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Contrasting hydraulic architecture and function in deep and shallow roots of tree species from a semi-arid habitat

机译：半干旱生境树种深浅根的水力结构和功能对比

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Background and AimsDespite the importance of vessels in angiosperm roots for plant water transport, there is little research on the microanatomy of woody plant roots. Vessels in roots can be interconnected networks or nearly solitary, with few vessel–vessel connections. Species with few connections are common in arid habitats, presumably to isolate embolisms. In this study, measurements were made of root vessel pit sizes, vessel air-seeding pressures, pit membrane thicknesses and the degree of vessel interconnectedness in deep (approx. 20 m) and shallow (<10 cm) roots of two co-occurring species, Sideroxylon lanuginosum and Quercus fusiformis.

机译：背景和目的尽管被子植物根中的血管对于植物水的运输很重要，但对木本植物根的微观解剖学的研究很少。根部的船只可以是相互连接的网络，也可以是几乎孤立的，几乎没有船只与船只的连接。几乎没有联系的物种在干旱的生境中很常见，大概是为了隔离栓塞。在这项研究中，测量了两种同时发生的物种的深根（约20 m）和浅根（<10 cm）根的根管孔大小，孔的播种压力，孔膜厚度和管的互连程度。，Sideroxylon lanuginosum和Quercus fusiformis。

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期刊名称 Annals of Botany
作者
Daniel M. Johnson; Craig R. Brodersen; Mary Reed; Jean-Christophe Domec; Robert B. Jackson;
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年(卷),期 2014(113),4
年度 2014
页码 617–627
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
Anatomy cavitation drought embolism high-resolution computed tomography Quercus fusiformis root integration Sideroxylon lanuginosum water potential xylem vessels X-ray;

机译：解剖;空化;干旱;栓塞;高分辨率计算机断层扫描;福氏栎;根整合;Sideroxylon lanuginosum;水势;木质部血管;X射线;

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专利

1. Contrasting hydraulic architecture and function in deep and shallow roots of tree species from a semi-arid habitat [J] . Johnson Daniel M., Brodersen Craig R., Reed Mary, Annals of Botany . 2014,第4期

机译：半干旱生境树种深，浅根的水力结构和功能对比
2. Comparison of Rooting Strategies to Explore Rock Fractures for Shallow Soil-Adapted Tree Species with Contrasting Aboveground Growth Rates: A Greenhouse Microcosm Experiment [J] . Yunpeng Nie, Hongsong Chen, Yali Ding, Frontiers in Plant Science . 2017,第12期

机译：生根策略探讨浅层土壤适应树种岩骨折的生根策略与对比地上增长率对比下降率：温室微观实验
3. Hydraulic properties and embolism in small-diameter roots of five temperate broad-leaved tree species with contrasting drought tolerance. [J] . Kocher P., Horna V., Beckmeyer I., Annals of Forest Science . 2012,第6期

机译：五个温带阔叶树种的小径根的水力特性和栓塞，具有相对的耐旱性。
4. Earth reinforcement potential of four tree species as determined by root system architecture [C] . B.B. Docker, T.C.T. Hubble Geotechnical Engineering Meeting Society's Needs . 2001

机译：根系结构确定的四种树种的土壤增强潜力
5. Structure and hydraulic function of xylem in two tree species with contrasting amounts of sapwood, Pseudotsuga menziesii and Pinus ponderosa. [D] . Domec, Jean-Christophe. 2002

机译：边材数量相对不同的两种树的木质部的木质部的结构和水力功能，即Pseudotsuga menziesii和美国黄松。
6. Patterns in hydraulic architecture from roots to branches in six tropical tree species from cacao agroforestry and their relation to wood density and stem growth [O] . Martyna M. Kotowska, Dietrich Hertel, Yasmin Abou Rajab, 2015

机译：可可农林业的6种热带树木从根到枝的水力建筑模式及其与木材密度和茎生长的关系
7. Hydraulic properties and embolism in small-diameter roots of five temperate broad-leaved tree species with contrasting drought tolerance [O] . Köcher,, Horna,, Beckmeyer,, 2012

机译：五种温带阔叶树种小径根的水力学特性和栓塞特性

Contrasting hydraulic architecture and function in deep and shallow roots of tree species from a semi-arid habitat

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