Science Assessment ~ Topics ~ Speciation ~ Item SP007004 ~ Student Performance

A hundred years ago, a network of streams connected three lakes: Lake Unknown, Lake Mystery, and Lake Forgotten. These streams allowed trout to travel freely between the three lakes and interbreed.

Due to environmental changes, the streams dried up, so trout in each lake can no longer breed with trout from the other two lakes. Biologists are interested in how this change has affected the frequencies of different alleles of Gene Z. The chart below shows the allele frequencies of Gene Z in the three populations.

Which sequence of events provides the simplest and most likely explanation of how Allele 3 appeared in Lake Unknown, but not in the other two lakes?

Step 1: The streams dried up.

Step 2: Allele 3 appeared in the Lake Unknown population because of gene mutations.
Step 1: Allele 3 appeared in the Lake Unknown population because of gene mutations.

Step 2: The streams dried up.
Step 1: The streams dried up.

Step 2: Allele 3 appeared in the Lake Unknown population because of a change in environment. No gene mutations occurred.
Step 1: Allele 3 appeared in the Lake Unknown population because of a change in the environment. No gene mutations occurred.

Step 2: The streams dried up.

Pre-Test

Distribution of responses (prior to studying evolution in high school)
Answer Choice		Overall	Grades		Gender		Primary Language
		n = 558	6–8 n = 25	9–12 n = 498	Male n = 243	Female n = 274	English n = 502	Other n = 19
A.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of gene mutations.	29%	20%	30%	35%	26%	29%	26%
B.	Step 1: Allele 3 appeared in the Lake Unknown population because of gene mutations. Step 2: The streams dried up.	24%	16%	24%	22%	26%	24%	21%
C.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of a change in environment. No gene mutations occurred.	30%	44%	29%	27%	31%	30%	32%
D.	Step 1: Allele 3 appeared in the Lake Unknown population because of a change in the environment. No gene mutations occurred. Step 2: The streams dried up.	17%	20%	16%	16%	18%	16%	21%

Post-Test (Control)

Distribution of responses (following typical high school instruction on evolution)
Answer Choice		Overall	Grades		Gender		Primary Language
		n = 294	6–8 n = 23	9–12 n = 247	Male n = 109	Female n = 171	English n = 264	Other n = 9
A.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of gene mutations.	39%	48%	38%	43%	36%	39%	44%
B.	Step 1: Allele 3 appeared in the Lake Unknown population because of gene mutations. Step 2: The streams dried up.	25%	26%	25%	27%	24%	25%	22%
C.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of a change in environment. No gene mutations occurred.	23%	22%	23%	19%	25%	22%	33%
D.	Step 1: Allele 3 appeared in the Lake Unknown population because of a change in the environment. No gene mutations occurred. Step 2: The streams dried up.	13%	4%	14%	11%	15%	14%	0%

Post-Test (Treatment)

Distribution of responses (following completion of an evolution curriculum module)
Answer Choice		Overall	Grades		Gender		Primary Language
		n = 281	6–8 n = 3	9–12 n = 257	Male n = 132	Female n = 140	English n = 254	Other n = 11
A.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of gene mutations.	53%	67%	54%	56%	50%	55%	27%
B.	Step 1: Allele 3 appeared in the Lake Unknown population because of gene mutations. Step 2: The streams dried up.	22%	0%	21%	22%	22%	20%	45%
C.	Step 1: The streams dried up. Step 2: Allele 3 appeared in the Lake Unknown population because of a change in environment. No gene mutations occurred.	19%	33%	19%	14%	22%	19%	18%
D.	Step 1: Allele 3 appeared in the Lake Unknown population because of a change in the environment. No gene mutations occurred. Step 2: The streams dried up.	7%	0%	7%	8%	6%	6%	9%

Science Assessment

Item SP007004: Given three populations of fish, changes in the distribution of alleles in those populations occurs when the populations become separated and different gene mutations occur in the different populations.

Pre-Test

Post-Test (Control)

Post-Test (Treatment)