THE BENEFITS OF USING TREES FOR NATURAL STORMWATER MANAGEMENT

THE BENEFITS OF USING TREES FOR NATURAL STORMWATER MANAGEMENT

Natural stormwater management is an approach that utilizes natural systems to control and mitigate the effects of stormwater runoff. One highly effective and sustainable element of this approach is the use of trees. Trees offer numerous benefits for stormwater management, including reducing runoff, preventing erosion, improving water quality, and enhancing overall environmental resilience. This note explores these benefits in detail, highlighting the critical role that trees play in natural stormwater management.

  1. Reduction of Runoff: Trees play a vital role in reducing stormwater runoff by intercepting and absorbing rainfall. Their canopies act as natural umbrellas, capturing raindrops and allowing them to evaporate or drip slowly to the ground. This reduces the volume and velocity of runoff, mitigating the risk of flooding and erosion.
  2. Soil Stabilization and Erosion Prevention: The extensive root systems of trees help stabilize soil and prevent erosion. During heavy rain, tree roots hold the soil in place, reducing the likelihood of landslides or slope failure. The roots also create channels that facilitate water infiltration into the ground, allowing the soil to act as a natural sponge and retain stormwater.
  3. Water Quality Improvement: Trees contribute to improved water quality by filtering stormwater runoff. As water percolates through the soil, tree roots and the associated soil microorganisms act as natural filters, removing pollutants such as sediments, nutrients, heavy metals, and chemicals. This filtration process helps protect water bodies, such as rivers, lakes, and groundwater, from contamination.
  4. Temperature Regulation: Trees can help mitigate the urban heat island effect, which is the phenomenon of increased temperatures in urban areas due to the abundance of impervious surfaces. By providing shade and transpiring water through their leaves, trees cool the surrounding environment. This cooling effect can reduce the volume of stormwater runoff generated and alleviate strain on stormwater infrastructure during intense rainfall events.
  5. Carbon Sequestration and Air Quality Enhancement: Trees are excellent carbon sinks, absorbing carbon dioxide (CO2) from the atmosphere and storing it in their trunks, branches, leaves, and roots. By sequestering carbon, trees help combat climate change and reduce the concentration of greenhouse gases. Additionally, trees improve air quality by absorbing air pollutants and releasing oxygen through photosynthesis, contributing to a healthier and more pleasant urban environment.
  6. Biodiversity and Habitat Creation: Trees support biodiversity by providing habitats for various species, including birds, insects, and small mammals. Urban areas with a rich tree canopy can harbor diverse ecosystems, creating interconnected habitats and promoting wildlife movement. This ecological diversity contributes to the overall resilience of the urban ecosystem and enhances the aesthetic appeal of green spaces.

The benefits of using trees for natural stormwater management are multifaceted and far-reaching. From reducing runoff and preventing erosion to improving water quality, temperature regulation, and carbon sequestration, trees play a vital role in creating sustainable and resilient urban environments. Incorporating trees into stormwater management strategies can help cities and communities combat the adverse effects of stormwater runoff while simultaneously promoting environmental health, biodiversity, and a higher quality of life. Emphasizing the importance of trees in stormwater management is essential for sustainable urban planning and the well-being of both humans and the natural world.

Preserving natural tree canopy and the prudent use of tree plantings in urban landscapes contributes to the control of runoff through a number of mechanisms.

These functions for control of runoff and its impacts are further discussed below.

Interception and Evapotranspiration

Through the processes of interception, evaporation, and transpiration, trees and other vegetation capture and store a portion of rainfall and release water to the atmosphere, reducing the net amount of rainfall that becomes runoff. Rain is captured (intercepted) on a plant’s leaves and stems (for trees, the leaf and stem complex is referred to as “canopy”).  A portion of this captured water evaporates back into the atmosphere before reaching the ground. Larger canopies intercept greater amounts of precipitation because there is more surface area available for water molecules to adhere to. 

Some water flows down the plant stem to the ground as “stemflow”, and some rainfall infiltrates the ground around the plant, entering the root zone where the plant withdraws moisture to sustain itself.  In this process, water taken up through its roots is then released through the plant’s vegetative structures as water vapor, a process known as transpiration. The combination of these two mechanisms – evaporation and transpiration – whereby a plant transfers moisture to the atmosphere is referred to as evapotranspiration.  In both processes the water is diverted before ever becoming runoff.

