Transcript Slide 1

Chemical Treatments
• What types of chemical treatments are
there?
• Why are chemical treatments used?
• How are chemical treatments applied?
• What are the effects of chemical
treatments?
Chemical Treatments
• Types of Chemical Treatment
– Pesticides
• Herbicides
• Insecticides
– Fertilizers
Credit: florida stateparks.org
Credit: uregin.ca
Chemical Treatments
• Herbicide Use
– Last option in wildlife management
• Manipulate vegetation
– Favor desired plant species
– Reduce undesirable species
Credit: flickr.com
Chemical Treatments
• Herbicide Use
– An alternative for
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Manipulating plant succession
Altering habitat structure
Controlling unwanted plants
Preventing invasion by woody plants
Maintaining openings
Top-killing strong sprouters
– Often used in conjunction with other methods
Chemical Treatments
• Herbicide Use
– Advantages
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Can be used in difficult terrain
Variety of application methods
Provides a rapid control method
Has low labor and fuel requirements
Selective types available
Can maintain grass and litter cover
– Does not expose soil
– Reduced erosion
• Can be safe and reliable if done properly
Chemical Treatments
• Herbicide Use
– Disadvantages
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May not control some noxious species
Careless use hazardous
Lack of selectivity in some cases
Decrease plant diversity
Often drastically reduces forbs
Can have direct and indirect effects on wildlife and habitat
Chemical Treatments
• Kinds of Herbicides
– Foliar-active
• Applied directly to leaves and stems
– Liquids and soluble powders
– Contact (often less selective)
– Translocated/systemic (often more selective)
Credit: forestryimages.org
» Photosynthetic activity important
- Low light and soil moisture, and high temps a problem
Chemical Treatments
• Kinds of Herbicides
– Soil-active
• Applied to soil surface
– Liquids or pellets
– Sterilant (contact; often less selective)
– Translocated/systemic (often more selective)
• Precipitation important to get to root zone
Credit: agweb.com
Chemical Treatments
• Kinds of Herbicides
– Hexazinone (e.g., Velpar): Soil*/Trans
• Non-selective; some selective for conifers
– Imazapyr (e.g., Arsenal): Soil & Foliar/Trans
• Conifers resistant
– Glyphosate (e.g., Round-up): Foliar/Trans
• Non-selective
– Triclopyr (e.g., Garlon): Foliar/Trans
• Most grasses resistant
Chemical Treatments
• Kinds of Herbicides
– Piclorum (e.g., Tordon): Foliar/Trans
• Woody plants and broadleaved (forb) weed control
– 2-4-D (e.g., Relay): Foliar/Trans*
• Most grasses resistant; kills forbs
– Glufosinate (e.g., Liberty): Foliar/Contact
• Non-selective; kills forbs; some crop resistance
– Paraquat: Foliar/Contact
• Non-selective
Chemical Treatments
• Herbicide Specificity and Effectiveness
– Tuned to targets
• Grass
• Broadleaves (herbaceous and woody)
– Genus/species
• Forbs often most severely effected non-target type
Credit: forestryimages.org
Credit: fipr.state.fl.us
Chemical Treatments
• Herbicide Specificity and Effectiveness
– Stage of plant development
– Season
– Soil temperature
– Precipitation and soil moisture
Chemical Treatments
• Herbicide Application
– Aerial
• Fixed wing or rotary wing aircraft
– Spray
– Pellets
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Rapid application
Large areas
Remote areas
Rough terrain
• Unselective
Credit: mainemark.com
Credit: mainemark.com
Chemical Treatments
• Herbicide Application
– Ground
• Tractor-mounted
• Hand applied
– Spray
– Pellets
Credit: co.uintah.ut.us
• Selective targets
• Small areas
• Intensive
Credit: co.uintah.ut.us
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Persistence in the environment
• Herbicide longevity and residue
“…that quantity of a herbicide remaining in or on the soil,
plant parts, animal tissues, whole organisms, and surfaces”
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Persistence in the environment
• Herbicide longevity and residue
– Negative connotations
