Monday, September 30, 2013

Notes from IPM September 26th 2013

Pheromone Trap Results

Trap #1 - Black Cutworm
2 spiders, 3 larvae – 2 lygus bugs and 1 ladybug

Trap #2 - Corn Earworm
5 moths – 2 corn earworm and 3 noctuids, 1 ladybug, 1 crane fly, 1 katydid.

Trap #4 - Fall Armyworm
12 moths – all Fall Armyworm

Field Corn Field
This field will be harvested today. Bill brought a moisture meter – a Farmex MT3 Three grain moisture tester (corn, soybean, wheat, and can be adjusted for sorghum/milo). The field corn tested at 15.8% and 15.9%. It will be slightly lower later in the day.
Park service was harvesting some cornstalks for Smithville.

Popcorn Field
42.9% moisture content. Way too high for harvesting – probably another 3 weeks.

Today we noted a pineapple weed.

Note: there is still no identification on the moth captured last week. They are still very prevalent in the cover crop field near the popcorn.

Soybean Field
Soybeans are defoliated and drying. Moisture in the beans is still high – at a stage farmers call ‘gummy’. There is evidence of pod and stem blight, but the beans are unaffected. However, we did find some purple staining on a few beans from the cercospora.
Note: we found a very few plants that are still green and not defoliating. Agricultural scientists are exploring the possible connection of stink bugs and delayed maturity in soybeans.

Wheat/Soybean Field

Pods have filled nicely. This field will make and be harvestable.

In this field we found a caterpillar that was rolling itself into a leaf for cocooning. It is large, green, not hairy, and has a large brown head. Identification later.
Also wooly caterpillars, a harlequin bug, and brown marmorated stink bug – identified by white striping on antennae.

Demonstration Plots

 

Quinoa
Plot has been cleared and retired for the season. As far as we know, no quinoa sprouted or grew. Our climate did not provide conditions necessary for germination and growth.

Peanuts
Peanuts are still pegging. We learned that peanut farmers check the covering on the peanut for maturity (not the hull, but the cover around the seed). Covers are white now, but will turn through yellow to orange to red to brown. We want to harvest when the majority are between red and brown.

Tomatoes
Ramapo production outdid SuperSonic production for the first time since early in the summer.

Thanks to Roger Arnold for compiling this week's notes.







Notes from IPM September 19th 2013

Pheromone Trap Results

Trap #1 - Black Cutworm
2 black cutworm moths, 2 spiders, 1 unidentified larvae

Trap #2 - Corn Earworm
3 corn earworm moths, 1 fall armyworm moth, 5 noctuids, 1 lady bug

Trap #4 - Fall Army Worm
36 Fall Armyworm moths, 3 true armyworm moths, 1 small moth sent to office to identify (this is the same species moth as the one captured near the popcorn field.) 1 moth escaped.

Hay Field
5th and final cutting is down. Hay field will be ‘burned’; i.e. all plant cover killed with chemical spray, and then made ready for wheat.

Popcorn Field
The early variety is beginning to dry and is nearly ready. Plant stalks are dying. Birds are feeding on the tops of the ears. There is a lot of corn earworm present. The later variety is still maturing. In the strip between the popcorn and the Cover Crop Field there are a lot of small moths. We will capture one for identification to determine if they are after the popcorn.

Field Corn
Corn stalks are completely dead. Black line is evident on kernels. Moisture content is down to the mid-20% - near harvestable level. There is a small amount of mold present – but probably not enough to endanger its usability. Birds are feeding on the tops of the ears.

Note: Bird pressure on this farm is due to being near the migratory flyway.

Cover Crop Field

Buckwheat is seeding. Deer are feeding on the soybeans. Soybeans are beginning to pod. Soybean aphids have moved from the Wheat/Soybean field to these soybeans. Lady bug and lady bug larvae are present.

Wheat/Soybean Field

Ladybugs were able to control the aphid infestation. No spraying or other intervention was necessary. Pods are filling but it is still a race against the daylight to see if they will mature to a size that is marketable. Soybeans are also susceptible to frost. Deer are also feeding along the field boundary.

