Overall Rating | Gold - expired |
---|---|
Overall Score | 69.08 |
Liaison | Andrew Horning |
Submission Date | June 25, 2018 |
Executive Letter | Download |
University of Michigan
OP-9: Landscape Management
Status | Score | Responsible Party |
---|---|---|
0.45 / 2.00 |
Kenneth
Keeler Senior Sustainability Rep Office of Campus Sustainability |
"---"
indicates that no data was submitted for this field
Total campus area (i.e. the total amount of land within the institutional boundary):
3,263
Acres
Figures required to calculate the total area of managed grounds:
Area (double-counting is not allowed) | |
Area managed in accordance with an Integrated Pest Management (IPM) program that uses a four-tiered approach | 1,187 Acres |
Area managed in accordance with an organic land care standard or sustainable landscape management program that has eliminated the use of inorganic fertilizers and chemical pesticides, fungicides and herbicides in favor of ecologically preferable materials | 0 Acres |
Area managed using conventional landscape management practices (which may include some IPM principles or techniques) | 1,446 Acres |
Total area of managed grounds | 2,633 Acres |
If the total area of managed grounds is less than the total campus area, provide:
630 acres total impervious surface.
Integrated Pest Management (IPM) Program
45.08
If reporting an IPM program, provide:
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A brief description of the IPM program:
The Integrated Pest Management (IPM) Plan for the University of Michigan Grounds and Waste Management Department has a four-pronged approach which includes:
•Inventory of the University's woody and herbaceous plants and identification of pest problems.
•Monitoring of areas and organisms that have been pest problems in the past.
•Remediation using management tactics in the context of the particular pest and plant host.
•Control
Inventory
Our inventory is a database catalog of all the campus landscape trees. Every landscape tree is tagged with a unique identification number. This database identifies specific trees by their species, size, and other inventoried data. There are approximately 15,000 landscape trees.
Monitoring
We use the tree inventory together with our knowledge of the University landscape to monitor for insect and disease occurrences and environmental stresses (e.g., leaf and bark scorch, girdling roots, nutrient deficiencies, etc.) before these occurrences become problems.
In cases where the insect or disease occurrence is a problem, we use monitoring as a technique to measure population size and to determine if and when we need to use remediation measures. An example of this technique is using insect pheromone traps to monitor the elm bark beetle population.
We observe and collect weather related data to estimate when certain insects will hatch their eggs and anticipate the outbreak of certain fungal diseases. An example of weather data monitoring occurs in the management of elm leaf beetles using degree-day monitoring. A degree day is a unit based on accumulated heat to measure physiological time.
Remediation
Before applying pest management control measures we determine what action is needed and whether that action is likely to be effective. The majority of our landscape pest problems are minor or do not threaten plant health and therefore no action is taken. When action is needed, we use more than one method in combination to provide more effective control.
Control
As a part of our Integrated Pest Management Plan we use cultural, mechanical, physical, biological, and chemical control measures.
We base our pest management program on cultural control. Cultural controls begin with selecting healthy specimen of pest resistant species, properly planting them, and maintaining their vigor with the necessary irrigation and fertilization. Providing plants with the proper care is our foremost consideration and the best line of defense against pests. In addition to proper installation and establishment, we give a lot of time and effort to pruning appropriately to minimize pest problems.
We are attempting to use physical controls, e.g., barriers to prevent plant pests from doing repeated damage. Examples of this kind of control are bands around particular trees to discourage gypsy moth invasion or barriers around the trunks of young trees to prevent damage from dogs and squirrels.
Our biological control attempts have been limited to successful use of Bacillus thuriengensis for the management of eastern tent caterpillar. We are exploring the use of predaceous insects, but have not worked with any species yet.
Annually, we will utilize chemical means for controlling landscape pests such as weeds, insects, and diseases. The use of chemicals on campus is a last resort tactic. We will use the least toxic chemicals available and have had great success using horticultural soaps and oil. All the staff who apply pesticides are certified by the Michigan Department of Agriculture and we heed all of the occupational and environmental precautions and suggestions in addition to ecological common sense.
Organic Program
0
If reporting an organic program, provide:
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Optional Fields
The University of Michigan's Matthaei Botanical Gardens and Nichols Arboretum, are involved in several important initiatives to help restore and protect our natural areas such as invasive species removal, prescribed burns, native plant propagation, and erosion control and storm water management. For more information go to: http://www.lsa.umich.edu/mbg/about/NaturalAreas.asp
A brief description of the institution's approach to hydrology and water use:
Naturalized shorelines, or buffer zones, are maintained around Fry Pond and Fleming Creek. These areas add habitat for wildlife and serve as a buffer for any potential contaminates (i.e. fertilizers, pesticides, road salts) before they reach the water surface. Computerized irrigation systems greatly increase efficiency of water use.
A brief description of the institution's approach to materials management and waste minimization (e.g. composting and/or mulching on-site waste):
The compost used in planting beds is made on campus from yard waste. Any mulch used is made from UM-generated wood waste.
A brief description of the institution's approach to energy-efficient landscape design:
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A brief description of other sustainable landscape management practices employed by the institution (e.g. use of environmentally preferable landscaping materials, initiatives to reduce the impacts of ice and snow removal, wildfire prevention):
In 1995, U-M established the Salt Use Improvement Team (Salt Team) to research alternative ways to melt snow and ice in conjunction with salt and sand, without jeopardizing pedestrian safety and the environment. The team was comprised of representatives from Building Services, Grounds and Waste Management (G&WM), the Office of General Counsel, Risk Management, Plant Operations, the School of Natural Resources and Environment, and Occupational Safety and Environmental Health (OSEH). Using the input from all these groups, G&WM has started to implement the alternative methods discussed and created by the team. G&WM and OSEH continue to look for alternative de-icing practices and improving the implementation of these practices.
The team developed Best Management Practices (BMPs) in order to help snow removal crews to use salt and sand more efficiently, reduce its overall use, and minimize its undesirable effects. BMPs currently used include: closing areas that are not frequently traveled; initiating night time snow removal crews; training snow removal crews in effective salt and sand application; alternative de-icing products; anti-icing techniques; and innovative application equipment.
The website URL where information about the programs or initiatives is available:
Additional documentation to support the submission:
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Data source(s) and notes about the submission:
http://www.lsa.umich.edu/mbg/about/NaturalAreas.asp
The information presented here is self-reported. While AASHE staff review portions of all STARS reports and institutions are welcome to seek additional forms of review, the data in STARS reports are not verified by AASHE. If you believe any of this information is erroneous or inconsistent with credit criteria, please review the process for inquiring about the information reported by an institution or simply email your inquiry to stars@aashe.org.