Next week is full of great biocontrol events! If you are in the Geneva, NY area, don’t miss out!
Thursday August 11 5:30-7:30 PM
Participants enjoying last year’s Habitat for Beneficial Insects Open House.
We are in our 5th year of establishing perennial wildflowers and grasses to support pollinators and natural enemies of pests. Perhaps you’ve been following our progress (although admittedly I owe you all an update post or two). Or maybe you keep up with pictures on my Instagram. Now you can see these plots for yourself at our Habitat for Beneficial Insects Open House!
Come visit us any time between 5:30 and 7:30 PM. This outdoor event is free and no registration is required. Just put this address into your GPS:
1097 County Rd. 4
Geneva, NY 14456
Then look for these signs:
Funds for this project were provided by NYS Dept of Ag and Markets, the Towards Sustainability Foundation, and the USDA National Institute of Food and Ag.
Friday August 12, 5-7:30 PM
Bryan Brown talking about integrated weed management at last year’s event.
As part of a larger Christmas tree IPM project, we’re looking at using biopesticides applied to Christmas tree roots at planting to protect the young trees from root diseases (especially Phytophthora). We’re having a Field Day so that you can see both acres of Christmas trees we’ve planted and learn about early results from the project.
Please do register for this event using the “Field Day” link above!
Like the Habitat for Beneficial Insect Open House, put this address into your GPS:
1097 County Rd. 4
Geneva, NY 14456
Then look for these signs:
This work is supported by Agriculture and Food Research Initiative – Foundational and Applied Science Grant no. 2021-68008-34179/project accession no. 1025660 from the USDA National Institute of Food and Agriculture.
Saturday August 13, 10 AM – 3 PM
This year we planted two new raised beds with perennials that support beneficial insects.
NYS IPM will be at Cornell AgriTech’s 140th Anniversary Open House talking about how to “feed your insect friends”…by creating excellent habitat for them, of course! This spring we planted two raised beds with a mixture of perennials selected to provide pollen and nectar from spring through fall. Come see how these new plantings are growing, learn more about beneficial insects and how to create your own habitat, and pick up some (temporary) tattoos of pest natural enemies! Then visit the rest of the educational displays at Cornell AgriTech.
Funding for our displays at this event is being provided by Cornell AgriTech and NYS Dept of Environmental Conservation.
The different weed management strategies we are comparing certainly look different in the field. But how do they impact tree growth and quality?
Back in June we introduced you to a new project comparing different methods for weed and root disease management when establishing Christmas tree seedlings. Recall that this is a collaboration among Bryan Brown, Amara Dunn, Brian Eshenaur, Betsy Lamb, and Lynn Sosnoskie. We wrapped up our first season in October, and we have a first look at some of the data. In this post, we’ll focus on tree survival and tree growth. There’s a lot more weed data!
Treatments
Let’s start with a quick reminder of the treatments we were comparing. Each row of 28 trees received the same weed management treatment. Each row was also divided into four plots of seven trees each. Each plot within a row received a different root treatment. Here’s a map of how the treatments were laid out in the field.
Weed management (in-row, within a 30” band around the row of trees; between row zones were seeded with grass and mowed 4 times) :
Cultivate – three times early in the season using a tractor drawn KULT Kress Argus Toolbar with sweeps, finger weeders, and a rear side-shift adjustment
Herbicide – conventional active ingredients (oxyfluorfen and pendimethalin applied shortly after planting, with a fall application of glyphosate) as a control treatment
Mow – mow about every two weeks with a walk-behind mower
Mulch – 3 inches of chipped shrub willow mulch
Untreated – No weed management at all
Root disease management:
ProPhyt (active ingredient: potassium phosphite) – a biopesticide applied by dipping bare roots of seedlings just before planting; mixed 1.28 fl oz in 2 gallons of water for 140 trees (11 fl oz/A if you plant 1,200 trees/A)
RootShield PLUS WP (active ingredient: Trichoderma harzianum Rifai strain T-22 and Trichoderma virens strain G-41) – a biopesticide applied twice (the day after planting and 7 weeks later) as a drench around each tree (24 oz/A in 171 gallons of water/A)
Subdue Maxx – a conventional fungicide applied twice (the day after planting and 5 months later) as a soil-directed spray (2.5 pt/A in 140 gal/A in a 6-inch band on either side of the row of trees). We made the application with a hand-pump backpack sprayer fitted with a TeeJet TTI11005 nozzle with a shield rotated parallel to the row of trees. The maximum pressure possible with this sprayer is 60 psi. After application, we applied an extra 0.45 gallon of water per plot of 7 trees with the same sprayer (280 gal/A additional water).
