September 6, 2022

Survey of cole crops and leafy green growers – novel weed control technology

Tractor

Several university weed scientists from around the U.S. (Clemson, Cornell, UC Davis, Florida, Michigan State, Rutgers, Arkansas) have developed a survey as part of a Specialty Crop Research Initiative (SCRI) planning grant (SC-2021-07806 DEVELOPING A NATIONAL TEAM TO OPTIMIZE NON-HERBICIDE WEED MANAGEMENT TECHNIQUES IN COLE AND LEAFY GREEN CROPS).

We would appreciate if you could share it with your constituents and cooperators (growers, crop consultants, extension personnel, industry partners) via newsletters, email blasts or other outreach efforts.

 ** WE NEED YOUR INPUT! **

 

Tractor for extracting weedsWeed management in vegetables can be difficult due to a shrinking labor pool, which is becoming more costly to source, and a lack of effective herbicides. Research and extension efforts must focus on integrating novel weed technology into current crop production systems. Autonomous and semi-autonomous robotic weed control technology has been implemented by some vegetable growers, mainly in the Western US, but is not universally available to or adapted by many producers. This survey is designed to new tools of interest (e.g. precision sprayers or cultivators, electrical weeders, drones, etc.) for managing weeds in cole crop and leafy green systems as well as the environmental, physical and economic barriers to adoption. The results of this survey will benefit vegetable growers by enabling the research team to develop relevant and realistic research efforts informed by the needs of and constraints faced by our local stakeholders. Specifically, we will use survey data to develop a multi-regional USDA grant proposal to bring grower-specified technology to each our states for evaluation and demonstration under a variety of commercial conditions and provide growers with an economic assessment of their performance relative to current best management practices.

The survey is voluntary and anonymous. All replies will be de-identified. It should take less than 10-15 minutes to complete. The link is below.

https://clemson.ca1.qualtrics.com/jfe/form/SV_1IfwcgkAXC9i6h0

 

If you have questions, please feel free to contact Thierry Besançon, Associate Professor and Extension Weed Science Specialist for Specialty Crops, New Jersey Agricultural Experiment Station, thierry.besancon@rutgers.edu.

Tractors

 

Filed Under: Blueberry, Commercial Ag Updates, Cranberry, Field, Forage & Livestock, Fruit, Organic Production, Strawberry, Tree Fruit, Uncategorized, Vegetable Crops, Wine Grape Tagged With: , , , ,
June 11, 2021

Gleanings from SM – CA Virtual Strawberry Field Day; Robots in the Field

From LinkedIn.com:

  • Surendra Dara, Entomology & Biologicals Advisor at UC Cooperative Extension, San Luis Obispo County, California, announced that registration is now open for the Virtual Strawberry Field Day on July 14. Please see the agenda at https://ucanr.edu/sites/PSU/files/352199.pdf and register at https://ucanr.edu/survey/survey.cfm?surveynumber=35066
  • TTS BV, a company from the Netherlands, posts videos of their TTS automatic transplanters on their website and shares on LinkedIn.com:  At TTS we care a lot about technology and innovation! ⁠Our robotsystem makes sure that you can plant several lines at once, up to at your own preferred distances and depth. ⁠⁠The can be combined with nearly all planting trays or even with your own existing toolbar, so no need for a lot of changes. See www.automatictransplanting.com for videos and photos highlighting their technologies, including a transplant ‘grabber’ similar to one invented right here by a Rutgers agriculture engineer 30+ years ago.
  • Back to CA, PlantTape Inc. <https://www.planttape.com/> also shares videos and stories on LinkedIn.com about their planting system that speeds up semi-automatic transplanting using paper-tape connected planting cells that slip into the ground at amazing speeds.

 

 

Filed Under: Commercial Ag Updates, Strawberry, Vegetable Crops Tagged With: , , , ,
February 6, 2019

Spacing Robots – Experiences of the Container Nursery

Spacing is one of the most labor intensive and least desirable jobs on the nursery. Continuous moving, bending and twisting with filled containers is also the common cause of workers’ injuries. Using robots for spacing and moving, can address these challenges, however has its own challenges. During a panel discussion on the Nursery Mechanization, held at Clayton in Gloucester County on Jan 16, Donald Blew of Centerton Nursery, shared their experiences in using robots.

  • Efficient Utilization of the Space: The big reason for Blews was not because they could not find the labor or because it was cheaper, but the fact that robots are good at spacing pots in hexagonal pattern and saving spaces and saves money on that. “If you draw a square and put your four pots in it, you have that extra space in the middle that is not being used. If you put them in a hexagonal pattern, you can use a little bit more of that free area that you have”. Robots can do that with precision. It saved them right around 10 greenhouses last year! At eighteen hundred square feet a piece, it is quite a bit of area gained. Previously, they could fit 24,000 three-gallon hydrangea in one greenhouse. Now, with spacing robots can add 6,000 more, with the same center-to-center distance between pots. So, for every three and a third house they saved at least one house. Other thing is that it lets you know exactly how many plants are going into the greenhouse which gives an ability to refill greenhouse after, say you shipped half of the greenhouse. There are calculations and online spreadsheets that make it easy.
  • How does it works? No, they don’t work on GPS. They have very simple lasers and sensors. It is actually taking the number of wheel count, so it knows how far it is going by how many revolutions making. You apply a boundary marker, along one edge/side of the bed, and then put at least one container down-faced to establish the reference point or boundaries. Then enter certain parameters such as specifying either the square or hexagonal pattern, spacing between and within the rows, on robot’s human interface. “Mark the center with D.O.T. tape and now you can use two Robots”, said the owner of four such robots.
  • Challenges: Biggest challenge is that it needs a skilled labor to operate and maintain, including charging batteries, every four to five hours. If you have four of them, you may need one person dedicated to just do that. According to Donald Blew ‘there are days when it can take a full day just to troubleshoot or repair the robots’. Machine is expensive, costs around 35,000 per piece. On an average people are getting five to ten years out of them. By the time you have paid off, it’s time to get a new one. However you can lease them through Farm Credit.
  • Do your math before buying. Ask yourself how many man-hours you spend, doing the operation that robots could replace. Then do the math as far as payroll. If number make sense and handle the challenges then by all means, buy the Robot.
Filed Under: Landscape, Nursery, & Turf, Nursery, Turf Tagged With: , , , , ,