Source: AUBURN UNIVERSITY submitted to
THE DIVERGENT PATHS OF ORGANIC TRANSITION: BEST MANAGEMENT PRACTICES FOR INITIAL YEARS OF ORGANIC VEGETABLE FIELDS IN SOUTHEASTERN U.S.
Sponsoring Institution
National Institute of Food and Agriculture
Project Status
ACTIVE
Funding Source
OTHER GRANTS
Reporting Frequency
Annual
Accession No.
1027231
Grant No.
2021-51106-35568
Cumulative Award Amt.
$595,000.00
Proposal No.
2021-04817
Multistate No.
(N/A)
Project Start Date
Sep 1, 2021
Project End Date
Aug 31, 2025
Grant Year
2021
Program Code
[112.E]- Organic Transitions
Project Director
da Silva, A.
Recipient Organization
AUBURN UNIVERSITY
108 M. WHITE SMITH HALL
AUBURN,AL 36849
Performing Department
College of Agriculture
Non Technical Summary
This is an Organic Transitions Research-led project to develop best management practices that mitigate risks of crop failure for initial years of organic transitioning fields and promote sustainable intensification of organic vegetable production. Best management practices for new organic systems will be determined based on agricultural and environmental aspects, such as soil health, weeds, insects, disease, crop development, yield, and quality. In addition, the feasibility for growers' adoption will be considered and stakeholders' involvement in planning, development, and implementation of outputs will be a key aspect of this project. As a result, Auburn University and the Alabama Cooperative Extension System will create guidelines for more effective land use, pre-planting land preparation, and weed management during the transition of organic vegetable fields. Conventional and novel outreach approaches will convey information generated from proposed activities to our clients, growers, and stakeholders. A project evaluation will measure the immediate and long-term impact. Ultimately, the certified organic field and proposed new capacity building initiative will ensure the sustainability of the project scale. The objectives of this project are in line with the Strategic Plans of USDA and the Priority Areas of the Organic Transitions.
Animal Health Component
50%
Research Effort Categories
Basic
20%
Applied
50%
Developmental
30%
Classification

Knowledge Area (KA)Subject of Investigation (SOI)Field of Science (FOS)Percent
2162300114030%
1021499310070%
Knowledge Area
102 - Soil, Plant, Water, Nutrient Relationships; 216 - Integrated Pest Management Systems;

Subject Of Investigation
1499 - Vegetables, general/other; 2300 - Weeds;

