Abstract
Pollen flow from a 0.46 ha plot of genetically engineered (GE) Prunus domestica located in West Virginia, USA was evaluated from 2000–2010. Sentinel plum trees were planted at distances ranging from 132 to 854 m from the center of the GE orchard. Plots of mixed plum varieties and seedlings were located at 384, 484 and 998 m from the GE plot. Bee hives (Apis mellifera) were dispersed between the GE plum plot and the pollen flow monitoring sites. Pollen-mediated gene flow from out of the GE plum plot to non-GE plums under the study conditions was low, only occurring at all in 4 of 11 years and then in only 0.31% of the 12,116 seeds analyzed. When it occurred, gene flow, calculated as the number of GUS positive embryos/total embryos sampled, ranged from 0.215% at 132 m from the center of the GE plum plot (28 m from the nearest GE plum tree) to 0.033–0.017% at longer distances (384–998 m). Based on the percentage of GUS positive seeds per individual sampled tree the range was 0.4% to 12%. Within the GE field plot, gene flow ranged from 4.9 to 39%. Gene flow was related to distance and environmental conditions. A single year sample from a sentinel plot 132 m from the center of the GE plot accounted for 65% of the total 11-year gene flow. Spatial modeling indicated that gene flow dramatically decreased at distances over 400 m from the GE plot. Air temperature and rainfall were, respectively, positively and negatively correlated with gene flow, reflecting the effects of weather conditions on insect pollinator activity. Seed-mediated gene flow was not detected. These results support the feasibility of coexistence of GE and non-GE plum orchards.
Highlights
Gene flow from genetically engineered (GE) crop plants to nonGE plants is a topic of interest and concern, and as such it has been the subject of a number of studies and review articles [1,2,3,4,5,6,7,8,9,10,11,12,13,14]
Of 218 GUS positive embryos analyzed by PCR from plot T0, 71% tested positive for receiving pollen from papaya ringspot virus (PRSV)-coat protein (CP) trees, 26% from Plum pox virus (PPV)-CP trees, 1% from ‘HoneySweet’, and,2% from the vector control
We provided three calculations of gene flow based on the total number of seeds collected over the life of the study (Table 2, Fig. 2), based on the total number of seeds collected over the life of the study on a per plot basis (Table 2, Fig. 2), and based on the proportion of GUS positive embryos collected from individual trees over the life of the study (Table 2, Fig. 3)
Summary
Gene flow from genetically engineered (GE) crop plants to nonGE plants is a topic of interest and concern, and as such it has been the subject of a number of studies and review articles [1,2,3,4,5,6,7,8,9,10,11,12,13,14]. Plums are one of the most important stone fruits with 2.5 M ha under production worldwide with one species, P. domestica, accounting for over 95% of that acreage (http://faostat.fao.org, accessed Jan 22, 2013)
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