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Global Invasive Species Programme Cape Town, South Africa. Unit 1 – Introduction to Invasive Alien Species – Overview of the Problem -. Randy G. Westbrooks Rebecca M. Westbrooks Steven Manning. Unit Objectives. Understand and describe the nature of the IAS problem
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Global Invasive Species ProgrammeCape Town, South Africa Unit 1 – Introduction to Invasive Alien Species – Overview of the Problem - Randy G. WestbrooksRebecca M. WestbrooksSteven Manning
Unit Objectives • Understand and describe the nature of the IAS problem • List some of the major characteristics of IAS • Discuss a few of the world’s worst IAS • Discuss the basic ecological, economic and public health impacts of IAS • Describe the process of biological invasions • Give examples of intentional and unintentional introductions • List major pathways and vectors of primary and secondary spread • Explain difficulties with predicting invasiveness of organisms • Discuss some of the factors that are enhancing the global spread of IAS
Session Outline and Agenda • 1100-1125. Session 1. Introduction to Invasive Alien Species. • 1125-1145. Session 2. Human Facilitated Spread of Plants and Animals – “Who’s Using Who?” • 1145 – 1200. Lab Exercise. • 1200 – 1300.Lunch. • 1300-1330. Session 3. Predicting Invasiveness – Forewarned Is Forearmed! • 1330-1400. Session 4. Factors Enhancing the Spread of IAS. • 1400-1445. Lab Exercises. • 1445-1450.Review of Major Concepts in Unit 1. • 1450-1500.Break.
Session 1. Introduction to IAS.1.1. Overview of the Problem. • Crop Pests – Historic Struggle Between Man and Nature • Invasive Alien Species (IAS) – Plants/Animals Outside their Native Range – Due to Trade and Travel • Ecological Impacts – Hydrology, Sediments, Soil & Water Chemistry, Disruption of Fire Cycles • Economic and Social Losses - $300+ Billion Globally, Deplete Water Supplies, Famine/Disease, Grazing Lands, Noise Pollution • Ports of Entry – First Line of Defense Against IAS
1.1.2. IAS - Ecosystems out of Balance • Origin of IAS • Remove Top Predators • Insert New Exotic Species Without Co-Evolved Predators and Parasites Food Web Beaver Simple Food Chain Eastern Gray Squirrel
1.1.3. Evolution in Isolation – Recreation of a Virtual Pangaea • Super-continents • Columbia 1.5 Billion Yr BP • Rodinia 700 Million BP • Pangaea 180 Million Yr BP • Evolution in Isolation • Ecological Explosion • 8,600 Birds (4X #) • Global Spread of IAS • Recreating a Virtual Pangaea • Homogeocene Pangaea
Purple nutsedge (Cyperus rotundus) – the perfect weed. 1.2. Characteristics of IAS. • Abundant in Natural Range • History of Invasiveness Outside Natural Range • Wide Distribution in Different Habitats • Fast Growth, Early Maturity • High Reproduction; Seed Dormancy • Allelopathy • Prickles, Spines, Thorns • Parasitism • Same Size/Shape as Crop Seeds • Ability to Go without Food/Water • Roots/Rhizomes with Large Storage • Efficient Means of Spread • Close Association with Humans
1.3. Characteristics of Invaded Habitats. • Ecological Similarities Between Origin and Receiving Ecosystems • Lack of Co-evolved Predators and Parasites • Other IAS already Established • High Degree of Disturbance • Secondary Pathways and Vectors for Further Spread B A • Wet Tropics of Queensland, Australia. B. Florida Everglades, United States.