Field Of Science
1140 - Weed science; 3100 - Management;
Goals / Objectives
Failure is frequently reported by vegetable growers during the initial years of an organic transitioning field; however, there is not a single guide with best management practices during the implementation of organic fields for vegetable production. While the majority of guides emphasize the required practices for organic certification, there is a clear lack of guidance on practices that minimize the risks of outbreaks and are environmentally friendly. Under these contexts, the overall project goal is to identify potential agricultural and environmental threats during the transition of organic fields for vegetable production, and to develop resilient strategies that mitigate risks of failures and improve the sustainable intensification of organic vegetable systems in the southeastern U.S. The project specific objectives are:Objective 1: Document potential risks of crop failure and determine benefits of alternative use of land for the first year of new vegetable organic fields.Objective 2: Evaluate the impact of pre-planting land preparation on soil health, plant development, and crop yield for the initial years of an organic field.Objective 3: Evaluate the effectiveness of weed control programs for key species populations during the initial years of an organic vegetable transition.Objective 4: Development of best management practices for organic vegetable transitioning fields.Objective 5: Extension, education, and internal project evaluation.
Project Methods
Objective 1:Document potential risks of crop failure and determine benefits of alternative use of land for the first year of new vegetable organic fieldsA one factorial experimental design will be used to evaluate three approaches of land use in a randomized complete block arrangement. Land use approaches will consist of fallow ground with periodic tillage, growing of a cover crop (i.e., sorghum sudangrass), and growing of a vegetable crop (i.e., tomato).Fallow ground treatment will consist of continuous use of bare ground during the entire season with constant soil tillage to control weeds. For the cover crop and vegetable crop treatments, a pre-planting land preparation of soil tillage and cultivation will be conducted. Sorghum sudangrass will be mechanically planted using a four-row planter. Plastic mulching beds with drip irrigation will be used for tomato plants that will be hand-transplanting.Our hypothesis is that growing cover crop during year 1 of organic transition builds soil health, suppresses weeds, and minimize risks of crop failure compared to fallow ground and production of vegetable crops. This means delaying cash crop by one year may provide long-term benefits.Objective 2:Evaluate the impact of pre-planting land preparation on soil health, plant development, and crop yield for the initial years of an organic fieldFor experiment 1, a one factorial experimental design of three strategies of pre-planting land preparation for organic tomato production will be randomized in a complete randomized block arrangement. The first pre-planting land preparation strategy will consist of conventional practices (i.e., soil tillage and cultivation), and will occur after soil incorporation of a winter cover crop. Plastic mulching beds of 6-ft center to center spacing will be used for tomato seedlings transplanting. The second strategy of pre-planting land preparation will consist of direct planting of tomato seedlings on a 3-ft row spacing, after the laying down of rye, using a roller crimper. The third strategy is a combination of treatments one and two, in which the winter cover crop will be laid down for the entire field using a roller crimper, but only incorporate in the soil in strip beds, that will consist of a narrow (18 in) plastic bed formed for a 3-ft center to center bed spacing.For experiment 2, a one factorial experimental design of two strategies of pre-planting land preparation for sweet corn production will be randomized in a complete randomized block arrangement. The first pre-planting land preparation strategy will consist of the soil incorporation of a winter cover crop (i.e., rye), followed by conventional practices of soil tillage and cultivation. The second pre-planting land preparation strategy will consist of the direct planting of sweet corn seeds after the laying down of rye.Our hypothesis is that different strategies will lead to different impacts on soil health, weeds pressure, and disease/insect. These are the major issues for organic transition fields. Consequently, our proposed strategies may influence vegetable crops growth, yield, and quality parameters.Objective 3:Evaluate the effectiveness of weed control programs for key species populations during the initial years of an organic vegetable transition.A two factorial experiment design of two mulching systems and four weed control treatments during the vegetable season of new organic fields will be randomized in a complete randomized block arrangement. Mulching treatments will consist of using plastic mulching and no mulching (bare ground). Weed control treatments will consist of mechanical control, using a Model CS and/or Eco Weeder cultivator (Hillside Cultivar Company LLC, Lititz, PA), use of organic herbicides, such as Matran 5 (EcoSMART Technologies, Inc., Franklin, TN), Weed Zap (JH Biotech, Inc., Ventura, CA), and Racer (Falcon Lab LLC, Wilmington, DE), a combination of mechanical control and organic herbicides, and no weed control (check).After soil incorporation of a winter cover crop (i.e., rye), the organic field will be tilled and cultivated. Plastic beds will be laid for the plastic mulching treatment, while raised bare ground rows will be prepared for the no mulching treatment. Yellow squash will be hand-transplanted in all plots. Both mechanical and organic herbicide treatments will be weekly applied, while the combined mechanical and organic herbicide treatment will intercalate each in a every other week interval. No control treatment will receive no management and will be used as a check.We hypothesize that combinations of mulching and weed management will differently impact weed pressure, consequently, minimize risks of failure and maximize crop growth and yield.Objective 4:Development of best management practices for organic vegetable transitioning fieldsField experiments of objective 4 will be conducted simultaneously with previous objectives, in which experiments of objectives 1, 2, and 3 will receive an additional treatment consisting of conventional growth of tomato, sweet corn, or yellow squash, as appropriate. The additional treatment will allow for orthogonal contrasts to be used, thus,best treatment combinations from objectives 1, 2, and 3 can be compared against the conventional crop system treatment. Those comparisons will allow us to determine the best management practices for fields in transition from conventional to organic vegetable production. Combinations of best treatments from objectives 1, 2, and 3 will depend on performance of treatments within each objective and stakeholder feedback.Objective 5:Extension, education, and internal project evaluationThis project will use several approaches to convey information generated from proposed activities to our clients, growers, and stakeholders.We will use the stakeholder advisory panel, described in section 3a, to actively involve stakeholders, growers, and researchers with the project team for planning, development, and implementation of outputs. In addition, we will use the Alabama Cooperative Extension System (ACES) to increase our targeted audience. Our research team, comprised of four members of the Commercial Horticulture Team from ACES, are confident of identifying numerous opportunities to present information in conventional face-to-face format. Thus, we will use the program model proposed in figure 6, which was based on concepts from the Success Outcome Markers in Extensionby Rockwell et al. (2003) and transformational education model by Blewett et al. (2008), to achieve rapid transfer of results. This approach will take a four-step process:technology awareness after identification of appropriate solutions.technology demonstration on research farms.technology refinement (facilitation with key farmers).full technology adoption and impacts.An additional extension approach used relies on communication and marketing principles, and we propose to use the approaches below to add to knowledge infrastructure for long-term results:Digital mediaSocial media for social learning in online grower communitiesFarming Basics Incubator "Pilot" ProgramField demonstration and training for capacity buildingPublications and conferencesProject evaluation will be reported in the form of colorful annual reports, online interactive data charts, andimpact videos. Project evolution will be focused on gathering quantitative as well as qualitative information leading to a mixed-method evaluation approach (Table 1) and utilization-focused evaluations that bring transparency to the entire process. We will use a variety of evaluation techniques (Table 2) that include printed surveys and electronic feedback systems with standardized questionnaires. Data will be retained in spreadsheets and major findings used to improve the deliverables of the project. The detailed evaluation plan is in table 3 and emphasizes the removal of known barriers and documentation of new needs.

