Why My-Climate?
- Improve treatment outcomes through informed decision making
- Scientific calculations used to produce location specific information sets and predictions
- Reliable and insightful data to reduce guesswork
- Information necessary to prepare informative reports and map trends from analytical tests.
- Reduce waste for more efficient and cost effective use of chemicals
- Improve speed and accuracy of decision making
- Reduce pesticide exposure and improve your environmental status for a conscious and safe workplace
Our Packages
Complete Climate Package
Complete micro-environmental preventative turf management system, taking data directly from permanent onsite soil testing equipment and a private onsite weather station .
How to get the My-Climate® Complete Climate Package?
The My-Climate® – Complete Turf risk Management system’s testing equipment and weather station comes with a two year product warranty and can be purchased exclusively through Living Turf.
My Climate Weather Station PDF DownloadDisease Alert Package
Air pathology system which uses proprietary algorithms that draw on local weather information, supplied by the Bureau of Meteorology every 30 minutes, and historic data to provide an early warning forecast system for risk levels of the three most common disease outbreaks;. These alerts allow you to stay a step ahead, allowing you to treat less, more accurately and for greater effect.
How to get the My-Climate® Disease Alert Package?
The Disease Alerts package provides both current and predictive weather information with the first disease alert free when you test with My-Results®. The My-Climate® phone application can be purchased exclusively through Living Turf and downloaded onto your smartphone.
The Complete Climate Package provides alerts for:
Disease
- Pythium
Pythium
Introduction
Pythium spp can potentially attack a wide range of turf grass species. This includes many of the widely used cool and warm season turf species utilised in sports turf and home lawns. There is considerable variation in susceptibility to these pathogens with perennial ryegrass (Lolium) and bent grass species (Agrostis spp) being particularly susceptible.
When different parts of the plant are attacked, different names are given to the condition caused. When foliage is affected the condition is sometimes termed ‘cottony blight’ or ‘grease spot’. When the crown and root areas are affected terms such as ‘Pythium crown rot’ or ‘Pythium root rot’ are used respectively.
The primary causal agent of dollar spot is Sclerotinia homeocarpa. The disease overwinters as sclerotia and as dormant mycelium from the lesions of previous infections. This then acts as the inoculum source for new infections. The onset of day time temperatures ranging between 15 to 27oc encourages mycelial activity with new infections occurring when moved by water and mechanical means.
When optimal environmental conditions prevail, infection can be rapid with significant resultant damage to above and below ground vegetative structures.
Biology
This fungus is classed as a water mold. It survives (overwinters) using a resilient spore structure (oospore). Once suitable conditions prevail, spore germination occurs and infection is perpetuated using mycelial growth which is the fine white webbing seen on moist morning conditions. The organism is very easily moved in surface water and by mechanical means (equipment and footwear).
Conditions favouring disease expression
The following conditions heighten the risk of Pythium infection:
- Daily minimum temperature above 17-20°c
- Daily maximum temperature exceeding 28°c
- Relative humidity exceeding 90% for more than 9 hours in the same period that conditions 1 and 2 are met.
Other factors that encourage infection are soil pH > 7.0, soft growth from high nitrogen fertilisers and poor draining soils.
Visual symptoms
Earliest signs are often small greasy irregularly shaped areas that are slimy to touch. When dry, these patches will have a straw coloured appearance and possibly a reddish tinge. These small spots may join together to form larger irregularly shaped areas and will often follow drainage lines.
- Dollar Spot
Dollar Spot
Introduction
Dollar spot is a fungal disease that impacts upon both the visual appearance and surface quality of turf. It is of particular concern in situations where high surface quality is paramount e.g. creeping bent grass on golf courses. A broad range of turf species are potential hosts for this disease with susceptible species ranging from Bent grass (Agrostis) through to hybrid couches (Cynodon), Kikuyu (Pennisetum) and Zoysia spp.
Whilst we note here it is particularly prevalent on intensively managed turf, it is not limited to these situations. Home lawns, parks and other areas of amenity are also sites where this disease can be found. Dollar spot primarily affects leaf tissues but has been shown to have indirect effects on root structure and growth. The disease is found Australia wide.
Biology
The primary causal agent of dollar spot is Sclerotinia homeocarpa. The disease overwinters as sclerotia and as dormant mycelium from the lesions of previous infections. This then acts as the inoculum source for new infections. The onset of day time temperatures ranging between 15 to 27oc encourages mycelial activity with new infections occurring when moved by water and mechanical means.
