Biodiversity Urban-Suburban-Rural In Baltimore City/County.
-
Upload
joseph-morris -
Category
Documents
-
view
217 -
download
0
Transcript of Biodiversity Urban-Suburban-Rural In Baltimore City/County.
Biodiversity More than 25 recognized definitions Convention on Biological Diversity
– the variability among living organisms from all sources including, inter alia, terrestrial, marine and other aquatic ecosystems and the ecological complexes of which they are part; this includes diversity within species, between species and of ecosystems.
http://www.biodiv.be/glossary_keywords/B/biological_diversity
Biodiversity Multiple scales of biodiversity
– Genetic– Species– Ecosystem
Measure should be defined by the application of the data
Benefits of Biodiversity Soil, air, water quality Climate stability Pest control Detoxification and decomposition of waste Crop production (pollinators) Buffer against natural disasters Food security Medicine Aesthetic value Economic value
Question How does biodiversity differ between
managed and unmanaged areas in urban, suburban and rural school yards?
Approach 5m transects
– 3 samplings per type at each site– 3 samples x 2 types x 3 sites = 18 total
Sample insects by sweeping parallel to transect line
Sample herbaceous vegetation by collecting samples along transect line
Differentiate and count Organizational Taxonomic Units (OTUs)
Sites Urban: Digital Harbor High School Suburban: Owings Mills High School Rural: Hereford High School
Assumptions Similar management regimens
between the sites Each site is representative of its type
– Urban, rural, suburban
Limitations Digital Harbor : finding enough edge
– Unmanaged areas not completely unmanaged High number of birds eating our sample
insects(in the field) Time entailed in classifying the species(we
did the insects within our group) Each group tried to determine what we
thought of as edge. Weather conditions
Hypothesis I Managed areas will have lower
biodiversity than unmanaged areas– If urban,suburban and rural areas are
managed, then we expect the areas to be more similar to each other with respect to the herbaceous plant and insect species, so we will see more common species among managed fields than the unmanaged edge areas from similar sites
Percent of species overlap between managed and unmanaged sites across an urban-rural gradient, 27-29 July 2009
0%
20%
40%
60%
80%
100%
Urban Suburban Rural
Per
cen
t o
f to
tal s
pec
ies
Unmanaged
Both
Managed
urban suburban
rural
13
Unmanaged
4
8
3
1
3
0
urban suburban
rural
Managed
2
9
4
1
21
1
Comparison of Biodiversity in Managed and Unmanaged Sites Along Urban-Rural Gradient
Managed vs Unmanaged Areas
Unmanaged areas contain more OTUs than managed areas– Unmanaged: 32 OTUs– Managed: 20 OTUs
Suburban areas have the greatest overlap of species between managed and unmanaged areas (36.3%), followed by urban areas (19.2%), with the least overlap in rural areas (4.8%).
Hypothesis II Biodiversity will occur along a gradient,
with rural areas having greatest biodiversity.– If biodiversity occurs across a continuous
urban-rural gradient with the greatest biodiversity in rural areas, then we expect the rural school yard to contain the greatest number of OTUs and the urban school yard to contain the lowest number of OTUs.
Biodiversity of herbacious plants found across an urban-rural gradient, 27-29 July 2009
0
5
10
15
20
25
30
Urban Suburban Rural
Org
an
iza
tio
na
l T
ax
on
om
ic U
nit
s
Unmanaged
Both
Managed
Urban-Rural Gradient The greatest number of OTUs was
found at the urban site, followed by the rural site, with the least number of OTUs found at the suburban site
The greatest overlap in species was found between the urban and rural sites
Current literature Moritz von der Lippe and Ingo Kowarik (2007)
Institute of Ecology, Technical University of Berlin, Rothenburgstr.12, D-12165 Berlin, Germany
Do cities export biodiversity?
Traffic as dispersal vector across urban–rural gradients
Future Investigations Is this study representative?
– ie, test additional sites Are the similarities different?
– Alternative definitions of biodiversity, to include biomass studies (dominant populations)
What factors are influencing the pattern (ie, lack of “gradient”)?– Investigate type of area residences, traffic
patterns, watersheds, development, weather patterns,etc
\ Making lab work
in classroom We would have a dichotomous key for
the species of plants and have them label species as species 1,2,3 and then for an extension for some students have them work to find out what is the species name.
Classroom applications This would be an intense lab to do with
students in a 45 minute class period but it could be completed in 3 days in a 90 minute class.
This could be started midweek and completed the next week for students on a 45 minute schedule. Leading the students and having them design the lab will have them buying into the work better than presenting the lab to them.
Making lab work in classroom
Pre-lab having the students understand what they will be doing have each student practice the correct techniques for the net sampling method
Have student understand collection of plant species.
Making lab work in classroom
On lab day have students collect materials and go outside and collect the samples
Bring samples inside and freeze insects
Separate and press plant samples for identification the next day.
Making the lab work in the classroom
Day 3 identify the plants in each group and enter data in excel
If time allows show pictures of the kinds of insects
Making lab work in classroom
Have students look at samples of insects under dissecting microscopes
Have them determine the differences between flying insects, beetles, sucking insects, grasshoppers, crickets, ants and spiders. Have them tell why spiders are not classified as insects.