Global relationships in tree functional traits

Lancaster Environment Centre

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https://doi.org/10.1038/s41467-022-30888-2
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Available under license: CC BY: Creative Commons Attribution 4.0 International License

Research output: Contribution to Journal/Magazine › Journal article › peer-review

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Global relationships in tree functional traits. / Maynard, D.S.; Bialic-Murphy, L.; Zohner, C.M. et al.
In: Nature Communications, Vol. 13, No. 1, 3185, 08.06.2022.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Maynard, DS, Bialic-Murphy, L, Zohner, CM, Averill, C, van den Hoogen, J, Ma, H, Mo, L, Smith, GR, Acosta, ATR, Aubin, I, Berenguer, E, Boonman, CCF, Catford, JA, Cerabolini, BEL, Dias, AS, González-Melo, A, Hietz, P, Lusk, CH, Mori, AS, Niinemets, Ü, Pillar, VD, Pinho, BX, Rosell, JA, Schurr, FM, Sheremetev, SN, da Silva, AC, Sosinski, Ê, van Bodegom, PM, Weiher, E, Bönisch, G, Kattge, J & Crowther, TW 2022, 'Global relationships in tree functional traits', Nature Communications, vol. 13, no. 1, 3185. https://doi.org/10.1038/s41467-022-30888-2

APA

Maynard, D. S., Bialic-Murphy, L., Zohner, C. M., Averill, C., van den Hoogen, J., Ma, H., Mo, L., Smith, G. R., Acosta, A. T. R., Aubin, I., Berenguer, E., Boonman, C. C. F., Catford, J. A., Cerabolini, B. E. L., Dias, A. S., González-Melo, A., Hietz, P., Lusk, C. H., Mori, A. S., ... Crowther, T. W. (2022). Global relationships in tree functional traits. Nature Communications, 13(1), Article 3185. https://doi.org/10.1038/s41467-022-30888-2

Vancouver

Maynard DS, Bialic-Murphy L, Zohner CM, Averill C, van den Hoogen J, Ma H et al. Global relationships in tree functional traits. Nature Communications. 2022 Jun 8;13(1):3185. doi: 10.1038/s41467-022-30888-2

Author

Maynard, D.S. ; Bialic-Murphy, L. ; Zohner, C.M. et al. / Global relationships in tree functional traits. In: Nature Communications. 2022 ; Vol. 13, No. 1.

Bibtex

@article{10731a97f96341b6abee97dd1fa77a43,

title = "Global relationships in tree functional traits",

abstract = "Due to massive energetic investments in woody support structures, trees are subject to unique physiological, mechanical, and ecological pressures not experienced by herbaceous plants. Despite a wealth of studies exploring trait relationships across the entire plant kingdom, the dominant traits underpinning these unique aspects of tree form and function remain unclear. Here, by considering 18 functional traits, encompassing leaf, seed, bark, wood, crown, and root characteristics, we quantify the multidimensional relationships in tree trait expression. We find that nearly half of trait variation is captured by two axes: one reflecting leaf economics, the other reflecting tree size and competition for light. Yet these orthogonal axes reveal strong environmental convergence, exhibiting correlated responses to temperature, moisture, and elevation. By subsequently exploring multidimensional trait relationships, we show that the full dimensionality of trait space is captured by eight distinct clusters, each reflecting a unique aspect of tree form and function. Collectively, this work identifies a core set of traits needed to quantify global patterns in functional biodiversity, and it contributes to our fundamental understanding of the functioning of forests worldwide.",

author = "D.S. Maynard and L. Bialic-Murphy and C.M. Zohner and C. Averill and {van den Hoogen}, J. and H. Ma and L. Mo and G.R. Smith and A.T.R. Acosta and I. Aubin and E. Berenguer and C.C.F. Boonman and J.A. Catford and B.E.L. Cerabolini and A.S. Dias and A. Gonz{\'a}lez-Melo and P. Hietz and C.H. Lusk and A.S. Mori and {\"U}. Niinemets and V.D. Pillar and B.X. Pinho and J.A. Rosell and F.M. Schurr and S.N. Sheremetev and {da Silva}, A.C. and {\^E}. Sosinski and {van Bodegom}, P.M. and E. Weiher and G. B{\"o}nisch and J. Kattge and T.W. Crowther",