Water – 1 pt of water poured around each tree at planting, as a control.
What we measured
We’re interested in how the weed and root disease treatments impact survival, growth, and quality of these trees. Thanks to our excellent technicians, Marcus and Erik, for helping us measure all of these trees! Betsy and Amara were helping, too, but in this picture Amara is behind the camera.
Betsy and Marcus measuring trees and evaluating needle color in May.
On May 25 (about a week after planting) and again on October 6 we measured the height of each tree (from the soil to the tallest part of the tree, even if it wasn’t the leader anymore) and the diameter of the tree trunk 4 inches above the soil. In both May and October, we also rated the color of the needles using this scale. However, we only used: 2 (darkest green), 5 (medium green), 7 (paler green), and 9 (yellow or brown).
Of course, measuring and rating each tree also allowed us to take note of which trees had died (versus a few that unfortunately succumbed to “mower blight”).
What we found
Percentage of trees in each plot (out of seven trees total) that were still alive by October 2021, not counting a couple that were accidentally mowed. Each bar is the average of four plots for each combination of root treatment (color of bars) and weed management strategy (along x-axis). The lines on each bar show variability (one standard error above and below the mean value).
It’s too early to know for sure, but it’s possible that the root treatment that results in the best seedling survival might depend on which weed management strategy you use. For example, after just one year, the RootShield PLUS-treated trees did better than the ProPhyt-treated trees where herbicide was used, but not where the weeds were allowed to grow unchecked (‘Untreated’). We haven’t done a statistical analysis on the data, yet, but the little lines at the top of each bar are an indication of the amount of variability amongst the four plots in each treatment (one standard error above and below the mean percent survival, for those who might be interested).
Change in height of Christmas trees from May to October 2021. Each bar is the average of up to 28 trees (7 trees in each of 4 plots) for each combination of root treatment (color of bars) and weed management strategy (along x-axis). The lines on each bar show variability (one standard error above and below the mean value).
These Fraser fir seedlings grew between 1 and 2.5 inches during their first season. Much like the tree survival, the root treatment that produced the most growth wasn’t consistent across all weed management strategies. Results for tree trunk diameter were similar.
Average needle color when trees were rated in October. Lower numbers indicate darker green color. Each bar is the median value of up to 28 trees (7 trees in each of 4 plots) for each combination of root treatment (color of bars) and weed management strategy (along x-axis).
Recall that needle color was rated as 2 (darkest green), 5, 7, or 9 (most yellow or brown). So on this graph, shorter bars indicate better needle color. Also, this rating scale impacted how we summarized the data. Instead of taking the mean needle rating, we used the median. (Here’s a quick refresher on the difference.) And the graph doesn’t have those little lines to summarize the variability in each treatment. Too early to draw firm conclusions, but again, there might be some interactions between root treatment and weed management strategy.
What does it cost?
Economic risk is one of the risks we seek to reduce through IPM, so we’ve been keeping track of the costs associated with our pest management strategies. Based on the way we applied the root treatments and some local price estimates, here’s what we would have spent per acre for these treatments, assuming we planted 1,200 trees on each acre (that’s 6 ft x 6 ft spacing).
Fungicide
Rate/A
Number of applications
Cost/A (Supplies)
Cost/A (Labor1)
ProPhyt
11 fl oz2
1
$4
$1,037
RootShield PLUS WP
24 oz3
2
$123
$4,150
Subdue Maxx
2.5 pt3
2
$82
$2,074
Water
–
1
$0
$2,075
1We assumed a labor rate of $20/hr. These costs were calculated based on the time it took us to apply the products. This includes drenching each tree by hand (RootShield PLUS WP and water) and applying Subdue Maxx (and additional water to move it into the soil) with a backpack sprayer. On a larger scale, there’s surely a more efficient way to do this.
2Seedling roots were dipped in a ProPhyt solution prior to planting. The rate on the label is 4 pt/100 gallons of water. We mixed up 2 gallons of root dip solution (containing 1.28 fl oz of ProPhyt) to treat 140 trees. If we had used a fresh 2 gallons for every set of 140 trees, we would have used 11 fl oz of ProPhyt on an acre of 1,200 trees.
