Monday, 31 July 2017

Insect of the Week (July 31, 2017) - Red clover casebearer moth

This week's Insect of the Week is the red clover casebearer moth. As it's name suggests, its primary host is red clover, but larvae also reportedly feed on alsike, stone, white and zig-zag clover. The mature larvae are contained within portable cases made of withered flower petals and silk and they feed from the front end of the case on developing seed in the floret. They can consume up to three seeds per day. In areas with high numbers of these moths, such as the Peace River region in BC and AB, red clover stands should only be grown for one year in rotation.

For more information on the red clover casebearer moth, visit our Insect of the Week page.

Red clover case bearer moth - adult (Tim Haye)

Red clover casebearer moth - sealed overwintering larval cases (Boyd Mori)

Remember the NEW Cutworm Field Guide is free and downloadable in 2017!

Thursday, 27 July 2017

Weekly Update (Jul 27, 2017; Wk 13) - Greetings! Otani, Giffen, Svendsen, Olfert

Greetings!

Please access the Weekly Update for July 27, 2017 (Week 13), as either a series of Posts  or a downloadable PDF.   





Questions or problems accessing the contents of this Weekly Update?  Please e-mail either Dr. Owen Olfert or Jennifer Otani.  Past “Weekly Updates” can be accessed on our Weekly Update page.

Subscribe to the Blog by following these three steps!

Weekly Update (Jul 27, 2017; Wk 13) - Weather Synopsis

Weather synopsis – This week’s temperatures were similar to last week, both the seven-day (Fig. 1) and 30-day average temperatures (Fig. 2) were similar to long term averages (Fig. 3). Compared to 30-day average temperatures, Alberta was above normal, whereas Saskatchewan and Manitoba were slightly below normal (Fig. 2).
Figure 1.  Accumulated precipitation the past  7 days (from July 17-24, 2017) across the Canadian prairies.


Figure 2.  Accumulated precipitation the past 30 days (from June 24-July 24, 2017) across the Canadian prairies.


Figure 3.  Long Term Normal (LTN) average temperatures over 30 days
 (from June 24-July 24) across the Canadian prairies.


Seven-day rainfall accumulations were low across the prairies ( Fig. 4). Total 30-day rainfall accumulations indicate that conditions are normal to dryer than normal for most of the prairies (Fig. 5). Growing season (April 1 – July 23, 2017) percent of average precipitation continues to be average for most of Alberta and below average for most of Saskatchewan and Manitoba.
Figure 4. Accumulated precipitation the past seven days (July 17-24, 2017) across the Canadian prairies.


Figure 5. Accumulated precipitation the past 30 days (June 24-July 24, 2017) across the Canadian prairies.


Figure 6.  Percent of average precipitation  for the across the Canadian prairies for
the growing season (April 1-July 24, 2017).
The lowest temperatures across the prairies over the past seven days (July 18-24, 2017) are mapped below.  

In contrast, the highest temperatures recorded over the past seven days (July 13-19, 2017) are presented below. 


The growing degree day map (GDD) (Base 10ºC, March 1 – July 23, 2017) is below:





The growing degree day map (GDD) (Base 5ºC, March 1 – July 23, 2017) is below:






The maps above are all produced by Agriculture and Agri-Food Canada.  Growers may wish to bookmark the AAFC Drought Watch Maps for the growing season.

Weekly Update (Jul 27, 2017; Wk 13) - Cabbage seedpod weevil

Cabbage seedpod weevil (Ceutorhynchus obstrictus) -  There is one generation of CSPW per year and the overwintering stage is the adult which is an ash-grey weevil measuring 3-4mm long (Refer to lower left photo).  Adults typically overwinter in soil beneath leaf litter within shelter belts and roadside ditches.




Monitoring:  
 ● Begin sampling when the crop first enters the bud stage and continue through the flowering. 
 ● Sweep-net samples should be taken at ten locations within the field with ten 180° sweeps per location.  
 ● Count the number of weevils at each location. Samples should be taken in the field perimeter as well as throughout the field.  
 ● Adults will invade fields from the margins and if infestations are high in the borders, application of an insecticide to the field margins may be effective in reducing the population to levels below which economic injury will occur.  
 ● An insecticide application is recommended when three to four weevils per sweep are collected and has been shown to be the most effective when canola is in the 10 to 20% bloom stage (2-4 days after flowering starts). 
 ● Consider making insecticide applications late in the day to reduce the impact on pollinators.  Whenever possible, provide advanced warning of intended insecticide applications to commercial beekeepers operating in the vicinity to help protect foraging pollinators.  
 ● High numbers of adults in the fall may indicate the potential for economic infestations the following spring.


