In summer 2021 and summer 2022, we investigated fire effects on Liatris aspera across 30 patches of remnant prairie in Solem Township, MN. We did not collect any new Liatris data in 2023. All harvested samples were processed in the lab during spring 2023. All data has been curated and are analysis-ready.
Had to go back to 2021 to get a Liatris photo, good riddance!
Start year: 2021-2022
Location: 30 patches of remnant prairie in and around Solem Township, MN
Data collected: Spatial location, reproductive effort, and reproductive outcomes data have been curated in the remLa repo. All data are analysis ready.
Samples or specimens collected: All harvested reproductive material have been processed in the lab. Half of the collected seed was sowed in the recently burned southeast hill at the farm. The other half have been reserved for sowing in P2 (provided it burns in spring 2024).
Products: Jared has conducted preliminary analyses. Stay tuned in 2024 for more info!
You can read more about the Liatris fire and flowering experiment, as well as links to prior flog entries about this experiment, on the background page for this experiment.
Since 1995, the Echinacea Project has been mapping and collecting demographic information on Echinacea angustifolia to generate long-term records detailing individual fitness in prairie remnants. In summer 2023, Team Echinacea visited 42 prairie remnants to search at 2443 locations where adult Echinacea plants had been previously mapped. We call this “total demo.” At small sites, the team took records for all adult plants found at a site (no change in total demo protocol from previous years). At larger sites, we scaled down and visited a subset of adult plants. Burning led to high flowering rates and lots of newly flowering plants entering the census, which stressed our system for total demo. This year we did not visit plants that were “not present” for the past 3+ years and we also capped total demo points at 100 per site. For example, at Landfill, we searched at 100 locations at Landfill East and 100 Locations at Landfill West.
We used stake files on our high-precision GPS units to stake to each Echinacea plant in our total demo visit list, where we recorded flowering status, number of flowering heads, number of rosettes, and near neighbors of the plant on handheld data collectors (visors).
In addition to total demo, we searched and took records for all flowering plants in our remnant sites. For flowering demo, we visited 50 sites. In summer 2023, we took 5,601 demographic records in prairie remnants (demo) and 1929 GPS records (surv). We saw a much lower flowering year following 2022, with ~1586 flowering plants total. At Landfill, there were ~262 flowering plants and at Loeffler’s corner, there were 285.
Alexa and Jak step carefully through Kjs as they search for flowering Echinacea plants. 63 plants flowered at Kjs in 2023!
We also took demo and surv data as part of our Pollen and Nectar project where we will compare characteristics of pollen and nectar in burned vs. unburned prairies. We collected demographic data at a subset of plants at several sites where we have never done demo or surv. We put out our first tags at hulze, hulzw, torges, torgen, hutche, hutchw, and koons.
This year, we put out 528 new tags which started at 28001. Two 29000 tags were accidentally created and placed in Landfill East, but those were quickly removed during our demo rechecks following completion of flowering demo and total demo.
Lindsey visits an 18 headed Echinacea plant at Steven’s Approach. This plant produced the most heads of any this year.
After revisiting a final round of recheck plants during a trip to Minnesota in mid-November, we are just getting ready to move data from aiisummer2023 into demap.
Start year: 1995
Location: Remnant prairie populations of the purple coneflower, Echinacea angustifolia, in Douglas County, MN. Sites are located between roadsides and fields, in railroad margins, on private land, and in protected natural areas.
Total demo: Bill Thom’s Gate, Common Garden, Dog, East of Town Hall, Golf Course, Martinson’s Approach, Near Pallida, Nessman, North of Golf Course, South of Golf Course, Sign, Town Hall, Tower, Transplant Plot, West of Aanenson, Woody’s, Yellow Orchid Hill, plus the recruitment plots REL, RHE, RHP, RHS, RHX, RKE, RKW
Annual sample: Aanenson, Around Landfill, East Elk Lake Road, East Riley, KJ’s, Krusemarks, Loeffler’s Corner, Landfill, North of Railroad Crossing, Northwest of Landfill and North of Northwest of Landfill (lumped), On 27, Riley, Railroad Crossing, Steven’s Approach, Staffanson Prairie
Plant status (can’t find, basal, dead this year’s leaves, dead last year’s leaves, flowering), number of rosettes, nearest neighbors, and head count, if flowering
All GPS files are found here: Dropbox/geospatialDataBackup2023
All demo and surv records are stored in the aiisummer2023 repo
The most recent copies of allDemoDemo.RData and allSurv.RData can be accessed at Dropbox/demapSupplements/demapInputFiles
Samples or specimens collected: NA
Products:
Amy Dykstra’s dissertation included matrix projection modeling using demographic data
The “demap” project is a long-term dataset that combines phenological, spatial and demographic data for remnant plants
You can read more about the demographic census in the remnants, as well as links to prior flog entries about this experiment, on the background page for this experiment.
