The last few years have been a time of discovery for me. I believe in environmental stewardship. I believe it is the responsibility of each person and company to pursue steps which curb pollution and ensure a safe and healthy environment for our children, our neighbors, our cities, our countries, our world, and future generations. "To whom much is given, much is required."
Therefore, I am going to do my part. I have been in the landscaping business for more than twenty years. Now, my goal is to open the first all-electric, solar-generated lawn care business in Michigan using environmentally friendly equipment and practices. Our equipment will consist of solar equipped, enclosed trailers capable of charging equipment in the field, battery operated push and ride-on zero-turn mowers manufactured by Mean Green Machine, as well as battery-powered trimmers, edgers, backpack blowers, chainsaws, etc.. Depending on the how business goes this year, I intend to purchase all electric trucks as well, so that we can become the all-electric lawn company I desire us to be. One more way to strengthen my eco-friendly goals.
To help support the creation of this enterprise, please, like and share this blog and check out my Go Fund Me campaign.
In addition, I will offer a fertilization program consisting of finely ground compost created by Spurt Industries LLC/ Compost Soil Technologies. Learn more about their operations by visiting their website: www.spurtindustries.com . You would be amazed at the quality of lawn and speed of germination gained when using their products.
One more step in gaining an environmentally-friendly lawn care program is by starting with a quality lawn seed. Low-grow/slow-grow grass seed, which grows slower and thicker than the average lawn grass, and requires less water to keep it green, will be used to renovate the lawns of any customers interested in availing themselves of this service.
Stewardship Lawn & Land Care - EcoEast Lawn Care
To join the all-electric, solar-generated lawn care revolution, and have your property cared for by a knowledgeable, friendly and meticulous professional company in the Grand Rapids, MI area, contact Brent Now at (616) 328-3258.
Contact me for additional information via phone @ 616 328-3258 or email @ omegabrickandlandscaping@hotmail.com.
Friday, February 12, 2016
Thursday, December 6, 2012
Permeable Pavers – Automated Snowmelt Systems – Solar
Panels – Rain Harvesting
As you may have noticed, I am striving to make my mark on
the landscape industry in Grand Rapids, Michigan by encouraging sustainable
landscapes in both soft and hardscapes.
Currently, I am working with a client to transform her
property into a model of sustainability in East Grand Rapids. Among the ideas on the drawing board are
permeable pavers for a 4,200 square foot driveway heated via an electric or a hydronic
snowmelt system, Urban Farming, edible landscaping, and elimination of
excessive manicured lawns in favor of prairie gardens and other lawn
alternatives. Additionally, we are looking at a rainwater harvesting system.
Use of permeable paving will keep stormwater from running
off the driveway and into the city sewer system. Water will drain between pavers into a
filtering stone base where it will be able to percolate into the soil. Another option we are considering is harvesting
of stormwater from both the permeable driveway and roof system to be reused to
irrigate the landscape. This will decrease
or eliminate the need to use city water which can be both expensive and
wasteful of our natural resources. There
is no need to run rainwater through our extensive over-burdened sewer and wastewater
filtration systems.
The biggest challenge is the power needed to run a snowmelt
system for this large area. The system
needs approximately 600 amps. Typically
homes have only 200-400 amp service. While
it may be possible to upgrade the amperage, we would prefer to use a more
sustainable option. Luckily, the home
and garage have significant space on their South facing roofs. So, we may be able
to use solar power to power this system.
As we move along developing this project, I will post
updates.
Friday, October 12, 2012
Reclamation of Natural Space in Urban Areas
Reclamation
of Natural Space in Urban Areas
By Brent Langley
Natural spaces
in urban areas are characterized by either innate or engineered biodiversity,
including flora (trees, shrubs, perennials, grasses, aquatic plants,
ferns, mosses, etc.) which, in combination with water features, modified soil
and land contouring (when necessary), encourage local fauna (butterflies, bees, birds, squirles, etc.) to gather and
utilize the ecosystem for food, water and shelter.
