Plants Test 2
Endangered Species
A species that is in danger of extinction throughout all or much of its range
Extant
A term describing a species that is not extinct
Extinct
A term that describes a species that no longer has any known living individuals
Herbicide Resistance
Ability to withstand herbicide exposure
Acid Mine Drainage
Acidic water reducing biodiversity, treated with lime
Fish Ladders
Aid salmon migration past dams
Ecosystem
All organisms and abiotic factors in an area
Global Change
Alteration in global systems like climate and pollution
Earth Day
Annual event promoting environmental awareness, first held in 1970
Aldo Leopold
Author of 'A Sand County Almanac,' emphasized ethical land management
George Perkins Marsh
Author of 'Man and Nature,' highlighted the relationship between humans and the environment
Rachel Carson
Author of 'Silent Spring,' led to the ban of DDT and modern environmentalism
Deforestation
Clearing natural forests for various purposes by logging or burning
Gleaning
Collecting leftover wheat heads after harvesting
Conservation Biologists
Concerned with species loss and biodiversity preservation
Preserving Biodiversity Hot Spots
Conserving regions with high species diversity
Nutrient Enhancement
Increase in nutritional value
Why are trophic levels limited to roughly 4-5?
It's not efficient enough for there to be more and still pass down a good amount of energy
Mitigation
Key solutions to reduce environmental impact
Habitat Alteration
Land use change impacting local ecosystems
Forest Definition
Large tree-covered area with an understory
Seed Patents
Legal rights to genetically modified seed lines
Threatened Species
Likely to become endangered in the foreseeable future
Energy flow
Movement of energy through an ecosystem
Agriculture and Nitrogen Cycling
-Nitrogen is the main nutrient lost through agriculture -Industrially produced fertilizer is used to replace lost nitrogen
Objective II: Plant diversity is urgently and effectively conserved
-We need to not over consume plants -We need to set aside an area, and be able to watch them
Non-renewable
-a resource that cannot be reused or replaced easily -(ex. gems, iron, copper, fossil fuels)
Fossil fuels
-hydrocarbon-containing material formed underground from the remains of dead plants and animals that humans extract and burn to release energy for use -Ex: coal -Trees are not fossil fuels
Instrumental Value
-the value that something has as a means to a desired or valued end -Conditional value
Laws of Thermodynamics
1) Energy cannot be created or destroyed 2) Every exchange of energy increases the entropy of the universe (as energy is converted, some of it is lost to heat)
3 Pillars of Sustainability
1) Society 2) Economics 3) Environment
Effective Population Size
Breeding potential-based population estimate - Ne= 4Nf Nm/Nf+Nm -
Crispr Cas9
Genome editing tool for precise gene modifications
Invasive Species
Harmful species entering and multiplying in new ecosystems
Petroleum Production
High production in the U.S.
Sustainable Yield
Highest rate at which a renewable resource can be used indefinitely without reducing its available supply
Overharvesting
Human harvesting exceeding population rebound ability
Fragmentation and Edges
Impact of ecosystem boundaries on species distribution
Coal Strip Mining
Simultaneous removal of layers to expose coal
Systematist
Someone who studies biodiversity
Snags
Standing dead trees
Locavore
Supports local food movements for economic and ecological benefits
Clean Coal
Technology where we take all the CO2 and sulfur and put it somewhere underground that is not in the atmosphere
Genetic Diversity
The amount of variation in the genetic material within all members of a species
Objective III: Plant diversity is used in a sustainable and equitable manner
-We need to not over consume plants
Sustainability Advocates
Future employees and environmentally conscious individuals
Decomposers
- = Detritivores that play a key role in chemical cycling - Rate of decomposition is controlled by temperature, moisture, and nutrient availability
GMO
Genetically modified organism with altered genetic material
Transcendentalism
-19th-century school of American theological and philosophical thought that combined respect for nature and self-sufficiency with elements of Unitarianism and German Romanticism -Means to rise above society and technology -Shift from anthropocentrism to ecocentrism
Anthropocene
-6th mass extinction event that is caused by humans
Green Revolution
-Agricultural changes in the mid-20th century to increase crop yields -Genetically modified crops
Environmental problems we currently face:
-Air and water pollution -biodiversity depletion -climate change -Waste production -Environmental discrimination -Food supply
Cons of Hydropower
-Altering natural conditions -Destruction of habitats -Water quality degradation -Relocation of many people -Hydropower is vulnerable to droughts -War for water in the future
Mineral
-Any hard, usually crystalline material that is formed naturally
Henry David Thoreau
-Author of 'Walden,' emphasized experiencing true self and living simply - Wanted to live "sturdily" and "Spartan-like"
Weighing Conflicting Demands
-Balancing habitat needs of species and human demands -Ex: hanging dead wolves so other wolves don't come and kill sheep
Deforestation Causes
-Biggest cause is agriculture -Farmers need more room -A lot of CO2 emissions
