Do leaf lignin content or leaf mass-to-area bias the estimation of intrinsic water use efficiency from leaf bulk δ13C? A test with seedlings from five oak species

IF 2.5 3区 农林科学 Q1 FORESTRY
Hana Ghouil, Béatrice Richard, Pierre Montpied, Erwin Dreyer, Oliver Brendel
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引用次数: 0

Abstract

Key Message

Leaves of seedlings from five oak species (Quercus robur L.; Q. pubescens L.; Q. suber L.; Q. afares Pomel; Q. ilex L.) displayed large, mainly inter-specific, differences in leaf mass-to-area ratio (LMA) and lignin content, as well as in the 13C composition of bulk leaf biomass. The variation in leaf lignin content and LMA did not impact the offset between the 13C composition measured in bulk leaf material versus soluble sugars. This observation, as well as the similar correlations between intrinsic leaf water use efficiency and the 13C compositions of bulk material or soluble sugars extracted from leaves, confirms their reliable use as a proxy for the former even when there is a large variation in LMA or lignin among samples.

Context

Carbon isotope composition (δ13C) of bulk leaf biomass is frequently used as a proxy for intrinsic water use efficiency (iWUE) in large-scale intra- and inter-specific comparisons. However, post-photosynthetic 13C discrimination during the synthesis of lignin combined with differences in leaf mass-to-area ratio (LMA) may bias the relationship between δ13C of bulk leaf matter and iWUE and thus its use as a proxy of iWUE.

Aims

To quantify the impact of differences in lignin content and LMA on the relationship between δ13C of bulk leaf biomass and iWUE over a large gradient of lignin contents across five oak species (deciduous: Quercus robur, Q. pubescens, Q. afares and evergreen: Q. ilex and Q. suber).

Methods

We measured lignin content, LMA, and δ13C of bulk leaf biomass and of soluble sugars extracted from the leaves, as well as intrinsic water use efficiency (derived from leaf gas exchange) in seedlings of the five oak species grown under common conditions in a greenhouse and measured in a climate chamber.

Results

There was a large range (mainly across species) in lignin content (4 to 33%) and LMA (60–180 g m−2). δ13C of bulk leaf biomass and soluble sugars were tightly correlated, showing a significant mean offset of − 0.4‰. This offset was stable across species and not correlated to the lignin content of the leaves. A very loose correlation was found between the offset and LMA, mainly due to one species.

Conclusion

Our results are a demonstration that potential variations in leaf lignin content or LMA have no or only a little effect on the δ13C of bulk leaf biomass. They are unlikely to cause a bias when using bulk leaf δ13C as a proxy for variations in intrinsic water use efficiency among Mediterranean and temperate broad-leaf forest tree species.

Abstract Image

叶片木质素含量或叶片质量比面积是否会使根据叶片体积δ13C估算的内在水分利用效率出现偏差?五种橡树幼苗的测试
关键信息五种栎树(Quercus robur L.;Q. pubescens L.;Q. suber L.;Q. afares Pomel;Q. ilex L.)幼苗的叶片在叶片质量面积比(LMA)和木质素含量以及大块叶片生物量的 13C 成分方面显示出巨大的差异,主要是种间差异。叶片木质素含量和 LMA 的差异并不影响叶片总量与可溶性糖 13C 成分之间的偏移。这一观察结果以及叶片固有水分利用效率与从叶片中提取的块状物质或可溶性糖的 13C 成分之间的相似相关性证实,即使在样本间 LMA 或木质素存在较大差异的情况下,它们仍可作为前者的可靠替代物。目的 在五种橡树(落叶橡树、栎属橡树、柞属橡树、槲属橡树、栎属栎树和栎属栎树)的木质素含量存在较大梯度的情况下,量化木质素含量和 LMA 的差异对大量叶片生物量 δ13C 与 iWUE 之间关系的影响:Q.pubescens、Q.afares 和常绿栎:方法我们测量了木质素含量、LMA、叶片生物量和从叶片中提取的可溶性糖的δ13C,以及这五种栎树在温室中生长的幼苗的内在水分利用效率(从叶片气体交换中得出)。叶片生物量的δ13C 与可溶性糖密切相关,平均偏移量为-0.4‰。该偏移量在不同物种间保持稳定,且与叶片的木质素含量无关。我们的结果表明,叶片木质素含量或 LMA 的潜在变化对叶片生物量的 δ13C 没有影响或影响很小。在使用大叶 δ13C 作为地中海和温带阔叶林树种内在水分利用效率变化的替代物时,它们不太可能造成偏差。
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来源期刊
Annals of Forest Science
Annals of Forest Science 农林科学-林学
CiteScore
6.70
自引率
3.30%
发文量
45
审稿时长
12-24 weeks
期刊介绍: Annals of Forest Science is an official publication of the French National Institute for Agriculture, Food and Environment (INRAE) -Up-to-date coverage of current developments and trends in forest research and forestry Topics include ecology and ecophysiology, genetics and improvement, tree physiology, wood quality, and silviculture -Formerly known as Annales des Sciences Forestières -Biology of trees and associated organisms (symbionts, pathogens, pests) -Forest dynamics and ecosystem processes under environmental or management drivers (ecology, genetics) -Risks and disturbances affecting forest ecosystems (biology, ecology, economics) -Forestry wood chain (tree breeding, forest management and productivity, ecosystem services, silviculture and plantation management) -Wood sciences (relationships between wood structure and tree functions, and between forest management or environment and wood properties)
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