During the past
three hundred and sixty years, the human population has grown rapidly. From 1650 to 1850, the worldwide population
grew from approximately 500 million to 1 billion. From 1850 to 1930, it doubled to 2
billion. By 1975, it doubled again to 4
billion. Today, the earth supports
approximately 6.6 billion people. The
human population is projected to be over 7.8 billion by the middle of the 21st
century. (Campbell and Reece: 1190-1191)
Movement toward
urban communities rapidly increased in the mid to late eighteen hundreds as the
Industrial Revolution took root. Farming
practices advanced, requiring fewer farmers to produce the necessary
abundance. Factories drew large numbers
of workers to cities. As cities grew, they outgrew their original
bounds and continued to expand outward.
During the
beginning of the twentieth century, the automobile made it possible to travel
long distances in relatively a reduced time.
Roads were paved to provide access for those wishing to travel and to
improve interstate commerce. Parking lots and buildings were built to
house the new vehicles. The city
continued to grow outward because now people could live near the city and still
access the city easily.
After World War
II, when the middle class grew exponentially, the automobile became a
widespread commodity. The city continued
to expand as people discovered the joys of suburban life free from the crowded
city.
Urban sprawl set
in. Urban sprawl, the spreading of a
community to and beyond the outer fringes of a city, has become commonplace. Urban density measures human population in a
city. It is defined as the number of
people per square [mile] of land for urban use in a municipal or township
boundary. Lower urban densities are indicative of urban sprawl; that is,
low-density development beyond the edge of service and employment, which
separates residential areas from commercial, educational and recreational areas
thus requiring automobiles for transportation (TCRP). The Southeast Michigan Council of
Government (SEMCOG) notes that urban sprawl is ultimately a two-part process
with "sprawling low density growth at the suburban fringe and the
concurrent disinvestment and abandonment of older/urbanized communities"
(SEMCOG, 1991).
Urban sprawl and
subsequent disinvestment and abandonment of urban centers have led to a number
of widespread problems. Among these
problems are excessive developed land and neighborhood blight, air and waterway
pollution, diminished wildlife habitats, the high cost of public works, and unequal
distribution of public parks and recreation facilities.
Buildup of new
commercial developments in outlying areas has led to abandonment of
developments in urban centers, and resulted in unsupportable commercial
property throughout urban and suburban areas.
To further aggravate the situation, many manufacturing facilities have
closed down as they have become obsolete, more compact or moved operations overseas
and out of state. Abandoned properties drive
down property values and further degrade surrounding neighborhoods. In Grand Rapids, Michigan, urban sprawl,
aggravated by economic downturn has led
to an excess of 11.5 million square feet of retail space alone (CB Richard Ellis).
Residential properties have
suffered the same fate as retail and commercial developments, often as a result
of the abandonment of urban areas by businesses. When retail establishments, such as
restaurants, grocery stores, gas stations, and doctor’s offices have moved
beyond easy reach of the inner city, residents of the abandoned neighborhoods
have also taken flight. Because the
decrease in services and increase in abandoned properties drives down the value
of homes in the area, residential properties often become abandoned, left to be
taken over by banks and local municipalities.
Grand Rapids currently has approximately 2,900 vacant homes. That’s 7.4% of the total housing market. Vacant homes remain empty for average of 500
days (City of Grand Rapids).
Restoration of natural spaces can
accomplish several things at once in regard to property problems in urban
areas. Creation of natural spaces in
abandoned lots beautifies the area, improving the look of the surrounding district
and bringing property values up.
Beautification of a neighborhood also draws in businesses, improving its
overall economic wellbeing by creating jobs, increasing tax base and reducing
the burden on local citizens. Jobs mean
opportunity for improving residents’ incomes and their ability to maintain
their homes. In addition, by reducing
existing commercial, retail and residential properties to match demand,
property values and potential rents increase.
