Our goal is establish a sustainable organic rice paddy production system for the northeast. We conducted preliminary evaluations on 33 new varieties, which further emphasized that the Hokkaido varieties tend to be the most adapted to the climate at Akaogi Farm. Production records for 11 Hokkaido varieties showed that rice can be grown productively in Vermont with yields of at least 1.5-3 ton/acre. We assembled information on wetland wildlife and watershed management aspects of a sustainable rice production system and educated farmers and researchers through the spring/fall workshop, article in “NOFA Notes”, and proceedings of the “Sustainable Rice Production System for the Northeast Workshop.” We have shown that rice can be grown productively in the northeast, but the challenge remains that it is a new crop to this area and this type of aquatic agriculture is unfamiliar. In addition, there is unfamiliarity with how to use rice from the consumer. Future plans will attempt to address these issues and focus on providing education to the grower through an improved rice growing manual, website, and additional workshops. Rice cooking workshops will provide education to the consumer.
- Appendix B: Bird Survey Report
- Appendix E: Growing Rice Workshop Announcement
- Appendix F: Observation Report Sheet
- Appendix G: Proceedings of Sustainable Rice Production System for the Northeast Workshop
- Appendix C: Bird Survey Data Sheet
- Appendix A:Biodiversity Assessment of Akaogi Farm
- Appendix D: Regulations Regarding Rice Paddy Construction
- Appendix H: Success with Rice Production at Akaogi Farm
Gen Fumio Onishi of Cornell University is our technical advisor for this project. He was a rice farmer in Japan for 20 years prior to coming to the USA. He is now the greenhouse manager of the Rice Research Lab of the Department of Plant Breeding and Genetics at Cornell University.
Professor Susan McCouch head of the Rice Research Lab of the Department of Plant Breeding and Genetics of Cornell University is our collaborator for this project. Susan McCouch is a rice geneticist who specializes in breeding rice for adaptation to particular environments.
We will communicate regularly with both of them through e-mail. Both of them will attend the summer workshop at our farm. We will visit them in Ithaca NY at the end of the season to discuss the results of this year’s experiment and plan future projects.
1. Preliminary evaluation to find varieties that produce seed at Akaogi Farm
a. In the 25’ x 25’ rice paddy we will plant an equal number of plants of each variety. The general management is the same as in production comparisons plus additional weekly counting of stem number for plant vigor, and after harvest, we will evaluate cold resistance by estimating the percent sterility per panicle.
b. The varieties we have been evaluating for the past three years have been mainly from Hokkaido, Japan, with favorable results. Next, we would like to experiment with varieties that grow in other parts of northeast Asia. We are currently processing the importation of seed from NE China and Korea with help from the Vermont Agency of Agriculture and USDA, Beltsville, Maryland. We hope that the seeds will be available for next year’s experiment.
c. Breeding Program – The varieties we have been evaluating for the past three years have been mainly from Hokkaido, Japan. These short-grain japonica- type varieties are especially bred for Japanese tastes and are most often eaten alone without flavorings. There are many other types grown all over the world: long grain, medium grain, mochi, Thai jasmine, Indian basmati, arborio, etc. All of these types lack cold tolerance, so we are not able to grow them in the Northeast USA.
As part of an independently funded program, we will collaborate with Professor Susan McCouch of Cornell University to develop a rice variety improvement program to enhance cold tolerance and to introduce specific grain quality components of interest to consumers (i.e., aroma, long grain) and also to study marketing potential for rice and rice products.
2. Production comparisons – In 2008 we selected three varieties representing each category of early maturing , mid early maturing & late maturing and compared the production. They yielded an average of 5,847 lb. /acre. In 2009 we will add one more category – sweet rice mochi. We will use the same three varieties from 2009, plus several additional varieties for each of the four categories.
—We will sow seed the middle to the end of April and transplant the middle to the end of May.
—Water Management – During the day water collects heat and releases heat
during night, thus creating a favorable environment for rice growing. We will
use water (i.e., by controlled flooding) to avoid damage associated with a late frost and also to extend the growing season four weeks or more.
—Weeds – we know we will have weeds, but with no herbicides we don’t know how much of a problem it will be. —We will observe and record the weed situation, and will rogue weeds early in the season.
—Record Keeping: We will record temperature and rainfall over the season from April 1 – October 31.
—Harvest – cut, bundle, and hang using our new binder
—Processing – we will use a small, manpowered threshing machine and hope to purchase a dehulling and milling machine.
B. WETLAND WILDLIFE – Enhance the biodiversity in rice paddies as human-made wetland systems
During the duration of the grant term biologists/ecologists in several specialties will investigate and document the numerous wildlife species that inhabit our rice paddy. Monthly observations and subsequent research into species’ life cycles as observed in our rice paddy will be presented in detailed fact sheets. The fact sheets, as reviewed by the Vermont State Watershed Coordinator, will be made available during our workshops and to the public via distribution in area schools and the Natural Resources Conservation District offices.
C. WATERSHED MANAGEMENT – The methods used to develop our rice paddy system are compatible with state and federal regulations relating to water quality and watershed management processes. They will also include devising systems and practices to protect and/or enhance associated wildlife in marginal land. This project is being conducted with guidance from the State Watershed Coordinator office for southeastern Vermont (Basin 13).
This project is under consideration for inclusion as a recommended project within the Basin 13 Watershed Management Plan. This basin plan addresses impacts to surfact water at a watershed level and seeks to sustain and improve water quality through public education, multi-agency participation, while promoting specific projects that provide benefit to the local environment.