Soybean Field
Plants are dying and defoliating. Beans seem small – perhaps due to lack of a good hot summer. Beans will still need to dry down for 2 – 3 more weeks.

Demonstration Plots

Tomatoes
Possible Buckeye Rot in the tomatoes.

Peanuts
Blooming has stopped. There are lots of pegs and peanuts are formed underground. Now we will wait for the plants to die and the peanuts to mature.

Cover Plot
Buckwheat are reseeding and sprouting. Cowpeas are still blooming and there are now many pods. They are difficult to see unless you move the plants around.
We will be looking to identify sprouting daikon radishes.



Pest of the Week - Rough-leaved Goldenrod

Solidago patula commonly know as rough-leaved golden rod or swamp golden rod a member of the Asteraceae family is found throughout New Jersey.  It is native to most of the eastern United States, as far west as Texas.  Usually found in swamps, wet meadows, pond and bog borders and calcareous fens.  There are about 125 varieties of Goldenrod native to North America.

Photograph by Ramona Barrientos


Natural History

"There is an old legend that relates goldenrods to asters. Two young girls talked about what they would like to do when they grew up. One, who had golden hair, said she wanted to do something that would make people happy. The other, with blue eyes, said that she wanted to be with her golden-haired friend. The two girls met and told a wise old lady of their dreams. The old lady gave the girls some magic corn cake. After eating the cake, the girls disappeared. The next day, two new kinds of flowers appeared where the girls had walked: Asters and Goldenrods."

Photograph by Ramona Barrientos

And now for the rest of the story.  Rough-leaved goldenrod is a herbaceous perennial to 2 m. tall.  The stems are more or less strongly angled, glabrous below the inflorescence. The leaves strongly scabrous above.  The lower and upper leaves are dissimilar; the lowermost leaves are 4-10 cm wide, sharply toothed, with a somewhat sheathing petiole; while the upper leaves are gradually reduced but still toothed. The flowers are yellow. The heads in paniculiform inflorescences; inflorescence branches wide-spreading, recurved-secund; rays 5-12.

Additional Information

Goldenrods - Asters and Goldenrods of New England

Flora of North America

Vascular Plants of Wisconsin - University of Wisconsin

Inflorescence vs. Capitulescence



Tuesday, September 24, 2013

Pest of the Week - Harlequin Bug

The harlequin bug Murgantia histrionica (Hahn) is also know by other common names such as "Calico Back", "Calico Bug", "Fire Bug".  The harlequin bug injures the host plants by sucking the sap of the plants, causing the plants to wilt, brown and die. Like other stink bugs, they produce odors from their thoracic glands, using them as a defense against predators.  Plants commonly attacked by the harlequin bug include such crucifers as cabbage, cauliflower, collards, mustard, Brussels sprouts, turnip, kohlrabi and radish.

Harlequin bug - Colorado State University

Eggs of the harlequin bug, Murgantia histrionica (Hahn). Photograph by James Castner, University of Florida.

Natural History
Harlequin bug life cycle - UC Davis
Eggs of the harlequin bug resemble tiny white kegs standing on end in a double row. Approximately 12 are laid together, usually on the underside of the leaves of the host plant. Each egg is marked by two broad black "hoops" and a black spot. The eggs hatch in from four to 29 days, the time varying with the temperature.

There are five or six nymphal stages that feed and grow for four to nine weeks before they are capable of mating and laying eggs.  The head coloration of the nymphs ranges from pale orange, darker orange to black in the final nymphal form.

Adult bugs are 3/8-inch long and mottled red, black, and yellow or orange.

Management Strategies

Hand-picking and destruction of the insect pests and egg masses may deter damage where low numbers of insects are found. Hand destruction of the adults in the fall and spring as they emerge from "hibernation" before they lay eggs is an effective control. This may be aided by the use of trap crops of turnip, kale, or mustard in the very early spring or late in the fall after the main crop has been harvested. Once the pests have concentrated in these areas, they can be killed by applying insecticides or by covering the trap crop with straw and burning. Trap crops should never be used unless they can be given careful attention to destroy the bugs attracted to them.   Insecticides are generally not recommended in gardens for stink bugs.