Finally, turning blighted properties, especially manufacturing facilities
and other brownfields, into natural spaces, eliminates potentially dangerous
areas and decreases cost of public oversight.
Air pollution has plagued cities
since the start of the Industrial Revolution.
“In 2005, global atmospheric concentrations of
CO2 were 35% higher than
they were before the Industrial Revolution” (http://epa.gov/climatechange/emissions/co2.html).
In 2008 the U.S. emitted 5,921.2 Tg CO2 Eq. This is actually a reduction in emissions
over the previous eight years and below 2000 levels. Most of these emissions are caused by burning
of fossil fuels. Current there is a push
to find alternative, cheap energy sources that will reduce our dependence on
fossil fuels and thus reduce our emissions.
However, there are currently ways
to reduce the affect of emissions on air quality. Creating natural spaces in our cities can
help reduce CO2 buildup
significantly. Trees are especially good
at sequestering and storing pollutants.
They can remove CO2, NO2, SO2, and O3.
According to the EPA, afforestation, the planting of trees where there
previously were none, results in sequestration of 0.6-2.6 metric tons per acre
per year for a period of ninety to one hundred and twenty years (Representative Carbon Sequestration Rates).
It would take approximately
Stormwater
and waste management issues also derive from urban sprawl. Extensive impervious surfaces, such as roads,
parking lots, driveways, and roofs, interrupt the natural water cycle. In the natural environment, precipitation percolates
through the soil, watering plants and recharging reduced ground water
reserves. The balance of it runs over
the surface of the earth until it reaches a body of water. Wetlands, bogs, and riparian areas filter the
water, removing pollutants before they can reach waterways.
Since cities are full of impervious
surfaces. Very little storm water is infiltrates
the ground. Instead, it is routed by
roofs, streets, and parking lots to sewers and thus carried to treatment plants
to be filtered before being sent on to streams and rivers. However, sewers and wastewater treatment
plants are seldom equipped to handle heavy storm surges at peak flow. Therefore, much of the stormwater is simply
flushed through the system, along with the wastewater, thereby further polluting
the waterways. Even when water simply
flows over the impervious surfaces directly into the waterways, it carries
pollutants like oil, fertilizers, bacteria and various other particulates,
thereby threatening the purity of our waters.
By adding and restoring natural
spaces in cities, we can significantly reduce stormwater overflow entering directly
into our waterways or treatment facilities.
Wetlands, swales bioretention ponds, rain gardens and wider riparian
buffer zones in association with woodland and prairie plantings can reduce the
rate of flow during and after storms, allowing rainwater to be filtered by
plants and thus into the ground. The
reduced flow would reduce the cost of water treatment as well as decreasing the
amount of pollutants entering our waterways. The hydrologic cycle (water cycle)
can be largely restored using well planned plant community restoration in
conjunction with use pervious roads and parking lots.
Wildlife habitats have been
devastated by urban sprawl. The creation
of natural spaces, including greenways, corridors for animals to traverse the
city in safety, can add beauty and diversity to long devastated areas. We have the opportunity to restore those
habitats, to bring back animals that deserted the area for open land away from
the city. Butterflies, bees, songbirds,
and various other animals seek habitats that support their food, shelter and
water needs. Cities can be such places.
Uneven distribution of parks and
recreation facilities can be corrected through the development of natural
spaces in urban areas. Those created
habitats can be a place of enjoyment, relaxation, socialization and learning
for the inhabitants of the city neighborhoods.
Many inner city residents have limited access to such places outside the
city due to limited finances and transportation. By putting them in the vicinities most
depressed by urban blight, we facilitate the restoration of neighborhoods, create places to gather in safety with
friends and family, places to learn about nature near home, opportunities to
enjoy the beauty of nature where once there was only an empty lot or an
abandoned home or brownfield, polluted industrial properties.
