Ecogenetic plasticity and genetic variation in Populus hybrids under the impact of simulated climate change related stressors

IF 0.7 4区 农林科学 Q3 FORESTRY Baltic Forestry Pub Date : 2020-07-31 DOI:10.46490/bf462
Valda Gudynaitė-Franckevičienė, A. Pliūra, V. Suchockas
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引用次数: 8

Abstract

To meet the needs of carbon sequestration and production of raw materials from renewable natural resources for the timber market of the European Union, it is necessary to expand forest plantation areas. The efficiency of short rotation forestry depends primarily on the selection of hybrids and clones, suitable for the local environmental conditions. We postulate that ecogenetic response, ecogenetic plasticity and genotypic variation of different hybrids of poplars (Populus L.) depend both on the type of stressors (spring frosts, summer drought, increased UV-B radiation, warm winters) and peculiarities of the cross-bred species as well as on their genetic preadaptations to native environmental conditions of their origin. The aim of the study was to estimate the ecogenetic plasticity, genotypic variation of adaptive traits and adaptability of Populus hybrids under simulated conditions of the expected climate change. The research was performed with the cultivars and experimental clones of three different intraspecific hybrids of poplars (P. nigra L., P. deltoides Bartr. ex Marsh, and P. trichocarpa Torr. & Gray.) and four interspecific hybrids of poplars (P. deltoides L. × P. nigra, P. deltoides × P. trichocarpa, P. maximowiczii A. Henry × P. trichocarpa, and P. balsamifera L. × P. trichocarpa). Simulated spring frosts and summer drought treatments had a substantial impact on growth of trees, but the hybrid and clone effects were also significant and showed that many hybrids and clones in general retain their features/differences under stressful environmental conditions. A strongly expressed hybrid and clone interactions with simulated frost and drought effects (genotype-environment interaction, G × E) showed different ecogenetic response, plasticity and specific ecological preferences of the clones and hybrids. The sensitivity of hybrids to UV-B radiation varied and depended on the origin of their parental trees and this sensitivity partially reflected their susceptibility also to other stressors. Warm winters adversely effected the growth of some hybrids while others - P. nigra × P. nigra and P. trichocarpa × P. trichocarpa, which parents originated from the southern part of their natural distribution range have increased their growth. This treatment also resulted in reduction of the heritability and genotypic variation of growth traits.   Keywords: poplars, clones, genotype-environment interaction, genetic variation, heritability
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模拟气候变化相关应激源影响下杨树杂种的生态遗传可塑性和遗传变异
为了满足欧盟木材市场对碳封存和可再生自然资源原料生产的需求,有必要扩大人工林面积。短期轮作林业的效率主要取决于选择适合当地环境条件的杂交种和无性系。本文认为,不同杨树杂交品种的生态遗传响应、生态遗传可塑性和基因型变异既取决于胁迫源的类型(春霜、夏旱、UV-B辐射增加、暖冬)和杂交品种的特性,也取决于其对原生环境条件的遗传预适应。本研究旨在研究在预期气候变化的模拟条件下,杨树杂交品种的生态遗传可塑性、适应性状的基因型变异和适应性。以三种不同种内杂交杨树(P. nigra L., P. deltoides Bartr.)的品种和试验无性系为材料进行了研究。前Marsh和P. trichocarpa Torr。和四个种间杂交杨树(P. deltoides L. × P. nigra, P. deltoides × P. trichocarpa, P. maximowiczii A. Henry × P. trichocarpa和P. balsamifera L. × P. trichocarpa)。模拟春霜和夏季干旱处理对树木的生长有显著影响,但杂交和无性系效应也很显著,表明在逆境条件下,许多杂交和无性系总体上保持了它们的特征/差异。在模拟霜旱效应下,强表达的杂交与无性系相互作用(基因型-环境相互作用,G × E)表现出不同的生态遗传响应、可塑性和特定的生态偏好。杂交种对UV-B辐射的敏感性因其亲本树的来源而异,这种敏感性也部分反映了它们对其他胁迫源的敏感性。暖冬对部分杂交品种的生长有不利影响,而来自自然分布范围南部的黑斑斑蝶×黑斑斑蝶和毛卡斑蝶×毛卡斑蝶的杂交品种生长有促进作用。这种处理还降低了生长性状的遗传力和基因型变异。关键词:杨树,无性系,基因型-环境互作,遗传变异,遗传力
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来源期刊
Baltic Forestry
Baltic Forestry 农林科学-林学
CiteScore
1.60
自引率
0.00%
发文量
23
审稿时长
>12 weeks
期刊介绍: The journal welcomes the original articles as well as short reports, review papers on forestry and forest science throughout the Baltic Sea region and elsewhere in the area of boreal and temperate forests. The Baltic Sea region is rather unique through its intrinsic environment and distinguished geographical and social conditions. A temperate climate, transitional and continental, has influenced formation of the mixed coniferous and deciduous stands of high productivity and biological diversity. The forest science has been affected by the ideas from both the East and West. In 1995, Forest Research Institutes and Universities from Estonia, Latvia and Lithuania joined their efforts to publish BALTIC FORESTRY.
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