Fossil fuels are formed by:
-Buildup of dirt and organic material, heat and pressure over millions of years turns the dead plants into coal -The amount of pressure and heat determines whether a fossil fuel is going to become oil or coal
Clear Cutting
-Complete removal of trees in an area -loss of soil, soil nutrients, and water
Philosophy of Nature Reserves
-Concept of reserves as biodiversity havens -biodiversity islands in a sea of habitat altered or degraded by human activity
Pros of Solar Radiation
-Cost per energy unit is zero after one-time investment -Solar energy is a renewable energy source -Most effective power source for remote areas -Installation on rooftops is quite space-efficient
Species Extinction
-Edge effects can change microclimates which effect endemic species (native species which can only live in specific conditions
Coal
-Energy stored by ancient plants in swampy forests -High amount of carbon -Been getting cheaper (need for coal has decreased)
Industrial Revolution
-Era of machine-based manufacturing -Machines ran on coal and timber
Ralph Waldo Emerson
-Father of transcendentalism, believed truth was found in nature -He saw nature as self and god, going against the idea of nature as a commodity
Carbon Cycle
-Flow of carbon through living and non-living components -CO2 is taken up and released through photosynthesis and respiration; additionally, volcanoes and the burning of fossil fuels contribute CO2 to the atmosphere
Domestication of Plants
-Genetic changes in plant populations due to human cultivation -Plants hold on to fruits -Ex: wheat
Gene Escape
-Genetic material spreading beyond intended -Horizontal gene flow
Habitat Fragmentation
-Happens when trees are cut down in sections leaving more edge space -Disturbing an animals habitat which forces them to enter habitats that are occupied -Territorial conflicts
Hedonia
-Happiness derived from pleasure -Party life
Eudaimonia
-Happiness derived from virtue and meaning -Long term goals
How does temp affect litter decomposition in an ecosystem?
-Higher temp means more mass is lost (temp controls it) -Positive relationship
Flint Water Crisis
-Highlighted environmental injustice and disproportionate contamination -Environmental racism: people of color live closer to toxic facilities more so on average
Anthropocentrism
-Human-centered view of nature -Nature was something to be conquered and its purpose is to produce commodities for humans -Ex: Redwood trees -Ex: passenger pigeons- hunted to extinction
Cons of Solar Radiation
-Initial production of solar panels implies significant pollution -High upfront costs of solar panels -Solar energy storages can be expensive -Sun energy cannot be generated at night -Solar farms need large areas of land -Some resources needed for the production of solar power are quite scarce
Shinrin-Yoku
-Japanese practice of 'forest bathing' -Lower heart rate and blood pressure -Increases energy levels
Linnean Shortfall
-Most of the species on Earth have not been described and cataloged -50% are threatened -Invertebrates are the most diverse group
Water Cycle
-Movement of water through evaporation, transpiration, condensation, and precipitation -97% is contained in the oceans -2% is in glaciers -1% is in lakes, rivers, and groundwater
5 Objectives for Plant Conservation
-Objective I: Plant diversity is well understood, documented and recognized -Objective II: Plant diversity is urgently and effectively conserved -Objective III: Plant diversity is used in a sustainable and equitable manner -Objective IV: Education and awareness about plant diversity, its role in sustainable livelihoods and importance to all life on earth is promoted -Objective V: The capacities and public engagement necessary to implement the Strategy have been developed
Renewable Resources
-On a human time scale and can be replenished rapidly (e.g. hours to several decades) -Ex: corn or stuff you can plant
Perpetual Resources
-On a human time scale are continuous -Ex: Solar energy; wind
Organic vs Conventional Agriculture
-Organic farming uses more land because each crops needs more space for nutrients -Health benefit is not clear for organic over conventional
Trophic Efficiency
-Percentage of production transferred between trophic levels -Avg. around 10%
Phosphorus Cycle
-Phosphorus is a major constituent of nucleic acids, phospholipids, and ATP -The largest reservoirs are sedimentary rocks of marine origin, the oceans, and organisms
Benefits of Species and Genetic Diversity
-Practical benefits of diverse species and genetics for humans -Rosy periwinkle contains alkaloids that inhibit cancer growth -Aspirin comes from salix alba
Law Conservation of Mass
-Principle that mass cannot be created or destroyed -we cannot destroy carbon, if it isn't in the ground it is in the air -Atmosphere has a small amount of carbon -Marine sediments and rocks have the most carbon
Photosynthesis
-Process converting solar energy into sugar -Water and carbon dioxide go in, sugar and oxygen come out
Nitrogen Cycle
-Process of nitrogen conversion and utilization -Main reservoir of nitrogen (N2) is in the atmosphere - Must be converted to ammonium (NH4+) or Nitrate (NO3-) for plants via nitrogen fixation - Denitrification converts NO3- back to N2
Oxygen Cycle
-Process of oxygen production and distribution -Most oxygen is stored in the oxide minerals of the Earth's crust called the lithosphere
Zoned Reserves