Natural spaces
in urban areas are characterized by engineered biodiversity, including flora,
such as trees, shrubs, perennials, grasses, aquatic plants, ferns, worts,
mosses, etc. which, in combination with water features and modified soil and
land contouring, encourage local fauna to gather and utilize the created
ecosystem for food, water and shelter.
Stewardship
should be our guiding principle when measuring how we use our resources. Stewardship, according to Merriam-Webster, is
“the careful and responsible management of something entrusted to ones care”. Abuse of our environment, often in ignorance,
sometimes in exploitative ways, has led to destruction of natural space in
urban and rural areas in the United States, and around the world. Employing available technological and
scientific advances, we have the ability correct past mistakes and prevent
future problems. We have not only the
ability, but the responsibility to use what is available to restore the
environment to the best of our ability. Those
with understanding and capability to positively affect change in their
environment, whether social, economic or ecological, have the responsibility to
do so.
Bibliography
Biology; Eighth Edition, Campbell,
Reece, Pearson San Francisco, CA 94111 2008
Brownfields 2010 Assessment and Revolving Loan
Fund Grant Fact Sheet, Grand Rapids, MI, EPA 560-F-10-103 Apr 10.
CB Richard Ellis, Market View: Grand Rapids Retail, First Quarter
2009.
City
of Grand Rapids, Michigan Official Website;
http://www.grand-rapids.mi.us/index.pl?page_id=403
City of Grand Rapids Parks and Recreation
Master Plan, 2010.
Creating and Implementing a Community
Vision, City of Grand Rapids Planning Department
EMCOG, 1991
Green Grand Rapids, Green Gathering: Ideas June 25, 2008.
Inventory of U.S. Greenhouse
Gas Emissions and Sinks: 1990 – 2002, Washington, DC 20460
U.S.A.
http://www.epa.gov/climatechange/emissions/downloads06/04CR.pdf
McKnights Physical Geography: A Landscape
Appreciation 10th Edition, Darrel Hess, City College of San
Francisco, Pearson Education Inc., Upper Saddle River, New Jersey 07458
Representative Carbon Sequestration Rates
and Saturation Periods for Key Agricultural & Forestry Practices: http://www.epa.gov/sequestration/rates.html
Reducing Stormwater Costs Through Low
Impact Development (LID) Strategies and Practices, EPA publication number
841-F-07-006, December 2007.
SEMCOG,
1991
TCRP
1998, TCRP 2003, Neill et al. 2003
Urban Forest Study – GVSU
Urban Ecosystems Analysis SE Michigan and
City of Detroit: Calculating the Value of Nature, May 2006
U.S
Dept of Interior U.S. Geological Survey
http://www.ga.water.usgs.gov/edu/watercycle.html
Urbanization
of Streams: Studies of Hydrologic Impacts, EPA 841-R-97-009, 1997
West
Michigan Rising (blog) Green Grand Rapids: philgoblue April 30, 2008, http://www.westmichiganrising.com/showDiary.do?diaryId=164.
Naturalized Gardens in Urban Areas Part 1
The disciplines of landscape design/architecture and natural resource management intersect in the development and management of natural environments such as prairies, wetlands, woodland, lake and river basins. Michigan never had extensive prairies like much of the Midwest. This area is dominated by lakes and rivers, wetlands and woods. 200 years ago, Michigan boasted 14 million acres of wetlands. In 1837, when Michigan became a state, almost all of its 36.4 million acres of land was covered in forests.
Years of rapid industrial expansion and urban growth left much of the natural beauty of Michigan degenerated. In previous generations, the goal of our society was to extend the benefits of the industrial and information revolutions to everyone. By doing so, life expectancy increased, health improved, education spread, poverty, true poverty, receded.
But the cost of such rapid growth was a general disregard for the natural environment. Urban sprawl has expanded cities in such a way that there is no clear border between cities. Roads, development of neighborhoods, malls and industrial complexes are unconfined. As a result much of the beauty and health of the natural world has disappeared.