Conditions favouring disease expression
The most conducive conditions for disease occur in spring and late summer / autumn however the problem can be present right throughout summer as well. Day time temperatures between 21 and 28 oc are optimal, with overnight conditions that produce dews enhancing the likelihood of infection. Relative humidity being high (>85%) significantly increases the likelihood of infection. Other factors implicated in disease prevalence are deficiencies of key macro elements nitrogen and potassium, excessive thatch accumulation, dry soils and poor irrigation practices.
Visual symptoms
On finer turf the ‘spots’ appear reasonably well defined in the early stages, 25-60mm in diameter, slightly sunken and tan in colour. Many spots may be found in close proximity to each other. On close inspection the lesions may become paler over time and cover the full width of leaf blades. On coarser grasses with larger leaf widths, the’ spot’ may be quite diffuse and poorly defined with close inspection revealing only part of the leaves being affected. A key feature is a constriction point or girdling (hourglass) often found on affected leaves.
Distribution
Found in all states of Australia, particularly coastal areas.
7. Pythium spp
Introduction
Pythium spp can potentially attack a wide range of turf grass species. This includes many of the widely used cool and warm season turf species utilised in sports turf and home lawns. There is considerable variation in susceptibility to these pathogens with perennial ryegrass (Lolium) and bent grass species (Agrostis spp) being particularly susceptible.
When different parts of the plant are attacked, different names are given to the condition caused. When foliage is affected the condition is sometimes termed ‘cottony blight’ or ‘grease spot’. When the crown and root areas are affected terms such as ‘Pythium crown rot’ or ‘Pythium root rot’ are used respectively.
When optimal environmental conditions prevail, infection can be rapid with significant resultant damage to above and below ground vegetative structures.
Biology
This fungus is classed as a water mold. It survives (overwinters) using a resilient spore structure (oospore). Once suitable conditions prevail, spore germination occurs and infection is perpetuated using mycelial growth which is the fine white webbing seen on moist morning conditions. The organism is very easily moved in surface water and by mechanical means (equipment and footwear).
Conditions favouring disease expression
The following conditions heighten the risk of Pythium infection.
- Daily minimum temperature above 17-20°c
- Daily maximum temperature exceeding 28°c
- Relative humidity exceeding 90% for more than 9 hours in the same period that conditions 1 and 2 are met.
Other factors that encourage infection are soil pH > 7.0, soft growth from high nitrogen fertilisers and poor draining soils.
Visual symptoms
Earliest signs are often small greasy irregularly shaped areas that are slimy to touch. When dry, these patches will have a straw coloured appearance and possibly a reddish tinge. These small spots may join together to form larger irregularly shaped areas and will often follow drainage lines.
- Brown Patch
Brown Patch
Introduction
Brown patch is a fungal disease that becomes active in late spring and summer when high daily temperatures and high relative humidity start to combine. The fine fescues and bent grass species are most susceptible however the warm season grasses may also be attacked. Cool season species tend to be more vulnerable through midsummer while the warm season species suffer more in spring and late summer through to autumn.
Interestingly, multiple species of Rhizoctonia tend to complement each other to extend the time of year the pathogen is active and broaden the host range and part of the grass plant that is affected.. As a consequence, there are differences in the effectiveness of chemical control options. Unfortunately, determining which species is causing the problem can be difficult and time consuming. Further complicating matters is the difference in appearance of the disease on closely mown and higher cut turf grasses.
Biology
The primary causal agent of brown patch is Rhizoctonia solani with R. cerealis, R. zeae and R. oryzae adding to the disease complex. Rhizoctonia is a soil borne fungus, surviving extended periods living saprophytically on dead and decaying organic matter. The pathogen quickly becomes active when warmth, moisture and a susceptible host is available. This fungus has the ability to remain in a state of suspended animation, not growing but not dead, just waiting for conditions to improve. It can remain in this state for years if necessary without losing viability.
Conditions favouring disease expression
The most conducive conditions for disease occur when relative humidity is greater than 95%, there is rain or added moisture, warm nights, warm to hot days and soil temperatures have moved above approximately 18°C. Other factors implicated in disease prevalence are thatch accumulation, excess nitrogen, poor drainage and allowing dew to remain on the leaf for extended periods.
