Development of biotechnology programmes for energy forestry

M. Hubbes
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引用次数: 4

Abstract

Dramatic gains in tree growth can be achieved by today's breeding techniques. However, much of these gains may be lost due to pathogen-caused diseases and insect attack. The use of pesticides in energy plantations is undersirable because of their possible ecological impacts and public concern regarding their harmful side effects. Conventional breeding programmes, geared to produce pest-resistant trees, are slow and require a large number of plants and space. Therefore, alternative techniques which use more powerful tools have to be employed to accelerate the processes that produce effective methods of pest control. Biotechnology, employing cell and tissue culture, cell fusion, recombinant DNA technology for cell cloning, and genetic engineering, is a new and rapidly developing field/science. Moreover, it seems ideally suited for the development of pest-resistant plant material for energy plantations.

Because of the timeliness of this technology in developing pest-resistant plant material, the International Energy Agency (IEA) Bioenergy Agreement initiated a special project to examine this proposal. The present paper summarizes the results of several workshops held by the representatives of the IEA member countries on this topic. Different techniques of biotechnology, their beneficial effects as well as some of their weaknesses, are discussed.

为能源林业发展生物技术方案
通过今天的育种技术,树木的生长可以得到显著的提高。然而,由于病原体引起的疾病和昆虫的袭击,这些收获可能大部分丧失。在能源种植园中使用杀虫剂是不可容忍的,因为它们可能对生态造成影响,而且公众担心它们的有害副作用。旨在培育抗虫害树木的传统育种计划进展缓慢,而且需要大量的植物和空间。因此,必须采用使用更有力工具的替代技术,以加速产生有效虫害控制方法的进程。生物技术是一门新兴的、快速发展的科学,它采用细胞和组织培养、细胞融合、重组DNA技术进行细胞克隆和基因工程。此外,它似乎非常适合开发用于能源种植园的抗虫害植物材料。由于这种技术在开发抗虫害植物材料方面的及时性,国际能源机构(IEA)生物能源协定启动了一个特别项目来审查这一建议。本文件总结了国际能源机构成员国代表就这一专题举行的几次讲习班的结果。讨论了不同的生物技术,它们的有益作用以及它们的一些弱点。
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