This does not mean everyone disregarded the care of the natural world. Conservationists such as Theodore Roosevelt did what they could to ensure a healthy environment. Conservationism was dedicated to setting aside large swaths of land to keep those pristine.
"We have become great because of the lavish use of our resources. But the time has come to inquire seriously what will happen when our forests are gone, when the coal, the iron, the oil, and the gas are exhausted, when the soils have still further impoverished and washed into the streams, polluting the rivers, denuding the fields and obstructing navigation." Theodore Roosevelt
According the the Michigan DNR, over 11 million acres of wetlands have been destroyed since the influx of European settlers around 200 years ago. There are wetlands and woodlands throughout Michigan still. However, today, Michigan boast less than 3 million acres, down from 14 million acres 200 years ago. Although Michigan's State Forest system is the largest in the nation, with 3.9 million acres, most of the pre-settlement forests are gone.
Yes, people have continued to bring ever elusive nature back into their lives by creating gardens, planting trees and flowers etc. Of course, lawns still dominate the suburban landscape. Because lawns are basically uncomplicated masses of grass, care for these is fairly straight forward, if environmentally unfriendly. Unfriendly because they require constant care.
Lawns need more water to stay attractive than they generally get from natural precipitation. So, water resources are diverted to keep our lawns beautiful. Weeds need to be controlled. If you don't have time to pull them individually, you have to find another control mechanism. The most common control is chemical. Likewise, most lawns need regular fertilization to ensure proper nutrition.
So, the environmental footprint of a lawn goes beyond the energy used and pollution created by a lawn mower and edger. Creation of weed control products and fertilizers requires significant energy sapping production facilities. Precious water resources are pumped from aquifers, lakes and streams to keep our lawns green. Lakes and streams can be replenished through natural annual precipitation. Aquifers, however, take thousands of years to recharge. Water costs energy (and thus money) not just to get it to the source of use but to return these resources to usefulness. Water that runs off lawns and into sewers is then recycled at plants, once again requiring energy resources. Environmental footprint of maintaining a lawn amplified.
Years of rapid industrial expansion and urban growth left much of the natural beauty of Michigan degenerated. In previous generations, the goal of our society was to extend the benefits of the industrial and information revolutions to everyone. By doing so, life expectancy increased, health improved, education spread, poverty, true poverty, receded.
But the cost of such rapid growth was a general disregard for the natural environment. Urban sprawl has expanded cities in such a way that there is no clear border between cities. Roads, development of neighborhoods, malls and industrial complexes are unconfined. As a result much of the beauty and health of the natural world has disappeared.
This does not mean everyone disregarded the care of the natural world. Conservationists such as Theodore Roosevelt did what they could to ensure a healthy environment. Conservationism was dedicated to setting aside large swaths of land to keep those pristine.
"We have become great because of the lavish use of our resources. But the time has come to inquire seriously what will happen when our forests are gone, when the coal, the iron, the oil, and the gas are exhausted, when the soils have still further impoverished and washed into the streams, polluting the rivers, denuding the fields and obstructing navigation." Theodore Roosevelt
According the the Michigan DNR, over 11 million acres of wetlands have been destroyed since the influx of European settlers around 200 years ago. There are wetlands and woodlands throughout Michigan still. However, today, Michigan boast less than 3 million acres, down from 14 million acres 200 years ago. Although Michigan's State Forest system is the largest in the nation, with 3.9 million acres, most of the pre-settlement forests are gone.
Yes, people have continued to bring ever elusive nature back into their lives by creating gardens, planting trees and flowers etc. Of course, lawns still dominate the suburban landscape. Because lawns are basically uncomplicated masses of grass, care for these is fairly straight forward, if environmentally unfriendly. Unfriendly because they require constant care.
Lawns need more water to stay attractive than they generally get from natural precipitation. So, water resources are diverted to keep our lawns beautiful. Weeds need to be controlled. If you don't have time to pull them individually, you have to find another control mechanism. The most common control is chemical. Likewise, most lawns need regular fertilization to ensure proper nutrition.