Damage: Adult feeding damage to buds is more evident in dry years when canola is unable to compensate for bud loss.  Adults mate following a pollen meal then the female will deposit a single egg through the wall of a developing pod or adjacent to a developing seed within the pod (refer to lower right photo).  Eggs are oval and an opaque white, each measuring ~1mm long.  Typically a single egg is laid per pod although, when CSPW densities are high, two or more eggs may be laid per pod.

There are four larval instar stages of the CSPW and each stage is white and grub-like in appearance ranging up to 5-6mm in length (refer to lower left photo).  The first instar larva feeds on the cuticle on the outside of the pod while the second instar larva bores into the pod, feeding on the developing seeds.  A single larva consumes about 5 canola seeds.  The mature larva chews a small, circular exit hole from which it drops to the soil surface and pupation takes place in the soil within an earthen cell.  Approximately 10 days later, the new adult emerges to feed on maturing canola pods.  Later in the season these new adults migrate to overwintering sites beyond the field.



Please find additional detailed information for CSPW in fact sheets posted by Alberta Agriculture and ForestrySaskatchewan Agriculture, or the Prairie Pest Monitoring Network.

Also watch provincial reports for updates on surveying underway now.  Alberta Agriculture & Forestry has posted a live CSPW map and online reporting tool for growers.  A screenshot (retrieved 26Jul2017) is included below.

Weekly Update (Jul 27, 2017; Wk 13) - Predicted Grasshopper Development

Grasshopper Simulation Model Output – Based on model output, grasshopper development is slightly ahead of long term averages. The greatest development was predicted to be across southern regions in all three provinces, particularly southern Alberta. Grasshoppers should be predominantly in the fourth and fifth instar stages with adults present across most of the region. 


  
Grasshopper Scouting Steps: 
● Measure off a distance of 50 m on the level road surface and mark both starting and finishing points using markers or specific posts on the field margin.
● Start at one end in either the field or the roadside and walk toward the other end of the 50 m, making some disturbance with your feet to encourage any grasshoppers to jump. 
● Grasshoppers that jump/fly through the field of view within a one meter width in front of the observer are counted. 
● A meter stick can be carried as a visual tool to give perspective for a one meter width.  However, after a few stops one can often visualize the necessary width and a meter stick may not be required. Also, a hand-held counter can be useful in counting while the observer counts off the required distance. 
● At the end point the total number of grasshoppers is divided by 50 to give an average per meter. For 100 m, repeat this procedure. 
● Compare counts to the following damage levels associated with pest species of grasshoppers:
0-2  per m² - None to very light damage
2-4  per m² - Very light damage
4-8  per m² - Light damage
8-12 per m² - Action threshold in cereals and canola


12-24 per m² - Severe damage 
>24 per m² - Very severe damage

* For lentils at flowering and pod stages, >2 per m² will cause yield loss.
* For flax at boll stages, >2 per m² will cause yield loss.





Reminder:  Biological and monitoring information related to grasshoppers in field crops is posted by Manitoba Agriculture, Food and Rural DevelopmentSaskatchewan AgricultureAlberta Agriculture and Forestry, the BC Ministry of Agriculture and the Prairie Pest Monitoring Network.  Also refer to the grasshopper pages within the new "Field Crop and Forage Pests and their Natural Enemies in Western Canada: Identification and management field guide" as an English-enhanced or French-enhanced version.

Weekly Update (July 27, 2017; Wk 13) - Diamondback moth

Diamondback moth (Plutellidae: Plutella xylostella) - Throughout April and May, both forward and backward wind trajectory data was compiled weekly to identify potential DBM arrival events from southerly source areas including Mexico and southwest USA or the Pacific Northwest.  This week, two biofix dates were selected as "starting points" used to apply the DBM model based on Harcourt (1954).  By selecting and presenting mapped model outputs for both a biofix date of May 1 (Fig. 1) AND May 21 (Fig. 3), the predicted number of generations of DBM can be estimated across the Canadian prairies as of July 24, 2017. The following maps indicate that potentially two generations have been completed across most of the prairies for both biofix dates (Fig. 1 and 3). 

Using Biofix of May 1 - Based on the biofix date of May 1, 2017, the model predicts two generations of DBM (e.g., areas highlighted in yellow) whereas southern Alberta populations are potentially in the third generation (Fig. 1).  The second map (Fig. 2), showing predicted results for Long Term Normal (LTN) data, indicates that populations in southern Alberta and the Peace River region are ahead of normal development (based on May 1 introductions)
Figure 1.  Predicted number of generations of Diamondback moth based on a biofix date of May 1, 2017.