Visual symptoms
On finer turf that is more closely mown, affected areas may appear regular with a noticeable smoke ring around the perimeter. This smoke ring is generally a grey / purple colour and most noticeable in the mornings when dew is present. Upon drying, the area turns a tan / brown colour. This smoke ring is typical of this disease and may help differentiate this from other fungal diseases. It is common for these rings to appear quickly and develop rapidly. Turf that is cut higher, will present with patchy discoloured areas that look less well defined. The turf may appear thinning and in need of water. Sometimes a green centre of seemingly unaffected blades sits within the circular damaged and discoloured areas. In turf that is not high in health to begin with the symptoms may not show an obvious pattern and may look to be generally under-performing lacking resilience to environmental stresses. It is important that such symptoms are not quickly dismissed as an end of season or start of season anomaly.
Distribution
Found in all states of Australia.
- Anthracnose
Anthracnose
Introduction
‘Colletotrichum graminicola’ is the most common pathogen responsible for causing anthracnose diseases in turf. Often anthracnose is observed as a foliar blight, when turf grass leaves are noticeably infected appearing either yellow with possible red lesions. This disease also has the ability to significantly affect the turf plants crown and roots. Anthracnose affects certain warm and cool season turf species including but not limited to Poa, Festuca, Lolium and cynodon sp.
Interestingly, multiple species of Rhizoctonia tend to complement each other to extend the time of year the pathogen is active and broaden the host range and part of the grass plant that is affected.. As a consequence, there are differences in the effectiveness of chemical control options. Unfortunately, determining which species is causing the problem can be difficult and time consuming. Further complicating matters is the difference in appearance of the disease on closely mown and higher cut turf grasses.
Biology
The causal fungus, survives the winter as dormant resting structures in infected plant debris.
During early spring outbreaks of anthracnose basal rot is common as the fungus, which may have overwintered in the plant, initiates infection at the crown. Outbreaks of anthracnose foliar blight and/or basal rot can occur when spores produce acervuli which are dispersed by splashing water or tracked by mowing equipment from one area to another. These spores then germinate and cause new infections on other plants. Anthracnose is likely to occur when plants are growing slowly (during periods of overly hot or cold temperatures), during overcast periods, and in high humidity.
Conditions favouring disease expression
Climatic conditions that favour the development of anthracnose are average daily temperatures over 25°C, making it a significant problem during spring through to autumn. The disease favours high humidity and hot summers in subtropical to temperate climatic zones and thrives with long hours of leaf and canopy wetness.
Visual symptoms
Primarily the visual symptoms consist of irregularly shaped patches of yellow / bronzing turf, ranging from 20mm to 0.5m with reddish to brown spots appearing on the leaves. Numerous black fruiting bodies can also be seen using a hand lens or microscope on the leaves.
Distribution
Anthracnose is broadly distributed from sub-tropical to sub temperate climates.
- Fusarium
Fusarium
Introduction
Winter Fusarium is caused by the fungus ‘Microdochium nivale’. It is primarily a winter disease of cool season turf, however it has been observed to also infect warm season turf species. It is often characterised by an orange / brown colour in the patch and patch borders of affected turf grass. ‘Fusarium Patch’ and ‘Pink Snow Mould’ are caused by the same fungus, however they can be considered two different diseases because of their environmental conditions needed (i.e. Fusarium Patch is the common name used when it the disease occurs in the absence of snow cover).
Symptoms are generally evident from Autumn to Spring under favourable conditions. Fusarium survives through the spring and summer as spores and mycelium in the thatch or soil when temperatures are above 16°C or when it is dry. Under cool, wet weather, spores may germinate or mycelium may grow from thatch or soil and infect leaves within the turf canopy
Biology
Symptoms are generally evident from Autumn to Spring under favourable conditions. Fusarium survives through the spring and summer as spores and mycelium in the thatch or soil when temperatures are above 16°C or when it is dry. Under cool, wet weather, spores may germinate or mycelium may grow from thatch or soil and infect leaves within the turf canopy
Conditions favouring disease expression
Temperature conditions that heighten the risk of Fusarium infection range from near freezing to around 16°C. Because Fusarium favours cooler conditions and is normally associated with low humidity, however infection risk increases with long periods of leaf and shoot wetness.
Visual symptoms
Symptoms develop slowly and can take several weeks from the time of infection to be clearly visibility. Circular patches first appear as water-soaked spots at less than 5cm in diameter, then rapidly change colour to tan, brown, dark brown and finally light grey. Patches can enlarge u to 20cm in diameter overtime. Fungal mycelium may be seen within the shoot system of affected area. The mycelium is white in colour, but in direct sunlight induces spore production, which is a pink colour.
