The Role of Soil Management in Minimizing Water and Nutrient Losses from the Urban Landscape

Hochmuth, George; Trenholm, Laurie E.; Momol, Esen; Rainey, Don; Lewis, Claire; Niemann, Brian

doi:10.32473/edis-ss593-2013

Cited by 1 publication

(5 citation statements)

References 2 publications

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“…Deep sands are the most common topsoil in Florida, often limited underneath by clayey soil (Milavarapu et al, 2016). Less common are clayey textures found in urban settings as a topsoil, either occurring naturally or brought up by soil movement during housing developments (Hochmuth et al, 2016).…”

Section: Methodsmentioning

confidence: 99%

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Dry‐Out Periods of Rain Sensors vs. Soil Dry‐Out: Water Saving Potential and Recommendations

Cardenas

Dukes

2018

Vadose Zone Journal

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Rain sensors (RSs) are devices that may help to irrigate residential landscapes more efficiently. When a predetermined amount of rain occurs, an RS interrupts the programmed irrigation cycle. When rainfall stops, RSs allow irrigation after a dry-out period. However, no actual RS dry-out times have been compared with soil dry-out times. The objectives of this study were (i) to determine the seasonal dry-out periods of two RSs; (ii) to estimate the dry-out periods of three soil textures (sand, loam, and clay loam) through a soil water balance model using numerical flow equations; (iii) to compare the dry-out period of these soil textures to the dry-out period of two RSs; and (iv) to propose recommendations for increased or decreased RS dry-out period, if any. Existing RS dry-out data from previous studies performed in Central Florida were assembled along with hourly weather data to estimate hourly turfgrass evapotranspiration (ET c ). Precipitation data were used with ET c to simulate soil dry-out, using the WAVE 3.0 model. Modeled soil dry-out times were compared against actual RS dry-out data. The average RS dry-out time was not different between the RS brands tested, which was around 19 h. The dry-out time of the sand-textured soil was different from the loam and clay loam, which were similar to one another. The dry-out times of the soils modeled were always above 52, 75, and 89 h for sand, clay loam, and loam, respectively. Therefore, these results show that the RSs tested do not follow the dry-out characteristics of any of the soil textures modeled. An electronic mechanism that could delay the RSs resuming to the allowing irrigation mode is recommended to the industry. Citation: Cardenas, B., and M.D. Dukes. 2018. Dry-out periods of rain sensors vs. soil dry-out: Water saving potential and recommendations. Vadose Zone J. 18:170185.

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Section: Methodsmentioning

confidence: 99%

“…). Less common are clayey textures found in urban settings as a topsoil, either occurring naturally or brought up by soil movement during housing developments (Hochmuth et al, 2016).…”

mentioning

confidence: 99%

Dry‐Out Periods of Rain Sensors vs. Soil Dry‐Out: Water Saving Potential and Recommendations

Cardenas

Dukes

2018

Vadose Zone Journal

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“…During the construction phase, the landscape is altered as the site's elevation is typically raised by using multiple layers of soil fill, which is spread across the site. The soil fill is typically sterile and nutrient-poor sandy soils from different locations and/or dense and water-logged clay soils from onsite excavated stormwater ponds (Hochmuth et al 2013). Once distributed across a site, fill is usually compressed due to heavy construction equipment (Hochmuth et al 2013;Shober et al 2010).…”

Section: Limitations To Incorporating Native Landscape Plantingsmentioning

confidence: 99%

“…The soil fill is typically sterile and nutrient-poor sandy soils from different locations and/or dense and water-logged clay soils from onsite excavated stormwater ponds (Hochmuth et al 2013). Once distributed across a site, fill is usually compressed due to heavy construction equipment (Hochmuth et al 2013;Shober et al 2010). These sterile, nutrient-poor, and compressed soil conditions can prevent many native plant species from establishing and thriving due to the plants not receiving adequate nutrients and/or the root space to grow (Hochmuth et al 2013).…”

Section: Limitations To Incorporating Native Landscape Plantingsmentioning

confidence: 99%

“…Once distributed across a site, fill is usually compressed due to heavy construction equipment (Hochmuth et al 2013;Shober et al 2010). These sterile, nutrient-poor, and compressed soil conditions can prevent many native plant species from establishing and thriving due to the plants not receiving adequate nutrients and/or the root space to grow (Hochmuth et al 2013). These conditions can even hinder the growth on nonnative species.…”

Section: Limitations To Incorporating Native Landscape Plantingsmentioning

confidence: 99%

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Salvaging Native Plants from Sites Slated for Development: Stop Wasting Resources

Hess

Clem

Iannone

2021

EDIS

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This fact sheet provides examples of native plant species that can be salvaged from sites slated for development for urban landscaping. It also provides strategies to increase the economic and logistic feasibility of salvaging efforts. The authors found 80 salvageable native plant species on a proposed development site, 31 of which had the potential to establish in soils more sterile and compacted than the soils in which these species typically flourish.

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The Role of Soil Management in Minimizing Water and Nutrient Losses from the Urban Landscape

Cited by 1 publication

References 2 publications

Dry‐Out Periods of Rain Sensors vs. Soil Dry‐Out: Water Saving Potential and Recommendations

Dry‐Out Periods of Rain Sensors vs. Soil Dry‐Out: Water Saving Potential and Recommendations

Salvaging Native Plants from Sites Slated for Development: Stop Wasting Resources

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