Meta-analysis notes Sept 26, 2008
Summary overview of the meta-analysis project, questions to be addressed, regime shift definition, and action items following the September meeting
September 26, 2008
Meta-analysis notes
Overall objectives
To systematically review empirical evidence for and against impacts of regime shifts in
coastal interface habitats on the delivery of ecosystem functions and/or services using
meta-analytic techniques.
To identify potential drivers of observed differences in the effect of regime shifts on
coastal interface habitats and the ecosystem functions and services they provide.
The database
We are collecting empirical (observational or field-based experimental) studies from kelp
forest, coral reef, salt marsh, mudflat, mangrove, seagrass, and dune habitats which have
been observed to undergo a regime shift or shift to an alternate stable state. Individual
regime shifts may have resulted from natural or anthropogenic causes or both. We are
particularly interested in anthropogenically driven regime shifts, but are collecting both
kinds of cases for comparison.
We are particularly interested in studies that have quantified changes in these habitats
that ultimately have implications for ecosystem services (e.g. regime shifts in dune
habitats impact plover populations, which may negatively impact birdwatching
opportunities). We recognize that ecosystem services per se will seldom have been
quantified in these studies. We are including papers that have data on at least one of the
following: (1) changes in the foundation species/habitat, (2) changes in other ecosystem
functions, (which may be measured, e.g. in changes in associated species, communities or
biophysical conditions) and (3) in the few cases where available, changes in ecosystem
services.
Defining regime shift (modified from Lees et al. 2006)
• Sudden – change occurs over short time period
• High amplitude of change in foundation species, with impacts on the rest of the
community, as evidenced by change in community structure (measured by spp.
diversity, rel. abundance/spp. evenness, community composition/assemblages)
• Infrequent and relatively persistent – change does not occur often and lasts a long
time
• Impacts multiple trophic levels (though multiple trophic levels may not be
addressed in the paper)
• Large scale (oceanic) OR small scale ('local')
• Associated with or evident in 'biophysical changes' (at least one of the following:
over-exploitation, oceanic, climatic, biological)
Questions to be addressed
• Is there an effect on the delivery of ecosystem functions (and/or services) after
regime shift in coastal interface habitats relative to control conditions?
• What is the magnitude of the change in delivery of ecosystem functions (and/or
services) after regime shift in coastal interface habitats relative to control
conditions?
Related sub-questions
o Is there a threshold magnitude beyond which an observed change
constitutes a regime shift?
o Does this threshold differ across habitats?
• What drivers (moderators) are associated with observed differences in the effect
of regime shift in coastal ecosystems? (e.g. habitat type, location, methods, scale
of study/analysis, anthropogenic or natural source of regime shift, etc.)
o How are these drivers (moderators) related to the probability of exceeding
observed regime shift thresholds (if we can identify a threshold(s) above)?
Questions we decided to set aside for a separate analysis (though we are still
collecting papers on recovery as they come up)
• How does delivery of ecosystem services or functions change with recovery after
a regime shift and what driving factors that moderate this response across
different ecosystems/latitudes/countries, etc.?
Status of the database
• Initial searches completed for all habitats
• Lists narrowed down to appropriate papers for
o Kelp forests
o Coral reefs
ACTION ITEMS
To be completed by October 15
• Sand dunes – Sally – refine list to relevant papers with appropriate data
• Seagrasses – Eva – refine list to relevant papers with appropriate data and add
missing relevant papers
• Mangroves (area-fisheries productivity list) – Jurgenne - refine list to relevant
papers with appropriate data for papers she knows or has hard copies of
To be completed by November 1
• Rocky intertidal – Ben – refine list to relevant papers with appropriate data
• Saltmarshes and mudflats – Brian – refine list to relevant papers with appropriate
data and add any missing relevant papers
• Reviews – Carrie (with assistance from Chris) – search for relevant review
papers and identify papers for inclusion from their lit cited
To be completed by November 31
• Mangroves (to finish list after Jurgenne goes through it first) – Elise
Meta-analysis notes
Overall objectives
To systematically review empirical evidence for and against impacts of regime shifts in
coastal interface habitats on the delivery of ecosystem functions and/or services using
meta-analytic techniques.
