• Successfully addressing the problem of IAS needs collaboration between different economic sectors and disciplines.

• Cultural values and public perceptions need to be addressed.

• Policymakers need to know that invasive species pose a major threat to native ecosystems and biodiversity and to economic prosperity.

• Education is a key component of successful prevention and management methods (GISP, 2004).

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Invasive species management

• The management of invasive species changes according to the management goal, time allocated, funding and severity of the invasive species infestation (GISP 2004).

• Management is categorised into:

prevention

early detection

assessment

strategieseradication

containment

control

mitigation

biological control

integrated pest management monitoring

follow-up

Management categories

Generalized steps in the invasion process and their relationship to management of invasive species (adapted from Kolar and Lodge, 2001)

Steps in the invasion process

• Species may be excluded from countries according to quarantine laws and regulations.

• A good predictor of invasiveness is whether a species has invaded other (similar) areas where it has a longer history as an alien (Richardson, 2001).

• The most common approach for prevention is to target individual species.

PREVENTION

Prevention

PREVENTION cont.

• A more comprehensive approach is to identify major pathways and manage the risks associated with these.

• Risk assessments can be done for pathways as well as for individual species. In most countries, black lists are made of the most notorious invaders, known to be pests in the country or elsewhere. Prevention of these species from entering a country is the goal of quarantine.

• Australia is well on its way to developing a promising screening system (Daehler and Carino, 2000). This system uses various types of information (e.g. life history, biogeography, habitat characteristics and weed history) to classify a species as either likely to be invasive, not likely to be invasive, or requiring further research.

Prevention cont.

• The general public can also do their bit to prevent introductions or further establishment of already introduced IAS.

• These limited actions will make a difference to the biodiversity of their countries, and will assist those involved in management.

awareness

not taking spp. across borders

tolerance of aerial spraying

planting indigenous spp.garden refuse disposal

not releasing pets into the wild

What can the public do?

• Should be based on a system of regular surveys.

• Some surveys will need to focus on specific target species known to be invasive under similar conditions, or species that have been successfully eradicated before.

• A crucial part of early detection is a contingency plan, which determines the action to be taken when an alien species has been found.

• The longer an alien species goes undetected, the less opportunity there will be to intervene, the fewer options will remain for its control or eradication, and the more expensive any intervention will become!

EARLY DETECTION

Early detection

depends on the:

• The management goal is usually the conservation or restoration of intact ecosystems that support the delivery of ecosystem services.

• Assessment will determine which eradication and control options should be taken, if any based on the likelihood of success, cost effectiveness and any potential detrimental impacts.

ASSESSMENT

management goal

extent and quality of the area

the invasive target spp.

the indigenous spp. under threat

Assessment

• In South Africa, scientists are developing a “prioritization system” for managing invasive alien plants (Robertson et al, 2003).

• This system is a means of assessing IAS, and directing control or research options and funding towards the species that are of most concern.

• Independent assessments are made per species on the basis of invasiveness, spatial characteristics, potential impact, potential for control, and conflicts of interest.

ASSESSMENT cont.

Assessment cont.

• ERADICATION is the elimination of the entire population of an alien species in the managed area.

• Eradication should only be attempted if it is feasible.

• If eradication of the invasive species is achieved, it is more cost-effective than any other measure of long-term control.

• Early detection and rapid action, persistent efforts and good understanding of invasion ecology can lead to successful eradication of alien invasive species

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION

Strategies - eradication

Methods of ERADICATION vary, depending on the species:

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

mechanical control

hand-pulling

burning

fencing to exclude animals

electrical currents to control fish movements

Mechanical control

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

chemical controltoxic baits against

invertebrates

spraying insecticides/herbicidesIncrease in willingness

to use herbicides

Control of disease in wildlifeeg. mountain gorillas against measles & chips against polio

biopesticides

eg. Bacillus thuringiensis (BT) sprayed against insect pests

Chemical control

Hunting of invasive vertebrates (mammals and birds)

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

Cultural m

ethods e.g. crop ro

tation, ti

llage

practices, b

arriers, h

edgerows

Habitat management e.g. grazing and prescribed

burning

OTHER METHODS OF ERADICATION

Other methods of eradication

• Small populations of invasive species can sometimes be ERADICATED if action is immediate.

