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How did knowledge of genotype affect scientists' efforts to improve plants used for food and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
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Why is it important for scientists to read what their colleagues around the world are doing?
Reading the work of colleagues helps scientists stay informed about the latest research developments, avoid duplicating efforts, and collaborate more effectively. It allows scientists to build on existing knowledge and contribute to the advancement of their field.
What describes an important role scientists have in society?
Scientists play a crucial role in society by advancing knowledge through research and innovation, which helps address pressing global challenges such as climate change, health crises, and technological development. They inform public policy and guide decision-making with evidence-based findings, ensuring that society can make informed choices. Additionally, scientists contribute to education and promote scientific literacy, fostering a more informed and engaged citizenry. Through these efforts, they help shape a sustainable and prosperous future for all.
What problem could occur if in scientists did not communicate the results of their investigations?
If scientists do not communicate the results of their investigations, valuable knowledge may remain undiscovered or underutilized, hindering progress in various fields. This lack of communication can lead to duplication of efforts, wasted resources, and missed opportunities for collaboration. Furthermore, the public and policymakers may be uninformed about critical scientific findings, which can affect decision-making and the implementation of solutions to pressing societal issues. Ultimately, the advancement of science and technology could stagnate without effective dissemination of research outcomes.
How could knowledge of a pest organism's tolerance limits be used in pest control?
Knowledge of a pest organism's tolerance limits can be used to develop control strategies that target those specific limits. By understanding what conditions the pest cannot survive or reproduce in, pest control measures can be tailored to exploit these weaknesses. This targeted approach can make pest control efforts more effective and efficient.
What problems could occur in scientists did not communicate the results of their investigations?
If scientists do not communicate the results of their investigations, it could lead to duplication of research efforts, wasted resources, and missed opportunities for collaborations and advancements in the field. Furthermore, society may not benefit from important scientific discoveries and findings if they are not shared with the public.
How did knowledge of genotypes affect scientists efforts to to improve plants used for food and clothing?
that it learns how to fight
How did knowledge of genotypes affect scientists' efforts to improve plants use for food and clothing?
that it learns how to fight
How did knowledge of genotype affect scientists efforts to improve plants used for food and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotype affect scientists effort to improve plant used for food and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotype affect scientists effort to improve plants used for food and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotype affect scientist's effort to improve plants used for food and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotypes affect scientist efforts to improve plantsused for food and clothing?
Knowledge of genotypes allowed scientists to selectively breed plants with desirable traits, such as higher yields or better fibers for clothing. By understanding the genetic makeup of different plant varieties, scientists were able to develop improved cultivars more efficiently and effectively, resulting in crops that are better suited for food and clothing production.
how did knowledge of genotypes affect scientists efforts to improve plants for foods and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotypes affect scientists' efforts to improve plants used for foods and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How Did Knowledge of genotypes affect scientists efforts to improve plants used for foods and clothing?
Before they knew about genotypes, scientists had to rely on selective breeding, which improves phenotypes. Now they can also consider genotypes and pedigrees of plants and the capability to insert desired genes from one plant to another. This has greatly improved their efforts to improve these types of plants.
How did knowledge of genotypes affect scientist' efforts to improve plants used for food and clothing?
that it learns how to fight
How did knowledge of genotypes affect scientist's' efforts to improve plants used for food and clothing?
that it learns how to fight
