Key Tasks for June
Continue cutting regularly to ensure a good sward density. It may sometimes be helpful on newly established grass to lightly roll the surface before cutting to ensure that the plant does not get pulled out by the action of the mower. Also, ensure that any mowing equipment used is keenly set to cut without tearing.
June is when soils can dry out quickly. Make sure that your irrigation systems are functioning correctly as, once soils become hydrophobic and dry patch sets in, it becomes very difficult to get water back into the surface.
You may choose to use wetting agents to ensure uniform wetting, particularly on soils prone to dry patch.
Continue the work of brushing to keep the air circulating around the base of the plant, particularly important for removing early morning dew and controlling disease. However, suspend this operation for a period to allow for the germination of the new seedlings to take place, particularly on oversown thin areas.
Spike when the conditions allow, but keep your regime flexible. Surface spiking in a dry spell will help what rain you receive, or water you put on, to move quickly down through the profile to reach the new roots.
Now is a good time to thoroughly check your goalposts. Don't just take them down and store them away. Make sure they will be fit for purpose for the new season.
Other areas should also be checked over, such as fences and dugouts.
Long range forecasts indicate June to be a mix of varying degrees of heat and unsettled conditions swapping back and forth between the typical north-south divide. In practice, that is likely to mean periods of hot, dry weather interchanged with significant volumes of rainfall. In both these instances the primary factor at play for turf managers will be water management. Something which is important because water (H2O) is the master variable which governs plant health. Adequate water availability is crucial to plant and soil function, with the key word being adequate.
Associated beneficial microorganisms drown in the soil, limiting plant defence and the mineralisation of nutrients for plant uptake. Like ourselves, plants also need to respire. It is commonly understood that plants photosynthesise taking in carbon dioxide from the atmosphere which is combined with water sourced from the roots, before going on to react with energy from the sun to make plant-available biological energy in the form of sugar. However, this process requires oxygen to keep all the electrons balanced and the cells healthy.
In the leaves, plants source this oxygen themselves as a bioproduct of the photosynthesis reaction. Root cells, on the other hand, still require oxygen for healthy function but are not capable of generating it themselves via photosynthesis. As a result, plant roots respire oxygen by sourcing it from the air pockets between soil particles. If those particles are full of water, the roots cannot function healthy and the plant suffers from abiotic (environmental) stress.
Like people and animals, plants are essentially tubes. Unlike people and animals, plants process water from the bottom up. This water transportation system starts at the roots, transfers into a network of transport pipes called xylem and ends in the leaves, as water escapes into the atmosphere through pores on the leaf surface called stomata. This cycling of water from roots up and into the xylem, and out through the stomata is called evapotranspiration. Evapotranspiration rate is the speed at which this process takes place, the warmer and drier the atmosphere, the faster the evapotranspiration rate.
When evapotranspiration has drawn water out of the soil, through the plant and up into the atmosphere to the extent there is not enough available water in the soil, the water level in the plant falls below the level required for healthy plant function. The result is a number of negative physical effects on the plant.
Wilting - the initial signs of water stress, caused when the turgor (water) pressure in cells falls leading the cell's to collapse and plants to droop, or in the case of grasses to loose the ability to spring back up when walked upon. If the water content falls low enough the cells will die.
Reduced photosynthesis - lack of water is limited the plant diverts the available water to all systems, which limits or even stops photosynthesis the process by which the plant creates its own energy to fuel its metabolic processes.
Reduced respiration - as with reduced photosynthesis in the leaves reduced respiration in the roots leads to the reduction or halt of metabolic processes required for maintaining health roots.
Reduced Transpiration - transpiration is the vital process plants rely on to move nutrients and metabolic substances around their bodies utilising water pressure. Without adequate water this water pressure cannot be maintained and the system slows or halts.
In the soil - beneficial microorganisms are killed or sent into dormancy, water repellency of soil particles or surface material is initiated limiting the potential for subsequent rewetting of the soil. Nutritional elements and minerals cannot be solubilised into water films for transport into roots.
In both cases, excessive water or deficient water have a number of negative consequences both on the plant and the wider ecosystem within the soil profile. When plants are subjected to abiotic stress in the form of too much or two little water this makes them more susceptible to biotic stress in the form of pathogens such as anthracnose disease (Colletotrichum cereal), microdochium patch (microdochium nivale), brown patch (Rhizoctonia solani), or dollar spot (Sclerotinia homoeocarpa). All of which will be active when heat and humidity are the prevailing conditions.
