The Environmental and Economic Costs of Herbicide Resistance and Host-Plant Resistance to Plant Pathogens and Insects

摘要

Sustainable agriculture and biodiversity maintenance would be central to a desirable development of genetic engineering. Biotic diversity on the planet is the base for all food chains, including human ones: in particular, diversity is incredibly high in tropical areas in which 30-100 million living species have been forecast. Options for genetic engineering, in order to be desirable, have to meet two needs: improve sustainability and promote biodiversity, and reduce environmental stress. Most of the current field trials that have been approved are focused on traits such as herbicide resistance, which in most cases could promote more intensive use of herbicides hazardous to the environment. Extensive research on risk assessment is either limited or nonexistent on nontarget organisms in agroecosystems in which genetically modified organisms are expected to be released. The following options are discussed in detail: (1) the B.T. endotoxine problem and the ecology of B.T. strains; (2) crops modified for herbicide resistance; (3) plants resistant to pests and diseases; (4) transfer of resistance genes from wild varieties, which are resistant, to commercial ones. Traditional breeding of promising cases (potato, apple, grape) as source ideas for sustainable agriculture and genetic engineering trends are discussed, together with some desirable and undesirable aspects of the development of genetic engineering.