• eg. rabbits in Haleakala National Park in Hawaii (Loope et al, 1992) and a fire ant in Galapagos (Abedrabbo, 1994).

• However, once reproduction, dispersal and adaptation have occurred, control becomes problematic and eradication highly unlikely.

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

Eradication cont.

• CONTAINMENT aims to restrict the spread of an alien species and to contain the population in a defined geographic range.

• The methods used for containment are the same as those described for prevention, eradication and control.

• Usually the population is suppressed along the border of a defined area, and individuals spreading beyond this are eradicated.

• Introductions into areas outside the defined containment area are prevented

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

Containment

• CONTROL aims for the long-term reduction in density and abundance to below a pre-set acceptable threshold.

• The weakened state of the invasive species allows indigenous species to regain ground and possibly further diminish the abundance of the alien species.

• Control methods include those in eradication, as well as biological control. All control methods, except biological control, need long-term funding and commitment (GISP, 2004).

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

Control

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

trapping

baiting

fencingshooting

Conventional CONTROL methods for animals include:

Baiting in Australia done using 1080 – a natural poison

found in indigenous plants

Indigenous herbivores have evolved a high tolerance to itused to control feral animals

(goats, pigs, horses etc)

guidelines for humane treatment and removal should be adhered to

Methods of control

• MITIGATION the last resort is to “live with” this species in the best achievable way, and mitigate impacts on biodiversity and endangered species.

• It differs from containment and control in that the activity undertaken does not directly affect the invasive species in question, but rather focuses on affected indigenous species (GISP, 2004).

STRATEGIES: ERADICATION, CONTAINMENT, CONTROL AND MITIGATION cont.

Mitigation

• Biological control is the introduction of a natural enemy (predator, parasite or disease) to control invasive alien species, often from the IAS’ indigenous range.

• Biological control can be a self-sustaining and cost-effective tool for the management of invasive species (Fowler et al, 2000).

• However, a biological control agent is also an introduced species, and many survive without controlling the target pest. Some may attack non-target organisms.

BIOLOGICAL CONTROL

Biological control

• Numerous biological control introductions have adversely affected non-target indigenous species.

• Risk assessment for biological control is difficult because of how hard it is to predict community- and ecosystem-wide impacts of introduced species and because introduced species disperse and evolve (Simberloff and Stiling, 1996).

• Many early biological control projects used generalized predators that subsequently attacked non-target species (Simberloff, 1992).

BIOLOGICAL CONTROL cont.

Biological control cont.

• As biotechnology develops, scientists hope for new ways to control invasive species for which there are few other options. But controversy is common in areas where issues related to invasive species and genetically modified organisms (GMOs) overlap (UCS, 2001). Recent debates involve:

BIOLOGICAL CONTROL cont.

GMO Atlantic salmon in aquaculture (escapes of thousands of fish per year are documented) and where the genetic impacts of escaped farmed fish on rare wild populations are unclear (Naylor et al, 2000)

the proposed field trials of a GM insect (caged populationsof the pink bollworm Pectinophoragossypiella), itself an alien pest of cotton (UCS, 2001)

the emergence of naturally occurring herbicide-resistant canola plants descended fromGM parents (Ellstrand, 2001)

Immuno-contraception is a new approach to biocontrol that controls fertility instead of killing the pests

Biological control cont.

Advantages Disadvantages

Target specificity Initially high research costs

Continuous action Relatively long time until impacts noticeable

Long-term cost-effectiveness Uncertainty over ultimate scale of impact

Often a gradual effect, so environmentally non-intrusive

Uncertain “downstream” effects (difficult to predict and measure)

Self-dispersing (self-sustaining) Lack of control of agents

Irreversible

Table 1. Advantages and disadvantages of classical biological control (Fowler et al, 2000)

BIOLOGICAL CONTROL cont.

