Provenance-specific climate sensitivity of Pinus massoniana – a multi-environmental trial in subtropical China

IF 1.4 4区农林科学 Q2 FORESTRY

Dendrobiology Pub Date : 2021-02-05 DOI:10.12657/DENBIO.085.002

Zhen Zhang, Guoqing Jin, Zhongping Feng, Linshan Sun, Zhichun Zhou

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引用次数: 3

Abstract

Climate change is causing changes in tree species performance and distribution, impacting breeding programme effectiveness. Our aim was to analyse the effects of provenance and climatic factorson the annual ring density of Masson pine (Pinus massoniana Lamb.) at different experimental sites and potential breeding strategies that may be developed in response to future climate change. The study trees represented provenances originating from the western, east-central, northern, and southern regions of P. massoniana distribution in China. The wood density differed significantly among provenances. A multisite variance analysis test showed that the type B correlation coefficients for ring density at the two sites studied were less than 0.8, indicating an interaction effect of genotype by environment (G×E) on tree ring density. Climatic factors directly affected the wood density properties. At Chun’an (CA), the maximum latewood density (MXD) and minimum earlywood density (MND) were positively correlated with absolute maximum temperatures in August and May of the current growing season, respectively. At Taizi Mountain (TZS), MXD was significantly positively correlated with absolute maximum temperature in September ofthe current year and significantly negatively correlated with precipitation in June. MND was significantly positively correlated with absolute maximum temperature in May of the current year and significantly negatively correlated with precipitation in April. The climatic effects on P. massoniana wood density differed among seed-source origins. This study showed that ring density characteristics differed significantly among provenances, and provenance selection could promote wood density. MXD and MND exhibited significant genotype-by-environment interaction effects, and significant correlations were found between ring density and temperature, and precipitation conditions. These findings suggest that climatic factors and site conditionsin addition to genetics could be strong drivers of wood density variation, and/or that wood density is a highly plastic trait.

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马尾松的种源特异性气候敏感性——中国亚热带多环境试验

气候变化正在引起树种性能和分布的变化，影响育种计划的有效性。本研究的目的是分析马尾松(Pinus massoniana Lamb.)在不同实验地点的种源和气候因素对马尾松年轮密度的影响，以及为应对未来气候变化可能制定的育种策略。研究树代表了马尾松在中国西部、中东部、北部和南部分布的种源。不同种源间木材密度差异显著。多位点方差分析结果表明，两个试验点的树木年轮密度B型相关系数均小于0.8，表明环境基因型对树木年轮密度存在交互作用(G×E)。气候因素直接影响木材的密度特性。春安地区最大晚木密度(MXD)和最小早木密度(MND)分别与当季8月和5月的绝对最高气温呈显著正相关。太子山9月MXD与绝对最高气温呈极显著正相关，与6月降水呈极显著负相关。MND与当年5月绝对最高气温呈显著正相关，与4月降水呈显著负相关。气候对马尾松木材密度的影响因种源不同而不同。研究表明，不同种源间环密度特征差异显著，种源选择对木材密度有促进作用。MXD和MND表现出显著的基因型-环境互作效应，环密度与温度和降水条件之间存在显著的相关关系。这些发现表明，除了遗传因素外，气候因素和场地条件可能是木材密度变化的强烈驱动因素，并且/或者木材密度是一种高度可塑性的特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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