Additional Information

Hemiptera - True Bugs - Colorado State University

True Bug Lifecycle - UC Davis

Harlequin bugs 2013 a growing problem in Pennsylvania? - Penn State University

Harlequin bug - Rutgers University

Thursday, September 19, 2013

Notes from September 12, 2013

Weed of the Week: Bedstraw

Pheromone Trap Results

Note: trap collection data is for a two week period.
Trap #1 - Black Cutworm
2 Black Cutworm moths, 1 house fly, 4 spiders

Trap #2 - Corn Earworm
3 Corn Earworm moths, 1 click beetle, 20 noctuid moths

Trap #4 - Fall Army Worm
35 Fall Army Worm moths, 1 bumblebee, 1 spider

Wheat/Soybean Field
Kenny reports that the ladybugs have controlled the soybean aphids – great news.
We observed few active aphids, many ladybugs and ladybug larvae, and many aphid ‘mummies’; i.e. the empty shell of the aphid body.
Found 1 stink bug.

Cover crop Field
The buckwheat is blooming and looks very healthy. It is taller than the soybeans. It is tall enough that this field could be double cropped – that is to set the combine high enough to harvest the buckwheat and then lower it and harvest the soybeans. Interesting concept.

Field Corn
Kenny reports that moisture content is still in the mid 20’s.  Processors prefer moisture to be around 18% so there is still a need for more drying time.  Black tips are visible on kernels, which means the kernels have reached physiological maturity and are in stage R6.

Popcorn Field
Corn Earworm is present. Moisture content is still high. Hull formation is almost complete. Bill has obtained a kernel sheller so we are considering harvesting this crop and selling it.

Soybean Field
This field is beginning to turn. It is in the leaf drop stage. This soybean variety has a shorter photoperiod than our second planting in the wheat field.


Demonstration Plots

Peanuts are continuing to peg.

Cow Peas are still not showing many pods yet continue to flower.
In this plot we broadcast planted Tillage Radish or Daikon Radish/groundhog radish as another type of ground cover that has the additional advantage of holding soil nutrients in the radish tuber over the winter. Optimal planting would have been around August 15th.

Tomatoes – advantages and disadvantages of the different staking methods are becoming very clear. The smaller tomato stakes available to the home gardener are now beginning to break due to the heavy burden of the tomato foliage.
John reports that the Supersonic variety has out produced the Ramapo variety so far.

Peppers – our efforts with the peppers have paid off. Though production is reduced because of the kind of season we had, we are still harvesting peppers from all the varieties. There is a reduced amount of ‘heat’ in the hot peppers due to the amount of moisture and cooler days.

Hops – continue to produce cones near the top of the support system.

Quinoa – the jury is still out on whether we actually have a plant or not. The verdict is in however on whether quinoa is a viable crop for our climate – it is not.

Other notes:
We found a Harlequin Bug in the shed. It is reported that they are in the Community Gardens.  Visit our blog for more an upcoming article on this insect.



Thanks to Roger for compiling this weeks notes. 

Monday, September 16, 2013

Weed of the Week - Smooth Bedstraw

Smooth bedstraw (Galium mollugo ) is a serious weed in pastures, hayfields and field margins.  This plant typically occurs first along roadsides, progressively moving inwards. Its invasive nature allows smooth bedstraw to out - compete forage species, reducing the value of the stand.  Smooth bedstraw is especially problematic within lower input forage areas. This weed contains the toxin anthraquinone that can cause systemic toxicity and skin disorders in mammals. Poor animal performance on high diets of smooth bedstraw has been observed.


