期刊
FORESTS
卷 12, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/f12111474
关键词
heritability; tree breeding; disease resistance; pine wilt disease; genotype by environment interaction; genetic gain
类别
资金
- National Institute for Agricultural and Food Research and Technology [RTA 2014-042-C2, RTA2017-012-C2]
- European Regional Development Fund (Plan de Mejora e Innovacion Forestal de Galicia 2010-2020)
- INDITEX
The study revealed significant genetic variation in susceptibility to pine wilt disease, with moderate heritability estimates and genetic gain observed for survival. Additionally, differences in constitutive chemical compounds between susceptible and non-susceptible seedlings were identified, highlighting the potential for breeding P. radiata genotypes resistant to the disease.
Full understanding and control of pine wilt disease (PWD) is a work in progress and breeding for disease resistance constitutes an essential management strategy for reducing its impact, as evidenced by advanced breeding programs in countries such as Japan. Since Pinus radiata is one of the most commercially relevant species in northern Spain, we designed a study to assess genetic variation in susceptibility to this pathogen using 44 P. radiata half-sib families from the Galician breeding program. Three Bursaphelenchus xylophilus (pinewood nematode, PWN) inoculation experiments were performed to evaluate disease-related variables, estimate genetic parameters, and study sources of genotype by environment interaction (G x E). We also looked at differences in the constitutive chemical compounds of susceptible and non-susceptible individuals. The results showed great variation in PWN susceptibility, with survival rates for P. radiata families ranging from 0% to 90%. In addition, heritability estimates (h(i)(2) = 0.43, h(f)(2) = 0.72) and genetic gain (> 26% selecting 50% of the families) were both moderately high for survival. Significant differences in several constitutive chemical compounds were found between susceptible and non-susceptible seedlings in the two susceptibility groups considered. These results confirm the potential of breeding to obtain P. radiata genotypes that are resistant to pine wilt disease and open possibilities for mitigating its future impact on P. radiata stands.
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