Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory

Institut for Geovidenskab og Naturforvaltning

Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory. / Moreira, Xoaquín; Castagneyrol, Bastien; Abdala-Roberts, Luis; Teran, Jorge C. Berny-Mier y; Timmermans, Bart G. H.; Bruun, Hans Henrik; Covelo, Felisa; Glauser, Gaétan; Rasmann, Sergio; Tack, Ayco J. M.

I: Ecography, Bind 41, Nr. 7, 2018, s. 1124-1134.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Moreira, X, Castagneyrol, B, Abdala-Roberts, L, Teran, JCB-MY, Timmermans, BGH, Bruun, HH, Covelo, F, Glauser, G, Rasmann, S & Tack, AJM 2018, 'Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory', Ecography, bind 41, nr. 7, s. 1124-1134. https://doi.org/10.1111/ecog.03326

APA

Moreira, X., Castagneyrol, B., Abdala-Roberts, L., Teran, J. C. B-M. Y., Timmermans, B. G. H., Bruun, H. H., Covelo, F., Glauser, G., Rasmann, S., & Tack, A. J. M. (2018). Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory. Ecography, 41(7), 1124-1134. https://doi.org/10.1111/ecog.03326

Vancouver

Moreira X, Castagneyrol B, Abdala-Roberts L, Teran JCB-MY, Timmermans BGH, Bruun HH o.a. Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory. Ecography. 2018;41(7):1124-1134. https://doi.org/10.1111/ecog.03326

Author

Moreira, Xoaquín ; Castagneyrol, Bastien ; Abdala-Roberts, Luis ; Teran, Jorge C. Berny-Mier y ; Timmermans, Bart G. H. ; Bruun, Hans Henrik ; Covelo, Felisa ; Glauser, Gaétan ; Rasmann, Sergio ; Tack, Ayco J. M. / Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory. I: Ecography. 2018 ; Bind 41, Nr. 7. s. 1124-1134.

Bibtex

@article{7bc9697c48dc41c3b2a4eada0f5d336b,

title = "Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory",

abstract = "A long-standing paradigm in ecology holds that herbivore pressure and thus plant defences increase towards lower latitudes. However, recent work has challenged this prediction where studies have found no relationship or opposite trends where herbivory or plant defences increase at higher latitudes. Here we tested for latitudinal variation in herbivory, chemical defences (phenolic compounds), and nutritional traits (phosphorus and nitrogen) in leaves of a long-lived tree species, the English oak Quercus robur. We further investigated the underlying climatic and soil factors associated with such variation. Across 38 populations of Q. robur distributed along an 18° latitudinal gradient, covering almost the entire latitudinal and climatic range of this species, we observed strong but divergent latitudinal gradients in leaf herbivory and leaf chemical defences and nutrients. As expected, there was a negative relationship between latitude and leaf herbivory where oak populations from lower latitudes exhibited higher levels of leaf herbivory. However, counter to predictions there was a positive relationship between leaf chemical defences and latitude where populations at higher latitudes were better defended. Similarly, leaf phosphorus and nitrogen increased with latitude. Path analysis indicated a significant (negative) effect of plant chemical defences (condensed tannins) on leaf herbivory, suggesting that the latitudinal gradient in leaf herbivory was driven by an inverse gradient in defensive investment. Leaf nutrients had no independent influence on herbivory. Further, we found significant indirect effects of precipitation and soil porosity on leaf herbivory, which were mediated by plant chemical defences. These findings suggest that abiotic factors shape latitudinal variation in plant defences and that these defences in turn underlie latitudinal variation in leaf herbivory. Overall, this study contributes to a better understanding of latitudinal variation in plant–herbivore interactions by determining the identity and modus operandi of abiotic factors concurrently shaping plant defences and herbivory.",

keywords = "Faculty of Science, macroecology, plant defence",

author = "Xoaqu{\'i}n Moreira and Bastien Castagneyrol and Luis Abdala-Roberts and Teran, {Jorge C. Berny-Mier y} and Timmermans, {Bart G. H.} and Bruun, {Hans Henrik} and Felisa Covelo and Ga{\'e}tan Glauser and Sergio Rasmann and Tack, {Ayco J. M.}",

year = "2018",

doi = "10.1111/ecog.03326",

language = "English",

volume = "41",

pages = "1124--1134",

journal = "Ecography",

issn = "0906-7590",

publisher = "Wiley-Blackwell",

number = "7",

}

RIS

TY - JOUR

T1 - Latitudinal variation in plant chemical defences drives latitudinal patterns of leaf herbivory

AU - Moreira, Xoaquín

AU - Castagneyrol, Bastien

AU - Abdala-Roberts, Luis

AU - Teran, Jorge C. Berny-Mier y

AU - Timmermans, Bart G. H.