Progress 09/01/22 to 08/31/23

Outputs
Target Audience:Our project remains focused on serving the growing organic community in Alabama, where interest in organic production has been increasing. While there has been a noticeable rise in demand for organic produce in the state, we have not yet measured the number of growers transitioning to organic production. Our long-term objective is to expand production within organic systems. Certification continues to present challenges, especially as we observe that the majority of the organic community is made up of small-scale and disadvantaged growers. Our target audience continues to include both experienced and beginner growers, as well as regional extension agents, specialists, and researchers. Changes/Problems:In 2023, unfavorable weather conditions significantly impacted crop growth and development. Our research team did everything possible to minimize the damage caused; however, it stillled to the failure of harvesting. In 2024, the authors changed the area of the experiment within the field as a tentative to success. What opportunities for training and professional development has the project provided?In 2023, training and professional development were provided in an extension meeting, and data from 2022 was shared in growers' conferences, such as the Southeast Fruit and Vegetable Conference and the Alabama Fruit and Vegetable Growers Association Conference. Extension presentations included: da Silva, A.L.B.R., D. Lawrence (2023). Growing specialty crops. In Operation Grow Boot Camp, Montgomery, AL. da Silva, A.L.B.R., C. Rodrigues (2023). Food production systems. In Natural Resource Outreach Event - "Small Landowner Workshop", West Blocton, AL. de Barros, M.F.L., A.L.B.R. da Silva (2023). Vegetable production for open markets. In 2nd Annual Food Systems Development Workshop, Linden, AL. da Silva, A.L.B.R., 2023. Niche crops for production in north Alabama. Cullman County Meeting. da Silva, A.L.B.R. 2023. Making the most of your farm: Best management practices for vegetable production. Gulf Coast Fruit and Vegetable Growers Meeting 2023. How have the results been disseminated to communities of interest?As mentioned previously, results have been disseminated to communities of interest throughout extension activities. What do you plan to do during the next reporting period to accomplish the goals? Nothing Reported

Impacts
What was accomplished under these goals? In 2023, field experiments for Objectives 2 and 3 were initiated; however, unfavorable weather conditions significantly hindered crop growth, leading to the failure of these objectives prior to harvest. Despite replanting the experiments, the delayed planting dates resulted in suboptimal growth conditions, preventing the crops from reaching maturity and rendering the collected data unrepresentative of typical agricultural conditions. As a result, the data was discarded. Nevertheless, the activities outlined in Objective 5 were successfully carried out, including the development and dissemination of extension and educational materials as planned.