Mature tree canopies are of particular value in the interception of rainfall.  For example, in a New Hampshire hardwood forest at the Hubbard Brook LTER site, deciduous trees were observed to intercept 13% of the total rainfall during the leaf period and 12% of the total rainfall during the leafless period (Leonard, 1961). 

Individual mature trees also provide significant rainfall interception.  An illustration of this potential stormwater benefit using the National Tree Benefit Calculator was cited in Chapter 1 of this report (i.e., greater than 9% annual rainfall capture over the “footprint” of the tree).  The significant volumes of interception shown in that example and in the Hubbard Brook study cited above are consistent with findings of other studies throughout the United States.

The amount of rainfall intercepted by vegetation varies depending on the type of species, time of year, and intensity and duration of the rainfall event. Species characteristics like leaf surface area and specific tree architecture contribute to the variation in total water intercepted. Also, trees typically intercept more rain during a storm of longer duration than a short storm with equal total rainfall accumulation (CUFR, 2002).  In areas where rainfall is highest in the fall, winter, and spring, broadleaf evergreens and conifers intercept more rainfall than deciduous species (Xiao and McPherson 2002).

Promotion of Infiltration

Another crucial role plants have in reducing landscape runoff is facilitating ground water infiltration. Plants provide suitable conditions for water to infiltrate through several mechanisms.  Decomposing plant material on the ground captures and temporarily stores runoff. Root systems create large pores in the soil called macropores that facilitate infiltration. Tree roots provide pathways for stormwater infiltration to enter soils compacted by development activity (e.g., see Bartens, et.al., 2008). The uptake of water from the soil by plants between rainfall events frees pore space that then becomes available for storage during a subsequent storm. 

Note, however, that in the case of trees, much of the infiltrated water will ultimately be taken up by the trees themselves, so that in areas with extensive tree cover, deep groundwater recharge may actually be less than in areas with little or no tree cover.

Vegetative Retardance of Runoff

Vegetation not only reduces the volume of runoff, but can also reduce runoff velocity compared to flow over an un-vegetated surface (an effect referred to as vegetative retardance).  This results in longer times of concentration.  Natural surface roughness associated with vegetation contributes to lower peak rates of discharge than would occur on an un-vegetated landscape. Maintaining and restoring vegetated landscapes thus can contribute to the control of the rate runoff is transported through a drainage basin. 

Surface Stabilization

Trees and other vegetation throughout the landscape stabilize slopes and channels and prevent soil erosion. Trees protect soil from direct exposure to falling rain by intercepting rain, absorbing the impact of rainfall that does drip from the leaf surface to the ground, and providing leaf litter that absorbs the impact of rainfall as it hits the ground.  Each of these mechanisms helps prevent dislodgement of soil particles by rainfall. Additionally, the tree’s root system keeps soils intact, stabilizing slopes against displacement by runoff flowing over and through the surface soils. Reduced erosion rates from vegetated landscapes protect the quality of receiving waters by minimizing transport of sediments and associated pollutants.

Water Quality Enhancement

Not only can trees reduce the total amount and rate of stormwater runoff, they can also improve the water quality of runoff.  The forest litter associated with woody plants (as well as groundcovers that may thrive beneath trees) can filter runoff as it passes over the ground. Woody plants in particular can uptake nutrients, contaminants, and metals from water or soil. A study showed that within one growing season a maple removed 60 mg of cadmium, 140 mg of chromium, 820 mg of nickel, and 5200 mg of lead (Coder, 1996). Vegetative pollutant uptake improves the surrounding soil and water quality, resulting in less contamination in runoff reaching the stormwater system from tree covered landscapes and from stormwater treatment practices that include tree plantings.

An additional water quality benefit provided by tree canopy comprises moderation of the thermal impacts of stormwater runoff. For discharges to temperature-sensitive water resources such as coldwater fisheries, prudent preservation or enhancement of tree cover to shade impervious surfaces (where runoff originates), outlet channels (where runoff discharges), and stream banks can moderate temperatures of stormwater discharges.

