Climate Adaptive Demonstrations
For the next three years (2023-2025), we will demonstrate Climate Adaptive Strategies at the NWREC Learning Farm
These experiential demonstrations will focus on drought-resilient and climate-adaptive production strategies and will include techniques such as dry farming, low and no-tillage, tarping, and drip irrigation systems.
These techniques have been identified as crucial needs by our farmer networks in light of Western drought and wildfire conditions.
2023 SUMMER WORKSHOP SERIES: Climate Adaptive Strategies for Small Farms
- July 18th - Irrigation Scheduling
- Aug 23rd - Reduced Tillage Options
- Sept 6th - Dry Farmed Field Day
Blog Posts
August 7th 2023
Updates on the reduced tillage sweet corn demonstrations:
The Reduced Tillage Workshop will be Wednesday, August 23 from 3:00 to 6:00 pm at NWREC in Aurora.
Assessing Soil Hardness
We used penetrometers to replicate the force needed for a root to move down through the soil. On August 3, we measured surface (6”) and subsurface (18”) hardness in the sweet corn by slowly pushing the penetrometer through the soil of each treatment. The sweet corn was being irrigated at the time of sampling. We recorded three readings of each bed for six total samples per treatment. The penetrometer scale runs from 0 to 300+ psi, readings exceeding 300 psi indicate root growth inhibition and the presence of hard pans.
Weed levels
We observed distinct differences in weed levels among the tillage treatments. To accurately quantify these differences, we recorded the time it took to weed each treatment. Victoria and Heidi conducted the hand-weeding for each treatment collaboratively. The sweet corn is planted in 40-foot beds, with two rows per bed and two beds per treatment.
There were hardly any weeds in the no-till plots, while the conventionally tilled plots had a robust population of grass. It took just over twice as long to weed the conventionally tilled plots compared to the reduced tillage plots and eight times longer than the no-till plots.
Surface level compaction had the greatest resistance in the no-till plots and the least resistance in the reduced till plots. Subsurface compaction levels were similar across all three treatments, ranging from high to very high. The presence of hardpans varied from depths of 3” to 15” to none throughout the treatments. We were unable to break through the shallow (3-6”) hardpan in one of the no-till beds. These beds were tarped this spring, and a farmer we interviewed mentioned that rain hitting the tarps could increase soil compaction. This may explain what we are observing. Additionally, we encountered compaction from the wheels of the compost spreader, which did not align with the wheel tracks of our beds.
May 22nd 2023
We applied 3 inches of compost to the tops of each bed. The compost was worked in differently depending on the demonstration.
Dry Farm plots with a perfecta.
Conventional Tillage and Irrigation with a rototiller.
Reduced Tillage with a harrow.
No-Till we raked it smooth and left it directly on top of the bed
March 28th 2023
Last week Lucas Nebert (OSU Dryfarmed Corn Project) came out to NWREC and used his bucket auger to collect sub soil and determine site suitability for the dry farming demonstration.
The soil was well drained all the way down and was free from significant compaction layers. No grey (anoxic) layers were observed in this sample.
Lucas collected soil from the 24-36 in layer for nutrient and pH analysis.
We plan on replicating some of Lucas's squash trials this year and will be growing Delicata (Zeppelin) and Georgia Candy Roaster.
March 21st 2023
After a hard rain, puddles formed on the tarp. It seems the cover crop is too tall and it is pushing the tarp up in places.
We had a dry window for a few days so we flail mowed the no-till plot and the agrivoltaic plots. We replaced the tarp in the no-till and plan to roll out the tarp in the agrivoltaics soon.
Tarping the NWREC Learning farm
March 7th 2023
As part of bed prep this spring we tarped a 20x60 ft section of the Learning Farm. This section will be our No-Till area for the next three years.
The field currently has a cereal rye & vetch cover crop. Tarping with black plastic deprives the plants of light and will eventually smother and kill the plants underneath. It also has the added benefit of warming to soil and keeping late spring rains from saturating the soil, allowing us to get into the field earlier than usual.
The tarp is 6 mil black plastic