This experiment was designed to quantify how well Echinaceaangustifolia populations are adapted to their local environments. In 2008, Amy Dykstra collected achenes from Echinacea populations in western South Dakota, central South Dakota, and Minnesota and then sowed seeds from all three sources into experimental plots near each collection site. Each year, Team Echinacea takes a demographic census at the western South Dakota and Minnesota plots; we abandoned the central South Dakota plot after it was inadvertently sprayed in 2009, killing all the Echinacea.
In 2022, during the annual census of the experimental plots, we found 135 living Echinacea plants, including 102 basal plants and 33 flowering plants. All but two of the flowering plants were in the South Dakota plot. A wetter-than-average spring may have contributed to the flowering output of these plants. The South Dakota prairies were as green as Amy can remember seeing.
Pictured is one of the flowering plants in the South Dakota plot. We performed the census on June 30, before the flowering heads started dehiscing pollen.
Start year: 2008
Location: Grand River National Grassland (Western South Dakota), Samuel H. Ordway Prairie (Central South Dakota), Staffanson Prairie Preserve (West Central Minnesota), and Hegg Lake WMA (West Central Minnesota).
Data collected: Plant fitness measurements (plant status, number of rosettes, number of leaves, and length of longest leaf)
Samples collected: Heads from all flowering plants; Amy stores the heads in her office at Bethel University.
Products: Dykstra, A. B. 2013. Seedling recruitment in fragmented populations of Echinacea angustifolia. Ph.D. Dissertation. University of Minnesota. PDF
You can read more about Dykstra’s local adaptation experiment and see a map of the seed source sites on the background page for this experiment.
Small remnant Echinacea populations may suffer from inbreeding depression. To assess whether gene flow (in the form of pollen) from another population could “rescue” these populations from inbreeding depression, we hand-pollinated Echinacea from six different prairie remnants with pollen from a large prairie remnant (Staffanson Prairie) and from a relatively small population (Northwest Landfill) in 2008. We also performed within-population crosses as a control. Amy Dykstra (with help from Caroline Ridley) planted the achenes (seeds) that resulted from these crosses in an experimental plot at Hegg Lake WMA.
We sowed a total of 15,491 achenes in 2008. 449 of these achenes germinated and emerged as seedlings. Each summer, we census the surviving plants and measure them.
In 2022, we found 26 surviving plants; all were basal. Joey McGarry staked the plant locations, Amy Dykstra searched for the plants, and Brad Dykstra recorded the data.
Data collected: Plant fitness measurements (plant status, number of rosettes, number of leaves, and length of longest leaf), and notes about herbivory. Contact Amy Dykstra to access this data.
Samples collected: NA
Products: Dykstra, A. B. 2013. Seedling recruitment in fragmented populations of Echinacea angustifolia. Ph.D. Dissertation. University of Minnesota. PDF
You can read more about Dykstra’s interpopulation crosses, as well as links to prior flog entries mentioning the experiment, on the background page for this experiment.
In summer 2022, Team Echinacea continued the aphid addition and exclusion experiment started in 2011 by Katherine Muller. The original experiment included 100 plants selected from exPt01 which were each assigned to have aphids either added or excluded through multiple years. The intention is to assess the impact of the specialist herbivore Aphis echinaceae on Echinacea fitness.
In 2022, Emma Reineke and Kennedy Porter conducted the aphid addition and exclusion project. They located 24 living exclusion plants and 17 living addition plants. Similar to the past two years, they did not find any aphids in exPt01, so they started to introduce a new population of Aphid echinaeceae into ExPt1. Learn more in the summer aphid update.
