26 research outputs found
Monitoring the occurrence of genetically modified oilseed rape growing along a Japanese roadside: 3-year observations
Monitoring for escape of genetically modified (GM) oilseed rape (Brassica napus) during
transport can be performed by means of roadside evaluations in areas where
cultivation of this GM crop is not conducted, such as in Japan. We performed
a survey of oilseed rape plants growing along a 20-km section of Japan's
Route 51, one of the main land transportation routes in central Japan for
imports of GM oilseed rape from the Port of Kashima into Keiyo District.
Oilseed rape plants were found each year, but the number of plants varied
substantially during the three years of our study: 2162 plants in 2005, 4066 in
2006, and only 278 in 2007. The low number in 2007 was probably caused by
roadwork. Herbicide-resistant individuals were detected in the three
consecutive years (26, 8, and 5 individuals with glyphosate resistance), but
glufosinate-resistant plants (9 individuals) were detected only in 2005. The
roadside plants occurred mainly along the inbound lane from Kashima to
Narita. These plants are likely to have their origin in seeds spilled during
transportation of cargo from the port, since there are no potential natural
seed source plants for B. napus near Route 51. This is the first detailed report on
the transition and distribution of herbicide-resistant oilseed rape plants
following loss and spillage along Japanese roads
Genetic diversity and population structure of feral rapeseed (Brassica napus L.) in Japan.
Rapeseed (Brassica napus L.) is one of the most economically important oilseed crops worldwide. In Japan, it has been cultivated for more than a century and has formed many feral populations. The aim of this study was to elucidate the genetic diversity of feral rapeseeds by genotyping 537 individuals (among which 130 were determined to be genetically modified) sampled from various regions in Japan. Analysis of 30 microsatellite markers amplified 334 alleles and indicated moderate genetic diversity and high inbreeding (expected heterozygosity, 0.50; observed heterozygosity, 0.16; inbreeding coefficient within individuals, 0.68) within the feral populations. The Mantel test showed only an insignificant weak positive correlation between geographic distance and genetic distance. Analysis of molecular variance showed a greater genetic diversity among individuals than between populations. These results are in accordance with population structure assessed by using principal coordinate analysis and the program STRUCTURE, which showed that the 537 individuals could be assigned to 8 genetic clusters with very large genetic differences among individuals within the same geographic population, and that among feral individuals, many are closely related to rapeseed accessions in the NARO Genebank but some have unknown origins. These unique feral rapeseeds are likely to be affected by strong selection pressure. The results for genetically modified individuals also suggest that they have two different sources and have a considerable degree of diversity, which might be explained by hybridization with nearby individuals and separation of hybrid cultivars. The information obtained in this study could help improve the management of feral rapeseed plants in Japan