Occurrence of Japanese Yam (Dioscorea japonica) as Vine Weed in Tea Gardens

Author(s)

INAGAKI, Hidehiro , ISHIWATA, Kasumi ,

Download Full PDF Pages: 15-19 | Views: 220 | Downloads: 69 | DOI: 10.5281/zenodo.7109979

Volume 6 - August 2022 (08)

Abstract

Dioscorea japonica (Japanese yam) is the most troublesome weed species of tea gardens in Japan. In recent years, effective integrated weed control methods in tea gardens that do not rely on hand weeding or herbicides have been sought, but the ecological properties of Japanese yam in tea gardens, and the basis for technological development, remain unclear. This study aimed to elucidate the actual occurrence, type of emergence, and characteristics of flowering of Japanese yam in tea gardens. The study observed emergence of many plants from propagules, whereas no plants from seeds were found. Additionally, many vines produced propagules, and only a few produced flowers, which were all female plants. This suggests that propagation of the Japanese yam in tea gardens is likely through clonal propagation by propagule, not by seed. Conversely, it was observed that half of the plants from propagule were in simple form, in which only the petiole and leaf blade are present without extending the above-ground stem, similar to forest floor plants. It is of concern that this type would be problematic as they are "reservoirs" for outbreaks in subsequent years.

Keywords

Japanese yam (Dioscorea japonica), vine weed, tea garden, propagule, tuber, forest floor plants

References

           i)                    Bhattacharjee R., Gedil, M., Sartie A., Otoo E., Dumet D., Kikuno H., Kumar P.L. and Asiedu R. 2011. Dioscorea, in Kole, C. (editors), Wild Crop Relatives: Genomic and Breeding Resources, Springer Nature, London, pp: 71–96.

ii)                  Fukada K., Kameyama A., and Kudo G. 2000. Relationship of the vegetation management of coppice forest and life history strategy of forest understory plants. Environmental systems research, 28: 359–366

iii)                Hori Y, 1984. Life history and population demography of Dioscorea japonica, in Kawano, S (editors), Life history and evolution of plants Ⅱ, Baifukan, Tokyo, pp: 157–172

iv)                Ichihara M., Togawa M., and Haga H. 2020. Vegetation in tea field margins and climbing plants on tea bush canopies in Shizuoka Prefecture, Japan. Journal of weed science and technology, 65: 114–117.

v)                  Ichihara M., Uchiyama M., Murakami G., Yamashita M., and Sawada H. 2022. Weed vegetation in organic and conventional tea gardens in Shizuoka Prefecture. Journal of weed science and technology, 67: 25–30.

vi)                Iida T., 2001. Japanese yam. Rural Culture Association Japan, Tokyo, pp: 12–18

vii)              Inagaki H., 2003. Ecological characteristics of Lilium japonicum Thunb. At native habitat. The Japanese Society of Revegetation Technology, 29: 80–84

viii)            Japan Soil Association, 2012. Guide to organic cultivation technology [Fruit trees and Tea trees]. Japan Soil Association, Tokyo, 389–392. https://www.japan-soil.net/report/h24tebiki_04.pdf

ix)                Kawakami K., 1986. Encyclopedia of yam. Fumin-kyokai, Tokyo, pp: 70–73.

x)                  Kawano S. 1984. Life history and evolution of plants Ⅱ, Baifukan, Tokyo, pp: 1–19

xi)                Minami S., and Azuma A., 2003. Various flying modes of wind-dispersal seeds. Journal of Theoretical Biology, 225: 1–14.

xii)              Obata K. 1987Present status and some problems of weed control in tea field. Weed Research, Japan, 32: 1–6

xiii)            Seo S. W. 2012. Weed control in tea gardens in Mie prefecture, Japan. Journal of weed science and technology, 57: 67–68.

xiv)             Seo S. W. 2016. Weed control in and around tea gardens in central and western Shizuoka Prefecture, Japan. Journal of weed science and technology, 61: 157–158.

xv)               Takasu H. 2001. Life history of Asarum caulescens, in Kawano S (editors). The World of Plants, Newton press, Tokyo, pp: 6–25

xvi)             Tateno M. 1995. Do fatty reserves extend dispersal distance of wind-dispersed seeds of Dioscoreajaponica? The American Midland Naturalist, 134: 400–403

xvii)           Wanasundera J. P. D., and Ravindran G., 1994. Nutritional assessment of yam (Dioscorea alata) tubers. Plant Foods for Human Nutrition volume, 46: 33–39.

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