So, the environmental footprint of a lawn goes beyond the energy used and pollution created by a lawn mower and edger. Creation of weed control products and fertilizers requires significant energy sapping production facilities. Precious water resources are pumped from aquifers, lakes and streams to keep our lawns green. Lakes and streams can be replenished through natural annual precipitation. Aquifers, however, take thousands of years to recharge. Water costs energy (and thus money) not just to get it to the source of use but to return these resources to usefulness. Water that runs off lawns and into sewers is then recycled at plants, once again requiring energy resources. Environmental footprint of maintaining a lawn amplified.
Thursday, March 17, 2011
Raised Gardens
I am excited to post an update on one of my most unique hardscape projects. Last year I finished several raised gardens in Caledonia, MI. The goals: create multi-purpose areas that would beautify the front yard which was previously entirely open lawn as well as create new areas for raising vegetables. Accomplished. Take a look at these pictures courtesy of Bill and Ellen C.
Sunday, October 19, 2008
Fall Lawn Care
The leaves are falling all over my lawn and covering the grass. I used to get out there and rake up all of those leaves, set them along the curb, and wait for the truck to come pick them up and haul them away to some dump.
Not anymore. As of 2007, I started pulling out my mower and grinding/mulching them into my lawn. Granted, later as more and more leaves fall, it becomes useless to try and chop them small enough to slip down between the blades of grass. So, for now I mulch. Later, I will still grind the leaves with my mower. Then I'll rake or blow those leaves into my Ivy and Myrtle beds. Some leaves will be used to protect sensitive plants over winter.
Point is this. If enough people start recycling those leaves on their properties, large dump trucks full of leaves may become obsolete. (I'm especially thinking about EGR where we have a loader following the dump truck around to pick up leaves.) Just think how much pollution those trucks and loaders are putting out. Cutting those out of the equation will be a step in the right direction.
Pollution that can be eliminated should be eliminated. I'm no radical, but I do believe that we are caretakers of the Earth. Let's do what we can to be good Stewards of Creation.
By the way, one more benefit: these leaves mulched into your lawn and gardens will decrease the amount of fertilizer necessary to keep them looking healthy.
Not anymore. As of 2007, I started pulling out my mower and grinding/mulching them into my lawn. Granted, later as more and more leaves fall, it becomes useless to try and chop them small enough to slip down between the blades of grass. So, for now I mulch. Later, I will still grind the leaves with my mower. Then I'll rake or blow those leaves into my Ivy and Myrtle beds. Some leaves will be used to protect sensitive plants over winter.
Point is this. If enough people start recycling those leaves on their properties, large dump trucks full of leaves may become obsolete. (I'm especially thinking about EGR where we have a loader following the dump truck around to pick up leaves.) Just think how much pollution those trucks and loaders are putting out. Cutting those out of the equation will be a step in the right direction.
Pollution that can be eliminated should be eliminated. I'm no radical, but I do believe that we are caretakers of the Earth. Let's do what we can to be good Stewards of Creation.
By the way, one more benefit: these leaves mulched into your lawn and gardens will decrease the amount of fertilizer necessary to keep them looking healthy.
Thursday, October 9, 2008
Conservation: Reduce Mowing and Watering
One major aspect of resource stewardship is conservation. When it comes to lawn care, conservation may start with reduced mowing. In order to reduce mowings, it is necessary to either reduce the rate of growth, or allow the lawn to grow longer before cutting. Maybe both.
There are two ways to cut back on mowing while maintaining a healthy lawn.
Option One: Reduce growth of your existing lawn. A couple of years back, I came across a group of products called PGR's: Plant Growth Regulators. One such product is Embark by PBI Gordon. Embark reduces the rate of foliage elongation while encouraging lateral growth. The use of PGR's gives you a thicker, slow-growing lawn. Great idea. I have yet to test these PGR's myself. I am in the process of researching independent studies on the affects of PGR's in regard to the root system and overall health of the turf. Currently, these products are only available to professionals.
