fitted equation, a qualitative summary of whether the model assumptions are met, and a conclusion

Solutions

Expert Solution

ANSWER:

Mean n Std. Dev
8.6400 5 2.5274 A
8.1400 5 2.3266 B
9.4600 5 2.6745 C
5.7667 3 0.7024 Block 1
7.5333 3 1.0693 Block 2
8.3000 3 0.6000 Block 3
9.8333 3 0.3512 Block 4
12.3000 3 1.2124 Block 5
8.7467 15 2.3943 Total
ANOVA table
Source SS    df MS F    p-value
Treatments 4.441 2 2.2207 6.49 .0212
Blocks 73.077 4 18.2693 53.37 8.27E-06
Error 2.739 8 0.3423
Total 80.257 14

The model assumptions are met.

The p-value is 0.0212.

Since the p-value (0.0212) is less than the significance level (0.05), we can reject the null hypothesis.

Therefore, we can conclude that there is the effects of pesticide dependent on the method applied.

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orchestra answered 1 year ago
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