3Because RootShield PLUS WP was applied as a drench to each tree and Subdue Maxx was applied as a soil-directed spray banded on either side of the row, these rates are per acre of ground to which pesticide was applied. This is less than the total space taken up by these trees in the field. Read and follow the pesticide label for instructions on calculating quantity of product needed for banded applications.
And here’s a summary of our weed management costs. You can see all the details of these costs (including labor and supplies) here.
In-row weed management
Cost/A (labor and supplies)
Cultivate
$248
Herbicide
$86
Mulch
$1,153*
Mow
$293
Untreated
$0
*Assumes woodchips can be obtained locally at no cost
Take home
With only one season of data, it’s too early to draw conclusions about the effectiveness (or cost effectiveness) of each treatment. So far, survival of trees treated with ProPhyt is looking very good across most weed management strategies. And we’re seeing some indication that the best (in terms of tree survival, growth, or color) root treatment to use may vary depending on what you’re doing to manage weeds.
In late October we also dug up five dead trees and sent them to the Cornell Diagnostic lab to check for Phytophthora. The trees had been dead for a while, so they were only able to test for the presence of any Phytophthora species (which could include some that don’t cause disease on Christmas trees). Four out of five trees came back positive, which makes us feel more confident that we picked a good field for this trial…if by “good” you mean one where trees will be exposed to Phytophthora. For the purposes of this project, that’s exactly what we mean.
Please let us know if you have questions and stay tuned for more updates on this project. We’ve got at least two more years to go! You can check back on this blog (subscribe so you’ll know when new posts are available!), follow Lynn Sosnoskie and Amara Dunn on Twitter or on Instagram (@specialtycropweedscience and @biocontrol.nysipm), or check out Bryan Brown’s webpage. We’ll also be hosting another field event in 2022 and hope to provide updates at future Christmas Tree Farmers Association of NY meetings.
This work is supported by Agriculture and Food Research Initiative – Foundational and Applied Science Grant no. 2021-68008-34179/project accession no. 1025660 from the USDA National Institute of Food and Agriculture.
This post was written by Amara Dunn, Biocontrol Specialist with the NYSIPM program, with helpful input from project collaborators. All images are hers, unless otherwise noted.
The different weed management treatments are most noticeable, but we’re also comparing at-planting treatments to prevent root disease and improve seedling survival.
You may recall that we started a new project on Christmas tree IPM this year. Now you can come hear more about how the project is going, and see the in-progress treatments in person!
When
The event will be held outdoors on August 19, 2021 from 5:00 to 7:30 PM in Geneva, NY. Please register by August 18th so we have enough food for everyone.
Where
To get to our field, put this address into your GPS:
1097 County Rd. 4
Geneva, NY 14456
Then look for these signs to find our field and park:
Cost
In order to help improve access to this event, we are inviting attendees to pay what they can. $25 will cover the cost of the meeting, but if this poses a barrier to your attendance, we are suggesting a reduced rate of $15. If you wish to support someone else who might need help attending, you can choose to pay $35. Any questions or concerns, please reach out to me.
5:45 Alternative weed management systems for Christmas trees – Dr. Bryan Brown (20 minutes)
6:15 Herbicides for weed management in Christmas trees – Dr. Lynn Sosnoskie (20 minutes)
6:45 Biopesticides for Christmas tree root diseases – Dr. Amara Dunn (20 minutes)
7:05 Visit the Christmas tree fields and the beneficial habitat project
7:30 Safe travels home
COVID precautions
In order to offer an experience that is accessible and as safe as possible for all attendees, we are requesting that everyone wear a mask unless you maintain at least 6 feet of distance between yourself and people you do not live with, regardless of your vaccination status. There will be plenty of space at the field to spread out (both for eating and drinking, and for participating in the programming). Speakers will be using microphones so that you will still be able to hear even if you are standing further from the speaker than usual. We will have masks available if you do not have one. (But if you have a favorite Christmas tree mask, we definitely want to see it!) These recommendations follow Cornell’s current guidance and if that guidance changes, we will let you know.
More details
1.5 DEC pesticide recertification credits available for categories 1a, 3a, 25 and 10
A light supper will be provided.
Funds for this project were provided by the Toward Sustainability Fund, NYS Dept of Ag and Markets, and the National Institute of Food and Ag
We planted a new field of Christmas trees this spring!
If you’ve been following this blog for a bit, you might recall that the beneficial insect habitat plots I’ve been helping to establish and monitor with my colleagues Betsy Lamb and Brian Eshenaur are located on the edges of a field of Christmas trees. Once the trees get a bit bigger, we’ll be able to start assessing whether trees closer to these wildflowers have fewer pests or not.
