A great way to save money on your water bill and reduce the amount of water withdrawn from the aquifer is to use a rain barrel. The water savings from using stored rainwater rather than municipal or well water can be substantial over a period of time. A rain barrel may not provide all the water needed to sustain all your plants, but it can certainly benefit some houseplants or even an entire vegetable garden. If you currently have a standard irrigation system, you may be able to turn off the sprinkler zones that are in flower beds and use stored rainwater instead.
Typically, the rain barrel is connected to the gutter downspout of the house. For a general calculation, you can collect about a half-gallon of water per square foot of roof area during a 1 inch rainfall. A typical ½ inch rainfall event will fill a 50-55 gallon barrel. Multiple rain barrels can be linked together with PVC or flexible hose to increase storage capabilities. However, with a screen modification on the lid, the rain barrel can be located anywhere in order to collect open rain fall. It will take a lot longer to fill, but may be more practical if the area you want to water is a good distance from the house.
Now is the time to prepare for the long, hot season to come. If you want to learn more, please join the Walton County Environmental Department and UF/IFAS at the Walton County Extension office on Monday, March 7, 2022 for an educational lecture on stormwater and demonstration on how to build a rain barrel. The first 20 participants may also sign up to build a take-home rain barrel. The program begins at 1:00 pm and is free to the public. Those interested in assembling a ready-to-go rain barrel will need to pay $35. Custom assembly will begin at 3:30 p.m. Please contact the Walton County Extension office to register. 850-892-8172.
Applying the right amount of water to the lawn when the turf actually needs water is not always the easiest task for busy homeowners. UF IFAS Extension Escambia County Master Gardener Volunteer Greg Leach shares information about a soil moisture monitoring system that attaches to a home sprinkler system. This can help you apply water to the turf when it is actually needed by measuring soil moisture availability.
Figure: Increase water holding capacity through home composting. Credit: Tyler Jones, UF/IFAS Communications.
Water is a precious resource for Floridians, even if the last couple of months of rainfall may make you think otherwise. As home gardeners, we should keep water conservation in mind.
Wasting water now may cause restrictions in the future, as basic water needs of a growing population outpace capacity. Of course, we all hope that’ll never happen, but it is possible.
As we start planning for our fall vegetable garden, let’s think about conserving water usage. We can start by putting our “plant biology” cap on. A great way to save water is to plant fast growing, early-maturing vegetables. The strategy, of course, is the sooner a plant matures the less water it will need.
Gardening periods in Florida vary, too. Thus, there are broad choices of planting dates for many vegetables. For Panhandle gardeners, the current trend has shown dry periods in the spring, but adequate rainfall in summer months. Usually with the seasonal change to fall, soil moisture holding capacity is not a great struggle in Panhandle. However, much of our soils consist of coarse sandy particles, which are not ideal for water holding capacity. Amending garden soils with organic materials such as compost, manures, and cover crops, will help the soil hold water better.
Selecting the right irrigation method is also a great way to conserve water. Overhead sprinkling is not ideal for most gardening applications. This method wastefully projects water into areas between rows, outside of root zones and allows for much evaporation loss. Drip irrigation can help solve these issues, by concentrating water directly to the root system. IFAS research has estimated an 80% reduction in water usage when utilizing a drip system.
If drip irrigation isn’t a method you’re interested in, overhead watering the garden thoroughly twice weekly is an acceptable alternative. Remember, there’s a limit to how much water plants can use. Excess water can cause runoff and consistent heavily saturated soils may promote root rot. Mulching also ranks highly among water conservation practices, by allowing the soil to hold more moisture. Examples of mulch types include hay, straw, leaves or plastic.
When we go through dry periods in North Florida some residents become interested in drought-tolerant plants to include in their landscapes. The need for irrigation can be reduced when drought-tolerant plants are used. But don’t overuse these plants. Remember we have periods of rainy weather, too.
Gulf Muhly Grass in Flower. Photo credit: Larry Williams
Some drought-tolerant plants have poor tolerance to the other extreme – too much water. There are a few plants that can tolerate both extremes but they are the exception. Avoid using drought-tolerant plants on naturally wet or poorly drained sites. But if you have the typical deep sandy well drained soil Florida is famous for, you’d do well to include some drought-tolerant plants on your site.
Drought-tolerant plants are especially well suited for areas that receive little to no irrigation.
Some plants are genetically better able to withstand drought. They have a built-in tolerance of drought. Many of our Florida native plants are designed to grow in our poor water holding sandy soils. Many of the plants native to arid areas of the world possess high drought-tolerance. These plants have characteristics that allow them to better survive dry weather. These features include thicker or waxier leaves, large surface root areas or deep roots and the ability to drop leaves in drought and regain them when moisture is adequate.
Beautyberry with fruit. Photo credit: Larry Williams
It’s important to realize that these plants must first establish a root system before they can cope with severe dry weather. Plan to irrigate during dry periods for the first season to allow them to become established.
Some outstanding trees to consider include crape myrtle, redbud, Chinese pistache, cedar (Cedrus species), hawthorn (Crataegus species), American holly, yaupon holly, Southern red cedar (Juniperus species), Live oak, Sand live oak, winged elm, pond cypress and bald cypress. Some people are surprised to learn that pond cypress and bald cypress have high drought-tolerance because these trees are associated with swamps, many times growing in standing water. But once established on a dry site, they exhibit very good drought-tolerance.
