Environmental Biology

🪺Environmental Biology Unit 2 – Biodiversity and Conservation

Biodiversity encompasses the variety of life on Earth, from genes to ecosystems. It's crucial for evolution, adaptation, and ecosystem functioning. Earth's ecosystems range from forests to coral reefs, each with unique species and interactions. Biodiversity hotspots harbor disproportionate species richness. Biodiversity provides essential ecosystem services, including food, climate regulation, and cultural benefits. It enhances ecosystem resilience and inspires innovation. However, threats like habitat loss, overexploitation, and climate change endanger biodiversity. Conservation strategies aim to protect and restore ecosystems while promoting sustainable use.

What's Biodiversity Anyway?

  • Biodiversity encompasses the variety of life on Earth at all levels, from genes to ecosystems
  • Includes diversity within species (genetic diversity), between species (species diversity), and of ecosystems (ecosystem diversity)
  • Genetic diversity provides the raw material for evolution and adaptation to changing environments
  • Species diversity refers to the number and relative abundance of different species in a given area
    • Estimated 8.7 million eukaryotic species on Earth, with many more yet to be discovered
    • Prokaryotic diversity (bacteria and archaea) is even more extensive and less well-characterized
  • Ecosystem diversity involves the variety of habitats, biological communities, and ecological processes
    • Ranges from tropical rainforests to deep-sea hydrothermal vents, each with unique species and interactions
  • Biodiversity is not evenly distributed across the planet, with certain regions (biodiversity hotspots) harboring a disproportionate share of species richness

Earth's Ecosystems: A Quick Tour

  • Terrestrial ecosystems cover approximately 30% of Earth's surface and include a wide range of habitats
    • Forests (boreal, temperate, and tropical) are dominated by trees and support diverse plant and animal communities
    • Grasslands (prairies, savannas, and steppes) are characterized by grasses and herbaceous vegetation
    • Deserts receive little precipitation and host specially adapted plants and animals
    • Tundra occurs in cold regions with low-growing vegetation and permafrost
  • Aquatic ecosystems comprise both freshwater and marine habitats
    • Freshwater ecosystems include rivers, lakes, wetlands, and groundwater, supporting 10% of all known species
    • Marine ecosystems cover over 70% of Earth's surface and range from shallow coastal waters to the deep ocean
      • Coral reefs are biodiversity hotspots, harboring an estimated 25% of all marine species
      • Open ocean ecosystems, while less diverse, play crucial roles in global nutrient cycling and carbon sequestration
  • Ecosystems are not isolated but interconnected through the movement of energy, matter, and organisms
    • Migratory species link distant ecosystems (birds, whales, and salmon)
    • Nutrient and water cycles transport materials across ecosystem boundaries

Why Biodiversity Matters

  • Biodiversity provides numerous ecosystem services essential for human well-being
    • Provisioning services: food, fiber, fuel, and medicine derived from diverse species
    • Regulating services: climate regulation, water purification, pollination, and pest control
    • Cultural services: recreational, aesthetic, and spiritual benefits associated with nature
    • Supporting services: nutrient cycling, soil formation, and primary production that underpin other services
  • Diverse ecosystems are more resilient to disturbances and can better adapt to changing conditions
    • Redundancy: multiple species performing similar functions provides insurance against species loss
    • Complementarity: species with different traits can respond differently to disturbances, enhancing overall stability
  • Biodiversity is a source of inspiration and innovation for science, technology, and art
    • Biomimicry: designing materials and systems based on biological models (Velcro inspired by burdock seeds)
    • Bioprospecting: searching for new compounds and genes with medical or industrial applications
  • Ethical arguments for biodiversity conservation emphasize the intrinsic value of all species and our moral responsibility as stewards of the planet

Threats to Biodiversity

  • Habitat loss and fragmentation are the primary drivers of biodiversity loss
    • Conversion of natural habitats for agriculture, urbanization, and resource extraction
    • Fragmentation reduces habitat connectivity and isolates populations, increasing extinction risk
  • Overexploitation of species through hunting, fishing, and collecting for trade
    • Unsustainable harvesting can lead to population declines and extinctions (passenger pigeon, Atlantic cod)
    • Illegal wildlife trade targets rare and endangered species for pets, traditional medicine, and luxury goods
  • Invasive species, introduced intentionally or accidentally, can disrupt ecosystems and displace native species
    • Predation, competition, and disease transmission by invasive species (brown tree snake on Guam, chytrid fungus in amphibians)
    • Economic costs of invasive species management and control are substantial
  • Pollution from agricultural runoff, industrial waste, and plastic debris affects both terrestrial and aquatic ecosystems
    • Nutrient pollution causes eutrophication and dead zones in aquatic systems
    • Persistent organic pollutants bioaccumulate in food webs, impacting top predators
    • Microplastics are ingested by marine organisms with largely unknown consequences
  • Climate change, driven by anthropogenic greenhouse gas emissions, is an emerging threat to biodiversity
    • Shifting temperature and precipitation patterns alter species distributions and phenology
    • Ocean acidification, caused by increased CO2 absorption, impairs shell-forming organisms and coral reefs