1.4. Overview of IAS Taxa Groups. Invasive Plants, Insects, Diseases, Aquatic Nuisance Species, and Injurious Wildlife.
1.4.1. Invasive Plants. • 250,000 Plants in the World • 22,000 Invasive Plants • Definitions • Invasive Plant = Weed • Noxious Weed = Regulated Weed • Melaleuca and Pond Apple – Tale of Two Weeds in North America and Australia Melaleuca Pond Apple
1.4.2. Insects. • 30 Million Insect Species • 500,000 Species of Beetles • Desert Locust • Africa, Middle East, Asia • Swarms – • 1,200 km2 • 96 Billion Individuals • 240,000 Metric Tons • Losses • Morocco – 1954 ($50 Million in 6 Weeks) • Ethiopia – 1958 (167,000 Tons of Grain – Feed 1 Million People for a Year Mauritania, July, 1994
1.4.3. Aquatic Nuisance Species. • ANS Factoids • 21 Billion Gallons Ballast Water Per Year - (USA) • 3,000 ANS Moving in Ballast Water Around the World • ANS Taxa • Aquatic Weeds (Water Hyacinth) • Aquatic Invertebrates (Zebra Mussel) • Aquatic Vertebrates (Nile Perch)
1.44. Injurious Wildlife • Terrestrial Vertebrates • Intentionally Established • Game Animals • Domestic Animals • IW Examples • Nutria • Eastern Gray Squirrel • Australian Brushtail Possum
1.5.1. Ecological Impacts of IAS. Fynbos – South Africa • Threaten Endangered Species • Crowd out Natives • Compete with Natives for Resources, Space, Light • Disrupt Trophic Level Relationships • Increase Disturbance Regimes that Natives are not Adapted to (e.g., Wildfires) • Hybridize with Natives • Cause Habitat Loss Argentine Ant Old World Climbing Fern in Florida Cheatgrass in the American West Mallard Duck
1.52. Economic Effects of IAS. • USA: $150 Billion • India: US$117 Billion • South Africa: US$17.5 Billion • United Kingdom: US$12 Billion • Australia: AUS$10 Billion • New Zealand: US$10 Billion • Africa (Aquatic Weed Control): $US60 Million
1.5.2.2. Economic Impacts of IAS. • Direct Losses • Crop Losses (India – 20% Per Year) • Loss of Exports • Karnal Bunt of Wheat • Loss of Pasture Productivity • Cogongrass • Loss of Fisheries • Nile Perch • Indirect Losses • Flooding (Water Hyacinth) • Landslides (Miconia) • Damage to Dams (Nutria) • Increased Wildfires (Cheatgrass) • Loss of Tourism (Spotted Knapweed)
1.53. Public Health Impacts. • Diseases • 1999 - West Nile Virus - USA • 9,862 People Infected • 264 People Died • 2003 SARS in China • $17 Billion Tourism Losses • Stings - Allergic Reactions • Imported Red Fire Ant • Africanized Honey Bee
Session 2. Spread of Plants and Animals – Who’s Using Who? • Reversion of Cultivars to Wild Forms • Olives • Granny Smith Apple
1.6. Process of Invasion. • Primary Introduction • Establishment • Monterey Pine in NZ, AUS • Secondary Spread • Vehicles, Trains, Trailers, Animals
1.6.2. The IAS Lag Phase.Melaleuca in the Florida Everglades. • Florida Everglades • River of Grass, Tree Islands • 80 Miles wide, 1/3 M Deep • 1906 – Introduced from AUS • 1936 - Aerial Seeding with Melaleuca • 1970s – Rapid Spread throughout the Glades • 1990s – 200,000 ha Infested
1.7. Intentional Introductions.1.7.1. Introductions that become Invasive. • Agricultural Crops • Tall Fescue - Pastures • Forestry Species • Leucaena - Africa • Erosion Control • Kudzu - USA • Aid Trade • Cordia - Vanuatu • Ornamental Plants • Siam Weed - Africa • Germplasm • Disease Infected Wheat
1.7. Intentional Introductions.1.7.1. Introductions that become Invasive. • Game Animals • Sika Deer - USA • Mammals as Food Source on Islands • Feral Pigs, Goats • Biocontrol Agents • Cane Toad - AUS • Fishery Releases • Nile Perch – Lake Victoria, Africa • Pets Released in Wild • Burmese Python - USA • Aquaculture Escapes • LA Crayfish - Africa
1.7.1.2. Unauthorized Intentional Introductions (Smuggling). Chinese Water Spinach(Ipomoea aquatica)
Khapra beetle Jointed Goatgrass in Wheat 1.8. Unintentional Introductions. • Adaptations for Spread • Plants – Burs (Cocklebur), Seed Sails, Floating Seeds • Animals – Dog Tick • Stowaways • Khapra Beetle • Hitchhikers • Snails • Contaminants (Co-mingled) • Weed Seed in Crop Seed