Publications

  • Type: Other Status: Published Year Published: 2023 Citation: Oliveira, S., R. Pelvine, C. Rodrigues, C. East, A.L.B.R. da Silva. 2023. Lettuce cultivars for open-field organic systems. Alabama Cooperative Extension System. Extension Bulletin ANR-2964.
  • Type: Conference Papers and Presentations Status: Published Year Published: 2023 Citation: Nakazawa, P., W. Foshee, E. Torres-Quezada, A.L.B.R. da Silva. 2023. Strategies of irrigation scheduling for organic tomato production. Southern Region American Society of Horticultural Science.
  • Type: Conference Papers and Presentations Status: Published Year Published: 2023 Citation: da Silva, A.L.B.R. 2023. Supporting a vegetable industry with research and extension but without forget teaching. American Society of Horticulture Science.
  • Type: Conference Papers and Presentations Status: Published Year Published: 2023 Citation: da Silva, A.L.B.R., A. Dorminey, C. Rodrigues, A. Majumdar, S. Li, W. Foshee. 2023. The divergent paths of organic transition: Best management practices for initial years of organic vegetable fields in southeastern U.S. Organic Programs  Project Directors Meeting.


Progress 09/01/21 to 08/31/22

Outputs
Target Audience: This research project has a continuous process that will target the entire organic community. While our long-term goal is to increase the overall yield in organic production systems and certification of organic vegetable fields, our targeted audience in the first year was: • Gowers in the first year of organic transition at experienced and beginner level • Regional extension agents, specialists, and researchers • Students at undergraduate and graduate level Changes/Problems:There was no change or problem faced in our project. However, we sight barriers in some activities due to the increased cost ofinputs. What opportunities for training and professional development has the project provided?The project has provided a field day to growers, listed in the accomplishments. The Field day "Vegetable Crop Conventional & Organic" was conducted on May 31, 2022, and received 89 guests, including growers, regional agents, and members of organic companies. Theproject also allowed us to host growers in our organic unit at the E.V. Smith Research and Extension Center from Auburn University, local of the field day, where individual meetings were conducted to show clients the challenges of transition and best management practices that should be used due the transition. One-on-one farm visits were also conducted. Ultimately,we were invited to host a section titled "Organic Transition" at the Alabama Fruit and Vegetable Growers Conference in February 2023. How have the results been disseminated to communities of interest?Information generated in our project was disseminated to the communities as previously described. It was shared in form of: Extension publications Website news/blog articles Field days One-on-one meeting What do you plan to do during the next reporting period to accomplish the goals?During next year, experiments from objectives 2 and 3 will be conducted. We will release new extension publications, continue to do farm visits, and release new research publications. We will host an "Organic transition" section at theAlabama Fruit and Vegetable Growers Conference in February 2023, but alsoconduct a second-year field day. Ultimately, we will lunch our Incubator Farm Program.

Impacts
What was accomplished under these goals? During the first year of our project, field experiments of objective 1 were completed. Data is being analyzed, while extension material is being developed, published, and shared with our clients (see publication list). Our first peer-review research publication is under developmentby a master's student (Austin Dorminey) under PI da Silva's supervision. Cover cropfor second-year trials (Objectives 2 and 3) was acquired and will be planted within the next month. The stakeholder advisory panel is meeting in the last quarter of 2022 to discuss project results and next year's trials, also this meeting will serve to initiate our Incubator Farm for growers training, which area was prepared and activities can initiate.

Publications

  • Type: Other Status: Published Year Published: 2022 Citation: da Silva, A.L.B.R., S. Oliveira, Z. Jones, S. Li. 2022. Growing organic vegetables in Alabama: Know your weeds. Alabama Cooperative Extension System. Extension Bulletin ANR-2923.
  • Type: Websites Status: Published Year Published: 2022 Citation: Growing organic vegetables in Alabama: Know your weeds https://www.aces.edu/blog/topics/crop-production/growing-organic-vegetables-in-alabama-know-your-weeds/
  • Type: Other Status: Published Year Published: 2021 Citation: Majumdar, A., K. Wayne. 2021. Organic Crop Production. Extension System. Extension Bulletin ANR-2728.
  • Type: Other Status: Published Year Published: 2022 Citation: Majumdar, A.L.B.R. da Silva. 2022. Organic vegetable IPM toolkit. Alabama Cooperative Extension System. Factsheet.