Leaf wax n-alkane patterns of six tropical montane tree species show species-specific environmental response

Milan Lana Teunissen van Manen; Boris Jansen; Francisco Cuesta; Susana León-Yánez; William Daniel Gosling

doi:10.1002/ece3.5458

Leaf wax n-alkane patterns of six tropical montane tree species show species-specific environmental response

Milan Lana Teunissen van Manen^*, Boris Jansen, Francisco Cuesta, Susana León-Yánez, William Daniel Gosling

^*Corresponding author for this work

Faculty of Exact and Natural Sciences

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

It remains poorly understood how the composition of leaf wax n-alkanes reflects the local environment. This knowledge gap inhibits the interpretation of plant responses to the environment at the community level and, by extension, inhibits the applicability of n-alkane patterns as a proxy for past environments. Here, we studied the n-alkane patterns of five Miconia species and one Guarea species, in the Ecuadorian Andes (653–3,507 m a.s.l.). We tested for species-specific responses in the average chain length (ACL), the C₃₁/(C₃₁ + C₂₉) ratio (ratio), and individual odd n-alkane chain lengths across an altitudinally driven environmental gradient (mean annual temperature, mean annual relative air humidity, and mean annual precipitation). We found significant correlations between the environmental gradients and species-specific ACL and ratio, but with varying magnitude and direction. We found that the n-alkane patterns are species-specific at the individual chain length level, which could explain the high variance in metrics like ACL and ratio. Although we find species-specific sensitivity and responses in leaf n-alkanes, we also find a general decrease in “shorter” (<C₂₉) and an increase in “longer” (>C₃₁) chain lengths with the environmental gradients, most strongly with temperature, suggesting n-alkanes are useful for reconstructing past environments.

Original language	English
Pages (from-to)	9120-9128
Number of pages	9
Journal	Ecology and Evolution
Volume	9
Issue number	16
DOIs	https://doi.org/10.1002/ece3.5458
State	Published - 28 Jun 2019

Bibliographical note

Publisher Copyright:
© 2019 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

Funding

The authors thank Laurens Broeze, Esteban Pinto, Andrés Diaz and Gabriela López for their dedication and support in the field and laboratory in Ecuador. Financial support came from the Institute for Biodiversity and Ecosystem Dynamics (University of Amsterdam). Additional funding came from the EcoAndes Project conducted by Consortium for the Sustainable Development of the Andean Ecoregion (CONDESAN) and United Nations Environment Programme (UNEP), funded by the Global Environmental Fund (GEF), cooperation agreement No. 4750. The authors thank Laurens Broeze, Esteban Pinto, Andr?s Diaz and Gabriela L?pez for their dedication and support in the field and laboratory in Ecuador. Financial support came from the Institute for Biodiversity and Ecosystem Dynamics (University of Amsterdam). Additional funding came from the EcoAndes Project conducted by Consortium for the Sustainable Development of the Andean Ecoregion (CONDESAN) and United Nations Environment Programme (UNEP), funded by the Global Environmental Fund (GEF), cooperation agreement No. 4750.

Funders	Funder number
Global Environmental Fund	4750
UNEP
United Nations University Institute for Environment and Human Security
Universiteit van Amsterdam

Keywords

Ecuador
Western Andes
leaf wax
lipid biomarkers
n-alkanes
species-specific response

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10.1002/ece3.5458

Cite this

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title = "Leaf wax n-alkane patterns of six tropical montane tree species show species-specific environmental response",

abstract = "It remains poorly understood how the composition of leaf wax n-alkanes reflects the local environment. This knowledge gap inhibits the interpretation of plant responses to the environment at the community level and, by extension, inhibits the applicability of n-alkane patterns as a proxy for past environments. Here, we studied the n-alkane patterns of five Miconia species and one Guarea species, in the Ecuadorian Andes (653–3,507 m a.s.l.). We tested for species-specific responses in the average chain length (ACL), the C31/(C31 + C29) ratio (ratio), and individual odd n-alkane chain lengths across an altitudinally driven environmental gradient (mean annual temperature, mean annual relative air humidity, and mean annual precipitation). We found significant correlations between the environmental gradients and species-specific ACL and ratio, but with varying magnitude and direction. We found that the n-alkane patterns are species-specific at the individual chain length level, which could explain the high variance in metrics like ACL and ratio. Although we find species-specific sensitivity and responses in leaf n-alkanes, we also find a general decrease in “shorter” (29) and an increase in “longer” (>C31) chain lengths with the environmental gradients, most strongly with temperature, suggesting n-alkanes are useful for reconstructing past environments.",

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Leaf wax n-alkane patterns of six tropical montane tree species show species-specific environmental response

Abstract

Bibliographical note

Funding

Keywords

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