From the University of Nebraska-Lincoln blog, Turf iNfo:
Key Findings, changes, and lingering questions from “Getting
What You Want with Primo (2007)”:
Increased Primo MAXX application rate led to more clipping
yield suppression. We continue to observe this result in all of our trials.
Sometimes you would need to use illegal rates, however, to achieve noticeably
more clipping yield suppression. For example, Primo MAXX applied at 0.2
compared to 0.1 fl oz/1000 ft2 would only have a marginal impact on the amount of
suppression during the growing season. Other PGRs like Trimmit 2SC have a wider
rate range and higher application rates. This results in greater clipping yield
suppression but also has an increased risk of phytotoxicity.
Lower application rates resulted in better turfgrass
quality than higher application rates. The risk of phytotoxicity increases with
higher PGR application rate. This is true across all the PGRs we’ve tested over
the years. In this initial study, the low weekly rate of Primo MAXX had the
best turfgrass quality, but had no statistical clipping yield suppression. The
higher application rate had very significant clipping yield suppression, but
also had a blue-green appearance and evidence of root pruning and reduced leaf
(tiller) density at the end of the study. This was surprising and it’s
important to note that this exact study design was never replicated. Dr.
Yelverton has great images of Primo MAXX helping to sustain
bentgrass root mass at higher temperature. Also, the research literature does
not suggest that root pruning is common (Beasley and Branham, 2005b; Ervin and
Xhang, 2008). Following this study, we found that same 0.2 fl oz/1000 ft2
application rate had the best quality and density during summer conditions (Kreuser
and Soldat, 2012).
Today, my message is to avoid too much clipping yield suppression because it can lead to problems. The high rates of Primo MAXX applied every week in that initial study resulted in over 70% clipping yield suppression. To make matters worse, the turf was barely growing because of the cool weather that fall. That level of suppression would be unheard of during the summer season using similar application rates and intervals. At the time, we didn’t realize what we were doing to the plant.
Re-application intervals could not be intuitively
understood in 2006. All the re-application intervals sustained clipping yield
at or below the clipping yield of non-treated turfgrass. The amount of
suppression was fairly constant when the Primo MAXX was applied every three
weeks. High rates had more than lower rates, but the amount of relative suppression
at each rate didn’t change with time.
When we applied Primo MAXX weekly or every two weeks, we
noticed that the amount of suppression increased each week. This was odd. Why
was it consistent at a three week reapplication interval but increased with a
more frequent re-application interval? It was our first evidence of PGR
accumulation within the turfgrass plant. Primo Maxx was being applied faster than
it was broken down or mowed off. This lead to more suppression as the
applications continued into the fall. From these findings, the ideal
re-application interval would be every three weeks. Then why were so many
superintendents applying Primo MAXX more frequently to sustain suppression
during summer?
That winter, an interesting article was published by Dr.
Jeff Beasley and Dr. Bruce Branham (2005a). It showed that PGR breakdown
(metabolism) was directly related to air temperature. As air temperature
increases, the rate of breakdown also increased. From this research, it became clear
that temperature needs to be accounted for when determining when to re-apply
PGRs. We also know grass species and mowing height/frequency impact PGR
duration, but those factors don’t change like air temperature.
Growing degree day (GDDs) models proved to be good predictors
of PGR performance because they track temperature accumulation (Kreuser and
Soldat, 2011; Kreuser et al., 2018). As the average air temperature increases,
the GDDs accumulate faster and the PGRs need to be reapplied more frequently.
For Primo MAXX on cool-season putting greens, we found the ideal reapplication interval
is 200 GDD (base 0°C). Making Primo Maxx applications every 200 GDD led to consistent
clipping yield suppression (~25%), improved turf density, reduced nitrogen requirements,
and greater turf color; even at the higher application rate of 0.2 fl oz/1000
ft2 (Kreuser and Soldat, 2012).
When we re-calculated the GDDs from the 2006 study, we concluded
that Primo Maxx was being applied every 70-150 GDD at the weekly and biweekly
interval. This lead to rapid accumulation of PGR within the plant and
intensified clipping yield suppression. Dr. Frank Rossi called this “PGR stacking”
because PGR from the prior apps were stacked on top of the latest PGR application.
This is likely what caused phytotoxicity in 2006, nearly
stopped all growth, and may have caused the reduction in root mass and density.
Lessons and questions going forward:
This concept of PGR stacking is a very real problem in the
golf turf management industry. It occurs most frequently when summer
re-application intervals are used during cool weather in the spring and fall.
It is even more prevalent with golf course collars. We know the ideal Primo Maxx
re-application interval for golf collars is 350-380 GDD. Yet PGRs are being
applied at 200 GDD for the greens. This means that over-spray onto collars can
cause the same stacking effect and phytotoxicity that we observed in 2006. This
is an area of active research that you can read
here:
Our current research aims to understand how mixing PGRs and
DMI fungicide impact performance. Our lab also wants to determine how much
growth rate is ideal for different turfgrass areas. The plan is to build this
PGR stacking model into
https://GreenKeeperApp.com this coming winter.
When it comes to managing PGRs, I believe it is best to have
some idea of your ideal growth rate and try to manage PGR and nitrogen
application rates to hit those growth rate goals (as long as other issues like
compaction are the cause). PGR application rate doesn’t have a significant impact
on PGR duration, so vary the PGRs without concern for changing the duration of suppression.
My goal would be to have uniform clipping yield and I would use different rates
of soluble nitrogen sources and PGRs to strive for those goals. This will
maximize PGR performance and help you hit your turfgrass performance goals.
Bill Kreuser, Extension Turfgrass Specialist,
wkreuser2@unl.edu