Natural History
There are at least 30 different bedstraws in North America, and many are perennials like smooth bedstraw.  Reproduction is by seed and by underground rhizomes.
  • Stems - Stems are smooth, wiry, 4-angled, branched, and up to 3 feet long. Stems initially grow upright, but over time they become spreading and matted.
  • Leaves - Leaves are 1/3 to 1 inch long, linear, bright green, and whorled (usually, there are 8 leaves per node on main stems and 6 or 7 leaves per node on branches).
  • Flowers - Flowers are about 1/6 inch wide, white, and consist of tiny, 4-lobed petals. Flowers form in branched clusters at the ends of stems and branches throughout the plant.
  • Fruits & Seeds - Seeds are kidney-shaped, hairless, and dark brown.

Smooth bedstraw ttem - Ontario Ministry of Agriculture and Food

Smooth bedstraw whorls

Smooth bedstraw showing flowers and whorls - Ohio State University




The genus name, 'Galium' is from the Greek word for milk and refers to an old use for the plant to curdle milk in making cheese.  The common name 'bedstraw' has two possible origins: the dried plant was used to stuff mattresses and it is said that bedstraw was placed in the manger at Bethlehem when Jesus was born.


Management Strategies
Manage hayfields by testing the soil and keeping nutrients and pH at levels where grasses and legumes will thrive. Apply nutrients and lime as needed.

Keep bedstraw plants from flowering, setting, and spreading seed, no matter which additional control option you use. In hayfields, try to get the haycrop mowed before bedstraw sets seeds. This will help control the spread, give the grasses a more competitive edge, and also provide you with a better-quality crop. Be aware of a second flowering and seed-production period.

Make sure to control the spread of seed. Mowers, balers, rakes, and tedders can carry substantial amounts of seed from infested fields to clean fields. Remove any source of seed from equipment when moving from field to field. Research is still inconclusive about the spread of bedstraw via manure applications.

Tillage and rotation is very effective in killing perennial crowns and new seedlings that may develop. Consider a weed-controlling cover crop such as buckwheat or sorghum-sudangrass hybrids as part of your reseeding regime. A new seeding will need optimum management to keep smooth bedstraw from reinvading the field.

Additional Information

Smooth Bedstraw -Virginia Tech Weed Guide

Commonly Found Weeds in Vermont Pastures - University of Vermont

Controlling Smooth Bedstraw in Hayfields and Pastures - University of Maine

Ohio Perennial and Biennial Weed Guide - Ohio State University




Saturday, September 14, 2013

Pest of the Week - Armyworms

Cutworms and armyworms are the larvae (caterpillars) of several species of night-flying moths in the family Noctuidae.  The armyworm, Pseudaletia unipuncta, and fall armyworm, Spodoptera frugiperda, are generally considered minor pests, but they have the potential for explosive outbreaks in turfgrass.

Natural History

Armyworm Identification - University of Nebraska
Fall Armyworm
The fall armyworm is native to the tropical regions of the western hemisphere from the United States to Argentina. It normally overwinters successfully in the United States only in southern Florida and southern Texas. The fall armyworm is a strong flier, and disperses long distances annually during the summer months. It is recorded from virtually all states east of the Rocky Mountains. However, as a regular and serious pest, its range tends to be mostly the southeastern states.

Typical adult male fall armyworm, Spodoptera frugiperda (J.E. Smith). Photograph by John L. Capinera, University of Florida.
The moths have a wingspan of 32 to 40 mm. In the male moth, the forewing generally is shaded gray and brown, with triangular white spots at the tip and near the center of the wing. The forewings of females are less distinctly marked, ranging from a uniform grayish brown to a fine mottling of gray and brown. The hind wing is iridescent silver-white with a narrow dark border in both sexes. Adults are nocturnal, and are most active during warm, humid evenings. After a preoviposition period of three to four days, the female normally deposits most of her eggs during the first four to five days of life, but some oviposition occurs for up to three weeks. Duration of adult life is estimated to average about 10 days, with a range of about seven to 21 days


Armyworm
Armyworms get their name from their behavior of moving across fields in an army-like fashion. As larvae consume available food sources, they migrate as an army to new host plants. Though they feed primarily on grasses (oats, wheat, fall rye, corn, barley, and forage grasses), they can be a pest of some vegetables (bean, cabbage, carrot, onion, pea, pepper, radish and sweet potato).

