Affiliation:
1. Department of Botany and Plant Sciences, and Center for Conservation Biology, University of California, Riverside, CA 92521-0124, USA ()
Abstract
Plant evolutionary biologists' view of gene flow and hybridization has undergone a revolution. Twenty–five years ago, both were considered rare and largely inconsequential. Now gene flow and hybridization are known to be idiosyncratic, varying with the specific populations involved. Gene flow typically occurs at evolutionarily significant rates and at significant distances. Spontaneous hybridization occasionally has important applied consequences, such as stimulating the evolution of more aggressive invasives and increasing the extinction risk for rare species. The same problems have occurred for spontaneous hybridization between crops and their wild relatives. These new data have implications for transgenic crops: (i) for most crops, gene flow can act to introduce engineered genes into wild populations; (ii) depending on the specific engineered gene(s) and populations involved, gene flow may have the same negative impacts as those observed for traditionally improved crops; (iii) gene flow's idiosyncratic nature may frustrate management and monitoring attempts; and (iv) intercrop transgene flow, although rarely discussed, is equally worthy of study.
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology
Reference81 articles.
1. Plant invasions, interspecific hybridization and the evolution of new plant taxa
2. Adams W. T. & Birkes D. S. 1990 Estimating mating patterns in forest tree populations. In Biochemical markers in the population genetics of forest trees (ed. H. H. Hattmer & S. Fineschi) pp. 152-172. The Hague: SPB Academic Publishing BV.
3. Alvarez Morales A. 2002 Transgenes in maize landraces in Oaxaca: official report on the extent and implications. In The 7th Int. Symp. Biosafety of Genetically Modified Organism. p. 78. Meeting Proceedings Beijing.
4. Anderson E. 1949 Introgressive hybridization. New York: Wiley.
5. Evolution in closely adjacent populations. VI. Manifold effects of gene flow;Antonovics J.;Heredity,1968