Figure 2.  Predicted number of generations of Diamondback moth based on a biofix date of
May 1, 2017, but using Long Term Normal (LTN) data.

Using Biofix of May 21In the following scenario using biofix date of May 21, 2017 (Fig. 3), the number of generations of DBM are marginally behind the early May introduction presented above in Figure 1.
Figure 3.  Predicted number of generations of Diamondback moth based on a biofix date of May 21, 2017.


REMINDER - Once diamondback moth is present in the area, it is important to monitor individual canola fields for larvae.  Remove the plants in an area measuring 0.1 m² (about 12" square), beat them on to a clean surface and count the number of larvae (Fig. 4) dislodged from the plant. Repeat this procedure at least in five locations in the field to get an accurate count.  The economic threshold for diamondback moth in canola at the advanced pod stage is 20 to 30 larvae/ 0.1  (approximately 2-3 larvae per plant).  Economic thresholds for canola or mustard in the early flowering stage are not available. However, insecticide applications are likely required at larval densities of 10 to 15 larvae/ 0.1  (approximately 1-2 larvae per plant).


Figure 4. Diamondback larva measuring ~8mm long.
Note brown head capsule and forked appearance of prolegs on posterior.


Figure 5. Diamondback moth pupa within silken cocoon.

Biological and monitoring information for DBM is posted by Manitoba Agriculture, Food and Rural DevelopmentSaskatchewan AgricultureAlberta Agriculture and Forestry, and the Prairie Pest Monitoring Network.  

More information about Diamondback moths can be found by accessing the pages from the new "Field Crop and Forage Pests and their Natural Enemies in Western Canada: Identification and Field Guide".  View ONLY the Diamondback moth page but remember the guide is available as a free downloadable document as both an English-enhanced or French-enhanced version.



Figure 6. Diamondback moth.

Across the prairies, provincial staff coordinate diamondback pheromone trapping during the growing season:

● Low numbers of moths have been reported across Saskatchewan for the 2017 pheromone monitoring.  
● Manitoba Agriculture and Rural Initiatives posted low DBM counts which can be reviewed here.  
● Alberta Agriculture and Forestry has a live 2016 map reporting Diamondback moth pheromone trap interceptions.  A copy of the map (retrieved July 20, 2017) is below for reference.

Weekly Update (July 27, 2017; Wk 13) - Bertha Armyworm

Bertha armyworm (Lepidoptera: Mamestra configurataReporting sites across the prairies have generally reported lower cumulative interceptions and cumulative counts are summarized by provincial staff in ManitobaSaskatchewan and Alberta.

Manitoba counts as of July 26, 2017



Saskatchewan map as of July 19, 2017


Alberta map as of July 26, 2017



In-field monitoring for egg masses and newly emerged larvae (photo below) should initially focus on the undersides of leaves plus watch the margins of leaves for feeding.  Bertha armyworm larvae will also feed on newly developing pods so the whole plant should be examined.  Watch for the following life stages:








Scouting tips:
● Some bertha armyworm larvae remain green or pale brown throughout their larval life. 
● Large larvae may drop off the plants and curl up when disturbed, a defensive behavior typical of cutworms and armyworms. 
● Young larvae chew irregular holes in leaves, but normally cause little damage. The fifth and sixth instar stages cause the most damage by defoliation and seed pod consumption. Crop losses due to pod feeding will be most severe if there are few leaves. 
● Larvae eat the outer green layer of the stems and pods exposing the white tissue. 
● At maturity, in late summer or early fall, larvae burrow into the ground and form pupae.

Monitoring:
- Larval sampling should commence once the adult moths are noted. 
- Sample at least three locations, a minimum of 50 m apart. 
- At each location, mark an area of 1 m2 and beat the plants growing within that area to dislodge the larvae. 
- Count them and compare the average against the values in the economic threshold table below:  




Biological and monitoring information related to bertha armyworm in field crops is posted by the provinces of ManitobaSaskatchewanAlberta and the Prairie Pest Monitoring Network.  Also refer to the bertha armyworm pages within the new "Field Crop and Forage Pests and their Natural Enemies in Western Canada: Identification and management field guide" - both English-enhanced or French-enhanced versions are available.