year = "2022",

month = jun,

day = "8",

doi = "10.1038/s41467-022-30888-2",

language = "English",

volume = "13",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Publishing Group",

number = "1",

}

RIS

TY - JOUR

T1 - Global relationships in tree functional traits

AU - Maynard, D.S.

AU - Bialic-Murphy, L.

AU - Zohner, C.M.

AU - Averill, C.

AU - van den Hoogen, J.

AU - Ma, H.

AU - Mo, L.

AU - Smith, G.R.

AU - Acosta, A.T.R.

AU - Aubin, I.

AU - Berenguer, E.

AU - Boonman, C.C.F.

AU - Catford, J.A.

AU - Cerabolini, B.E.L.

AU - Dias, A.S.

AU - González-Melo, A.

AU - Hietz, P.

AU - Lusk, C.H.

AU - Mori, A.S.

AU - Niinemets, Ü.

AU - Pillar, V.D.

AU - Pinho, B.X.

AU - Rosell, J.A.

AU - Schurr, F.M.

AU - Sheremetev, S.N.

AU - da Silva, A.C.

AU - Sosinski, Ê.

AU - van Bodegom, P.M.

AU - Weiher, E.

AU - Bönisch, G.

AU - Kattge, J.

AU - Crowther, T.W.

PY - 2022/6/8

Y1 - 2022/6/8

N2 - Due to massive energetic investments in woody support structures, trees are subject to unique physiological, mechanical, and ecological pressures not experienced by herbaceous plants. Despite a wealth of studies exploring trait relationships across the entire plant kingdom, the dominant traits underpinning these unique aspects of tree form and function remain unclear. Here, by considering 18 functional traits, encompassing leaf, seed, bark, wood, crown, and root characteristics, we quantify the multidimensional relationships in tree trait expression. We find that nearly half of trait variation is captured by two axes: one reflecting leaf economics, the other reflecting tree size and competition for light. Yet these orthogonal axes reveal strong environmental convergence, exhibiting correlated responses to temperature, moisture, and elevation. By subsequently exploring multidimensional trait relationships, we show that the full dimensionality of trait space is captured by eight distinct clusters, each reflecting a unique aspect of tree form and function. Collectively, this work identifies a core set of traits needed to quantify global patterns in functional biodiversity, and it contributes to our fundamental understanding of the functioning of forests worldwide.

AB - Due to massive energetic investments in woody support structures, trees are subject to unique physiological, mechanical, and ecological pressures not experienced by herbaceous plants. Despite a wealth of studies exploring trait relationships across the entire plant kingdom, the dominant traits underpinning these unique aspects of tree form and function remain unclear. Here, by considering 18 functional traits, encompassing leaf, seed, bark, wood, crown, and root characteristics, we quantify the multidimensional relationships in tree trait expression. We find that nearly half of trait variation is captured by two axes: one reflecting leaf economics, the other reflecting tree size and competition for light. Yet these orthogonal axes reveal strong environmental convergence, exhibiting correlated responses to temperature, moisture, and elevation. By subsequently exploring multidimensional trait relationships, we show that the full dimensionality of trait space is captured by eight distinct clusters, each reflecting a unique aspect of tree form and function. Collectively, this work identifies a core set of traits needed to quantify global patterns in functional biodiversity, and it contributes to our fundamental understanding of the functioning of forests worldwide.

U2 - 10.1038/s41467-022-30888-2

DO - 10.1038/s41467-022-30888-2

M3 - Journal article

C2 - 35676261

VL - 13

JO - Nature Communications

JF - Nature Communications

SN - 2041-1723

IS - 1

M1 - 3185

ER -

Research

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