 

Murray, Utah

About Murray, Utah

Murray is a city situated on the Wasatch Front in the core of Salt Lake Valley in the U.S. state of Utah. Named for territorial governor Eli Murray, it is the state's fourteenth largest city. According to the 2020 census, Murray had a population of 50,637. Murray shares borders with Taylorsville, Holladay, South Salt Lake and West Jordan, Utah. Once teeming with heavy industry, Murray's industrial sector now has little trace and has been replaced by major mercantile sectors. Known for its central location in Salt Lake County, Murray has been called the Hub of Salt Lake County. Unlike most of its neighboring communities, Murray operates its own police, fire, power, water, library, and parks and recreation departments and has its own school district. While maintaining many of its own services, Murray has one of the lowest city tax rates in the state.

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Map of Murray, Utah

Driving Directions in Murray, Utah to Truco Services, Inc.

Driving Directions from Woodruff Tree Trimming and Removal to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Reliable Tree Care to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Tree Pro-Tech to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Prestige Tree And Landscape to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Excellence Tree & Landscape to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Amen Trees to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Tim's Tree Care to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Jordan Tree Service - Murray to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Arbor Works to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Diamond Tree Experts to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Green Tree Arborist to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from TruCo Services to 4640 Commerce Dr, Murray, UT 84107, USA

Reviews for Truco Services, Inc. Murray, Utah

Truco Services, Inc. Reviews

Emily Abercrombie

starstarstarstarstar (5)

We had a great experience with TruCo! They were well priced, responsive and prompt. Michael was a pleasure to work with and gave us advice on which plants to put in where we took out our ugly old shrubs. I would highly recommend this company!!!

Truco Services, Inc. Reviews

Michelle Turpin

starstarstarstarstar (5)

TruCo Services gets 5 stars from us for customer service. We experienced a few issues with their services this last year and Rob Eccles in senior management, stepped in and immediately handled our issues. He was very committed to making sure they understood our expectations and would execute to make us happy.

Truco Services, Inc. Reviews

Siobhan Billingsley

starstarstarstarstar (5)

I work for a property management company and have the pleasure of working with Rob at a community in Sandy. He has been incredible to work with and always responds in a timely manner. He knows all the homeowners by name and address and is aware of all the "problem" areas when it comes to sprinklers. I never have to worry about following up with him because he always reaches out to provide me with an update. If you're looking to work with someone who takes pride in their job, is professional, and can solve the worst landscaping problems thrown your way, Rob is your guy. Thank you, Rob for all you do!

Truco Services, Inc. Reviews

Jaime S.

starstarstarstarstar (5)

We have used Truco at 2 of the complexes we manage, they have been great to work with. Good quality service, outstanding customer service with good communication. That's hard to find these days. I highly recommend them. Travis has been awesome to work with.

Truco Services, Inc. Reviews

Jerusha Smart

starstarstarstarstar (5)

We use TruCo for a majority of our properties and our home. While other landscaping companies we use come and go for various reasons like cost, communication issues, work performance, etc., TruCo is always consistent in price and work. Also, Rob is the best.

THE IMPACT OF TREES ON WATER CONSERVATION EFFORTS IN UTAH

THE IMPACT OF TREES ON WATER CONSERVATION EFFORTS IN UTAH

Water conservation holds immense significance in arid regions like Utah due to the unique challenges posed by the climate and environmental conditions. Here’s an explanation of the significance of water conservation in arid regions:

1. Limited Water Resources: Arid regions typically receive low annual precipitation levels, and the available freshwater resources are scarce. In Utah, for example, the majority of the state is classified as semi-arid or arid, making water a precious and limited resource.

2. Drought Vulnerability: Arid regions are particularly vulnerable to drought conditions, which can lead to water shortages, reduced agricultural productivity, and economic impacts. Droughts are recurring phenomena, and conserving water is crucial for maintaining resilience during dry periods.

3. Ecological Impact: Water conservation is essential to protect the fragile ecosystems of arid regions. Many plant and animal species have adapted to survive in low-water environments. Excessive water use can disrupt these ecosystems and threaten biodiversity.