Pros & cons of biological control

• Successful biocontrol is not expected to eradicate IAS, but it will reduce their numbers, growth and reproduction. Some examples of successes in biocontrol include:

• introduction of the Australian ladybird into California to control the cottony cushion scale

• control of cassava mealybug in Africa with an encyrtid wasp from South America

• control of salvinia with a weevil Cyrtobagous salviniae

BIOLOGICAL CONTROL cont.

Biological control examples

• control of Opuntia spp. (prickly pear) with the moth Cactoblastis cactorum

• the virus myxomatosis, released in 1950 was believed to have killed more than 90% of feral rabbits in six months

• the fungus (Uromycladium tepperianum) that galls the buds of the Port Jackson willow (Acacia saligna)

• the weevil (Melanterius ventralis) and a wasp (Trichilogaster acaciaelongifolia) released in to attack long-leaved wattle (Acacia longifolia)

BIOLOGICAL CONTROL cont.

Biological control examples

• control of mahogany shoot-borer, world-wide• control of western flower thrip in Australia• biocontrol of lantana has been a success in Hawaii, but a

failure in Australia• introduction of cane toad in Australia in 1935 to control two

insect pests of sugar cane. The cane toad itself became an invasive species

• introduction of the rosy wolf snail (Euglandia rosea) to Hawaii to control the previously introduced giant African snail (Achatina fulica), which led to extinctions of at least 15 endemic snail species on Oahu, and 24 endemic snail species on Mauritius

EXAMPLES OF FAILED BIOLOGICAL CONTROL

vs

Failed biological control

Failure in biological control can be attributed to the failure of an unsuccessful agent or to a whole programme in which the density of the target weed has not declined.

Agents fail when:

(1) they do not become established, (2) they become established but remain at low density or geographically restricted, (3) they become established and reach high density but do not have a negative impact on the density of the target species, or(4) when the biocontrol agent attacks non-target hosts.

WHY DOES BIOLOGICAL CONTROL FAIL?

Why does biocontrol fail?

• Satisfactory control of invaders is usually only achieved when several complementary methods are carefully integrated (Richardson, 2001).

• The term “Integrated Pest Management” implies the integration of approaches and methods into a pest management system, which takes into consideration the ecology of the environment and all relevant interactions that pest management practices may have on the environment.

INTEGRATED PEST MANAGEMENT

Integrated pest management

• Since IPM considers all applicable methods, it is assumed that emphasis on chemical methods may be reduced when effective non-chemical alternative methods are available.

• IPM consists of approaches, methods and disciplines to minimize environmental impact, minimize risks, and optimise benefits.

• An integrated approach to IAS management is required, with a range of methods to deal with the problem. It is important to accumulate the information available, assess all potential methods (as above), and use the best method or combination of methods to achieve the target level of control.

INTEGRATED PEST MANAGEMENT cont.

Integrated pest management cont.

• For example, in response to the sea lamprey problem in the Great Lakes, the Great Lakes Fishery Commission developed a programme that combined a number of methods for management: barriers to block the migration of adult sea lamprey upstream to spawn, a selective lampricide (TFM) to kill larval sea lamprey; sterilization of male sea lampreys; and the potential use of pheromones to lure adult lamprey into traps

INTEGRATED PEST MANAGEMENT cont.

Integrated pest management cont.

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• Monitoring and follow-up is an essential last step to any management, to determine whether the programme is/was successful and the management goal reached

MONITORING AND FOLLOW-UP

Monitoring and follow-up

Links to other chapters

I hope that you found chapter 8 interesting and that you will enjoy chapter nine.

Chapter 1 Definitions

Chapter 2 History, globalisation and GMOs

Chapter 3 The human dimension

Chapter 4 Pathways of introduction

Chapter 6 The ecology of biological invasions

Chapter 5 Characteristics of invasive alien species

Chapter 7 Impacts of invasive alien species

Next

Chapter 8 Invasive species management

Chapter 10

Chapter 9 Predicting invasive spp. occurrence and spread

Chapter 11

Chapter 12