Distribution
Fusarium occurs in temperate to sub temperate climates
- Helmo
Helmo
Introduction
The common name of Helminthosporium is derived from the old scientific name for this leaf spot disease complex, which is actually caused by Drechslera, Curvulari, Bipolaris and Exserohilum species fungi.
Biology
The disease cycle is generally short, as it requires extended periods of leaf wetness to develop and survive. ‘Helmo’ is caused by a common and serious group of diseases, attacking a diverse range of warm and cool season turf grasses. ‘Helmo’ can severely reduce the aesthetic appeal of the turf grass and can lead to the need for turf replacement.
Conditions favouring disease expression
Helminthosporium can attack turf under a wide range of temperatures between 3°C and 30°C, with optimum range between 15°C and 18°C. It favours high humidity and therefore thrives under conditions of extended wetness in the leaf canopy.
Visual symptoms
The symptoms of Helmo turf diseases vary, depending upon the specific pathogen, grass species, weather conditions, and cultural conditions involved. In general ‘Black Helmo’ produces small dark spots or patches of dead of dying grass (melting out), which do not measure more than about 10 cm in diameter. Leaf tissues turn yellow around these lesions and in severe cases the infected plant dies.
Distribution
Helminthosporium disease is distributed throughout a wide range of climatic conditions.
- Spring Dead Spot
Spring Dead Spot
Introduction
The dominant cause of the turf disease known as ‘Spring Dead Spot’ or ‘Necrotic ring spot’ is Ophiosphaerella korrae (formerly Leptosphaeria). This fungus is a member of the ectotrophic root-infecting (ERI) fungi, a complex of soil borne pathogens. Spring dead spot appears as circular patches of “bleached”, straw-coloured dead grass, a few cm to 1m in diameter (commonly less than 50cm) when turf resumes growth in spring. The patches may combine to form large areas. On affected plants dark elliptical sclerotia (a compact mass of hardened fungal mycelium) are often visible on stolons. Dark sunken lesions can be seen on affected crown buds, roots and stolons; these areas may become black, necrotic, and brittle in advanced stages of infection. Sometimes, the symptoms are not evident until 2-3 or more years after the establishment of the disease at which time the centres may remain alive and take on a “ring-like” appearance.
Biology
Spring Dead Spot is thought to survive unfavourable environments as mycelial plaques in plant debris. The fungus is thought to move from plant to plant by growing ectotrophically along the surface of roots and rhizomes, and infecting cells in the root cortex Patches are commonly seen in Spring, hence the name spring dead spot. However, symptoms can also be seen in autumn and winter after cool climatic conditions and /or wet weather. The disease can be transferred by vegetative turf material (i.e. rhizomes and stolons or solid turf).
Conditions favouring disease expression
Spring Dead Spot infection occurs when average daily soil temperatures drop to between 12°C and 14°C and is therefore exacerbated by wet weather and moist soil conditions in Autumn.
Visual symptoms
The disease disrupts the aesthetics, uniformity, and functionality of lawns, golf courses, and sports fields. Large patches up to 1 metre can be observed and if the root disease is prolific it can be unsightly and difficult to recover the turf to its former health. Patches kill the turf foliage and the rhizomes become discoloured, rotten and sunken. Scars can remain for several years following damage. Patches may appear in the same spot for multiple years. Weeds are often found within the centre of the patches where competition is less severe to non-existent.
Distribution
Spring Dead Spot occurs in a wide range of climates, from tropical to sub temperate.
Weed Detection & Germination Predictors of:
- Summergrass
Summergrass
Introduction
Summer grass is an unsightly grassy weed can spread rapidly. If the weed is left to flower and set seed, the seed can lay dormant for several years and be a nuisance for years to come. Going by the scientific name ‘Digitaria sanguinalis’ it is commonly termed summergrass, but sometimes called hairy or purple crabgrass.
