Download Group B: Impacts of Invasive Species on Ecosystem Processes and

Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q1: Critical Scientific Issues
Data:
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Long-term data and data availability
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Basic studies and information on IS impacts on ecosystem processes
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Host-specific information on host’s role in ecosystem function that is scalable
Models:
• A general framework to help predict/scale IS (and host) effects on ecosystem processes -> prevention
• Predictive ability of thresholds and alternative stable states, which systems are invadable
• Availability to scale data
Tech transfer
• Make relevant to the public (ecosystem service impacts from IS)
Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q2: Critical Management and Policy Issues
Management:
• How does management/restoration influence invasability?
• How do we measure success? Performance-based outcomes/metrics linked to processes
• Hysteresis and lag effects (how long until we see change?)
Policy:
• Policy and management prioritization should be science driven, especially with declining budgets
• Shrinking budgets: how do you prioritize one policy over another (TES vs IS)
Management x Policy:
• How do we motivate policy?
• Land use: increasing pressure on public lands (mitigation, refugia, genetic reservoirs)
• N-deposition affects IS success positively and negatively
• Social perceptions of importance of change in ecosystem process
Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q3: Scientific Data, Models Available to Inform This Topic
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There are existing databases and models, but there is not a lot available
to address impacts of IS on ecosystem processes.
Ecosystem models exist, but are not species-specific (big leaf models)
Do FACE experiments include IS?
Data
Models
Syntheses
FIA
S-T Models
Meta-analyses
NRCS soil maps
Food web models
LTER
EFR Network
NIDRM
Hawkes, D’Antonio, Ostertag, Sykes
NPS monitoring
Lovett et al
Databases for IS and func.
traits
Ghandi and Herms, 2010
LiDAR
MODIS and NDVI
Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q4: Issues Likely to Become Important by 2040
Climate Change:
• Invasion by climate change interactions (predispose or weaken host; strengthen IS)
• Shifting restoration targets
• Faster/bigger effects of IS than CC
Populations
• Human health affected by IS (pollen, disease vectors)
• Demands for ecosystem services (water quality/quantity; food and water security)
• Reduced scientific literacy with increasing urbanization
Thresholds
• Invasion debt – critical threshold tipping innocuous invader to a real problem
• IS as additional stress on valued resources, such as TES
Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q5: How This Topic can Potentially Connect With Other
Topics in Chapter Outline
CH. 1: What is the definition of IS?
CH. 2: How do process changes affect native species, communities, and
populations?
Changes in communities, species, and landscapes leads to changes in ecosystem
function.
CH. 4 & 5: Relationships with other stressors (fire and climate change affect
process and
function)
CH. 9: Changes processes can affect social/cultural heritage sites (erosion and
important landscape features)
Group B: Impacts of Invasive Species on
Ecosystem Processes and Structures
Q6: What are the Gaps in Knowledge and Current Research
What is the effect of IS on ecosystem processes?
• To what extent do invaders irreversibly change ecosystem processes?
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And affect efficacy of restoration?
• When do weak invaders become strong invaders? Can we predict this from the biology of the invader
(how does this relate to management actions and time/succession)?
• When/why do hosts become vulnerable?
• How does increasing CO2 affect palatability/defenses of hosts?
• Belowground processes (myco, micro, C loss, earthworms, ground beetles)
• Cross-ecosystem effects – a process in 1 system may affect another system (terrestrial-aquatic)
• Gaps might be biome or system-dependent (more info on streams than forests)
• Cumulative impacts
• Diversity/resiliency relationships
• Per capita effects – for each IS, what is the change in process? How do broad scale drivers affect this?