AU - Bruun, Hans Henrik

AU - Covelo, Felisa

AU - Glauser, Gaétan

AU - Rasmann, Sergio

AU - Tack, Ayco J. M.

PY - 2018

Y1 - 2018

N2 - A long-standing paradigm in ecology holds that herbivore pressure and thus plant defences increase towards lower latitudes. However, recent work has challenged this prediction where studies have found no relationship or opposite trends where herbivory or plant defences increase at higher latitudes. Here we tested for latitudinal variation in herbivory, chemical defences (phenolic compounds), and nutritional traits (phosphorus and nitrogen) in leaves of a long-lived tree species, the English oak Quercus robur. We further investigated the underlying climatic and soil factors associated with such variation. Across 38 populations of Q. robur distributed along an 18° latitudinal gradient, covering almost the entire latitudinal and climatic range of this species, we observed strong but divergent latitudinal gradients in leaf herbivory and leaf chemical defences and nutrients. As expected, there was a negative relationship between latitude and leaf herbivory where oak populations from lower latitudes exhibited higher levels of leaf herbivory. However, counter to predictions there was a positive relationship between leaf chemical defences and latitude where populations at higher latitudes were better defended. Similarly, leaf phosphorus and nitrogen increased with latitude. Path analysis indicated a significant (negative) effect of plant chemical defences (condensed tannins) on leaf herbivory, suggesting that the latitudinal gradient in leaf herbivory was driven by an inverse gradient in defensive investment. Leaf nutrients had no independent influence on herbivory. Further, we found significant indirect effects of precipitation and soil porosity on leaf herbivory, which were mediated by plant chemical defences. These findings suggest that abiotic factors shape latitudinal variation in plant defences and that these defences in turn underlie latitudinal variation in leaf herbivory. Overall, this study contributes to a better understanding of latitudinal variation in plant–herbivore interactions by determining the identity and modus operandi of abiotic factors concurrently shaping plant defences and herbivory.

AB - A long-standing paradigm in ecology holds that herbivore pressure and thus plant defences increase towards lower latitudes. However, recent work has challenged this prediction where studies have found no relationship or opposite trends where herbivory or plant defences increase at higher latitudes. Here we tested for latitudinal variation in herbivory, chemical defences (phenolic compounds), and nutritional traits (phosphorus and nitrogen) in leaves of a long-lived tree species, the English oak Quercus robur. We further investigated the underlying climatic and soil factors associated with such variation. Across 38 populations of Q. robur distributed along an 18° latitudinal gradient, covering almost the entire latitudinal and climatic range of this species, we observed strong but divergent latitudinal gradients in leaf herbivory and leaf chemical defences and nutrients. As expected, there was a negative relationship between latitude and leaf herbivory where oak populations from lower latitudes exhibited higher levels of leaf herbivory. However, counter to predictions there was a positive relationship between leaf chemical defences and latitude where populations at higher latitudes were better defended. Similarly, leaf phosphorus and nitrogen increased with latitude. Path analysis indicated a significant (negative) effect of plant chemical defences (condensed tannins) on leaf herbivory, suggesting that the latitudinal gradient in leaf herbivory was driven by an inverse gradient in defensive investment. Leaf nutrients had no independent influence on herbivory. Further, we found significant indirect effects of precipitation and soil porosity on leaf herbivory, which were mediated by plant chemical defences. These findings suggest that abiotic factors shape latitudinal variation in plant defences and that these defences in turn underlie latitudinal variation in leaf herbivory. Overall, this study contributes to a better understanding of latitudinal variation in plant–herbivore interactions by determining the identity and modus operandi of abiotic factors concurrently shaping plant defences and herbivory.

KW - Faculty of Science

KW - macroecology

KW - plant defence

U2 - 10.1111/ecog.03326

DO - 10.1111/ecog.03326

M3 - Journal article

AN - SCOPUS:85034864794

VL - 41

SP - 1124

EP - 1134

JO - Ecography

JF - Ecography

SN - 0906-7590

IS - 7

ER -

ID: 199428852