Morphology of extrafloral nectaries of Ailanthus altissima (Mill.) Swingle (Simaroubaceae)

Pub Date : 2023-10-25 DOI:10.18054/pb.v125i1-2.24852
Danijela Poljuha, Mirela Uzelac, Tea Zubin Ferri, Danijela Damijanić, Mihaela Šimunić, Hrvoje Korovljević, Tim Weber, Barbara Sladonja
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Abstract

Background and Purpose: Ailanthus altissima (Mill.) Swingle (Tree of Heaven) is a highly invasive, widespread, and widely investigated plant species native to the broader area of China. Extrafloral nectaries are major components of the A. altissima secretory system, but the knowledge of their morphology and role in the tree's physiology is limited. This research aims to explore the morphology of extrafloral nectaries, compare it to previous findings, and discuss their possible role and function. Materials and Methods: Extrafloral nectaries on leaves have been monitored through different phases of leaf development, from June to August 2015 and 2022. The nectaries' morphology was investigated using Zeiss Axioscope 5 and BOECO BSZ-405 light microscopes, and FEG QUANTA 250 FEI scanning electron microscope, operating at 7 kV and pressure of 60–100 Pa, without samples pretreatment. Results: Our investigation revealed the absence of earlier reported pores or ducts on the top of the glands. However, it supports one of the first, systematical investigations of A. altissima extrafloral nectaries conducted in Croatia a century ago, which was until recently forgotten by history. We evaluated our findings against prior theories and assessed the nectaries' potential role and purpose in disposing surplus sugars. Conclusions: The nectar in A. altissima is not secreted via an opening on the leaves but rather through epidermal tissue tearing.
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花外花蜜的形态Swingle (Simaroubaceae)
背景与目的:Ailanthus altissima (Mill.)天树是一种高度入侵的、广泛分布的、被广泛研究的植物物种,原产于中国更广泛的地区。花外蜜腺是高桫椤分泌系统的主要组成部分,但对其形态及其在树生理中的作用的认识有限。本研究旨在探讨花外蜜腺的形态,并与以往的研究结果进行比较,探讨其可能的作用和功能。材料与方法:2015年6月至8月和2022年8月,通过叶片发育的不同阶段对叶片上的花外蜜腺进行监测。采用Zeiss Axioscope 5和BOECO BSZ-405光学显微镜和FEG QUANTA 250 FEI扫描电镜,在7 kV和60-100 Pa压力下,不进行样品预处理,观察腺的形态。结果:我们的调查显示,先前报道的腺体顶部的毛孔或导管的缺失。然而,它支持了一个世纪前在克罗地亚对a . altissima花外蜜腺进行的第一次系统调查之一,直到最近才被历史遗忘。我们根据先前的理论评估了我们的发现,并评估了蜜腺在处理多余糖方面的潜在作用和目的。结论:花蜜不是通过叶片开口分泌的,而是通过表皮组织撕裂分泌的。
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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