Kennedy and Emma with their aphids (credit: Emma)Ants tend aphids on a leaf (credit: Emma)
Plant status (basal, flowering, not present), aphids present, ants present, herbivory (number of leaves significantly chewed on), and the number of aphids added/removed (depending on specific treatment)
Protocols and datasheets are located at ~Dropbox\aphidAddEx\aphids2022
Samples collected: NA
Products:
Andy Hoyt’s poster presented at the Fall 2018 Research Symposium at Carleton College
2016 paper by Katherine Muller and Stuart on aphids and foliar herbivory damage on Echinacea
2015 paper by Ruth Shaw and Stuart on fitness and demographic consequences of aphid loads
You can read more about the aphid addition and exclusion experiment, as well as links to prior flog entries mentioning the experiment, on the background page for this experiment.
In summer 2021, Team Dust began a project to look at the effect of dust on reproduction of Echinacea. They randomly assigned treatments of ‘dust’ or ‘no dust’ to 41 heads in ExPt2. Many heads were eaten by ground squirrels, but they harvested the 18 survivors, and Amy Waananen x-rayed the achenes from these heads in March 2022 to evaluate seed set.
This summer, Emma Reineke took the lead on the project, assisted by Kennedy Porter. They applied dust treatments to 64 Echinacea heads at a prairie remnant, Nice Island. They also conducted an observational study using dust traps to measure dust levels at varying distances from unpaved roads. Learn more in Team Dust’s summer update. In late summer, the team harvested the 64 heads, and Amy now has them at UMN. Emma recently received UROP (undergraduate research opportunities program) funding to continue research on the dust project during spring semester.
Emma applies dust to an Echinacea head (credit: Emma)A dust trap (credit: Emma)
Start year: 2021
Location: ExPt2 and Nice Island
Overlaps with: None
Data collected:
Relative amounts of dust levels along unpaved roads at Aanenson and Riley
Datasheets are located at ~Dropbox\teamEchinacea2022\emmaReineke\Dust 2022
Samples or specimens collected:
We collected 64 heads, which are currently in the R. Shaw Lab in the Ecology building at UMN.
Since 1995, the Echinacea Project has been mapping and collecting demographic information on Echinacea angustifolia to generate detailed, long-term records of individual fitness in prairie remnants. In summer 2022, Team Echinacea visited 34 prairie remnants to search at 2927 locations where adult Echinacea plants had been previously mapped, a process we call “total demo.” At small sites, the team searched for all adult plants, and at large sites, we visited a subset of the adult plants. This year, we did not visit plants that had been “not present” for the past 4 years. However, we added plants that flowered for the first time in 2019, 2020, or 2021. At the large sites, we added many more plants than we removed; at Landfill, we removed 18 plants but added 129 new plants, so we visited 285 plants in total. We plan to revisit the total demo protocol before next summer so our subsets do not reach unreasonable sizes.
At each Echinacea plant, the team used handheld data collectors (visors) to record the flowering status, number of flowering heads, number of rosettes, and near neighbors of the plant. We then mapped the location of every flowering plant within each prairie remnant using a high-precision GPS unit. Unfortunately, the new GPS unit, Collins, stopped working early in the summer. Nevertheless, the team persisted with the old GPS.
Johanna and Kennedy collect demographic data on Echinacea at On27
In summer 2022, Team Echinacea collected 7926 demographic records (demo) and recorded 3708 GPS points (surv). In total, we collected data on ~2870 flowering Echinacea angustifolia plants. A combination of favorable weather and prescribed burns made it a record-breaking year for flowering Echinacea. Landfill had 713 flowering plants this year (east: 373, west: 340) compared to only 327 last year. There were 518 flowering plants at Loeffler’s Corner (east: 292, west: 226), and 266 flowering plants at Staffanson. The demo and surv datasets are in the process of being combined with previous years’ records of flowering plants in “demap,” the spatial dataset of remnant reproductive fitness that the Echinacea Project maintains.
