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North Central Region Collaborative Effort...and the data says

Dollar spot was the talk for the last two weeks of September, but now the night temps will hold off any development except for a possible warm spell left in the year. Now is the time to look back and evaluate our dollar spot information. We had a chance to evaluate our new fairway bentgrass variety trial during the highest disease pressure of the season. The borders of ‘Alpha’ and several entries were lighting up! It has been a long road for this trial. Twenty nine bentgrass
varieties were seeded last year and then reseeded this May. Now we have lowered the height (0.75 inches) slowly over the summer and finally we got some disease.

Next year we will learn (again)
Next year we will get a better idea for disease resistance of these varieties. So far our variation is still large and another years worth of data will be needed to determine the genetic resistance in the new varieties like ‘CY-2', ‘Kingpin’, ‘Shark’, and ‘007’. This data does show that varieties have been released with comparable resistance to ‘L-93’. Hopefully with more time we can say that there are a handful of varieties with greater resistance than ‘L-93’. In National Turfgrass Evaluation Program (NTEP) trials, ‘Declaration’ has shown promise. ‘Alister’ is actually a colonial bentgrass species. In previous research on Sunshine Course, colonial varieties are damaged by brown patch and weeds become a problem.

The “take home message”...
The goal of this research conducted here in Lemont and 11 other Midwestern universities is to determine how many fungicide sprays are needed when varieties with greater resistance are used.

The L-93 Story at North Shore
This year at North Shore Country Club we set out treatments on a fairway strip of ‘L-93’. Only one application was made on May 14 and the plan was to see which treatments provided the longest control. Bayleton, Emerald, Daconil, Banner Maxx, and Chipco GT were all applied and we waited for dollar spot. Mid June came around, and no dollar spot – too cold. The beginning of July came and only a tiny bit of dollar spot. The beginning of August came around and finally dollar spot reached 1-3%in all plots. Fungicide or not, all treatments were the same for percent dollar spot incidence and plot visual quality.

No differences...
We found no differences in our statistics. What did we learn? Maybe May 14 is too early for dollar spot control. Maybe we can reduce our fungicide inputs by utilizing genetic resistance and eliminating one or two applications early in the summer. Our heads are already spinning around to design research in 2010.

Emerald for next year’s research...
So far our thoughts are to pick one fungicide and apply on selected dates from May through June or July on each ‘L-93’ and a bentgrass/Poa mixture. This will give us an optimal timing for first application to control dollar spot on two different turfgrasses. For now we will write down our thoughts and continue to analyze the research.

Keith Rincker
KRincker@cdga.org
Chicago District Golf Association
11855 Archer Avenue
Lemont, IL 60439

While not an “official” resident of the state of Iowa, yet, the highly destructive emerald ash borer has been found within a stone’s throw of our northeastern border. And if you’re a pessimist or perhaps a realist, you might be convinced the insect is already here, but has managed to escape detection. After all, it’s not the easiest of pests to locate. Just ask our colleagues in southeastern Michigan. Either way, it’s probably a safe bet that very soon EAB will be with us, and its impact will be dramatic and widespread.

So, what do we do? What do you do as a golf course superintendent? Do you put the blinders on and pretend the insect will never find your course? Do you adopt a scorched earth policy and “fell” every green, white, black, and blue ash on your property just so you don’t have to worry about EAB in the future? Move to Nebraska? My answers to these questions are no, no, and heck no!

Here’s what I would do. I’d take inventory of every ash tree under my care. Those found to be in a serious state of decline would become intimately acquainted with Mr. Chainsaw. No sense hanging on to trees that look bad and detract from the appearance of the course. But what about the thousands of ash that line your fairways, frame a green, or otherwise look pretty good and contribute to the overall beauty and ambiance of your course. Well, if it were up to me, I’d continue to prune, water, and mulch them, and…enjoy them. We all might be surprised just how long these trees are with us, even after EAB enters the state.

Notice, however, that I haven’t yet mentioned preventive insecticide treatments. And why would I? Unless your golf course has miraculously survived the recent economic downturn without a scratch, you simply can’t afford to protect every ash tree on the course. But, if you have one or several extremely old, historic, or noteworthy specimens you simply can’t afford to lose, then relying on an insecticide to protect your investment makes perfect sense.

These are trying times for golf course managers. Heck, these are trying times for most businesses in Iowa and the last thing the “green industry” needs is the loss of popular, dependable, and heretofore trouble-free tree species. But that is the hand we’ve been dealt and it’s the hand we must play. That is, unless you’d rather fold and go home? I didn’t think so.

So, let’s stop trembling in fear of this little green beast from the east and begin making a plan for the future. Of course, the plan does not include planting more ash, but look on the bright side. Ash are overrepresented in most Iowa landscapes anyway, so now’s the perfect time to diversify your tree population. Looking for some examples? Try these on for size.

Acer ×freemanii 'Sienna' (Sienna Glen® Freeman maple) (Picture Above)

Acer miyabei 'Morton' (State Street® miyabe maple)

Acer saccharum 'Bailsta' (Fall Fiesta™ sugar maple)

Ginkgo biloba (Picture Above) – choose male cultivars if you don’t want fruit litter
Gleditsia triacanthos var. inermis 'Harve' (Northern Acclaim™ honeylocust)
Gymnocladus dioicus (Kentucky coffeetree)
Platanus × acerifolia 'Morton Thornhill' (Exclamation™ London planetree)
Quercus macrocarpa (bur oak)
Quercus muehlenbergii (chinkapin oak)
Taxodium distichum (baldcypress)
Tilia americana 'Boulevard' (American linden)
Ulmus americana 'Princeton' (American elm) (Picture to right)
Ulmus × 'Morton Glossy' (Triumph™ elm)

And there are many, many more!

