Allocation of photoassimilated carbon of radiata pine (Pinus radiata) seedlings as affected by soil water stress

Pub Date : 2021-01-02 DOI:10.1080/00049158.2020.1864944

J. Jeong, N. Bolan, C. Kim

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引用次数: 1

Abstract

ABSTRACT This study was carried out to determine the carbon (C) allocation of tree components following water stress in radiata pine (Pinus radiata) seedlings. The seedlings were exposed to various water contents (low, moderate and high soil water content) for 30 days and labelled with 14CO2 gas for six hours on the 31st day. Biomass in all seedling components (foliage, stems and roots) was significantly higher in the moderate soil water content treatment than in the low soil water content treatment, while seedling biomass did not significantly differ between the moderate soil water and high soil water content treatments. The shoot/root ratio of seedlings decreased when soil water content decreased. The C concentrations of radiata pine seedlings were not affected by the soil water content, whereas the soil water stress-induced difference in the C allocation of seedlings was attributed to differences in seedling biomass. The translocation of pulse-labelled 14C from the foliage to the roots was enhanced by low soil water content. The distribution of 14C was highest in foliage, followed by roots, stems and soil. The results indicate that soil water content was one of the primary factors influencing biomass allocation in the early growth of radiata pine seedlings.

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土壤水分胁迫对辐射松幼苗光合碳分配的影响

摘要本研究旨在确定水分胁迫下辐射松(Pinus radiata)幼苗树木组分的碳(C)分配。将幼苗暴露在不同含水量(低、中、高土壤含水量)下30天，在第31天用14CO2气体标记6小时。土壤含水量适中处理的幼苗各组成部分(叶、茎、根)生物量显著高于土壤含水量低处理，而土壤含水量适中与土壤含水量高处理的幼苗生物量差异不显著。幼苗的茎根比随着土壤含水量的降低而降低。辐射松幼苗C浓度不受土壤含水量的影响，而土壤水分胁迫导致幼苗C分配的差异归因于幼苗生物量的差异。低土壤含水量促进了脉冲标记14C从叶片向根系的转运。14C在叶片中的分布最高，其次是根、茎和土壤。结果表明，土壤含水量是影响辐射松幼苗生长早期生物量分配的主要因素之一。

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