-Protected areas with buffer zones to prevent harm -Costa Rica has become a world leader in establishing zoned reserves
First Conservation Effort
-Published in 1882 by John Evelyn
Acid Precipitation
-Rain with increased acidity due to fossil fuels -Changes soil pH and causes leaching of calcium and other nutrients
Pros of Hydropower
-Renewable and sustainable -Domestic power source
Hubbard Brook Experimental Forest
-Research team constructed a dam on the site to monitor loss of water and minerals (nutrient cycling)
Golden Rice
-Rice fortified with Vitamin A gene -Gene from a daffodil
Objective V: The capacities and public engagement necessary to implement the Strategy have been developed
-Society needs to engage in the problem
Division of Labor
-Specialization of tasks among individuals to increase efficiency -Many famous people could not have done what they contributed without this Ex: Beethoven
Spices
-Strongly flavored parts of plants, usually rich in essential oils, usually roots, bark, seeds, fruits, or buds
Introduced species
-Those that humans move form native locations to new geographic regions, either intentionally or by accident Ex: Kudzu
Joule (J)
-Unit of energy -About 1/6 of a plants energy is converted into secondary production -Plant material eaten by a caterpillar is not efficient - Half the joules leave in the feces
Intrinsic Value
-Value an entity has in itself, independent of external factors -Unconditional value
Palm Oil
-Versatile crop used in food, fuel, and products, with significant environmental impact -One of the largest economic crops -Huge impact on orangutans
Objective I: Plant diversity is well understood, documented and recognized
-We need to know what plants are out there
Objective IV: Education and awareness about plant diversity, its role in sustainable livelihoods and importance to all life on earth is promoted
-We need to learn why plants are important
Cultivation
Continuous management of "wild resources" -Earliest developing: rice, rye, emmer wheat
Roundup Ready Corn
Corn resistant to specific herbicide so that only weeds die around it
Establishing Protected Areas
Creating zones to protect habitats and species
Tree Importance
Critical role in flood prevention
Paper Production Impact
Deforestation's link to paper manufacturing
Soil Erosion
Degradation of soil quality
Frederick Law Olmstead
Designer of Central Park, promoted preserving natural spaces for public access
Systematics goal
Document species before they go extinct to preserve our ability to study organisms
Landscape and Regional Conservation
Efforts to sustain biodiversity at larger scales
Happiness
Emotional state of joy, satisfaction, contentment, and fulfillment
Increased Yield
Enhanced crop productivity
John Muir
Environmentalist who fought to preserve western forests, inspired by Emerson
Bees' Role
Example of horizontal gene flow in nature
Conservation Biology
Field integrating various sciences to conserve biodiversity
Gifford Pinchot
First head of U.S. Forest Service, advocated for sustainable commercial use of natural resources -Conservation: conserve this resource while we use it
Declining-Population Approach
Focus on declining threatened populations to identify causes
Species Diversity
Number of different species in the biosphere or in a particular region
Conservation Groups
Organizations like National Audubon Society and Sierra Club dedicated to environmental preservation
Ex situ
Outside place of origin
Ginseng
Overharvested plant with medicinal benefits
Public Gardens and Arboreta
Places for in situ and ex situ plant conservation
Genetically Modified Crops
Plants modified for improved traits like pest resistance or yield
Corporate Farming Favoritism
Preference for large-scale agricultural operations
Preservation vs Conservation
Preservation maintains areas as they are, while conservation manages resources sustainably for long-term commercial use
Illegal Seed Replanting
Prohibition of reusing patented seeds by farmers
Exponential growth
Rapid increase in human population
Chemical cycling
Recycling of chemicals within ecosystems
Pesticide Elimination
Removal of harmful chemicals
Microendemic
Restricted to a small area (usually a single small population)
Endemic
Restricted to an area
Food Price Inflation
Rise in cost of food products
Science and Environmentalism
Scientific movement studying environmental effects and pollution
Forest Therapy
Therapeutic benefits of spending time in forests
Biodiversity
Total variety of plants and animals in an area
Mining Spoil
Toxic extra material from strip mining
Horizontal Gene Flow
Transfer of genes between unrelated species
Biodiversity and Human Welfare
Value of biodiversity for human well-being
Ecosystem Diversity
Variety of habitats and ecological processes
In situ
Within the place of origin
Global Energy Budget
amount of solar radiation reaching Earth's surface limits the photosynthetic output of ecosystems
Treefall gap
distinguishable hole in a forest with vertical sides extending through all levels down to an average height of 2 m (6.6 ft) above ground
Herbs
leaves of nonwoody plants
Environmental Sustainability
responsibly interacting with the planet to maintain natural resources and avoid jeopardizing the ability for future generations to meet their needs
Minimum Viable Population Size
the minimum population size at which a species can survive
Selective Logging
the practice of removing few trees and leaving the rest of the forest intact