Symptoms are generally evident from Autumn to Spring under favourable conditions. Fusarium survives through the spring and summer as spores and mycelium in the thatch or soil when temperatures are above 16°C or when it is dry. Under cool, wet weather, spores may germinate or mycelium may grow from thatch or soil and infect leaves within the turf canopy
Description
This annual grassy weed is tufted and mat-forming and can inhabit a wide range of soils, although its natural habitat is sandy soil and loams. Summergrass can grow to 30 cm tall and spread to 1m wide if left unmown. Culms (stems) are slender, ascending from a decumbent base. The relatively wide leaves which can be greater than 5 cm long are soft and hairy on the underside of the foliage; the sheaths are also hairy and the ligules are papery to the touch. The stems often have a red to purple tinge to them. The stolons of the plants root down at nodes, which can dramatically increase the area, the weed encompasses. Inflorescence is more or less terminal, to 15 cm, slender, spreading, 2 to 10 per inflorescence. Summer grass flowers in summer and autumn when it seeds profusely. The seed can remain dormant in the soil for several years before germinating. Summer grass has shallow fibrous roots.
A widely distributed weed, summergrass is found in tropical, subtropical and temperate regions.
Lifecycle
Summer grass is an annual grass weed propagated by seed. Seeds develop in late summer and autumn thus ensuring an abundant infestation during seasons thereafter, unless a pre-emergent program is introduced. When temperatures are optimal, summer grass emerges 2 to 3 weeks earlier than crowsfoot (Eleusine indica).
- Crows Foot
Crows Foot
Introduction
Crowsfoot is a fast growing grassy weed that stands prominently above the normal height of managed turf and can pose a serious trip hazard. There are many common names for this weed including but not limited to crowsfoot, crabgrass and goosegrass. Scientifically this grassy weed of turf is known as ‘Eleusine indica’.
Description
‘Crowsfoot’ is a prostate or tufted annual grass that can reach 50 cm in height. Stems are whitish, flattened and prostrate branched – often forming mats. Leaves have loose, overlapping, flattened sheaths and shiny green leaf blades up to 30 cm long and 8 mm wide. Ligules are very short. Inflorescences are 2-13 spikelets resembling a zipper radiating from the stem. Spikes are up 17 cm in length and 5mm in diameter. Crowsfoot has a very strong, dense fibrous root system, which can be hard to pull out.
Germinating crowsfoot seedlings are very distinct when seen growing in the field. The emerging tillers from the centre of the plant a white to silver in colour at the base of the leaves. The ligule is toothed, membranous and divided at the centre. Upon closer inspection, the crowsfoot plant may be smooth and glossy or contain hairs only at the base of the leaf depending on the genotype.
Crowsfoot is naturalised from sub temperate to tropical climates. It is a problematic weed on golf greens, tees, fairways and sports fields that receive high wear and or soil/surface compaction.
Lifecycle
Crowsfoot is an annual grassy weed reproduced by seed. Crowsfoot seeds germinate rapidly, usually within 7 to 14 days under moist conditions, strong light and fluctuating temperatures, on germination, the first leaf, about 1 cm long, tapers very suddenly to a point and may be pressed quite flat on the soil. Later leaves are v-shaped. Its reproduction potential is enormous, with up to 135,000 seeds per crowsfoot plant. Crowsfoot can grow from seedling to a flowering plant in approximately 5 weeks under optimal conditions; under less than ideal conditions, it may be as long as 4 months.
- Paspalum
- Wintergrass
Wintergrass
Introduction
Scientifically known as ‘Poa annua’, this grassy weed is commonly called Poa, wintergrass or annual bluegrass. A commercially significant weed of cool climate golf greens, the light green leaves of ‘Poa annua’ often cause an unsightly contrast to the dark green leaves of the turf species they invade. It can also significantly change the surface characteristics of sports turf surface by weakening the desired species (competing heavily for light, water and nutrients) and by changing performance characteristics such as ball roll, traction and physical appearance.
Description
‘Poa annua’ is fast growing in comparison to other turf species, therefore the lime green foliage, and inflorescence if developed, will generally stand taller and provide a contrasting colour to the desired turf canopy.
A member of the Poaceae family, ‘Poa annua’ can have either a tufted or creeping growth habit as it is an extremely diverse grass species. There are commonly two forms of ‘Poa annua’, which include an annual type (normally tufted) and a perennial genotype (mostly prostrate). The perennial type can be categorized as, (i) a short lived perennial referred to as a “turf-type”, and (ii) a long-lived perennial that thrives under the extremely close mowing heights of golf greens, referred to as “greens-type”. The variation present within the species allows herbicide resistance and a high degree of regenerative potential.