This year, new tags ranged from 27001 to 27999. However, due to the high number of flowering plants and issues with people adding unnecessary tags, we ran out of tag numbers in the 27000s. Therefore, we also used new tags ranging from 25651 to 25890 and from 26881 to 26999 in 2022.
We are especially interested in understanding how fire influences reproductive effort in fragmented prairies. The following sites were burned in spring 2022: Bill Thom’s Gate, Landfill West, Loeffler’s Corner West, Martinson’s Approach, Northwest of Landfill, North of Northwest Landfill, Staffanson West, and West of Aanenson. We noticed increases in flowering at most burned sites, even some of the small ones. For example, West of Aanenson had 7 flowering plants this year, which is the highest flowering rate on record since we started mapping Echinacea there in 1999. Stay tuned for more results from this intriguing dataset!
Members of Team Echinacea do total demo at the Transplant Plot
Start year: 1995
Location: Remnant prairie populations of the purple coneflower, Echinacea angustifolia, in Douglas County, MN. Sites are located between roadsides and fields, in railroad margins, on private land, and in protected natural areas.
Total demo: Bill Thom’s Gate, Common Garden, Dog, East of Town Hall, Golf Course, Martinson’s Approach, Near Pallida, Nessman, North of Golf Course, Randt, South of Golf Course, Sign, Town Hall, Tower, Transplant Plot, West of Aanenson, Woody’s, Yellow Orchid Hill, plus the recruitment plots REL, RHE, RHP, RHS, RHX, RKE, RKW
Annual sample: Aanenson, Around Landfill, East Elk Lake Road, East Riley, KJ’s, Krusemarks, Loeffler’s Corner, Landfill, North of Railroad Crossing, Northwest of Landfill and North of Northwest of Landfill (lumped), On 27, Riley, Railroad Crossing, Steven’s Approach, Staffanson Prairie
Plant status (can’t find, basal, dead this year’s leaves, dead last year’s leaves, flowering), number of rosettes, nearest neighbors, and head count, if flowering
All GPS files are found here: Dropbox/geospatialDataBackup2022
All demo and surv records are stored in the aiisummer2022 repo
The most recent copies of allDemoDemo.RData and allSurv.RData can be accessed at Dropbox/demapSupplements/demapInputFiles
Samples or specimens collected: NA
Products:
Amy Dykstra’s dissertation included matrix projection modeling using demographic data
The “demap” project is a long-term dataset that combines phenological, spatial and demographic data for remnant plants
You can read more about the demographic census in the remnants, as well as links to prior flog entries about this experiment, on the background page for this experiment.
This recruitment experiment was originally established in 2000 to quantify seedling emergence and juvenile survival of Echinacea angustifolia during its reintroduction to sites with varying land-use history and burn schedules. Before 2014, we collected detailed data on each plant in the plots. Since 2014, Team Echinacea has censused each plot yearly to collect demographic data for every flowering plant.
In 2022, Team Echinacea visited 9 recruitment plots and searched for 168 Echinacea angustifolia plants that had flowered previously. Across the 9 plots, we found 76 basal plants and 126 flowering plants, and we were unable to find 14 plants. Of the flowering plants, 35 plants flowered for the first time in 2022. It was a high flowering year! For each flowering plant, the team collected demographic data (number of rosettes and flowering heads) and shot a GPS point at the exact location of the plant.
There was at least one flowering Echinacea plant at each of the 7 recruitment plots where plants had flowered previously. We also visited 2 recruitment plots at Hegg Lake WMA, a site managed by the Minnesota DNR, where the Echinacea had never flowered in the past. At Hegg West, we discovered a new flowering plant with 7 heads! At these two sites, we used a metal detector to find the nails marking the plot boundaries. We mapped the corners of the plots with the GPS so they will be easier to locate next year. The 6 recruitment plots at Hegg Lake WMA containeda total of 103 flowering plants, Eng Lake WMA had 16 flowering plants, and Kensington WMA had 7 flowering plants in 2022.
Lindsey uses a metal detector to locate the nails marking recruitment plot boundaries
Start year: Plantings in 2000-2002
Location: Seven study plots on state land with different land use histories: old-field and restored grassland
You can read more about the fire in recruitment experiment, as well as links to prior flog entries about this experiment, on the background page for this experiment.
