This project supports three breeding projects in cooperation with the Ecological Farmers Association of Ontario’s Farmer-Led Research Program. All three projects focus on providing best practices to adapt to climate change by breeding varieties that are locally adapted to low-input organic systems for southern Ontario and the US northeast and meet identified needs of organic growers in the region. By supporting farmer-led breeding efforts for organic production, this project also contributes to an emerging but critically under-researched area of vegetable farming.
In this project I will continue to assess downy dildew (DM) resistant cucumber seedstocks, with intensified focus on evaluating and advancing the lines I selected in 2018 from Common Wealth Seed Growers’ DMR breeding population. This population performed very well in our 2018 trials, having the highest yield and best foliage ratings in the DM trial, and above average performance in the bacterial wilt (BW) trial. Because I am increasing focus on cucumbers, I am not including melon research in this year’s proposal.
Many of today's biggest agricultural challenges are social, as extensive research on best management practices is met with low rates of adoption. Bridging the gap between research and implementation requires moving past the quantitative, survey-based methods that are often used to answer questions about adoption and decision-making processes (Prokopy, 2011). Our study aims to promote successful utilization of best organic nutrient management practices by employing qualitative social science research.
Lentils are important for diversifying wheat-based cropping systems and are also beneficial in enhancing soil health. These benefits have contributed to the exponential growth in pulse crop acreage in The Northern Great Plains (NGP). There are several challenges facing organic lentil production. Lack of approved herbicide for use in organic pulse crop production provides a challenge to weed management.
North Carolina is the second largest producer of organic sweet potatoes in the U.S., with a rapid 42% increase in acreage transitioning to organic from 2014 to 2016. Despite a steady demand for organic sweet potatoes, marketable yield often does not reach the yield potential for this region due to challenges in weed, insect and soil fertility management. Through farmer consultation soil borne pests such a wireworm and weed proliferation were identified as two areas of concern for organic farmers in North Carolina.
As the negative health and environmental effects of chemical soil fumigation become more apparent, it is critical to devise safe, alternative methods of soil fumigation. Organic growers constantly struggle with weed control and need innovative, chemical‐free weed management techniques.
In this project I will assess resistance to both Bacterial Wilt and Cucurbit Downy Mildew among selected cucumber and muskmelon seedstocks, and move forward with an ongoing project to develop a pickling cucumber that is resistant to both diseases.
Predicting the capacity of soil to supply nitrogen is an ongoing challenge in organic farming. Simple and affordable soil tests that can predict organic nutrient release are of particular interest for organic farmers, because organic farming exclusively relies on this microbially-driven process for crop nutrition. Emerging soil health measurements can shed insight into organic nutrient mineralization, offering organic farmers a better nutrient management tool.
The objectives of this project are to attain information about the corn earworm management strategies of organic sweet corn growers. This information will be used to achieve two outcomes: creation of an extension publication about corn earworm management strategies, aimed at organic farmers, and collection of data that will inform longer-term efforts of developing earworm-resistant sweet corn cultivars for organic farmers.
Conventional strawberry nurseries that fumigate soils with methyl bromide and other synthetic chemicals prior to propagation are currently the main source of transplants for both conventional and organic production systems. While many organic strawberry growers have expressed dissatisfaction with having to use conventional transplants, organic transplants simply are not commercially available. In part, commercial availability of organic transplants has been limited due to a lack of tested varieties as well as a lack of supply during the traditional planting season.