– Degree of persistence needed
Ideally herbicides persist long enough to have
the effect and then dissipate quickly and
completely
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Persistence in the environment
• Herbicide longevity and residue
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Chemical attributes
Concentration applied
Soil characteristics
Climate
• Generally, increased temperature and soil
microflora, organic matter, and moisture
accelerates herbicide degradation; leaching effects
• Soil applied (v. foliar) usually persist longer
Case study: Tebuthiuron (soil applied) found 11 years later
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Direct wildlife impacts
• Mortality
– Generally less toxic than insecticides
– Usually do not biomagnify
• Case studies
– Trifluralin
» LD50 at normal applications for mallard embryos
– Paraquat
» High rates of mortality for mallard embryos at ½
recommended application rate
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Indirect wildlife effects
• Vegetation Structure and Composition
• Food and Cover
– Increase abundance and diversity
» Dominant plant- exotic, invasive
» Shrub invasion
Credit: smslrwma.org
Chemical Treatments
• Short- and Long-Term Herbicide Effects
– Indirect wildlife effects
• Vegetation Structure and Composition
• Food and Cover
– Decrease abundance and diversity
» Forb Suppression
Credit: invasiveplants.ab.ca
Chemical Treatments
• Herbicide Use
– Balance pros and cons
• Reduced use during the past 50 years
• Some banned
Chemical Treatments
• Insecticide Use
– Control insect pests
• Plants
• Livestock
Credit: forestryimages.org
Credit: forestryimages.org
Chemical Treatments
• Kinds of Insecticides
– Chlorinated hydrocarbons
• DDT, Aldrin, Dieldrin
– Organophosphates
• Malathion, Parathion
– Carbamates
• Fenoxycarb
– Pyrethrins
Chemical Treatments
• Kinds of Insecticides
– Attack central nervous system
– Highly toxic
– Persist in environment
• Insecticide Application
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– Aerial
– Ground
Credit: birdie.com
Chemical Treatments
• Short- and Long-Term Insecticide Effects
– Direct wildlife impacts
• Mortality
– Primary poisoning
– Secondary poisoning
– Biomagnify
• Endocrine Disruption
– DDT
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• Aquatic Systems
Credit: scienceclarified.org
Chemical Treatments
• Short- and Long-Term Insecticide Effects
– Indirect effects
• Food
– Decrease abundance and diversity
» Arthropod losses
» Case of upland game birds
Credit:eveanderson.com
Chemical Treatments
• Fertilizer Use
– Permit plant establishment
– Alter plant composition
– Increase nutrients available to plants
– Increase palatability of forage
– Soil tests required
• pH important
Chemical Treatments
• Kinds of Fertilizer
– Soil
• Absorbed through roots
– Foliar
• Absorbed through leaves
Chemical Treatments
• Kinds of Fertilizer
– Combinations of
Credit: grow.ars-informatica.ca
• Nitrogen (N), Phosphorus (P)*, and Potassium (K)
– Secondary nutrients
• Calcium, sulfur, magnesium
– Micronutrients
• Boron, chlorine, manganese, iron, …
– Organic or Inorganic
– Natural or manmade
Credit: grow.ars-informatica.ca
Chemical Treatments
• Fertilizer Application
– Aerial
– Ground
– Season
Credit: columbiabasinhelicopters.com
Credit: forestryimages.org
Chemical Treatments
• Fertilizer Effectiveness
– Grasses, shrubs, and forbs
•N
– Legumes
•P
• N possibly as seedlings
• Sulfur
Credit: forestryimages.org
– Care not to depress legumes
• Grass:legume ratio in grasslands
–N
Credit: forestryimages.org
Chemical Treatments
• Short- and Long-Term Fertilizer Effects
– Direct wildlife impacts
• Mortality
– Low
– Pellet form = grit
Chemical Treatments
• Short- and Long-Term Fertilizer Effects
– Indirect wildlife impacts
• Vegetation structure and composition
– Food and Cover
» Increase quantity and quality
» Decrease diversity
• Aquatic (and some terrestrial) systems and
eutrophication (N and P)
Chemical Treatments
• Chemical Treatments
– Types
– Why they are used
– How they are applied
– Effects