Business Ethics in Biotechnology

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Biodiversity

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Business Ethics in Biotechnology

Definition

Biodiversity refers to the variety of life forms on Earth, including the diversity of species, genetic variation within those species, and the ecosystems they inhabit. It plays a crucial role in maintaining ecological balance and resilience, supporting ecosystem services like pollination, nutrient cycling, and climate regulation. High levels of biodiversity enhance ecosystem productivity and stability, which are critical factors to consider in discussions about environmental health and sustainability.

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5 Must Know Facts For Your Next Test

  1. Biodiversity is essential for ecosystem resilience, allowing ecosystems to recover from disturbances like natural disasters or human impacts.
  2. Genetic diversity within a population enhances its ability to adapt to changing environmental conditions, making it critical for the survival of species.
  3. Loss of biodiversity can lead to decreased ecosystem services, which can impact agriculture, fisheries, and human health.
  4. Habitat destruction is one of the primary drivers of biodiversity loss, often caused by urbanization, deforestation, and agricultural expansion.
  5. Conservation efforts aim to preserve biodiversity through protected areas, restoration projects, and sustainable practices that minimize human impact on ecosystems.

Review Questions

  • How does biodiversity contribute to ecosystem resilience and stability?
    • Biodiversity contributes to ecosystem resilience and stability by providing a range of species that fulfill different ecological roles. A diverse ecosystem is better equipped to withstand disturbances because it has multiple species that can perform similar functions. For example, if one species declines due to disease or environmental changes, others can take its place, ensuring continued ecosystem services. This redundancy allows ecosystems to maintain their functionality even when faced with challenges.
  • What are some key impacts of genetic modification on biodiversity?
    • Genetic modification can have significant impacts on biodiversity by altering the genetic makeup of organisms and potentially introducing traits that affect their interactions with other species. For example, genetically modified crops may outcompete native plants or disrupt local food webs if they escape cultivation. Additionally, the use of genetically modified organisms can lead to reduced genetic diversity if farmers rely heavily on a few modified strains instead of traditional varieties. This dependence can diminish the overall adaptability of agricultural systems.
  • Evaluate the relationship between habitat destruction and biodiversity loss in the context of genetic modification practices.
    • The relationship between habitat destruction and biodiversity loss is particularly relevant when considering genetic modification practices. As agricultural land is expanded for genetically modified crops, natural habitats are often cleared or altered, leading to significant biodiversity loss. This destruction not only displaces native species but also reduces the genetic diversity necessary for ecosystems to thrive. Furthermore, the introduction of genetically modified species into these altered habitats can exacerbate the decline of local flora and fauna by outcompeting them or introducing new diseases. Ultimately, addressing habitat destruction while considering genetic modification is crucial for maintaining biodiversity.

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