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| Selective removal of creeping bentgrass from a tee surround |
Monday, August 18, 2014
Improving consistency in the rough...
Tuesday, August 12, 2014
Cicada Killer Wasps
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| Cicada Killer Wasp and its prey |
The female wasps are equipped with a stinger and if seriously provoked can produce a sting. The females are territorial and will investigate any thing or anyone coming near their nest burrow. If a person stands still, the female will usually go on about her business.
When cicada killers first emerge, the males are very territorial and will fight with each other while establishing territories. Once females begin to emerge the males will make every attempt to defend their territory against any invader, including people. The males do not have a stinger and are harmless. However, they can intimidate anyone who is afraid of bees and wasps.
Cicada killers are solitary wasps. This means that each female has her own burrow. The burrows are dug in well drained sites. They prefer sandy or bare soils, but will also construct burrows in areas where the grass is kept very short. They can be a real problem on golf courses since greens and tees are typically constructed on a sand-based substrate. They can also become and issue around bunkers and bunker faces.
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| Damage to a putting green |
Inside the burrow, the wasp places the cicada in a side chamber and lays an egg on it. The egg hatches, and the wasp larva feeds on the body fluids of the paralyzed cicada. Development is completed within two weeks and the wasp larva forms a cocoon. The winter is spent in the larval stage and pupates the following spring. Adult emergence coincides with the emergence of annual cicadas.
So, the best way to minimize damage to putting greens NEXT year is to aggressively treat burrows THIS year. Your Maintenance Team is out early every morning and throughout the day, scouting and treating any affected areas. If you happen across a burrow during your round of golf, contact the Pro Shop immediately and they'll direct the Maintenance Team to the area to treat it.
To see a video of a Cicada Killer Wasp digging a burrow click HERE.
Monday, August 11, 2014
The Need for Speed
A challenge that Golf Course Superintendents face is to
achieve and maintain acceptable green speed while also maintaining healthy
turf. Balancing the needs of the golfer with the needs of the turfgrass plant
is an important aspect of any Superintendent’s job.
Golfers expect firm, fast greens. But what does it take to achieve this standard? How do we prepare the turf? How do we measure green speed? And, what might happen to a green if pushed too hard?
To measure green speed, Superintendents use a device called a Stimpmeter. It’s an inclined plane designed to release a golf ball at a consistent angle. In short, the distance a ball rolls is measured and averaged to get a number, or “Stimp”.
The Stimpmeter was invented years
ago by a man named Edward Stimpson. The original purpose of the Stimpmeter was
to ensure that all the greens on a course were of relatively equal speed. The idea was to give superintendents a way to
compare the speed of the 4th green with, say, the 13th
and take steps to equalize them. This
was a good idea.
But sometimes bad things happen to
good ideas.
Today, his simple tool, the
Stimpmeter, is often misused to compare the speed of greens from course to
course and unfortunately, to establish a benchmark of putting difficulty.
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| A Stimpmeter in action |
From a competitive standpoint,
that’s OK. However, the quest for faster
greens has consequences in terms of cost, environmental quality and the health
of greens. In short, speed can
kill. Here’s why:
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| Measuring to determine green speed |
A healthy, vigorous green can be
maintained at a very short cutting height for short periods of time without
serious consequences if it’s been prepared properly and weather condition are
acceptable. Courses hosting tournaments
often take months (and spend significant extra money) to bring greens up to an
ultrafast speed for PGA Tour players.
For example, the greens at Augusta National or Oakmont may “stimp” up to
14 feet
when properly prepared and dry.
However, fast greens are extremely
fragile.
If you compared them with human beings, it
would be fair to say that their immune systems are weakened. They become more susceptible to diseases and
pests, and may require more chemical treatments. Weather can also quickly destroy the health
of an ultrafast green. High temperatures
and lack of moisture (or too much moisture) in the air or in the soil can be
deadly to greens that are maintained at very short cutting heights.
Turfgrass root systems play an important role in the turf’s
ability to withstand stress. Healthier, deeper roots translate into better
stress tolerance. So, as it turns out,
the quality of a putting green at the surface is really dependant upon what is
going on below the surface. In order for grass to grow at 1/10-inch height of
cut or less, it needs deep, healthy roots. Good roots demand oxygen. In good
soil, they get oxygen from the tiny pockets of air trapped between soil and
sand particles.
Over time, the traffic from mowing equipment and golfer’s
feet tend to compact the soil. When the soil becomes compacted, the air pockets
on which the roots depend are crushed and the roots are, essentially, left
gasping for air. Without oxygen, the grass will become weaker and eventually
die.
Aerification is a mechanical process that creates more air
space in the soil and promotes deeper rooting. In most cases it’s done by
removing ½-inch cores from compacted soil, allowing for an infusion of air,
water and nutrients. The spaces are then filled with sand “topdressing” that
helps the soil retain air space. This is the typical, twice-a-year aerification
that golfers have come to know and dislike since it is so disruptive.
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| a coring tine, a needle tine and a deep needle tine |
But other aerifications take place throughout the year that
don’t impact play but do play a critical role in growing and maintaining deep,
healthy roots. In early winter and again in early spring, for example, a solid,
deep-tine aerification is ideal for opening a channel down to the deepest level
of the green. This process allows the plant to grow the longest possible roots
at a time of the year when it is able and wanting to gain root mass. And since
no cores are removed and the holes are so small in diameter, most golfers
aren’t even aware that a cultural practice occurred. Later in the heat of late
spring or summer, small needle tines are used to ventilate the green and allow
for a gas exchange between the rootzone and the atmosphere. This is a critical
cultural practice because as the soil temperature increases, the
micro-organisms present in the soil become more active and consume more oxygen
as a part of their life cycle; and just like animals breathing in and out, micro-organisms
also release carbon dioxide as they consume oxygen. It is this gas, the carbon
dioxide, that needs to be vented to the atmosphere or root mass will decline. Even
worse for fine turf, if there isn’t enough oxygen present in the soil for
micro-organisms to use, they’ll use sulfur instead to complete their life cycle
and release hydrogen sulfide gas in the process, which is deadly to turf grass
roots.
So, a lot of cultural work, below the surface, goes into maintaining
firm, fast greens. Your Maintenance Team is constantly evolving techniques and
procedures that maximize playability while minimizing surface disruption. Our approach for the future must always be to
improve the underground environment in which the root systems exist so that we
can then provide the best possible above ground playing conditions. If we continue
to care for the rootzone--the part of the green we DON’T see—it will in turn
take care of that part of the green that we DO see, and continue to allow us
the opportunity to provide firm, fast greens.
When it comes to putting greens… Out of sight should never
be out of mind.
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