What is a benefit of using molecular markers in plant breeding?

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Using molecular markers in plant breeding offers significant advantages, particularly in the area of efficiency and precision when identifying desirable traits. Molecular markers are specific sequences in the DNA that can be linked to traits of interest, such as disease resistance, drought tolerance, or improved nutritional content. By utilizing these markers, breeders can more quickly and accurately select plants that carry the desired traits, significantly speeding up the breeding process compared to traditional, phenotype-based selection methods.

This increased efficiency allows for a more targeted approach in developing new plant varieties. For instance, instead of waiting for plants to grow and express traits over multiple generations, breeders can use molecular markers to identify plants that already harbor these traits at the seed stage. As a result, breeding programs can deliver new varieties more quickly to farmers, addressing food security and crop resilience challenges effectively.

In contrast, the other options do not accurately reflect the role of molecular markers. While planting costs may vary for various reasons, molecular markers are generally intended to streamline the breeding process, not necessarily increase costs. Molecular markers do not affect fertilization practices directly and do not inherently reduce genetic diversity; instead, they can help maintain diversity by allowing breeders to select for specific traits without losing the full gene pool of the plant.

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