To identify potential drivers of observed differences in the effect of regime shifts on
coastal interface habitats and the ecosystem functions and services they provide.
The database
We are collecting empirical (observational or field-based experimental) studies from kelp
forest, coral reef, salt marsh, mudflat, mangrove, seagrass, and dune habitats which have
been observed to undergo a regime shift or shift to an alternate stable state. Individual
regime shifts may have resulted from natural or anthropogenic causes or both. We are
particularly interested in anthropogenically driven regime shifts, but are collecting both
kinds of cases for comparison.
We are particularly interested in studies that have quantified changes in these habitats
that ultimately have implications for ecosystem services (e.g. regime shifts in dune
habitats impact plover populations, which may negatively impact birdwatching
opportunities). We recognize that ecosystem services per se will seldom have been
quantified in these studies. We are including papers that have data on at least one of the
following: (1) changes in the foundation species/habitat, (2) changes in other ecosystem
functions, (which may be measured, e.g. in changes in associated species, communities or
biophysical conditions) and (3) in the few cases where available, changes in ecosystem
services.
Defining regime shift (modified from Lees et al. 2006)
• Sudden – change occurs over short time period
• High amplitude of change in foundation species, with impacts on the rest of the
community, as evidenced by change in community structure (measured by spp.
diversity, rel. abundance/spp. evenness, community composition/assemblages)
• Infrequent and relatively persistent – change does not occur often and lasts a long
time
• Impacts multiple trophic levels (though multiple trophic levels may not be
addressed in the paper)
• Large scale (oceanic) OR small scale ('local')
• Associated with or evident in 'biophysical changes' (at least one of the following:
over-exploitation, oceanic, climatic, biological)
Questions to be addressed
• Is there an effect on the delivery of ecosystem functions (and/or services) after
regime shift in coastal interface habitats relative to control conditions?
• What is the magnitude of the change in delivery of ecosystem functions (and/or
services) after regime shift in coastal interface habitats relative to control
conditions?
Related sub-questions
o Is there a threshold magnitude beyond which an observed change
constitutes a regime shift?
o Does this threshold differ across habitats?
• What drivers (moderators) are associated with observed differences in the effect
of regime shift in coastal ecosystems? (e.g. habitat type, location, methods, scale
of study/analysis, anthropogenic or natural source of regime shift, etc.)
o How are these drivers (moderators) related to the probability of exceeding
observed regime shift thresholds (if we can identify a threshold(s) above)?
Questions we decided to set aside for a separate analysis (though we are still
collecting papers on recovery as they come up)
• How does delivery of ecosystem services or functions change with recovery after
a regime shift and what driving factors that moderate this response across
different ecosystems/latitudes/countries, etc.?
Status of the database
• Initial searches completed for all habitats
• Lists narrowed down to appropriate papers for
o Kelp forests
o Coral reefs
ACTION ITEMS
To be completed by October 15
• Sand dunes – Sally – refine list to relevant papers with appropriate data
• Seagrasses – Eva – refine list to relevant papers with appropriate data and add
missing relevant papers
• Mangroves (area-fisheries productivity list) – Jurgenne - refine list to relevant
papers with appropriate data for papers she knows or has hard copies of
To be completed by November 1
• Rocky intertidal – Ben – refine list to relevant papers with appropriate data
• Saltmarshes and mudflats – Brian – refine list to relevant papers with appropriate
data and add any missing relevant papers
• Reviews – Carrie (with assistance from Chris) – search for relevant review
papers and identify papers for inclusion from their lit cited
To be completed by November 31
• Mangroves (to finish list after Jurgenne goes through it first) – Elise