The Turf Zone Podcast
Pennsylvania Turfgrass Council – State of Matters: Irrigation
Pennsylvania Turfgrass – Max Schlossberg, Ph.D.
The important cultural practice of irrigation comprises three components. They are, in chronological order; monitoring, control, and delivery. They may ring familiar too, as they were just articulated by Dr. Grady Miller in the Sept. 2021 issue of SportsField Management (p. 50). Imitation is the sincerest form of flattery, right? Then I added some otherwise original content and withheld discussion of the ‘control’ component for last.
Monitoring
Current monitoring tools and techniques have undergone significant advancement in recent period. While they share the common goal of providing timely soil water status to managing personnel, they fall into one of two categories.
Using climate data to estimate soil water Environmental monitoring affords professional turfgrass managers incredibly valuable information. Predictive models use real-time climate data to guide scheduling of cultural practices supporting accuracy and adopter appreciation. New irrigation systems and/or controllers often include environmental monitoring instruments that automatically compile the data for input into prediction models, run them, and adjust irrigation controller runtimes accordingly. These are commonly referred to as evapotranspiration (ET) controllers and may be available as retrofits for older systems. If this technology is interesting news to you, then please start a conversation with your neighborhood irrigation vendor or technical rep.
Otherwise, many regions of the US are covered by statewide or local ET monitoring networks. These may not relay real-time environmental conditions specific to your location, e.g., precipitation, humidity, etc., but likely will provide useful hourly or daily summaries of potential ET across your region. Nonetheless it is important to realize ET models estimate only extraction of water from the rootzone, not an explicit or certain irrigation requirement.
Irrigation need arises when soil water storage, required to support turf health between now and the next irrigation opportunity, falls below a critical level. Accurate soil water storage estimates rely heavily on site-specific edaphic properties: the effective turfgrass root depth, the mean plant-available water holding capacity throughout the effective root depth, and the estimated soil water storage at monitoring initiation. Predictive models not updated by site-specific determinations often employ default settings of varying suitability. Update these settings with representative soil laboratory test results to optimize turfgrass performance and irrigation efficiency.
Using sensors/meters to measure soil water Direct, real-time measurement of soil water comprises a significant added value to environmental monitoring. Soil moisture data is collected automatically by installed/static sensors or manually using portable meters. Below-ground sensors may be monitored remotely by smart phone, networked to your irrigation system controller, or both. Having discussed such technology with Mr. Derek Pruyne, lead agronomist for UgMO Technologies and two-time PSU Turfgrass advisee/alum, I learned wireless underground monitoring technology currently directs the automated irrigation of over a thousand facilities in North America alone.
Portable soil moisture sensors/meters employ 1- to 6-inch-long time domain reflectometry (TDR) rods, or capacitance probes, to measure soil water content rapidly and accurately with minimal disturbance. I emphasize soil moisture sensors/meters to prevent readers from mistaking handheld, pocket-sized moisture meters (for measuring firewood or drywall wetness) as appropriate for turfgrass applications. They are not. Portable soil moisture meters are two to 3-feet long and quite pricey, but rapidly support general diagnostic inquiries all across your facility.
Where irrigation water costs are high, portable soil moisture meters promptly pay for themselves. Yet overwatering is so agronomically counterproductive to turfgrass that I’d argue these portable soil moisture meters pay for themselves where water is free. Many late-model meters are GPS-compatible and compliment GIS platforms with meaningful map layers. But dependable collection of quality data requires compliance with manufacturers’ recommendations during both setup and subsequent usage. The performance of portable soil moisture meters is governed by proper rod/probe length selection and optimized by initial and subsequent calibration(s). Furthermore, the steel rods/probes of moisture meters will wear down with repeated use and sample shallower depth(s) over time. Operators should interpret the resulting data accordingly and replace rods/probes as needed.
If you already use these monitoring tools and technologies at your facility, kudos! The overwhelming response I hear from managers and superintendents who have adopted irrigation monitoring instruments and/or soil moisture meters is this: Without them, they would have never realized how much they previously overwatered!
Delivery
Optimized replenishment of soil water storage beneath our coveted turfgrass is the final, yet undoubtedly most critical, stage of the process. Imagine a facility with brand-new pumps, a fertigation tank, an ultra-modern central controller, a wireless network of multiple environmental monitoring instruments, buried soil moisture meters, and single rows of heads with missing/worn nozzles on terminal laterals branching out in every direction. It’s as sad as a shiny Carver Amp playing the White Album through speakers detached from a 1994 Panasonic stack. So don’t mistake my tone as unenthusiastic about irrigation, modern irrigation systems are amazing technological advances that support efficient water use and conservation. But if a new install isn’t in the cards, optimizing water delivery can pay dividends.
The number of valuable recommendations for optimized delivery of irrigation is too great to reproduce in full. If you seek comprehensive refreshing, please consult irrigation BMPs available through numerous trade associations or University Extension / Outreach websites. But a few worthwhile suggestions include irrigating: during still conditions, in pulses (when delivering a sizable soil water recharge), and uniformly over the target area.