Culms (stems) of the ‘Poa annua’ plant can be up to 30cm if left unmown. The soft, narrowly linear, flat, smooth leaves are up to 3.5 mm wide. Foliage is often lime green in colour for the annual types and darker green in colour for the perennial. Commonly ‘Poa annua’ can produce multiple to several inflorescence (panicles), which can grow up to 7 cm if left unmown. Perennial types produce fewer inflorescences and form patches from short stolons. Spikelets of the inflorescence are up to 5.5 mm are closely spaced with 3-7 flowers.
Poa annua is a widespread environmental weed that thrives in temperate to sub temperate climates, but can extend well beyond these limits to be a problem in tropical managed turfs.
Lifecycle
Both annual and perennial forms of ‘Poa annua’ reproduce by seed, while perennial types can spread by short stolons. The annual type can complete its lifecycle in approximately 2 months. However, during this short period, commercially significant damage can occur if seed is able to germinate freely. It has been estimated that annual Poa seed densities are commonly 200,000 per square metre in infested lawns. Seed head (inflorescence) emerges after a growing point changes from the vegetative to the reproductive state. Subsequent elongation of the flowering stem (culm) elevates the inflorescence so that developing seed can disperse and provide new plants when conditions for germination and seedling growth are favourable.
Climatic Indicators of:
- Fire Danger
Fire Danger Index
The Forest Fire Danger Index was developed in the 1960s by the Australian CSIRO to measure the degree of danger of fire in Australian forests. The following descriptions and categories are referenced directly from the NSW Fire and Rescue Service website.
The Fire Danger Rating (FDR) is an assessment of the potential fire behaviour, the difficulty of suppressing a fire, and the potential impact on the community should a bushfire occur on a given day. The FDR is an early indicator of potential danger and should act as a trigger for action. The FDR is determined by the Fire Danger Index (FDI). The FDI is a combination of air temperature, relative humidity, wind speed and drought. An FDI of 1 (Low-Moderate) means that fire will not burn, or will burn so slowly that it will be easily controlled, whereas an FDI in excess of 100 (Catastrophic) means that fire will burn so fast and so hot that it will likely be uncontrollable.
You can find confirm the fire danger rating in your area by:
- Monitoring weather reports on the radio, TV and in newspapers
- Contacting your local fire station.
Fire danger ratings and their recommended action and potential fire behaviour
FDI 100+CATASTROPHIC ACTION:The safest option is for you and your family to leave early, hours or the day before a fire occurs. Even well prepared and constructed homes will not be safe.
– Fires will likely be uncontrollable, unpredictable and very fast moving with highly aggressive flames extending high above tree tops and buildings.
FDI 75-99EXTREME ACTION:Leaving early (hours before) will always be the safest option for you and your family. Staying and defending should only be considered if your home is well prepared, specifically designed and constructed for bush fire and you are currently capable of actively defending it.
– Fires will likely be uncontrollable, unpredictable and fast moving with flames in the tree tops, and higher than roof tops.
FDI 50-74SEVERE ACTION:Leaving early will always be the safest option for you and your family, staying and defending is only an option if your home is well prepared, and you are currently capable of actively defending it.
– Fires will likely be uncontrollable and fast moving with flames that may be higher than roof tops.
FDI 25-49VERY HIGH ACTION:Be prepared to implement your Bushfire Survival Plan and keep informed of current fire activity by monitoring local media and regularly checking for updates from local fire authorities.
– Fires can be difficult to control and still present a threat.
FDI 12-24HIGH ACTION:Ensure that you, your family, your home and property is well prepared for the risk of bushfire.
– Fires can be controlled but can still present a threat.
FDI 0-11LOW-MODERATE ACTION:Review and rehearse your Bushfire Survival Plan.
– Fires can be easily controlled but can still present a threat.
- Heat Index
Heat Index
The heat index (HI) also known as Apparent Temperate (AT) is an index that combines air temperature and relative humidity in an attempt to determine the human-perceived equivalent temperature—how hot it feels or “felt air temperature”. The Heat Index takes both temperature and humidity into account, the higher the index the hotter the weather feels which is a more accurate way than air temperature alone for estimating the risk to workers from environmental heat sources. There is direct relationship between the air temperature and relative humidity and the heat index, meaning as the air temperature and relative humidity (AT) increase the heat index will increase. For example, when the temperature is 32 °C with very high humidity, the heat index can be about 41 °C.
- Water Use Rate
- Growing Degree Days
Growing Degree Days
Growing Degree Days (GDD) take aspects of local weather into account and allows turf managers to predict a turf grass seasonal development toward maturity.