4. Urban Water Demand: In arid regions, urban populations rely heavily on water for residential and commercial purposes, including drinking, sanitation, irrigation, and industrial processes. Effective water conservation measures help meet the increasing demands of growing cities and towns.

5. Agricultural Needs: Agriculture is a significant water user in arid regions, and efficient water management practices are critical for sustaining crop production and livestock. Water conservation in agriculture ensures food security and economic stability.

6. Reducing Water Stress: Water stress occurs when the demand for water exceeds the available supply. Arid regions often experience water stress, which can lead to conflicts over water resources. Water conservation efforts help alleviate stress and reduce the potential for disputes.

7. Energy Savings: Water conservation can lead to energy savings. In arid regions, pumping and treating water for distribution and wastewater management consume substantial energy. Reducing water use decreases energy consumption and related greenhouse gas emissions.

8. Infrastructure Resilience: Conserving water helps prolong the lifespan of water infrastructure, such as dams, reservoirs, and pipelines. Overuse of water resources can lead to infrastructure deterioration and increased maintenance costs.

9. Financial Savings: Water conservation can result in cost savings for both individuals and municipalities. Reduced water consumption lowers water bills for residents and lowers operational costs for utilities.

10. Climate Change Adaptation: Arid regions are susceptible to the impacts of climate change, including altered precipitation patterns and increased temperatures. Water conservation measures help communities adapt to these changes by making the most of available water resources.

11. Sustainable Growth: Water conservation is essential for supporting sustainable economic and population growth in arid regions. It allows for responsible development and helps ensure that future generations will have access to adequate water supplies.

12. Long-Term Environmental Health: By conserving water, arid regions can protect their natural landscapes, preserve wetlands and riparian areas, and maintain the health of rivers and lakes. These ecosystems provide habitat for wildlife and contribute to recreational and cultural values.

In summary, water conservation is vital in arid regions like Utah to address the pressing challenges of limited water resources, drought vulnerability, and the need for sustainable growth. It is an essential component of responsible environmental stewardship, economic stability, and climate resilience in such regions.

Challenges of Water Scarcity and the Importance of Efficient Water Use:

1. Limited Freshwater Resources: One of the primary challenges of water scarcity is the limited availability of freshwater resources. Freshwater makes up only a small fraction of the Earth’s total water supply, and a significant portion of it is stored in glaciers and inaccessible underground aquifers.

2. Uneven Distribution: Water resources are unevenly distributed geographically. Some regions have abundant water sources, while others, particularly arid and semi-arid areas, face chronic water shortages.

3. Population Growth: The global population continues to grow, leading to increased water demand for drinking, sanitation, agriculture, and industrial processes. This population pressure exacerbates water scarcity in many regions.

4. Climate Change: Climate change is altering precipitation patterns, leading to prolonged droughts in some areas and more intense rainfall in others. These shifts in weather patterns further challenge water availability and management.

5. Wasteful Practices: Inefficient water use practices, such as water leakage in infrastructure, over-irrigation in agriculture, and excessive water consumption in households and industries, contribute to the depletion of available water resources.

6. Economic and Social Impact: Water scarcity can lead to economic losses in agriculture, industry, and tourism. It can also result in social disparities, with marginalized communities often suffering the most from inadequate access to clean water.

Importance of Efficient Water Use:

1. Resource Conservation: Efficient water use ensures that available water resources are used wisely and sustainably. It helps conserve freshwater for current and future generations.

2. Mitigating Water Stress: By reducing wasteful practices, efficient water use helps alleviate water stress in regions facing scarcity, improving overall water security.

3. Environmental Protection: Efficient water use benefits ecosystems and biodiversity by preserving the quantity and quality of water in rivers, lakes, and wetlands. This protection is essential for maintaining ecological balance.

4. Food Security: Agriculture is a major water consumer. Efficient irrigation and farming practices help sustain crop production, ensuring food security even in water-scarce regions.

5. Energy Efficiency: Water and energy are closely linked. Energy is required for water treatment, distribution, and heating. Using less water results in energy savings, which can reduce greenhouse gas emissions.

