Which of the following statements is correct? Multiple Choice The moth population in forest A are experiencing reproductive success. The moth population in forest B are experiencing genetic flow. The moth population in forest A are the result of genetic drift. Both moth populations in forest A and forest B are in Hardy Weinberg equilibrium.

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### Moth Reproductive Success Dark moths were released into either a clean forest (B) or a polluted forest (A). A sample of dark moths was recaptured every generation for five generations. The results can be seen in the graph below. #### Graph: Number of Dark Moths Found in Different Forests - **Y-Axis (Vertical):** Number of Dark Moths Captured (ranging from 0 to 1400) - **X-Axis (Horizontal):** Generations (ranging from 0 to 5) The graph presents two lines representing the number of dark moths captured in different forests over five generations: 1. **Line A (Polluted Forest):** - Initially starts at around 800 moths. - Decreases to approximately 650 moths by the 1st generation. - Gradually increases to about 850 moths by the 2nd generation. - Continues to increase steadily, reaching around 1100 moths by the 4th generation. - Peaks at about 1350 moths by the 5th generation. 2. **Line B (Clean Forest):** - Also starts at around 800 moths initially. - Experiences a sharp decline to about 300 moths by the 1st generation. - Decreases slightly more to around 200 moths by the 2nd generation. - Remains relatively stable at around 200 moths throughout the 3rd, 4th, and 5th generations. This graph and study illustrate the reproductive success and survival of dark moths in different environmental conditions, highlighting the greater success in polluted forests (A) compared to clean forests (B) over multiple generations.

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**Question:** Which of the following statements is correct? **Multiple Choice Options:** 1. ○ The moth population in forest A are experiencing reproductive success. 2. ○ The moth population in forest B are experiencing genetic flow. 3. ○ The moth population in forest A are the result of genetic drift. 4. ○ Both moth populations in forest A and forest B are in Hardy Weinberg equilibrium. --- In this image, a multiple-choice question is presented, likely from a quiz or educational assessment. The question asks which of the given statements about moth populations in two forests is correct. There are no graphs or diagrams accompanying the question; it consists solely of text with four possible answers, each represented by a radio button for selection. The four statements describe different genetic and population dynamics concepts: 1. **Reproductive success**: This refers to the number of offspring an organism leaves in the next generation. 2. **Genetic flow**: This describes the transfer of genetic material between separate populations. 3. **Genetic drift**: A mechanism of evolution that refers to random changes in the frequency of alleles in a population. 4. **Hardy Weinberg equilibrium**: A principle that implies the allele and genotype frequencies in a population remain constant from generation to generation in the absence of evolutionary influences.