Weekly Update (Jul 27, 2017; Wk 13) - Provincial Insect Pest Reports

Provincial entomologists provide insect pest updates throughout the growing season so we have attempted to link to their most recent information: 

● Manitoba's Insect and Disease Update for 2017 is prepared by John Gavloski and Pratisara Bajracharya and read Issue #10 (posted July 26, 2017) noting diamondback moth exceeding economic thresholds in some fields within the southwest and Gladstone areas, cereal aphids and soybean aphids plus the appearance of green cloverworm in some eastern Manitoba soybean fields.

● Saskatchewan's Crop Production News - 2017 - Issue #4 includes information related to soybean pests prepared by Joel Peru. That report includes an update on scouting and management tips for painted lady butterflies (also described in Week 6) and Aphanomyces root rot. 

Additionally, Danielle Stephens with Sask Ag reported that bertha moth counts in pheromone traps appears to have peaked over most areas of Saskatchewan during the week of July 17th. Cooperators operating BAW traps are asked to take down their traps the week of August 2nd and to submit their counts but also thanked for their ongoing support which makes the 2017 map possible.
● Watch for Alberta Agriculture and Forestry's Call of the Land and access the most recent Insect Update (July 27, 2017) provided by Scott Meers. That reports notes surveying is underway targeting a 'new' midge in canola, continued scouting needed for diamondback moth with larval populations exceeding thresholds in a few canola fields at early pod stages in southern Alberta, appearance of low numbers of wheat leaf miner which is typically an occasional pest but seems to be accompanied by its parasitoid by K. Fry this year.

Weekly Update (Jul 27, 2017; Wk 13) - Crop reports

Crop reports are produced by:
• Manitoba Agriculture, Rural Development (July 24, 2017)
• Saskatchewan Agriculture Crop Report (July 18-24, 2017)
• Alberta Agriculture and Forestry Crop Report (July 18, 2017)

Weekly Update (Jul 27, 2017; Wk 13) - West Nile Virus and Culex tarsalis

West Nile Virus Risk –  The regions most advanced in degree-day accumulations for Culex tarsalis, the vector for West Nile Virus, are shown in the map below.  As of July 23, 2017areas highlighted in yellow on the map below have accumulated sufficient heat for the initial C. tarsalis to begin to fly.  Areas highlighted in orange will have C. tarsalis flying so wear your DEET to stay protected!





The Public Health Agency of Canada posts information related to West Nile Virus in Canada.  In 2016, 104 human clinical cases of West Nile Virus were reported.  The map of clinical cases of West Nile Virus in Canada in 2017 is updated through the summer but zero cases of viral West Nile have been reported so far (June 25-July 15, 2017).  


The Canadian Wildlife Health Cooperative compiles and posts information related to their disease surveillance for West Nile Virus in birds.  As of July 20, 2017, 833 birds were examined and eight have tested positive for West Nile virus; four from Ontario, one from Saskatchewan, and one from Quebec

Weekly Update (Jul 27, 2017; Wk 13) - Active Wildfires

Active Wildfires - Natural Resources Canada posts live interactive maps like the one below. Access their webpage for more information and to stay current on the various active wildfires burning across Canada.



Update from the field....

Canola growers at the far south of Alberta will want to note this preliminary update kindly provided by Dr. H. Carcamo (AAFC-Lethbridge) on July 20, 2017 related to flea beetles in canola.....

"We just collected sticky cards from a canola field just east of Stirling that is part of a collaborative study led by Dr. Alejandro Costamagna. I noticed an unusual dominance by striped flea beetles in this field. 15 years ago only 1 out of a 1000 flea beetles would have been striped and the rest crucifer, however, the two fields we sampled today near Stirling AB were unusual.  Approximately 48% of the flea beetle population trapped on sticky cards in the one field were striped flea beetles and a second canola field had ~71% striped flea beetles."

Dr. Carcamo goes on to caution that the above observation was based on only a single week of sticky card monitoring.  Stay tuned because the entire seasonal data set from these two sites will warrant careful scrutiny!  Even so, this update is an excellent example of the importance of in-field scouting and the value of ongoing data collection!

Review previously posted information about flea beetles in canola here.