1.8. Unintentional Introductions. Contd. • Hitchhikers on Nursery Plants • Pink Hibiscus Mealybug • Hitchhikers on Cut Flowers • Leaf Miners • Soil Pests • Clemora smithi (Sugarcane White Grub) Transferred from Barbados to Mauritius in Sugarcane • Planes, Trains, Vehicles, Equipment • Giant African Snail • Mail • Crazy Yellow Ant • Ballast Soil and Water • Chinese Mitten Crab • Hull Fouling Organisms • Marine Debris
Case Study: Yellow Crazy Ants on Christmas Island • 1930 – Introduced to Christmas Island* • 1990s – Population Exploded • Forms Multi-Queen Super Colonies • Up to 700 ha in Size • Overwhelms and Kills Native Species • Red Land Crabs • 1995-2002 - 10-20 Million Killed • Robber Crabs, Native Reptiles • Native Invertebrates • Control – Toxic Bait – 99% Effective • Fipronil in Fish Meal (0.6 gm/ha) *1528 km NW of AUS; Possession of AUS
1.8.1. Case Study: Serrated Tussock in the U.S. • Description: Annual Grass • Origin: Argentina • Threat: Serious Pasture Weed, Minimal Nutrient Value • Areas Affected: AUS, NZ • 1989 Introduction to USA • Nine Infested Shipments from ARG • Loophole in FNWA – Seed Shipments Exempt from Regulation under the Law • Federal Judge Ruled Intent of Law Included Seed Shipments • Results • Large Amount Re-exported to Canada, Japan • 5,000 kg (11,000 lbs.) Burned in Kentucky • 6,800 kg (15,000 lbs.) Buried in Landfill in Missouri • Small Amount Hydroseeded onto Stripmine Reclamation Sites in Kentucky
1.9.1. Pathways of Unintentional Spread. • Commercial Shipping • Ships • Planes • Trains • Vehicles – Trucks • People Movers • Ships, Planes, Trains, Vehicles • People • Beggar-lice on Trousers
1.9.2.2. Unintentional Spread by Cargo and Commodities. • Cargo – Wide Range of Commercial Goods • Military Equipment • Commodity – Homogeneous Substances in Commerce • Imported Fruit • Ornamental Rocks
Unit 1 – Lab Exercise 1.IAS in Participant Countries. • 1. Name five introduced species in your country that are not considered to be invasive. • 2. Name five introduced species in your country that are considered to be invasive.
Lunch! Sponsored by: Dr. Lynn Jackson Global Invasive Species Programme Capetown, South Africa
Session 3. Predicting Invasiveness.1.10. Methods of Predicting Invasiveness. • Criteria for IAS Prevention Program • Know About IAS Worldwide • GISP: • http://www.gisp.org/ • Global Invasive Species Database: • http://www.issg.org/database/welcome/ • Know Which Ones Pose a Threat to Your Country • Characteristics of Ideal Invaders
April 5, 2005 July 13, 2005 Session 3. Predicting Invasiveness.1.10. Characteristics of the Ideal Invader. • Widespread in Native Range (Kudzu in China) • History of Invasiveness Elsewhere (Serrated Tussock in Australia) • Adapted in Wide Range of Environments and Soils (Tropical Soda Apple) • Rapid Growth and Maturity (Cactus Moth) • Produces Many Offspring (Desert Locust) • Rapid Colonizer (Giant Salvinia) • Efficient Dispersal Mechanisms (Jointed Goatgrass in Wheat) • Broad Diet (Coqui Frog) • Aggressive Behavior (Imported Fire Ant) • Close Relationship with Humans (Oriental Cockroach) • Small in Size (Khapra Beetle)
Session 3. Predicting Invasiveness.1.10. Susceptibility of Environments to Invasion. • Similarities between Native Range of IAS and Receiving Region • IAS Already Established in the Region • Level of Development and Disturbance • Low Biodiversity Due to Habitat Loss or Stressors such as Over Grazing, Wildfires, Clear Cutting, Water Pollution • Vectors for Secondary Spread • Isolated Communities with High % Endemic Species
Session 3. Predicting Invasiveness.1.10. IAS Risk Assessment. • Regulatory Prevention Pest Risk Assessment Systems*. • USDA APHIS Weed Risk Assessment System • Prohibited Listing Approach • AUS AQIS Weed Risk Assessment System • Permitted Listing Approach - 49 Questions • Score < 1 (Permitted Entry) • Score 1 – 6 (Evaluated Further) • Score > 6 (Prohibited Entry) • Ranking of Established IAS • NatureServe I-Ranking (400 Species Ranked) *More in Unit 7.
