低降雨量与高降雨量地区的叶片：结构、寿命和生理机能的协调

Leaves at low versus high rainfall: coordination of structure, lifespan and physiology.

作者信息

Wright Ian J, Westoby Mark

机构信息

Department of Biological Sciences, Macquarie University, Sydney 2109, Australia.

出版信息

New Phytol. 2002 Sep;155(3):403-416. doi: 10.1046/j.1469-8137.2002.00479.x.

DOI:10.1046/j.1469-8137.2002.00479.x

PMID:33873314

Abstract

• Across species, leaf lifespan (LL) tends to be correlated with leaf mass per area (LMA). Previously we found that Australian perennial species from low-rainfall sites had c . 40% shorter LL at a given LMA than high-rainfall species. • Here we relate indices of leaf strength (work to shear, W , and tissue toughness) to LL and LMA across the same suite of species. W is the work required to cut a leaf with a blade; W divided by leaf thickness gives tissue toughness. • Low- and high-rainfall species did not differ in their LL at a given W , but dry-site species had lower W at a given LMA, leading to the observed LL - LMA shift with rainfall. These patterns were driven by 50% lower tissue toughness in dry-site species. • The lower toughness was linked with high leaf N concentration, which is known to enhance water conservation during photosynthesis in low-rainfall species. Our results suggest that a significant cost of this strategy is reduced LL for a given investment in leaf tissue (LMA).

摘要

• 在不同物种间，叶片寿命（LL）往往与单位面积叶片质量（LMA）相关。此前我们发现，来自低降雨地区的澳大利亚多年生植物物种，在相同的LMA条件下，其LL比高降雨地区的物种短约40%。

• 在此，我们将叶片强度指标（剪切功，W ，以及组织韧性）与同一组物种的LL和LMA联系起来。W 是用刀片切割叶片所需的功；W 除以叶片厚度即为组织韧性。

• 在相同的W 条件下，低降雨和高降雨物种的LL没有差异，但在相同的LMA条件下，干旱地区物种的W 较低，这导致了观察到的LL随降雨量与LMA的变化。这些模式是由干旱地区物种50%较低的组织韧性驱动的。

• 较低的韧性与高叶片氮浓度有关，已知高叶片氮浓度可增强低降雨物种光合作用期间的水分保持。我们的结果表明，对于给定的叶片组织投资（LMA），这种策略的一个重大代价是LL缩短。

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低降雨量与高降雨量地区的叶片：结构、寿命和生理机能的协调

Leaves at low versus high rainfall: coordination of structure, lifespan and physiology.

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