In the traditional method of growing yam, appearance dryfarmers set aside 25 to 30 percent of the harvested tubers as seeds for the next planting season. This makes the crop expensive to produce. It is also inefficient: the multiplication rate is only about 1:5-10, which pales in comparison, for instance, to cereals that have a propagation ratio of about 1:300.
To address these constraints, we developed an time her helps someone innovative yam propagation technique using vine cuttings. In this method, cuttings, usually one to two nodes with leaves are taken from the lateral branches of immature healthy-looking vines before tuber enlargement, and planted into soil with carbonized rice husks (CRH).
Once the cuttings formed roots and shoots, they are transplanted to nursery beds where they are nurtured for 150 days. During this time they will produce mini tubers, which are then used as the planting material for the next crop.
We are testing this novel technique in a number of farmersâ€™ fields in Nigeriaâ€™s north central Niger state. The technology has been extensively featured in a number of broadcast and print media in Nigeria, Japan and the UK, and some countries in sub-Saharan Africa and Oceania.
By reducing the use of ware tubers as seeds, more yams are made available to farmers for food or for sale. The technique also promotes faster multiplication and better and more uniform crop quality by introducing a break in the cycle of nematode infestation often associated with regular use of field-grown tubers as planting material.
Another advantage of this technology is that the rooting medium, CRH, could be obtained by farmers cheaply, even for free.
Previously, we developed another propagation method together with the National Root Crops Research Institute of Nigeria based on mini-setts: yam tubers are cut up into 20-25 g pieces and used to produce planting material for ware tuber production.
Compared to using whole tubers, mini-setts enable faster multiplication and lesser amount of planting material needed. The use of vine cuttings further improves on this pace of multiplication and reduces the amount of need planting material even more. The technology could address the need for faster and wider distribution of disease-free improved varieties to meet rising demand.
The research is funded by the Japanese government, the Sasakawa Africa Association, Tokyo University of Agriculture, and the International Cooperation Center for Agricultural Education, Nagoya University, Japan.