Of course, given the understanding outlined above, it is worth considering that dry soils around roots which place stress on plants, can be also accompanied by humid swards and leaf surfaces due to environmental conditions on overcast showery days or, due to lack or inadequate irrigation which favour the activation, infection and proliferation of fungal pathogens.
As we can see, water is vital for a consistently healthy plant. The relevant point for anyone producing a sports turf surface is that a consistent healthy plant is paramount to producing a consistent sporting surface and, as turf managers, it is always worth reminding ourselves that our primary role is to facilitate a surface for play.
There are a number of management factors which promote adequate water management of a sports turf surface conducive to consistent plant health.
- Aeration - minimise and reduce compaction to create air spaces in soil and facilitate more effective surface water penetration and drainage.
- Surfactants - wetting agent programmes help to manage soil water. Penetrants overcome water repellency aiding penetration of irrigation and rain water. Block-copolymers hold water in the profile making it available to plants.
- Monitoring of evapotranspiration levels - a number of services and systems are available to record daily evapotranspiration levels in millimetres of water lost. Hard data on water lost enables calculation of water replacement.
- Moisture meters - regular readings from surfaces allows for determination of areas soil water volumes are approaching critical limits. This informs the requirement for water proactively, before the plant shows symptoms of stress.
- Irrigation - well serviced and maintain irrigation systems, with manufacturer supplied figures for water application rates in millimetres per minute allows managers to precisely replace water lost via evapotranspiration once moisture meter readings signal that soil water volume is approaching critical levels.
- Potassium - potassium regulates the closing response time of leaf stomata in reaction to water loss rates from evapotranspiration. Adequate supply of potassium thought out warm hot periods allows the plant to react faster to water loss, conserving soil water and postpone wilting.
- Seaweed - fresh cold pressed seaweed contains a number of plant beneficial bioactive compounds such as abscisic acid, cytokinin's and gibberellic acids which stimulate a plants natural defence responses to both abiotic and biotic stress. Application of a liquid fresh cold pressed seaweed prior to stress events primes the plants responses in readiness, promoting increased tolerance and improved recovery.
Chafer grub and leather jacket monitoring
Chafer beetle traps should now be in place as part of monitoring within an integrated pest management system. Also, record sightings of crane flies to better plan application timings of entomopathogenic nematodes later in the summer.
Tuesday 5th June is when the authorisation for plant protection products containing iprodione ends. As such, by law, it is the official date for the disposal, storage and use of existing stocks by any persons.
June 2018 is the month for anyone not currently familiar with non-pesticidal disease prevention, as part of an Integrated Pest Management Plan (IPM), to seek out information and advice in readiness for disease pressure in autumn of 2018.
Start thinking about your end of season renovations, and how you may be tackling the possibility of an extended season and the need to get onto the pitches to carry out the work. Start to build your strategy and get it down on paper. Look at what resources you will need - manpower, materials and machinery.
With reference to your machinery needs; if it's part of your inventory, drag it out, dust it off and fire it up to make sure it will work for you when you need it. If you don't have it in your inventory, but you know someone who has, a neighbouring club or school perhaps, particularly if you are on good terms with them; you may come to some arrangement to borrow it when they are not using it.
Alternatively, look at the option of hiring. There are a growing number of hire companies these days that are now specialising in the hire of sports ground equipment. With reference to your material needs, get them ordered now so that they are on hand when you need them.
Pitchcare is the only provider of LANTRA accredited training courses in the maintenance of Winter Sports Pitches. It is a one day course designed to provide a basic knowledge of rugby and football pitch maintenance. The course enables the Groundsman to grasp the basic needs of a winter sports surface throughout a 12 month period.
Initial Sports Line Marking Course: Thursday 17 May 2018, Allscott, Telford TF6 5DY.
Delegates attending the Winter Sports Pitch Maintenance course and using the accompanying manual will be able to develop their own skills, working knowledge and expertise, by understanding the method of instruction and the maintenance principles it sets out.
Details of our forthcoming autumn courses can be found on our new website Grounds Training
Included in the Course Manual, there are working diaries showing the range of tasks needed to be accomplished each month. The Course Manual is available for purchase separately.
In addition, we are able to arrange courses to be delivered on site to groups of 6 - 10 people. Email Carol Smith for information.
Other courses available include:
Safe Use of Pesticides (PA courses)
Pedestrian operated mowers