New in 2021, I’m collaborating with Bryan Brown, Brian Eshenaur, Betsy Lamb, and Lynn Sosnoskie on a three-year project funded by the USDA to look at IPM when you’re establishing a new field of Christmas trees. An important part of IPM is the integration of multiple strategies when managing pests. So in this project we’re looking at some tools for managing both weeds and root diseases (specifically Phytophthora).
Weeds
Our weed management strategies include:
Mulching with approximately 3 inches of chipped shrub willow
Cultivating three times early in the season using a KULT Kress Argus Toolbar with rear side-shift adjustment pulled by a tractor
Mowing grass seeded around the trees
Conventional herbicides (oxyfluorfen and pendimethalin applied shortly after planting, with the possibility of additional applications depending on the length of the residual control) as a control treatment
No weed management at all (another control treatment)
We planted 560 Fraser firs in 20 rows on May 19th, and four of these rows will be receiving each of these different weed management treatments. So far, we’ve spread mulch…
Mulch was dumped in small piles along the row of trees, and we raked it in to place. Photo taken by Lynn Sosnoskie.
…and applied herbicides.
Since a few of the trees were getting close to budbreak, we shielded them when applying the herbicide.
Lynn and her team collected soil from the field to assess which weed seeds are currently present in the seedbank. They will continue to evaluate the weed seedbank yearly to determine whether different weed management programs result in different weed seeds in the seedbank. Bryan, Lynn, and technicians working for them will also be assessing the success of each weed control strategy throughout the season (weed density and biomass).
Disease
Within each row, plots of seven trees have been assigned to one of four different treatments for root disease control. The biocontrol piece of this project is the root disease management tools. The biofungicide RootShield PLUS WP contains two different species of the fungus Trichoderma. These fungi may protect the trees by:
Inducing resistance – turning on the plants defense mechanisms ahead of pathogen attack
Exclusion – growing on the roots so there’s no space for the pathogen to grow
“Eating” the pathogen – Trichoderma is a fungus that parasitizes other fungi (and water molds)
Poisoning the pathogen – Trichoderma produces antimicrobial compounds
Promoting plant growth – Stronger, healthier trees are more likely to survive pathogen attack (and probably be more resilient to water stress).
A study done in Oregon on Douglas fir found that Trichoderma species might help improve survival of trees in pots when they are being attacked by the water mold Pythium. So we’re curious if we can document similar results in the field. We applied RootShield PLUS as a soil drench immediately after transplanting, and will repeat the application 6-8 weeks later.
There’s also been some work done by Richard Cowles in Connecticut suggesting that ProPhyt could improve the color of Fraser firs when they are planted in a field known to have Phytophthora. The active ingredient in ProPhyt is potassium phosphite (equivalent to phosphorous acid), so this product is also classified as a biopesticide by the EPA. I think of it as not really a biological control, since it neither contains a (current or formerly) living organism, nor was made by a living organism. We applied ProPhyt as a root dip immediately before planting. It works by inducing plant resistance, and also inhibiting (“poisoning”) water molds like Phytophthora.
The other two root disease treatments are controls: Subdue Maxx (active ingredient mefenoxam) and just water. Subdue Maxx was applied as a shielded, soil-directed spray the day after we transplanted the trees. All the trees were watered in right after planting because we planted a bit late in the season and it was a pretty warm day. The label calls for a second application in the fall.
So far, we’ve collected data on the initial height, stem diameter (4 inches above the soil) and needle color of every tree in the field. We’ll do this again in the fall to assess tree growth over this first season, and tree health (needle color). We will also record how many trees in each treatment survive. Bi-weekly weed surveys have also been initiated. Bryan has started cultivating the trees in that weed control treatment.
For updates on this project, you can check back on this blog (subscribe so you’ll know when new posts are available), follow Lynn and Amara on Twitter or on Instagram (@specialtycropweedscience and @biocontrol.nysipm), or listen to Bryan’s podcast. We’ll also be hosting events at the field (Geneva, NY) in this and subsequent years (put August 19th on your calendars, and stay tuned for more details), and hope to provide updates at future Christmas Tree Farmers Association of NY meetings.
This work is supported by Agriculture and Food Research Initiative – Foundational and Applied Science Grant no. 2021-68008-34179/project accession no. 1025660 from the USDA National Institute of Food and Agriculture.
This post was written by Amara Dunn, Biocontrol Specialist with the NYSIPM program. All images are hers, unless otherwise noted.