Option Two: Lawn Renovation utilizing slow-grow, low-grow grass. There are several companies claiming to sell grass seed that grows lower and slower than previously available cultivars. All of these web sites claim to sell grass seed that, once established, requires little to no regular watering, no fertilization, and reduced mowing. If you could reduce your mowings to once a month, would you do it? I would. I will be puchasing these lawn seeds and testing them myself to see how they live up to their claims.
For more information, check out these sites: http://www.low-grow.com/; http://www.eco-friendly-grass.com/; http://www.protimelawnseed.com/.
Proper lawn mowing can also reduce gas and fertilizer and pesticide use by encouraging a naturally healthy lawn. Close cropped lawns have become the standard in the United States. Most people cut their lawns as short as two inches. However, studies indicate that lawns kept at a minimum height of three inches suffered less stress than lower cut lawns.
Why is this? Lawns benefit from increased height in three ways:
First, there is a direct correlation between the height at which a lawn is maintained and the depth of its roots. Deeper roots require less watering. If roots only reach two inches, the lawn only benefits when the top one or two inches of the soil is moist. Deeper roots lead to less watering and more drought resistant lawns.
Second, when a lawn is kept longer, it reduces the rate of evaperation, thus, preserving soil moisture. Again, less watering is required and the lawn is more drought resistant.
Third, most weeds prefer full sun. If no light reaches the soil, weed seeds struggle to germinate. Those weeds that do manage to grow are choked out by the more established grass. Weeds cannot easily compete with a healthy lawn.
Site with additional information on PGR's.
http://www.turf.uiuc.edu/hort436/Lec%2016.stm
There are two ways to cut back on mowing while maintaining a healthy lawn.
Option One: Reduce growth of your existing lawn. A couple of years back, I came across a group of products called PGR's: Plant Growth Regulators. One such product is Embark by PBI Gordon. Embark reduces the rate of foliage elongation while encouraging lateral growth. The use of PGR's gives you a thicker, slow-growing lawn. Great idea. I have yet to test these PGR's myself. I am in the process of researching independent studies on the affects of PGR's in regard to the root system and overall health of the turf. Currently, these products are only available to professionals.
Option Two: Lawn Renovation utilizing slow-grow, low-grow grass. There are several companies claiming to sell grass seed that grows lower and slower than previously available cultivars. All of these web sites claim to sell grass seed that, once established, requires little to no regular watering, no fertilization, and reduced mowing. If you could reduce your mowings to once a month, would you do it? I would. I will be puchasing these lawn seeds and testing them myself to see how they live up to their claims.
For more information, check out these sites: http://www.low-grow.com/; http://www.eco-friendly-grass.com/; http://www.protimelawnseed.com/.
Proper lawn mowing can also reduce gas and fertilizer and pesticide use by encouraging a naturally healthy lawn. Close cropped lawns have become the standard in the United States. Most people cut their lawns as short as two inches. However, studies indicate that lawns kept at a minimum height of three inches suffered less stress than lower cut lawns.
Why is this? Lawns benefit from increased height in three ways:
First, there is a direct correlation between the height at which a lawn is maintained and the depth of its roots. Deeper roots require less watering. If roots only reach two inches, the lawn only benefits when the top one or two inches of the soil is moist. Deeper roots lead to less watering and more drought resistant lawns.
Second, when a lawn is kept longer, it reduces the rate of evaperation, thus, preserving soil moisture. Again, less watering is required and the lawn is more drought resistant.
Third, most weeds prefer full sun. If no light reaches the soil, weed seeds struggle to germinate. Those weeds that do manage to grow are choked out by the more established grass. Weeds cannot easily compete with a healthy lawn.
Site with additional information on PGR's.
http://www.turf.uiuc.edu/hort436/Lec%2016.stm
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