Jeff Iles

Department of Horticulture

Iowa State University

The main objectives of my research focused on the use of biochar as an amendment for sand-based turfgrass rootzones. Currently, peat moss is the most common organic amendment mixed with sand when sand systems are constructed. Peat moss increases water retention and nutrient holding capacity of the sand; however, peat moss is prone to decomposition over a relatively short period of time. Biochar, on the other hand, is very stable in the soil profile, and may prove to be a viable organic amendment for sand-based turfgrass systems. In this study, I used fast pyrolysis switchgrass biochar.

My research objectives were to:
• quantify soil water retention capabilities,
• determine infiltration rates,
• and measure creeping bentgrass rooting depth in sand and biochar rootzones

Results
 

Soil Water Retention - Biochar significantly increased soil water retention (table below). Plant available water increased as percentage biochar increased.

Infiltration Rates - Biochar significantly reduces infiltration rates (table below).

The table to the right converts the numbers to inches per hour. Six incher per hour is the minimum for USGA guidlines when constructing sand based turfgrass rootzones. Above 10% may be pushing the infiltration rate limit with biochar.

Rooting Depth - The rooting depth of creeping bentgrass was measured by growing ‘T1’ in growth tubes with 30 cm sand and biochar rootzones on top of pea gravel. The tubes were sliced open after 110 days of growth, and the depth of rooting was measured (picture below). This pattern of rooting depth was consistent throughout replications. The far left treatment in the picture is 100% sand, and the far right treatment is 25% biochar; increasing in 5% biochar increments at each treatment level from left to right. Biochar amounts above 10% show inhibitive effects on rooting depth of creeping bentgrass. (Biochar percentages are on volume-to-volume basis).

Conclusions - Biochar increased soil water retention capacity and plant available water, but decreased infiltration rates. Rooting depth of 'T-1' creeping bentgrass is inhibited by biochar above 10% (v/v) levels in the rootzone.

Iowa State Turfgrass is attempting to lead the way in the biochar discussion for the turfgrass industry. We would love to hear any feedback you may have on this topic.

Shane Brockhoff
Iowa State University

If you haven’t already done so, the ritual of irrigation blow out is certainly on everyone’s mind this time of year. This procedure signifies the end of another growing season along with the realization that winter and the accompanying freezing temperatures are probably right around the corner. Properly blowing out an irrigation system ensures that minimal damage will occur during the winter months. Although blow out is a yearly occurrence, there doesn’t seem to be a great deal of literature available about this important procedure. There seems to be various philosophies and most learn from field experience.

One aspect of blow out that has changed over the years is the pressure which the system is blown out. One reason for this change is the fact that sprinkler heads are now primarily comprised of plastic componts compared to their steel predecesors. As a result, the pressure which the system is blown out has been reduced. One way to help reduce the pressure is by using a pressure regulator.

The pressure regulator is usually mounted just off the compressor. The pressure can be monitored and adjusted by a handle on top of the regulator. I have often heard that 50 psi is sufficient to blow out most systems. Obviously, the higher the pressure, the greater the chance of causing damage to the piping system and the sprinkler heads. The other consequence of using higher pressures is coupled to the pressure of the compressor.

Compressors also have a pressure gauge and increasing the pressure of the regulator will decrease the pressure inside the compressor and vice verca. Most compressors should not be operated under 80 psi. Under 80 psi, oil can blow past the seals in the compressor and enter the piping system. Of course you won’t realize this has happened until you charge the system in the spring and oil comes spewing out of sprinkler heads.

Let me know if you have any tips from the field concerning winterization of irrigation systems. Hope everyone has a safe and successful blowout.
 

Marcus Jones

Graduate Research Assistant

After experiencing 2008’s extremely volatile fuel market, I looked for some security. Many of us remain entirely at the mercy of open market fuel prices, however; there is an option.

I called my fuel provider and began looking at contracting fuel at a pre-determined set price. This enabled me to budget an amount based upon my contracted price, regardless of what the fluctuating open market did. Not only did this benefit me in regard to accurate budgeting it saved money compared to purchasing on open market.

Fuel contracts are divided into four quarters: 1st (Jan, Feb, Mar) 2nd (Apr, May, Jun) etc… I agreed to contract fuel for the 2nd & 3rd quarters, which most golf courses will. Knowing the amount of fuel that we use, on average, during the months of these quarters I contacted 3000 gallons of unleaded and 3000 gallons of diesel. This secured my costs for the entire season. At time of contract the fuel broker will typically require 20% down. This down payment will be put toward the future purchases of the contract.

You must take delivery of all contracted fuel during the contract period or you will lose that fuel. I did not find this to be a problem. Contracting fuel is not fool-proof. You may contract at a higher price than the open market ever gets to, thus you are losing x amount per gallon contracted. However, the inverse is just as likely to happen. Regardless, you know how much your fuel is going to cost and that security is worth something to any operation running on a tight string.

I have found this practice to be very beneficial to my operation and will continue to contract fuel as long as it is reasonable to do so. If you have any questions, please feel free to contact me via e-mail or call your fuel provider.

Troy Martinson, CGCS
Troysccc@aol.com
Sioux City Country Club
Sioux City, IA