Unless stressed by other environmental factors like moisture, the development rate from emergence to maturity for many plants depends upon the daily air temperature. Because many developmental events of plants and insects depend on the accumulation of specific quantities of heat, it is possible to predict when these events should occur during a growing season regardless of differences in temperatures from year to year. Growing degrees (GDs) is defined as the number of temperature degrees above a certain threshold base temperature (normally 10 deg C). The base temperature is that temperature below which turf growth is assumed to be zero. CGDD (Cumulative Growing Degree Days) are accumulated by adding each day’s GDs contribution as the season progresses.
The Disease Alerts Package provides alerts for:
Disease:
- Pythium
Pythium
Introduction
Pythium spp can potentially attack a wide range of turf grass species. This includes many of the widely used cool and warm season turf species utilised in sports turf and home lawns. There is considerable variation in susceptibility to these pathogens with perennial ryegrass (Lolium) and bent grass species (Agrostis spp) being particularly susceptible.
When different parts of the plant are attacked, different names are given to the condition caused. When foliage is affected the condition is sometimes termed ‘cottony blight’ or ‘grease spot’. When the crown and root areas are affected terms such as ‘Pythium crown rot’ or ‘Pythium root rot’ are used respectively.
The primary causal agent of dollar spot is Sclerotinia homeocarpa. The disease overwinters as sclerotia and as dormant mycelium from the lesions of previous infections. This then acts as the inoculum source for new infections. The onset of day time temperatures ranging between 15 to 27oc encourages mycelial activity with new infections occurring when moved by water and mechanical means.
When optimal environmental conditions prevail, infection can be rapid with significant resultant damage to above and below ground vegetative structures.
Biology
This fungus is classed as a water mold. It survives (overwinters) using a resilient spore structure (oospore). Once suitable conditions prevail, spore germination occurs and infection is perpetuated using mycelial growth which is the fine white webbing seen on moist morning conditions. The organism is very easily moved in surface water and by mechanical means (equipment and footwear).
Conditions favouring disease expression
The following conditions heighten the risk of Pythium infection:
- Daily minimum temperature above 17-20°c
- Daily maximum temperature exceeding 28°c
- Relative humidity exceeding 90% for more than 9 hours in the same period that conditions 1 and 2 are met.
Other factors that encourage infection are soil pH > 7.0, soft growth from high nitrogen fertilisers and poor draining soils.
Visual symptoms
Earliest signs are often small greasy irregularly shaped areas that are slimy to touch. When dry, these patches will have a straw coloured appearance and possibly a reddish tinge. These small spots may join together to form larger irregularly shaped areas and will often follow drainage lines.
- Dollar Spot
Dollar Spot
Introduction
Dollar spot is a fungal disease that impacts upon both the visual appearance and surface quality of turf. It is of particular concern in situations where high surface quality is paramount e.g. creeping bent grass on golf courses. A broad range of turf species are potential hosts for this disease with susceptible species ranging from Bent grass (Agrostis) through to hybrid couches (Cynodon), Kikuyu (Pennisetum) and Zoysia spp.
Whilst we note here it is particularly prevalent on intensively managed turf, it is not limited to these situations. Home lawns, parks and other areas of amenity are also sites where this disease can be found. Dollar spot primarily affects leaf tissues but has been shown to have indirect effects on root structure and growth. The disease is found Australia wide.
Biology
The primary causal agent of dollar spot is Sclerotinia homeocarpa. The disease overwinters as sclerotia and as dormant mycelium from the lesions of previous infections. This then acts as the inoculum source for new infections. The onset of day time temperatures ranging between 15 to 27oc encourages mycelial activity with new infections occurring when moved by water and mechanical means.
Conditions favouring disease expression
The most conducive conditions for disease occur in spring and late summer / autumn however the problem can be present right throughout summer as well. Day time temperatures between 21 and 28 oc are optimal, with overnight conditions that produce dews enhancing the likelihood of infection. Relative humidity being high (>85%) significantly increases the likelihood of infection. Other factors implicated in disease prevalence are deficiencies of key macro elements nitrogen and potassium, excessive thatch accumulation, dry soils and poor irrigation practices.