6. Cost Savings: Efficient water use can lead to cost savings for households, businesses, and governments. It lowers water bills, reduces maintenance costs for water infrastructure, and fosters economic stability.

7. Resilience to Climate Change: In the face of changing climate patterns, efficient water use practices help communities adapt to shifts in precipitation and temperature.

8. Water Quality: Efficient water use can reduce pollution risks. Less water use means fewer pollutants are transported into water bodies, enhancing water quality.

9. Long-Term Sustainability: Efficient water use is fundamental to achieving long-term sustainability in water management. It ensures that water resources are available for future generations and minimizes the risk of depletion.

10. Social Equity: Efficient water use can promote social equity by ensuring that water resources are distributed more equitably among communities, reducing disparities in access to clean water.

In conclusion, efficient water use is crucial for addressing the challenges of water scarcity, conserving vital freshwater resources, protecting the environment, and promoting economic and social well-being. It is a cornerstone of responsible water management and sustainable development in a world where water scarcity is an increasingly pressing issue.

Survival Strategies of Native and Drought-Tolerant Tree Species in Utah:

Native and drought-tolerant tree species in Utah have evolved various survival strategies to thrive in the arid and semi-arid climate of the region. These strategies enable them to conserve water, withstand long periods of drought, and adapt to the challenging environmental conditions. Here are some survival strategies commonly observed in native and drought-tolerant trees in Utah:

1. Deep Root Systems: Many native trees in Utah have developed deep taproot systems that penetrate deep into the soil to access groundwater sources. These deep roots enable them to reach moisture reserves even during extended dry periods.

2. Xerophytic Adaptations: Drought-tolerant trees exhibit xerophytic adaptations, including small or narrow leaves with reduced surface area for water loss through transpiration. Some trees have modified leaf structures, such as needle-like leaves or thick cuticles, to minimize water loss.

3. Water Storage Tissues: Certain tree species in Utah store water in specialized tissues, such as succulent stems or trunks. These tissues act as water reservoirs, allowing the tree to survive extended periods of drought by tapping into stored water reserves.

4. Dormancy: During extreme drought conditions, some trees enter a state of dormancy, shedding leaves or reducing metabolic activity to conserve water. This adaptation helps trees conserve energy and water until conditions improve.

5. Reduced Growth: Drought-tolerant trees often exhibit reduced growth rates during dry periods. Slower growth conserves energy and water resources, allowing the tree to allocate resources for survival rather than growth.

6. Shade Tolerance: Some native tree species in Utah are shade-tolerant, allowing them to thrive in understory conditions with reduced sunlight. This adaptation reduces water requirements and competition for sunlight.

7. Mycorrhizal Associations: Many drought-tolerant trees form symbiotic relationships with mycorrhizal fungi. These fungi extend the tree’s root system and enhance its ability to absorb water and nutrients from the soil.

8. Salt Tolerance: Some Utah trees, especially those in saline soils, have developed salt tolerance mechanisms to thrive in high-salinity environments. These mechanisms include salt exclusion or salt gland secretion.

9. Drought-Induced Leaf Shedding: During prolonged droughts, some tree species shed their leaves to reduce transpiration and water loss. This temporary adaptation helps trees survive until moisture returns.

10. Resource Allocation: Drought-tolerant trees allocate resources efficiently, prioritizing water and nutrients for essential functions like root growth and maintenance. They may sacrifice non-essential growth, such as new branches or leaves, to conserve resources.

11. Coppicing and Sprouting: Some native trees, like cottonwood and willow species, are capable of coppicing or sprouting from their root systems after disturbances. This allows them to recover quickly after drought, fire, or other environmental stresses.

12. Seed Banks: Certain tree species in Utah produce seeds with hard shells or protective coatings that can remain viable for extended periods in the soil. These seeds can germinate when favorable conditions return.

These survival strategies highlight the remarkable adaptability of native and drought-tolerant trees in Utah. Their ability to withstand water scarcity is essential for maintaining ecosystems, supporting wildlife, and contributing to the overall ecological resilience of the region, especially in the face of increasing climate variability and arid conditions.