Rate and uniformity of water delivery by an irrigation system are determined by an irrigation audit. Numerous descriptive University Extension/Outreach publications are available in support of this procedure. A guide by the North Carolina State Univ. Extension Service succinctly describes the required materials, detailed steps, and summary calculations. A well-executed irrigation audit reveals necessary repairs and/or adjustments as well as information needed to adjust runtimes and/or nozzles on a zone-by-zone basis. Data collected by Texas A&M’s AgriLife Extension show water savings from irrigation audits average between 12 and 30%, equating to 700 million gallons annually in Texas alone.
While a proper audit will likely prove worthwhile, a beneficial outcome will depend on committed effort and patience. I recommend the ‘Family-Pack’ of dedicated collection cans that feature wire stands and etched graduations, because you simply can’t have too many. The gradations facilitate trouble-free data collection and accurate irrigation rate determination. Some website instructions offer cost-cutting alternatives; like a sleeve of stackable ‘Solo-type’ cups for collection by a one-time audit. They further suggest users expedite the data collection process by measuring depth of irrigation captured in each with a ruler and recording the irrigation ‘depth’ as head units. This will suffice for auditors seeking to determine only distribution uniformity. Because stackable cups taper wide to narrow from top to bottom, this approach will inflate irrigation rate measurements per unit run time.
Control
In all candidness, it takes extraordinary confidence in his/her team’s assessment of current conditions for a manager to withhold irrigation another night in July. It may additionally require a ≥40% chance of afternoon thunderstorms tomorrow… or perhaps a ≥60% chance of afternoon thunderstorms tomorrow. Regardless, deciding current soil water storage will adequately support turfgrass health until the next irrigation opportunity arises is how turfgrass managers conserve water.
For any given year, if we knew the number of times professional managers applied irrigation within 24 hours of a sizeable rainfall event; i.e., unnecessarily, then we could compare it to the number of times significant turfgrass areas perished due to reckless withholding of irrigation. Am I implying one number consistently exceeds the other? No. The data hasn’t been collected…and I never imply. Rather, the message turfgrass science sends us is that good information, a talented supporting staff, and a confident mindset can make both numbers zero.
Overwatering is irresponsible, injurious, and arguably the foremost scourge on our industry. I mean c’mon, 14-year-old TikTok influencers get 8000 likes for dogging neighbors irrigating in the rain. In addition to broader societal benefits associated with not wasting valuable resources, irrigating unnecessarily can stress and injure turfgrass. This is especially true of intensively-managed cool season turfgrass during extended periods of high temperature.
The over-arching paradox is clear: A clientele that made beaucoup investment in supporting infrastructure won’t forever tolerate a superintendent appearing to underutilize it. As a result, risk aversion makes unnecessary irrigation a more common outcome than drought stress injury. But a reasonable counterpoint is my favorite Dr. Clint Waltz Jr. adage: Just because you currently have formula and a bottle warmer, doesn’t mean it’s time to feed the sleeping baby!
If you are already employing modern instruments to actively monitor ET and/or soil water storage, and the irrigation delivery in every zone of your facility has been audited in duplicate and features a near 100 distribution uniformity, and you follow all the recommended BMPs, but you still rarely encounter drought stress and wonder if you aren’t somehow overwatering, then I recommend one last procedure to support your water conservation goals.
Take ‘The One-Off Challenge’ to calibrate your water use know how
For the proud DIY professionals, an inexpensive yet meaningful and intuitive way to judge your soil water assessment skill is to just turn off one of your sprinkler heads. I’m serious. Spring is a really good time to take ‘The One-Off Challenge!’ Pick a head that services a fairly typical soil profile at your facility, and manually key it to off. Avoid predominately annual or rough bluegrass stands, opting instead for a system populated by species capable of recovering from short-term drought stress. An ideal spot is at the beginning of a frequently visited fairway and/or near your maintenance facility.
Now you may be wondering why anyone would do this. It certainly isn’t predictive or proactive like estimating or measuring soil water. It won’t afford any utility until irrigation is applied. But for turfgrass professionals who strive for improvement, it may prove a valuable retrospective self-evaluation tool that recalibrates your irrigation decision-making. For example, the longer the sprinkler head stays off without reduced vigor or density of the serviced turfgrass, the more productive the exercise will prove.
As a professional, you’ll be prepared to turn the head back on when required. This time will arrive under all but the rarest of summer weather conditions. For those managing facilities where dry seasons prevail, the One-Off Challenge may be terminated after the first week. But if it helps a manager identify a recent irrigation event was unnecessary, then it was an informative week. Return the sprinkler head to operation if the serviced area presents symptoms of drought stress, e.g., wilt, discoloration, matting/footprinting; or the current climatic conditions compel initiation of a leaching requirement.
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