Some outstanding shrubs with drought-tolerance include glossy abelia, dwarf yaupon holly, Indian hawthorn (Rhaphiolepis species), beauty berry (Callicarpa americana), pineapple guava, junipers, oleander, spiraea, blueberry or sparkleberry (Vaccinium species), viburnum, Chaste tree (Vitex agnus-castus) and coontie (Zamia pumila).
Pineapple guava in bloom. Photo credit: Larry Williams
Some outstanding drought-tolerant groundcovers to consider include beach sunflower (Helianthus debilis), daylily, juniper, lantana, liriope, rosemary (Ceratiola ericoides), Asiatic jasmine and society garlic. Many of the ornamental grasses such as Gulf muhly are good choices as well.
For more ideas on developing a Florida-friendly, water wise landscape, contact the UF/IFAS Extension Office in your County or visit the below website. https://ffl.ifas.ufl.edu/index.html
At the halfway point through 2013, cumulative rainfall amounts for the calendar year were near normal, on average, across the Northwest Florida Water Management District. January, March and May were rather dry. Yet, February, April and June had an abundance of rain. Then, in early July, an unusual persistent mass of moist tropical air brought intense rainfall to the Florida Panhandle. Instead of fireworks on the Fourth of July, most places had record rain. The flooding resulted in washed out roads, drown peanuts and exploding watermelons.
Yet, many landscape sprinkler systems were still running. One has to ask, “Where are all the rain shut-off devices?”. Florida is one of just a few states with a rain sensor statute. Since May 1991, new installations of irrigation systems have been required to include a rain shut-off device. However, no wording was included to cover installation or maintenance. The 2010 statute change now states the following: “Any person who operates an automatic landscape system shall properly install, maintain and operate technology that inhibits or interrupts operation of the system during periods of sufficient moisture.” (Florida Statute 373.62).
Thus, ALL automatic landscape irrigation systems require rain sensors, or other shut-off devices such as soil moisture sensor irrigation controllers. No “grandfather clause” was included for existing systems. Regardless of when it was installed, every sprinkler system must have an operational rain shut-off device. Irrigation contractors can be fined for working on a system without checking out and/or connecting a device.
Moisture sensing technology conserves water, saves money, reduces wear on irrigation system components, reduces disease and helps protect water resources from runoff. Previous research has shown that homeowners using in-ground, automatic irrigation systems, typically in Florida, apply 47% more water for landscape irrigation than homeowners without automatic irrigation systems. This over-irrigation is largely due to a “set it and forget it” mentality despite seasonal fluctuations in plant water needs. If the water costs and the amount of water applied per watering cycle are known, it is easy to calculate how much money is being saved each time the sensor interrupts the program. For example, if a system irrigates ½ acre of turf and is set to deliver ½ inch of water to each zone, approximately 13,576 gallons of water will be used during each watering event. If the cost of the water is $2.00 per thousand gallons, every time the sprinkler system comes on the water bill will be $27.15. A significant amount of money and water can be saved by maintaining a rain shut-off device.
Irrigation is common in Florida landscapes because of sporadic rainfall and the low water holding capacity of sandy soils. Water conservation is a growing issue due to increased demands from a growing population. The least expensive and most common rain sensor device is the expansion disk rain shut-off. Expanding cork disks trigger a pressure switch. The expansion space can be easily adjusted by rotation of the disk cover to a predetermined amount of rain required to trigger the switch. The amount of rain that will interrupt the irrigation system is marked on the adjustment cap. A rain sensor must be mounted where it will be exposed to unobstructed rainfall, typically installed near the roofline on the side of a building.
Irrigation control technology that improves water application efficiency is now available. Soil moisture sensors (SMS) can reduce the number of unnecessary irrigation events. Most soil moisture sensors are designed to estimate soil volumetric water content based on the soil’s ability to transmit electricity, which increases as the water content of the soil increases. Bypass type soil moisture irrigation controllers use water content information from the sensor to either allow or bypass scheduled irrigation cycles on the irrigation timer. Another type of control technique with SMS devices is “on-demand” where the controller initiates irrigation at a low threshold and terminates irrigation at a high threshold. A single sensor can be used to control the irrigation for many zones or multiple sensors can be used to irrigate individual zones. In the case of one sensor for several zones, the zone that is normally the driest, or most in need of irrigation, is selected for placement of the sensor in order to ensure adequate irrigation in all zones. Sensors should be buried in the root zone of the plants to be irrigated. For turfgrass, the sensor should typically be buried at about three inches deep. The placement of SMS should be at least 5 feet from hard surfaces and sprinkler heads. The sensor needs to be calibrated and/or the soil water content threshold needs to be selected.
The amount of water that can be saved using rain shut-off devices is substantial. Since the end of March, groundwater levels in the coastal Floridan aquifer shows a slight decline, primarily due to increased pumping from higher seasonal populations during the spring and summer months. In the western panhandle, groundwater levels in the Sand and Gravel aquifer are below normal, which indicates that infiltrating recharge from the above normal rainfall has yet to reach the water table. Remember that every drop that hits the ground will be picking up pollutants as it flows to our groundwater. Nonpoint source pollution is the leading cause of water quality problems. These pollutants have harmful effects on drinking water supplies, recreation, fisheries and wildlife.
By only irrigating when the soil needs it, you are also preventing contamination of drinking water.