Murray, Utah

About Murray, Utah

Murray is a city situated on the Wasatch Front in the core of Salt Lake Valley in the U.S. state of Utah. Named for territorial governor Eli Murray, it is the state's fourteenth largest city. According to the 2020 census, Murray had a population of 50,637. Murray shares borders with Taylorsville, Holladay, South Salt Lake and West Jordan, Utah. Once teeming with heavy industry, Murray's industrial sector now has little trace and has been replaced by major mercantile sectors. Known for its central location in Salt Lake County, Murray has been called the Hub of Salt Lake County. Unlike most of its neighboring communities, Murray operates its own police, fire, power, water, library, and parks and recreation departments and has its own school district. While maintaining many of its own services, Murray has one of the lowest city tax rates in the state.

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Bus Stop in Murray Central Station (Bay C) Murray, Utah to Truco Services, Inc.

Bus Stop in State St @ 4801 S Murray, Utah to Truco Services, Inc.

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Bus Stop in State St @ 4949 S Murray, Utah to Truco Services, Inc.

Bus Stop in Murray Central Frontrunner/Trax Station Murray, Utah to Truco Services, Inc.

Bus Stop in Murray Blvd / Vine St (SB) Murray, Utah to Truco Services, Inc.

Bus Stop in State St @ 3925 S Murray, Utah to Truco Services, Inc.

Bus Stop in State St @ 4824 S Murray, Utah to Truco Services, Inc.

Bus Stop in State St @ 5223 S Murray, Utah to Truco Services, Inc.

Bus Stop in Murray Blvd / Allendale Dr (NB) Murray, Utah to Truco Services, Inc.

Bus Stop in Murray Blvd @ 5039 S Murray, Utah to Truco Services, Inc.

Bus Stop in State St @ 4721 S Murray, Utah to Truco Services, Inc.

Map of Murray, Utah

Driving Directions in Murray, Utah to Truco Services, Inc.

Driving Directions from Woodruff Tree Trimming and Removal to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Reliable Tree Care to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Tree Pro-Tech to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Prestige Tree And Landscape to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Excellence Tree & Landscape to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Amen Trees to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Tim's Tree Care to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Jordan Tree Service - Murray to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Arbor Works to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Diamond Tree Experts to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from Green Tree Arborist to 4640 Commerce Dr, Murray, UT 84107, USA

Driving Directions from TruCo Services to 4640 Commerce Dr, Murray, UT 84107, USA

Reviews for Truco Services, Inc. Murray, Utah

Truco Services, Inc. Reviews

Emily Abercrombie

starstarstarstarstar (5)

We had a great experience with TruCo! They were well priced, responsive and prompt. Michael was a pleasure to work with and gave us advice on which plants to put in where we took out our ugly old shrubs. I would highly recommend this company!!!

Truco Services, Inc. Reviews

Michelle Turpin

starstarstarstarstar (5)

TruCo Services gets 5 stars from us for customer service. We experienced a few issues with their services this last year and Rob Eccles in senior management, stepped in and immediately handled our issues. He was very committed to making sure they understood our expectations and would execute to make us happy.

Truco Services, Inc. Reviews

Siobhan Billingsley

starstarstarstarstar (5)

I work for a property management company and have the pleasure of working with Rob at a community in Sandy. He has been incredible to work with and always responds in a timely manner. He knows all the homeowners by name and address and is aware of all the "problem" areas when it comes to sprinklers. I never have to worry about following up with him because he always reaches out to provide me with an update. If you're looking to work with someone who takes pride in their job, is professional, and can solve the worst landscaping problems thrown your way, Rob is your guy. Thank you, Rob for all you do!

Truco Services, Inc. Reviews

Jaime S.

starstarstarstarstar (5)

We have used Truco at 2 of the complexes we manage, they have been great to work with. Good quality service, outstanding customer service with good communication. That's hard to find these days. I highly recommend them. Travis has been awesome to work with.

Truco Services, Inc. Reviews

Jerusha Smart

starstarstarstarstar (5)

We use TruCo for a majority of our properties and our home. While other landscaping companies we use come and go for various reasons like cost, communication issues, work performance, etc., TruCo is always consistent in price and work. Also, Rob is the best.