Autor: |
Jacobs, Douglass F., Dumroese, R. Kasten, Brennan, Andrea N., Campbell, Faith T., Conrad, Anna O., Delborne, Jason A., Fitzsimmons, Sara, Flores, David, Giardina, Christian P., Greenwood, Leigh, Martín, Juan A., Merkle, Scott A., Nelson, C. Dana, Newhouse, Andrew E., Powell, William A., Romero-Severson, Jeanne, Showalter, David N., Sniezko, Richard A., Strauss, Steven H., Westbrook, Jared |
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Zdroj: |
New Forests; Jul2023, Vol. 54 Issue 4, p587-604, 18p |
Abstrakt: |
Introduced pests (insects and pathogens) have rapidly increased the numbers of at-risk native forest tree species worldwide. Some keystone species have been functionally extirpated, resulting in severe commercial and ecological losses. When efforts to exclude or mitigate pests have failed, researchers have sometimes applied biotechnology tools to incorporate pest resistance in at-risk species to enable their reintroduction. Often erroneously equated solely with genetic engineering, biotechnology also includes traditional and genome informed breeding—and may provide a holistic approach toward applying genomic-based information and interventions to increase tree species' pest resistance. Traditional tree breeding is responsible for successes to date, but new technologies offer hope to increase the efficiency of such efforts. Remarkable recent progress has been made, and for some at-risk species, novel biotechnological advances put reintroduction within reach. The high costs of reintroduction of at-risk species at necessary scale, however, will initially limit the pursuit to a few species. Successful deployment of pest resistant material may require improved species-specific knowledge and should integrate into and leverage existing reforestation systems, but these operations are sometimes rare where pest threats are greatest. While use of some biotechnologies, such as traditional tree breeding, are commonplace, others such as genetic engineering are controversial and highly regulated, yet may be the only viable means of achieving reintroduction of some at-risk species. Efforts to modify policy toward allowing the use of appropriate biotechnology, especially genetic engineering, have lagged. Provided that risk-benefits are favorable, policy is likely to follow with public opinion; in some countries, society is now increasingly open to using available biotechnologies. Continued engagement using the most recent advances in social science to build public trust, combined with a science-based collaboration among land managers and regulators, will generate the collective momentum needed to motivate policymakers to act rapidly given the speed at which forest health threats unfold and the large areas they affect. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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