The adult moth is uniformly pale brown to grayish brown in color, with a wingspread of about 1 1/2 inches. There is a characteristic small, white spot near the center of each front wing. The eggs are greenish white and spherical and are laid in masses. Mature larvae are about 1 1/2 inches long with a yellowish or grayish ground color, more or less tinged with pink. The dorsum is greenish brown to black with a narrow, broken, light median stripe. A dark stripe on each side includes the black spiracles in its lower edge. The subspiracular stripe is pale orange, mottled, and edged with white. 

Armyworm, Pseudaletia unipuncta or Mythimna unipuncta. (Marlin E. Rice)


Management Strategies

Naturally occurring predators such as ground beetles and rove beetles may be important in keeping armyworm populations low each year. Research conducted by Michigan State University has found over 12 species of parasitic wasps and several flies that commonly attack armyworm larvae.

There are several types of viruses, a microsporidium, and fungi that infect armyworm larvae. A cool and wet spring favors armyworm development while hindering parasite and predator populations.


Additional Information

Noctuidae - Butterflies and Moths of North America

Armyworm Identification - University of Nebraska

Fall Armyworm - University of Florida

The Arthropod Museum - New Mexico State University

Armyworm - University of Illinois - Urbana

True Armyworms - Scout Info Kentucky IPM Pest Information Pages

 Fall Armyworm - Rutgers University



Friday, September 13, 2013

Pest of the Week - Eastern Black Nightshade



Eastern Black Nightshade Seedling
Natural History

Eastern black nightshade (Solanum ptycanthum) is native to the Americas and is commonly found throughout the United States east of the Rocky Mountains. Nightshade begins germinating in May and can continue throughout the growing season. Although it can cause crop yield reductions, more importantly it can interfere with the harvest and lower crop quality.  Eastern black nightshade is a highly branched annual plant that grows 1 to 3 feet tall. Flowers have five reflexed petals and fruits are green berries that turn black at maturity. The plant can be found in cultivated fields, gardens, waste places and overgrazed pastures. Seeds germinate in the spring and early summer and plants flower from July to October with seed maturing in August through October.

Immature eastern black nightshade plants and berries are considered potentially toxic. Rapid ingestion of large quantities of highly toxic fruits of this plants can result in coma and rapid death. The concentration of toxic principle decreases in berries to safe or negligible levels as the plant matures. This alkaloid, solanidine, has been reported to cause nausea, vomiting, bloat, paralysis and even death if the plant is consumed before it has reached maturity. Even though livestock poisonings and deaths have been attributed to nightshade ingestion, species identification in such poisonings is not exact.

Managment Strategies

Mowing, plowing, disking, and cultivating are some of the more commonly used mechanical methods for field crop weed control. Existing nightshade infestations in hay crops or pastures can be controlled by timely mowing or swathing to prevent seed production. Repeated mowings may be necessary, however, due to the sporadic germination of the plant.



Additional Information

Management and Contorl of Nightshade - North Dakota University Extension Service

Eastern black nightshade - Weed Science University of Illinois

How Toxic is Eastern Black Nightshade? - University of Wisconsin Weed Science

Wednesday, September 4, 2013

Notes from August 29, 2013

Pheromone Trap Results

Trap #1 - Black Cutworm
1 stink bug, 1 leaf beetle, 1 fly (diptera)

Trap #2 - Corn Earworm
10 noctuid moths, 2 leaf beetles

Trap #4 - Fall Armyworm
1 Fall Armyworm moth, 1 True Armyworm moth

Weed of the week: Eastern Black Nightshade
Also looking at the seed head of Fall Panicum

Field Corn
Dent stage with some kernel tips showing black – very close to maturity
Still have approximately 3 weeks to dry to 15% - though if weather remains wet, farmer can choose to harvest at 18% and pay a drying fee rather than lose crop to late fall storms, sprouting, or mycotoxins in mold.

