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Transcript 
Predicting Climate Change Impacts
on Invasive Species in Pennsylvania
Sara Grise`
Pennsylvania Sea Grant
Background on Climate Change
There has always been a natural cycle of warming
and cooling
Background on Climate Change
Since the start of the industrial
revolution in the 1800s, the climate has
begun to warm at a more rapid and
unpredictable rate
Background on Climate Change
More than 50% of the
increase in globally
averaged
temperatures is likely
due to human sources
Carbon dioxide
Methane
Nitrous oxide
Can persist for tens of
hundreds of years
Climate Change Scenarios
Intergovernmental Panel on
Climate change (IPCC)
Climate Change Scenarios:
High (A1)
Medium (A1B)
Low (B1)
High (A1) Assumptions
• “Business as usual”
scenario
• Rapid economic growth
• Fossil fuel intensive
technologies
Medium (A1B1) Assumptions
• Rapid economic growth
• New more efficient
technologies
• Balance between fossil
and non-fossil fuel
technologies
Low (B1) Assumptions
• Rapid change in economic
structures towards a service
and information economy
• Reduction in material intensity
• Emphasis is on global solutions
to sustainability
• Energy sources are focused
on efficiency and
dematerialization
Climate Change Impacts on
Pennsylvania
Average daily temperatures
are expected to increase 2.5
degrees Fahrenheit between
2010 and 2039
Precipitation is expected to
increase by more than 5%
seasonally (less in the summer,
more in the winter)
Decreased number of snow
covered days
Increased severe storm events
and flooding
Aquatic Invasive Species (AIS) Impacts
Environmental Impacts
Decline in native species
Food web disturbances
Degraded habitats
Economic impacts
Recreational impacts
Aesthetic impacts
Infrastructure impacts
Combining these
stressors may create
one of the greatest
threats of our time!!!
Climate Change Impacts on AIS
Not yet well understood
Several possibilities
Climate change and other stressors will impact AIS:
Increase success
Decrease success
Exacerbate impacts
Distribution
Spread
Abundance
Impacts
How do we prepare and adapt?
Climate Change Impacts on AIS
Altered conditions could
increase or decrease AIS
success:
Increased atmospheric
carbon dioxide (CO2)
Modified precipitation
regimes
Increased temperatures
Interactions with
anthropogenic stressors
Erratic weather patterns
Increased CO2
Atmospheric CO2 levels have
risen from a steady 280 ppm to
the present 370 ppm
Will affect various plant species’:
Growth rates
Resource allocation patterns
Water use efficiency
Nutrient uptake rates
Studies found that increased CO2
increased the growth rate of
Hydrilla at elevated
temperatures
Modified Precipitation Regimes &
Erratic weather patterns
Increased rainfall and
storm events may allow
for greater dispersal of
upstream invasive species
to downstream habitats
Flooding can allow AIS to
escape from contained
areas (e.g. Asian carp)
Changes in species
dynamics with areas
becoming wetter or drier
Interactions with Human Stressors
Globalization of commerce
Shipping
Bait
Aquarium and pond trade
Aquaculture
Waterway engineering
(canals and dams)
Land use changes
Eutrophication
Water withdrawal
Interactions with Human Stressors
Habitat degradation
Clear cutting
Farming practices
Industrialized pollution
Urbanization
Overfishing
All linked to AIS invasion!
Increasing Temperatures
May cause cold water invasive species impacts to
diminish
Example: Viral Hemorrhagic Septicemia
Increasing Temperatures
May create additional
opportunities for invasion
Allow warm weather
species to expand their
ranges northward
Facilitate the movement
of native species into
new areas where they
can become invasive
Affect stream flow and
water quality
A Framework for Evaluating Risk of AIS Range
Expansions in a Changing Climate in Pennsylvania
Addresses new challenges for invasive species
management
Direction and rate of spread are important factors in
determining adaptive management options
Current Pennsylvania AIS management tools do not
anticipate for future changes climate
Questions
How vulnerable are Pennsylvania’s ecosystems to
species movement and introduction under various
climate scenarios?
Can we accurately predict the range expansions of
AIS by projecting species temperature constraints
onto climate projection models?
Methods
Random taxon-stratified sample of species was taken from the
United States Geological Survey (USGS) AIS database
Fish
Plants
Invertebrates
To determine:
If sufficient information is available on temperature and moisture
requirements
If the species is likely excluded from Pennsylvania due to climate as
opposed to other factors such as vectors of introduction, propagule
pressure, etc.
Whether various shifts in temperature or precipitation would be enough
to bring Pennsylvania into their range
Methods- Requirements for species
Not currently present in
Pennsylvania, or present in very
limited areas
Not currently present in any areas
north of Pennsylvania
No hybrids
No intentionally stocked species
(salmonids)
Looking for species south of
Pennsylvania (Maryland-Georgia
and the Lower Mississippi drainage)
that have the potential to move
northward with warming
temperatures
Species
34% of fish species in the USGS database fit these
criteria
27% of plant species fit the criteria
60% had enough information available
33% of invertebrate species fit the criteria
60% had enough information available on temperature
tolerances
50% had enough information available
Ending up with between 10 and 15 of each species
to choose from
Climate Projection models
Downscaled models
Three emission scenarios
3-5 species for case studies
Case studies
Climate Matching:
CLIMEX
Assess overall invasion risk
Prioritize destination-specific
management actions
Determines suitability
Based on parameters such as temperature,
moisture, light, etc.
Dot size coincides with the Ecoclimatic Index
(EI), largest =100
Outputs
Pennsylvania AIS
Management Plan:
Species specific Pennsylvania
maps
Incorporate component on
climate change and risk
assessment
One for each emission scenario
Indices for prioritization of
species of most concern
Anticipate proactively the
areas of greatest risk of
invasion
Conclusions
This research will provide the ability to describe
and map the potential future distribution of a
species as determined by climate factors
Will enable resource managers at the state and
local levels to make rational decisions about
invasive species management and control
Provide a framework for predicting the future
ranges of additional species not used in this analysis
Questions?
Sara Grise`
Pennsylvania Sea Grant
[email protected]
814-602-4383
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