Visual symptoms
On finer turf the ‘spots’ appear reasonably well defined in the early stages, 25-60mm in diameter, slightly sunken and tan in colour. Many spots may be found in close proximity to each other. On close inspection the lesions may become paler over time and cover the full width of leaf blades. On coarser grasses with larger leaf widths, the’ spot’ may be quite diffuse and poorly defined with close inspection revealing only part of the leaves being affected. A key feature is a constriction point or girdling (hourglass) often found on affected leaves.
Distribution
Found in all states of Australia, particularly coastal areas.
7. Pythium spp
Introduction
Pythium spp can potentially attack a wide range of turf grass species. This includes many of the widely used cool and warm season turf species utilised in sports turf and home lawns. There is considerable variation in susceptibility to these pathogens with perennial ryegrass (Lolium) and bent grass species (Agrostis spp) being particularly susceptible.
When different parts of the plant are attacked, different names are given to the condition caused. When foliage is affected the condition is sometimes termed ‘cottony blight’ or ‘grease spot’. When the crown and root areas are affected terms such as ‘Pythium crown rot’ or ‘Pythium root rot’ are used respectively.
When optimal environmental conditions prevail, infection can be rapid with significant resultant damage to above and below ground vegetative structures.
Biology
This fungus is classed as a water mold. It survives (overwinters) using a resilient spore structure (oospore). Once suitable conditions prevail, spore germination occurs and infection is perpetuated using mycelial growth which is the fine white webbing seen on moist morning conditions. The organism is very easily moved in surface water and by mechanical means (equipment and footwear).
Conditions favouring disease expression
The following conditions heighten the risk of Pythium infection.
- Daily minimum temperature above 17-20°c
- Daily maximum temperature exceeding 28°c
- Relative humidity exceeding 90% for more than 9 hours in the same period that conditions 1 and 2 are met.
Other factors that encourage infection are soil pH > 7.0, soft growth from high nitrogen fertilisers and poor draining soils.
Visual symptoms
Earliest signs are often small greasy irregularly shaped areas that are slimy to touch. When dry, these patches will have a straw coloured appearance and possibly a reddish tinge. These small spots may join together to form larger irregularly shaped areas and will often follow drainage lines.
- Brown Patch
Brown Patch
Introduction
Brown patch is a fungal disease that becomes active in late spring and summer when high daily temperatures and high relative humidity start to combine. The fine fescues and bent grass species are most susceptible however the warm season grasses may also be attacked. Cool season species tend to be more vulnerable through midsummer while the warm season species suffer more in spring and late summer through to autumn.
Interestingly, multiple species of Rhizoctonia tend to complement each other to extend the time of year the pathogen is active and broaden the host range and part of the grass plant that is affected.. As a consequence, there are differences in the effectiveness of chemical control options. Unfortunately, determining which species is causing the problem can be difficult and time consuming. Further complicating matters is the difference in appearance of the disease on closely mown and higher cut turf grasses.
Biology
The primary causal agent of brown patch is Rhizoctonia solani with R. cerealis, R. zeae and R. oryzae adding to the disease complex. Rhizoctonia is a soil borne fungus, surviving extended periods living saprophytically on dead and decaying organic matter. The pathogen quickly becomes active when warmth, moisture and a susceptible host is available. This fungus has the ability to remain in a state of suspended animation, not growing but not dead, just waiting for conditions to improve. It can remain in this state for years if necessary without losing viability.
Conditions favouring disease expression
The most conducive conditions for disease occur when relative humidity is greater than 95%, there is rain or added moisture, warm nights, warm to hot days and soil temperatures have moved above approximately 18°C. Other factors implicated in disease prevalence are thatch accumulation, excess nitrogen, poor drainage and allowing dew to remain on the leaf for extended periods.
Visual symptoms
On finer turf that is more closely mown, affected areas may appear regular with a noticeable smoke ring around the perimeter. This smoke ring is generally a grey / purple colour and most noticeable in the mornings when dew is present. Upon drying, the area turns a tan / brown colour. This smoke ring is typical of this disease and may help differentiate this from other fungal diseases. It is common for these rings to appear quickly and develop rapidly. Turf that is cut higher, will present with patchy discoloured areas that look less well defined. The turf may appear thinning and in need of water. Sometimes a green centre of seemingly unaffected blades sits within the circular damaged and discoloured areas. In turf that is not high in health to begin with the symptoms may not show an obvious pattern and may look to be generally under-performing lacking resilience to environmental stresses. It is important that such symptoms are not quickly dismissed as an end of season or start of season anomaly.
Distribution
Found in all states of Australia.