Artificial light improves productivity of mini-cuttings in a clonal minigarden of Eucalyptus benthamii and E. dunnii

Southern Forests: a Journal of Forest Science Pub Date : 2021-10-02 DOI:10.2989/20702620.2021.2000326

E. R. Konzen, Natália Saudade de Aguiar, M. Navroski, C. S. Mota, L. Miranda, Regiane Abjaud Estopa, Erasmo Luis Tonett, Mariane de Oliveira Pereira

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引用次数: 1

Abstract

Eucalypts are economically important worldwide, being largely propagated by clonal means, that is, frequently achieved by mini-cuttings. Regional climatic conditions, however, interfere with this strategy. Southern Brazil, especially in higher altitudes, has a considerable number of cloudy and cold days annually. It is a challenge for clonal propagation, even for cold-tolerant species such as Eucalyptus benthami and E. dunnii. The supplementation with artificial light has proved to be effective for improving growth in agricultural crops, but little work has been done with trees. Here we conducted a set of experiments for producing mini-cuttings of two commercial clones of E. benthamii and one clone of E. dunnii under the supplementation with artificial light, using red/far-red (660:730 nm) and red/blue (660:450 nm) light emitting diodes (LED), in comparison to a control (sunlight only). The supplementation with red/far-red and red/blue light increased the production of mini-cuttings in colder months, but more consistently positive impacts were observed with red/far-red lamps. The shoots produced under red/far-red light were more elongated and implicated in higher leaf canopy coverage. Overall, this work is a first step aimed at improving clonal propagation systems of E. benthamii and E. dunnii through mini-cuttings supplemented with artificial light.

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人工光照提高了本彩桉和杜尼桉无性系迷你园的迷你插穗产量

桉树在世界范围内具有重要的经济意义，主要通过无性繁殖方式繁殖，即经常通过微型扦插实现。然而，区域气候条件干扰了这一策略。巴西南部，特别是在高海拔地区，每年有相当多的阴天和寒冷的日子。这对无性系繁殖来说是一个挑战，即使是对benthami和E. dunnii等耐寒物种也是如此。人造光的补充已被证明对改善农作物的生长是有效的，但对树木的研究却很少。本研究利用红/远红(660:730 nm)和红/蓝(660:450 nm)发光二极管(LED)，与对照(仅光照)进行了一组实验，在人工光源的补充下，制备了两个benthamii商业克隆和一个dunnii克隆的微型扦插。在较冷的月份，补充红光/远红光和红光/蓝光增加了微型岩屑的产量，但红光/远红光灯的积极影响更为一致。在红光/远红光光照下产生的芽更长，且叶冠盖度更高。综上所述，本研究是在人工光照条件下，通过微型扦插的方式，进一步改善拟南芥和dunnii克隆繁殖体系的第一步。

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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Southern Forests: a Journal of Forest Science

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