Session 4. Factors Enhancing Spread of IAS.1.11. IAS and Globalization. • The Global Village • Instant Communications • Global Trade, Travel • Homogenization of World’s Flora & Fauna • Species Introductions – Social, Economic Reasons
The Great American Exchange Panama Land Bridge, 3 Million Yr. BP North AmericanMammals South AmericanMarsupials
Dar es Salaam, Askari Monument Session 4. Factors Enhancing Spread of IAS.1.12. IAS and Changing Land Use Patterns. • Human Development and Habitation - Civilization • Habitat Fragmentation, • Attract Wildlife, Attract IAS • Source Areas for Horticultural IAS • Nutrient Rich Urban Lawns and Gardens (Chinese Wisteria) • Higher # IAS Around Population Centers • More People = More IAS • Purple Loosestrife – Campbell Creek, Anchorage, Alaska • Roads and Highways • Connecting People – Spreading IAS • Japanese Hops, Connecticut, USA • Johnsongrass, North Carolina, USA
1.13. IAS and Global Climate Change. Cause and Effect. • Land Use Changes (Habitat Fragmentation and Destruction) • Build up of Greenhouse Gases (Global Warming, Sea Level Rise, Ecosystem Demise) • Air & Water Pollution (Threat to Environmental/Human Health • Spread of Invasive Species (Threat to Biodiversity and Agricultural Production)
Pleistocene Interglacial Periods. Natural Climate Change Events in North America.1.8 Million – 11,500 Years Ago. • Average Temperature • 2-3o C Higher • Plants/Animals Migrated North • South American Tapirs in North Carolina • Sweetgum in Canada • Manatees in New Jersey
Potential Impacts of Modern Global Warming • Temperatures • 4-9o C Higher • Drought, Heat Waves • Melting Glaciers • Melting Snowcaps • More Rainfall, Storms, Hurricanes • Hurricane Katrina • Sea Level Rise • 0.4 - 0.5 m • Disturbance and Change….. Mt. Kilimanjaro stripped of its snowcap for the first time in 11,000 years.
Potential Impacts of Global Warming on Natural Ecosystems. • Disappearance of Sensitive Habitat • Alpine Meadows • Eastern Forests Changes • Mixed Woodlands and Grasslands • Northwestern Forests Lose Key Species over Decades • Species Attempt to Migrate North…….
Species Migrations In Response to Global Climate Change. • Vegetation Zones Shift 300 km Towards the Poles • Loblolly Pine Distribution Move 300 Miles Northward
Impediments to Species Migration. • Climate Change Faster than Species can Migrate (Trees Migrate 20-30 km per Century) • Human Settlements, Activities, Development, Highways • Invasive Species Move in to Southern Boundary Transition Zones • Cogongrass in Alabama
Invasive Speciesin a Warmer World • Expand their Range, Invade New Habitats • Compete with Stressed Natives • Create Synergistic Effects with other Global Changes Chinese Tallow Tree(Triadica sebifera)
Human Induced Global ChangeCause and Effect Invasive Species Invasive Species BurningFossil Fuels HabitatDestruction Land UseChanges Air & WaterPollution Invasive Species Invasive Species Human Induced Global Change Elevated CO2 Ecosystem Break Down Temperatures Rise More Precipitation More Fires Invasive Species Invasive Species Drought Sea Level Rise