Lessons from the stripe rust epiphytotic of Syria in 2010,facing false concepts

National Commission for biotechnology0 International wheat stripe rust symposium ICARDA, Aleppo, 18-20 Apr. 2011Lessons from the stripe rust epiphytotic of Syria in 2010,facing false conceptsFawaz AZMEH, Prof. of Plant Pathology, Fac. Of Agri. Damascus Univ. and National Commission for biotechnologyDamascus, SyriaFawaz.azmeh@ncbt-sy.org

What happened in 2010?A serious epiphytotic of stripe rust affected the Syrian wheat crop.First alarms of intensive infection were signaled by farmers and agricultural services in February-March.It could be estimated at this time that the fungus have already realized 3 or 4 uredinial generations to attain that degree of epidemic build-up.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

What happened in 2010?(cont.)The disease affected mostly:Bread wheat (Triticumaestivum) in northern, north-eastern and central syrianprovinces.High yielding modern cultivars (Cham8, Cham10… etc.)High density seeded fieldsIrrigated wheat (more in sprinkler watered fields?)Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

What happened in 2010? Epiphytotic favoring conditions:Mild winter :During the 3 coldest months (Dec.+ Jan.+ Feb.) temperature daily minima and maxima were 3-6 degrees above average in wheat growing areas.

Frequent rainfall and high relative humidity: Until mid February rainfalls were above average in most agricultural zones.

Consequent severe drought: A severe drought affected the region in spring time (March-April), aggravating the physiological damage of rust infection (synergetic effect of evapo-transpiration in diseased plants). Coincidence of these two factors may explain the very high levels of crop loss (50-80%) observed in some fields.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Irrational agricultural practices: -High (or very high) seed density (Syrian tradition !) -Unorganized irrigation (side-effects of sprinkler irrigation) -Mono-culturing of very few popular cultivars (Cham8 and others) in large areas. -Unpreparedness for chemical intervention (fungicidal treatment). Syrian wheat farmers usually apply pesticides in very few cases:Seed treatment with fungicides for common Bunt (Telletia spp.) Pre- or post- emergence herbicidal applications against broad leaf weeds, and rarely for wild oat (Avena spp.) Insecticides in limited areas against Sunn Bug (Eurygasterintegriceps). - No previous experience in Syria of foliar treatment in wheat fields for fungal diseases.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

In addition to all these disease favoring conditions, the arrival and establishment of a new pathotype(s) of stripe rust, highly virulent to most popular bread wheat cultivars has been most probably the decisive factor.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Effect(s) of erroneous concepts: Crop losses due to stripe rust in 2010 could have been minimized if immediate measures have been taken.Such prompt reaction was hindered by a series of erroneous ideas about the nature of the problem and control strategies. As it is impossible to apply genetic (varietal resistance) or change plant density during the season, the only available weapon left was chemical control (fungicide application).Or, several contradictory opinions were launched by specialists and non-specialists, resulting in some confusion on the farmers’ level.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Error 1: Stripe rust would not cause significant large scale crop loss, based on the fact that the disease has been observes since decades without causing important crop damage.Result 1: It is now largely recognized that about 1.5 to 2M ton of wheat have been lost in 2010. If other damaging factors (frost, drought, Sunn Bug) the crop loss attributed to stripe rust alone could be estimated to 1M ton, representing #1/4 of the expected crop. Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Error 2: Disease development/increase would spontaneously stop by early April (drier and warmer weather). This idea, based on former long term averages, could have been exact if chaotic climate changes, observed during the last decade are not considered.Result 2: The weather continued after mid-April (and even in May) to be rather cold and sporadically rainy, permitting new disease cycle(s). These late infections attained the flag leaf and even the spike in many fields.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Error 3: fungicidal foliar treatment is either inefficient or uneconomic based on the absence of previous experience to control rust fungi. It has been said that either:Fungicides are useless to stop the diseaseOr their application is not economically justified.Another pretext to explain the non-intervention policy is that adequate anti-rust fungicides were unavailable on the market or have not been registered for this purpose in Syria. Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Result 3: only few farmers were able to apply fungicides. Some of them obtained good/very good results. Others were less lucky probably because of using inappropriate fungicides or bad application method or timing. For the actual season (2011), reasonable quantities of selected fungicides (essentially triazoles) have been made available.Farmers are now advised to apply fungicides whenever disease appeared and weather conditions are favorable.On the other hand, it is clear that such application-if effective- is reasonably economic, especially when a high yield per hectare is expected (the cost of one treatment/ha is estimated to # 60$, which is the local price of about 250kg grain). Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

Error 4: No forecasting systems are available for rust disease, because the conditions of their development could not be subject to accurate modeling/simulation.Result4: Since the 1970s, disease progress algorithms and epidemic models began to be developed for wheat diseases in general and yellow rust in particular (F. Rapilly, 1991)*Several models and softwares are now available, based on fundamental knowledge of disease biology, in relation to weather conditions such as leaf wetness period, necessary to produce infections, under different temperatures. *Epidemiologie en pathologievegetale: Mycoses aeriennes.Wednesday, April 20, 2011Wheat Stripe Rust Symposium, ICARDA

In fact, the plant protection service purchased 8 forecasting systems, to be placed in different agricultural zones, destined mainly to warn about yellow rust risk.All-round agrometeorological climate station supporting in total 14 sensors:3 Temperature Sensors

Lessons from the stripe rust epiphytotic of Syria in 2010,facing false concepts

More Related Content

What's hot (20)

Viewers also liked (19)

Similar to Lessons from the stripe rust epiphytotic of Syria in 2010,facing false concepts (20)

More from ICARDA (20)