PACE Turf - Turfgrass Information Center

Cultural

Evaluation of leaching tactics

Managing soil salts is a challenge wherever rainfall is limited and infrequent. That is why Patty Reedy and Bruce Williams, CGCS at Los Angeles Country Club took time several years ago to study leaching tactics to refine the process to a science. In their 2008 study on LACC's USGA spec, A4 bentgrass greens, they leached test greens for 3.75 hours and generated the following results:

  • The reduction in salinity was the same (about 20%), whether the drains were left open during leaching or they were closed during the initial period of the leaching event followed by opening the drain once the root zone was saturated.
  • When catch cans were used to evaluate the precipitation rates on different areas of the test greens, they found a range between 0.8 in/hr (20 mm/hr) and 2.7 in/hr (69 mm/hr). Although this range is very wide, we have seen similarly wide ranges in precipitation rates in other locations, as shown in a recent study on irrigation distribution and turf disease. This variability is at least partly due to general problems in irrigation design that result in uneven distribution patterns (see the PACE Insights, Issues in irrigation: the uniformity myth (254 KB pdf document).
  • The more than three-fold range in precipitation rates had a significant effect on the pre-leaching levels of sodium detected in the soil, with the lowest precipitation areas showing the highest sodium levels, as shown in the graph on the right.
  • After leaching, the differences in sodium that were a result of differences in precipitation rate had vanished. In other words, leaching produced the desired effect of not only lowering soil salts in all areas of the green, but of also removing the variability in salt accumulation caused by variable precipitation rates.

Principal investigators: Bruce Williams, CGCS and Patty Reedy, The Los Angeles Country Club, Los Angeles, CA.

The full print version of the report is available at Evaluation of leaching methods on USGA specification greens (611 KB pdf document).

Leaching evaluation conducted at Mission Viejo Country Club

Summary:

Kevin Hutchins, superintendent at Mission Viejo Country Club (Mission Viejo, CA) evaluated the impact of leaching poorly draining fairways that have low saturated hydraulic conductivity. The fairway soils run as high as 20% clay and 30% silt. Estimated saturated hydraulic conductivity is less than 0.4 inches per hour (1 cm/hr). Irrigation was applied slowly in attempt to match soil infiltration rates. Fifteen minute irrigation cycles were followed by two hour soaks over the course of three consecutive days. A total of 5 inches (13 cm) of water was applied. The results showed that leaching reduced soil salinity and nitrogen by about 20%, while chloride was reduced by 40%. Sulfur and sodium levels were slightly reduced, but not significantly. This study illustrates the difficulty encountered when attempting to leach soil salts from soils that have low saturated hydraulic conductivity.

Full print version of report

Principal investigators: Kevin Hutchins, Mission Viejo Country Club, Larry Stowell, Ph.D. and Wendy Gelernter, Ph.D., PACE Turf

Posted 9/1/08

Effect of leaching greens on soil chemistry

A research study on the effects of leaching was recently conducted with the cooperation of superintendent Mike Hathaway, CGCS (a PACE advisory board member) and assistant Nathan Radwick at The Bridges at Rancho Santa Fe. The full report has been posted onto the PACE Super Journal website, and the results are summarized below.

Summary: To quantify the benefits as well as any hazards of leaching, soil chemical analyses were performed on G2 bentgrass greens that had been leached by applying 5.5 inches of water over a period of 22 hours. A parallel set of analyses were performed on greens that had not been leached. Significant benefits, as well as some lesser, but potential risks were observed, including:

  • Leaching reduced salinity by 37% using saturated paste extraction (SPE) methods or 26% using 1:2 soil to water electrical conductivity evaluations (which were converted to saturated paste equivalents).
  • Sodium parts per million was reduced by 30% using SPE and to 33% when evaluated using Mehlich III (M3) extraction.
  • Sulfur was reduced by 46% using SPE and by 40% when evaluated using M3 extraction.
  • Chloride was reduced by 50% using SPE and by 52% when evaluated using M3 extraction
  • Although all of the reductions listed above are beneficial, there was also a significant loss of potassium detected in the leached samples. This indicates that applications of supplemental potassium may be needed following heavy leaching in order to replenish levels to the guideline level of 110 ppm or above (as determined by Mehlich III extraction).

Full print version of report (24Kb)

Principal investigators: Mike Hathaway, CGCS and Nathan Radwick (The Bridges at Rancho Santa Fe)

Cooperators: Larry Stowell and Wendy Gelernter (PACE Turfgrass Research Institute)

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