Popcorn Field
Ears appear to be fully fertilized. Hulls are starting to form on the kernels.
Mites are present.

Cover Crop
Buckwheat is blooming.

Wheat/Late Soybean Field
Explosion in the lady bug population in response to the soybean aphid. Scouting threshold is 250 aphids per plant. At this threshold the farmer has about 7 days to the spraying threshold of 1000 aphids per plant. Lady bugs can eat about 180 aphids per day, so we are watching to see if the lady bugs can keep the balance. With all the moisture in the ground, plants are not showing evidence of wilt associated with the aphids feeding.
Still in the reproductive phase with pods just beginning to set.

Sweet Corn Field
Has been mowed down. No decision on what to plant next.

Soybean Field
Nothing noted.


Hay Field

3rd cutting is in.

Demonstration Plots
 

Buckwheat is reseeding with emergence of new plants.

Peanuts are forming underground on end of pegs.

Clustered Mountain Mint is excellent for attracting every kind of pollinator.

Found many Soldier Beetle. These are similar to lightning bugs and feed on pollen or nectar so are found around flowering plants.


Note: next week will meet at RCE for Soil Test Interpretation Class. Potluck to follow.



A special thank you to Roger for compiling the notes for this week.

 

Notes from August 22, 2013

Some general observations:
  • Mildew on cucumbers
  • Parasitic wasp larvae on dead tomato hornworm
  • Cercosporia on grapes
  • Birds in the corn fields
  • Ragweed shedding pollen

Pheromone Trap Results

Change pheromones in traps today

Trap #1 - Black Cutworm
1 black cutworm moth and 1 sap beetle

Trap #2 - Corn Earworm
2 noctuids, 4 sap beetles, 4 indeterminate insects

Trap #4 - Fall Army Worm
1 sap beetle

Bad year for bugs and a great year for plant diseases



Field Corn
Corn is in the dent stage with approximately one month to harvest. The corn plants are beginning to die back so kernels can dry. Because of the open ends on the ears we are seeing mold starting in the ears. If these lead to mycotoxins then the corn may not be useful for feed.





Corn smut

Popcorn Field
Both varieties are fully tasseled. We are seeing smut fungus in some of the tassels. There is some firing on the lower leaves showing nitrogen deficiency. We found a rootworm beetle that has come up to feed on the silks. Also found a brown marmorated stink bug.

We found some small caterpillars eating the leaves of an amaranth plant.

Wheat/Soybean Field
We are now seeing blooms – the plants have moved into the reproductive stage. There are no pods. We found Soybean Aphid – an aphid that is exclusive to soybeans. We also found ladybugs and lacewings. This infestation of aphids may be severe enough to warrant spraying.


Sweet Corn Field
The sweet corn has been harvested and evaluated. There are still ears available for gleaning. The plan is to disc under the corn and plant a cover crop. There is a lot of sap beetle present in the remaining ears.

Hay Field
Was cut today for Third cutting. Leaf hoppers are moving out – to any nearby crop.

Soybean Field
Growing along nicely. Evidence of Cercosporia and thrips.







Soybean Aphids

Demonstration Garden
 


Tomatoes – Supersonic yield is ahead of Ramapo yield. Potato beetles found (and crushed).


Tomato hornworm with wasp eggs

 

Peppers – show signs of bacterial spotting and thrip damage. Otherwise they have recovered well and are producing peppers.

Peanuts – are pegging


Peanut Pegs


Cow Peas – have very few pods so not likely to reseed itself. However it is an excellent cover crop allowing few weeds and filling in all spaces.
Buckwheat – our lesson learned is that buckwheat is density sensitive and would require better seed rate monitoring. However, surviving buckwheat is maturing and reseeding itself.

New plant – Path Rush. It looks like a clump of grass but is really in the rush family. It is sometimes called wire grass because of its tough stems. It has tiny flowers clustered at the stem tips. It grows in wet conditions but also likes compacted soils. In New Jersey it can be a wetland indicator species.


 Special thanks to Roger for the notes and Ramona for the photographs.