Conservation Strategies

  • Protected areas, such as national parks and wildlife reserves, safeguard habitats and species
    • Globally, protected areas cover 15% of land and 7% of oceans, with targets to expand coverage
    • Effective management and enforcement are crucial for protected area success
    • Connectivity between protected areas facilitates species movement and gene flow
  • Ecosystem restoration aims to recover degraded habitats and their associated biodiversity
    • Reforestation and afforestation efforts to restore forest cover and ecosystem services
    • Wetland and coral reef restoration to improve water quality, coastal protection, and fisheries
  • Sustainable use of biodiversity involves managing species and ecosystems for long-term viability
    • Sustainable forestry practices, such as selective logging and reduced-impact logging
    • Fisheries management through quotas, gear restrictions, and marine protected areas
    • Sustainable agriculture, including agroforestry, crop diversification, and integrated pest management
  • Ex-situ conservation maintains species outside their natural habitats, serving as a backup for wild populations
    • Zoos, aquariums, and botanical gardens maintain captive breeding programs for endangered species
    • Seed banks and gene banks store genetic diversity of crops and their wild relatives
  • Community-based conservation engages local communities in biodiversity stewardship
    • Participatory approaches to natural resource management (community forests, wildlife conservancies)
    • Ecotourism generates income for communities while incentivizing conservation

Measuring and Monitoring Biodiversity

  • Species richness is the simplest measure of biodiversity, counting the number of species in an area
    • Alpha diversity: species richness within a single habitat or community
    • Beta diversity: turnover of species between habitats or communities
    • Gamma diversity: total species richness across a landscape or region
  • Evenness describes the relative abundance of species, with high evenness indicating similar abundances
    • Shannon and Simpson indices incorporate both richness and evenness
  • Functional diversity considers the range of ecological roles and traits within a community
    • Functional groups: species with similar ecological functions (nitrogen fixers, seed dispersers)
    • Functional redundancy: multiple species performing similar functions, providing resilience
  • Monitoring biodiversity over time is essential for assessing conservation effectiveness and detecting trends
    • Standardized survey methods, such as transects, quadrats, and point counts, enable comparisons across sites and years
    • Remote sensing techniques, including satellite imagery and aerial surveys, monitor habitat extent and quality
    • Citizen science engages the public in data collection, increasing the scale and scope of monitoring efforts
  • Biodiversity indicators synthesize complex data into metrics for policy and decision-making
    • Living Planet Index tracks population trends of vertebrate species
    • Red List Index measures extinction risk for different taxonomic groups

Case Studies in Conservation

  • African elephant conservation balances protecting a keystone species with human-wildlife conflict mitigation
    • Community-based conservation initiatives, such as the Namibian conservancy program, incentivize coexistence
    • Ivory trade bans and anti-poaching efforts aim to reduce illegal hunting pressure
  • Coral reef conservation in the Great Barrier Reef showcases the challenges of managing a vast, diverse ecosystem
    • Marine protected areas, fishing regulations, and water quality improvement efforts aim to enhance reef resilience
    • Coral restoration projects, such as nurseries and transplantation, help to recover degraded reefs
  • Yellowstone wolf reintroduction highlights the ecological benefits of restoring top predators
    • Wolves regulate elk populations, reducing overgrazing and promoting vegetation recovery
    • Trophic cascades extend to other species, such as beavers and songbirds, demonstrating the importance of species interactions
  • Mangrove restoration in Southeast Asia provides multiple ecosystem services while supporting biodiversity
    • Mangroves protect coastlines from erosion and storm surges, filter pollutants, and sequester carbon
    • Restoration efforts involve local communities in planting and management, providing livelihood benefits

Future Challenges and Opportunities

  • Integrating biodiversity conservation into land-use planning and decision-making across sectors
    • Incorporating biodiversity values into environmental impact assessments and strategic planning
    • Encouraging biodiversity-friendly practices in agriculture, forestry, and fisheries through incentives and regulations
  • Addressing the underlying drivers of biodiversity loss, such as population growth and unsustainable consumption
    • Promoting education and awareness to shift attitudes and behaviors towards sustainability
    • Supporting family planning and women's empowerment to reduce population pressures on natural resources
  • Harnessing technology and innovation for conservation science and practice
    • Applying genomics and biotechnology to species conservation and restoration (gene editing, synthetic biology)
    • Using artificial intelligence and big data to analyze patterns and predict conservation outcomes
  • Mobilizing financial resources for biodiversity conservation from diverse sources
    • Scaling up public and private investments in conservation, including through biodiversity offsets and payments for ecosystem services
    • Exploring innovative financing mechanisms, such as conservation trust funds, green bonds, and impact investing
  • Fostering collaboration and partnerships across sectors and scales for effective conservation action
    • Engaging indigenous and local communities as partners in conservation, respecting traditional knowledge and practices
    • Strengthening international cooperation and governance frameworks, such as the Convention on Biological Diversity and the Sustainable Development Goals


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AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.
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