Biodiversity Monitoring in Changing Habitats
Outline
Biodiversity plots History and Description
Data collection
Results
Benefits and Outcomes
Recommendations
Biodiversity Plots History
Smithsonian Institute Global Climate change monitoring
project
Canada representation
Ontario plots on escarpment
Protocol is strict, repeatable and comparable
500 + sites exist worldwide with 104 sites in Canada
protocols were created to be long term monitoring projects in
partnerships with communities, educators, researchers and other
environmental organizations
Why Monitor?
As the global climate warms we need to
observe and
record the well-being of many species
within
their changing habitats
Trees are important
sequester carbon and put oxygen back into the atmosphere
Monitoring makes us think critically on how trees will
be impacted by climate change, and
what trees will
survive the changes
predicted for 2050 and beyond
Examining how ecosystems function and the role that
biodiversity plays within this habitat can allow for
anticipated
negative impacts to be mitigated
(Dallmeier 2000)
Physical Pressures
Increasing Development
grade changes, utilities, removal of edge and
corridors
Disturbance
trails, vandalism, bmx’ers, encroachment
Climate Change
drought, insect and disease, changing precipitation
patterns,
Background
Richard Jones Park woodland,
Mississauga, soil shrinking and cracking
June 2007
Benares Museum, Mississauga. Grass
dieback July 2007
flora
mammals
mammals
Forest
activities
Non-motor
boating
Wildlife
viewing
Fishing
Cross-country
skiing
Hiking
Bird
watching
Bicycle trails
Guided tours
Historic site
visits
Picnics
Programs
& talks
Geological site
visits
Golf
Data Collection
Students
Grade 6
High school
University Undergraduates
Graduates (Masters and PhD students)
City Staff
Citizen Scientist
Data Collection
Spring and Summer
Protocol-based
Base-line (Benchmark date 1990)
Tree information
Species
Height
Dbh
Health
Location
Data Collection
Web-shared
Incorporated in Climate research Analysi
Base-line Biodiversity information
Current Diameter Class Distribution
Basal Area
Mortality Rates
The Spheres of Benefits
Meet
Experts
Teamwork
Science
Exercise
Geography
Mapping
(GIS)
Tree ID
(Dendrology)
Communication
Tree
Measurements
(Mensuration)
Math
Smell
Nature
Taste
Nature
Fresh Air
Hear Nature
Touch
Nature
See Nature
Win-Win for ALL!
Teachers
Students
ACER
Researchers
Environment Canada
University Research
Smithsonian Institute
Global Climate Change Database
Citizens
Recommendations
Data should be kept in one repository and copies kept with partners such as academic
institutions
Protocols must be followed to ensure comparability.
Share monitoring reports and data with forest managers such as municipal and conservation
managers to help them identify risks to their forests as well as to provide input to assist in
watershed management
Sampling for biodiversity needs to be done using more than 5 plots as it does not accurately
represent the
species count.
Sampling for basal area and stems/hectare using 5 plots was acceptable and yielded comparable
results from benchmark data basal area values of the entire 25 quadrats.
Establish plots in additional forested areas to better capture forest change in other forest types
as well as at locations with differing future climate change characteristics and impacts.
Need more eyes in the forest….developing citizen scientists is crucial. future climate change
characteristics and impacts.
Explore the importance of biodiversity plots in monitoring climate change impacts on species and habitats. Learn about the history and protocols of monitoring projects worldwide, including in Canada. Discover the physical pressures and background issues affecting ecosystems, and the significance of monitoring to mitigate negative impacts and sustain biodiversity for future generations.
Download Presentation
Please find below an Image/Link to download the presentation.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.
You are allowed to download the files provided on this website for personal or commercial use, subject to the condition that they are used lawfully. All files are the property of their respective owners.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.
E N D
Presentation Transcript
Outline Biodiversity plots History and Description Data collection Results Benefits and Outcomes Recommendations
Biodiversity Plots History Smithsonian Institute Global Climate change monitoring project Canada representation Ontario plots on escarpment Protocol is strict, repeatable and comparable 500 + sites exist worldwide with 104 sites in Canada protocols were created to be long term monitoring projects in partnerships with communities, educators, researchers and other environmental organizations
Why Monitor? As the global climate warms we need to observe and record the well-being of many species within their changing habitats Trees are important sequester carbon and put oxygen back into the atmosphere Monitoring makes us think critically on how trees will be impacted by climate change, and what trees will survive the changes predicted for 2050 and beyond Examining how ecosystems function and the role that biodiversity plays within this habitat can allow for anticipated negative impacts to be mitigated (Dallmeier 2000)
Physical Pressures Increasing Development grade changes, utilities, removal of edge and corridors Disturbance trails, vandalism, bmx ers, encroachment Climate Change drought, insect and disease, changing precipitation patterns,
Richard Jones Park woodland, Mississauga, soil shrinking and cracking June 2007 Benares Museum, Mississauga. Grass dieback July 2007
Historic site visits Bicycle trails Bird watching Picnics Guided tours Non-motor boating Forest activities Wildlife viewing Cross-country skiing Geological site visits Programs & talks Golf Hiking Fishing
Data Collection Students Grade 6 High school University Undergraduates Graduates (Masters and PhD students) City Staff Citizen Scientist
Data Collection Spring and Summer Protocol-based Base-line (Benchmark date 1990) Tree information Species Height Dbh Health Location
Data Collection Web-shared Incorporated in Climate research Analysi Base-line Biodiversity information
Tree Tree ID (Dendrology) Measurements (Mensuration) Math See Nature Mapping (GIS) Communication Meet Experts Teamwork The Spheres of Benefits Exercise Smell Nature Taste Nature Fresh Air Geography Science Hear Nature Touch Nature
Win-Win for ALL! Teachers Students ACER Researchers Environment Canada University Research Smithsonian Institute Global Climate Change Database Citizens
Recommendations Data should be kept in one repository and copies kept with partners such as academic institutions Protocols must be followed to ensure comparability. Share monitoring reports and data with forest managers such as municipal and conservation managers to help them identify risks to their forests as well as to provide input to assist in watershed management Sampling for biodiversity needs to be done using more than 5 plots as it does not accurately represent the species count. Sampling for basal area and stems/hectare using 5 plots was acceptable and yielded comparable results from benchmark data basal area values of the entire 25 quadrats. Establish plots in additional forested areas to better capture forest change in other forest types as well as at locations with differing future climate change characteristics and impacts. Need more eyes in the forest .developing citizen scientists is crucial. future climate change characteristics and impacts.