Weekly Update (Jul 27, 2017; Wk 13) - Previous Posts

The following is a list of 2017 Posts - click to review:

Alfalfa Weevil (Week 11)

Brood X Cicadas


Cabbage seedpod weevil (Week 12)

Canola scouting chart
Cereal leaf beetle
Crickets with your popcorn
Crop protection guides
Cutworms

Diamondback moth


Flax scouting chart

Flea beetles

Iceberg reports

Lily leaf beetle


Monarch migration (Week 10)

Painted lady butterflies (Week 9)
Pea leaf weevil
PMRA Pesticide Label Mobile App

Nysius niger (Week 8)

Ticks and Lyme disease


Weather radar

Wheat midge
White grubs in fields (Week 9)

BONUS Insect of the Week (July 27, 2017) - Wheat stem maggot

The Wheat Stem Maggot, Meromyza americana (Diptera) is minor pest that causes eye-catching damage in wheat, rye, barley, oat, millet, timothy, brome, crested wheatgrass and bluegrass. This is a timely insect of the week, because the larval damage (dead white heads in an otherwise green field) started to appear in the last few weeks and is now highly visible in many fields.

Your eyes are naturally drawn to these white heads and can cause you to overestimate the actual amount of damage to your fields. However, the damage is usually limited to 1-5% of the crop. To identify if the wheat stem maggot is the culprit, gently pull on the white head to see if it easily separates from the flag leaf sheath and shows evidence of feeding damage at the base of the culm.

By the time you see damage, the greenish-white larva has exited and is off to begin a second generation that will overwinter in volunteer cereals. There are no registered chemicals or resistant varieties so your best management practices are rotate to non-cereals/non-grassses, destroy infested stubble, and control volunteer hosts and grassy weeds. Delayed seeding, where/when possible may also limit damage.

For more information on the Wheat Stem Maggot, see our Insect of the Week page.

Wheat stem maggot damage (Tyler Wist - AAFC)

Remember the NEW Cutworm Field Guide is free and downloadable in 2017!

Tuesday, 25 July 2017

Insect of the Week (July 24, 2017) - Soybean aphid

This week's Insect of the Week is the soybean aphid. This pest overwinters in the US and is blown into Canada, where winged females migrate to soybeans and produce several generations over the summer.

In 2016, 2.5 million acres of soybeans were planted in Alberta, Saskatchewan, and Manitoba. This amount is expected to rise in coming years. Thus, it is important to know how to scout for and manage soybean aphids.

For more information on soybean aphids, visit our Insect of the Week page.


Soybean aphid - adult (Robert J. O'Neil, Purdue University (wiki))

Remember the NEW Cutworm Field Guide is free and downloadable in 2017!

Friday, 21 July 2017

Weekly Update (Jul 20, 2017; Wk 12) - Greetings! Otani, Giffen, Svendsen, Olfert

Greetings!

Please access the Weekly Update for July 20, 2017 (Week 12), as either a series of Posts  or a downloadable PDF.   





Questions or problems accessing the contents of this Weekly Update?  Please e-mail either Dr. Owen Olfert or Jennifer Otani.  Past “Weekly Updates” can be accessed on our Weekly Update page.

Subscribe to the Blog by following these three easy steps!

Weekly Update (Jul 20, 2017; Wk 12) - Weather Synopsis

Weather synopsis – Seven-day rainfall accumulations were generally greater than the previous week. Some areas in southern prairies received 10 to 30 mm of rain (Fig. 1). Total 30-day rainfall for June 17 to July 16, 2017, indicates that conditions are somewhat dryer than normal for most of the prairies. Figure 2 indicates that the regions with <40% of average rainfall (30-day) now include much of southern Saskatchewan, as well as large spots of southern Alberta and Manitoba. The percent of average precipitation for this growing season continues to be average for most of Alberta and below average for much of Saskatchewan and Manitoba (Fig. 3).
Figure 1.  Accumulated precipitation across the Canadian prairies the past  seven days (July 10-16, 2017).



Figure 2.  Accumulated precipitation across the Canadian prairies the past  30 days (June 17-July 16, 2017).



Figure 3.  Percent of average precipitation across the Canadian prairies from June 17-July 16, 2017.


Over the past week, the warmest temperatures occurred over a large area from Brandon to Edmonton and south to the Canada-USA border. Although temperatures were warmer (1°C) than last week, both the 7- and 30-day average temperatures were similar to long-term normal (LTN). Compared to 30-day average temperatures, Alberta was above normal whereas Saskatchewan and Manitoba were slightly below normal. 






The lowest temperatures across the prairies over the past seven days (July 13-19, 2017) are mapped below.  


In contrast, the highest temperatures recorded over the past seven days (July 13-19, 2017) are presented below.  



The growing degree day map (GDD) (Base 10ºC, March 1 – July 13, 2017) is below:




The maps above are all produced by Agriculture and Agri-Food Canada.  Growers may wish to bookmark the AAFC Drought Watch Maps for the growing season.