BAAD: a Biomass And Allometry Database for woody plants

Daniel S. Falster; Remko A. Duursma; Masae I. Ishihara; Diego R. Barneche; Richard G. FitzJohn; Angelica Vårhammar; Masahiro Aiba; Makoto Ando; Niels Anten; Michael J. Aspinwall; Jennifer L. Baltzer; Christopher Baraloto; Michael Battaglia; John J. Battles; Ben Bond Lamberty; Michiel Van Breugel; James Camac; Yves Claveau; Lluís Coll; Masako Dannoura; Sylvain Delagrange; Jean Christophe Domec; Farrah Fatemi; Wang Feng; Veronica Gargaglione; Yoshiaki Goto; Akio Hagihara; Jefferson S. Hall; Steve Hamilton; Degi Harja; Tsutom Hiura; Robert Holdaway; Lindsay B. Hutley; Tomoaki Ichie; Eric J. Jokela; Anu Kantola; Jeff W G Kelly; Tanaka Kenzo; David King; Brian D. Kloeppel; Takashi Kohyama; Akira Komiyama; Jean Paul Laclau; Christopher H. Lusk; Douglas A. Maguire; Guerric Le Maire; Annikki Mäkelä; Lars Markesteijn; John Marshall; Katherine McCulloh; Itsuo Miyata; Karel Mokany; Shigeta Mori; Randall W. Myster; Masahiro Nagano; Shawna L. Naidu; Yann Nouvellon; Anthony P. O'Grady; Kevin L. O'Hara; Toshiyuki Ohtsuka; Noriyuki Osada; Olusegun O. Osunkoya; Pablo Luis Peri; Any Mary Petritan; Lourens Poorter; Angelika Portsmuth; Catherine Potvin; Johannes Ransijn; Douglas Reid; Sabina C. Ribeiro; Scott D. Roberts; Rolando Rodríguez; Angela Saldaña Acosta; Ignacio Santa-Regina; Kaichiro Sasa; N. Galia Selaya; Stephen C. Sillett; Frank Sterck; Kentaro Takagi; Takeshi Tange; Hiroyuki Tanouchi; David Tissue; Toru Umehara; Hajime Utsugi; Matthew A. Vadeboncoeur; Fernando Valladares; Petteri Vanninen; Jian R. Wang; Elizabeth Wenk; Richard Williams; Fabiano De Aquino Ximenes; Atsushi Yamaba; Toshihiro Yamada; Takuo Yamakura; Ruth D. Yanai; Robert A. York

doi:10.1890/141889.1

BAAD: a Biomass And Allometry Database for woody plants

Daniel S. Falster, Remko A. Duursma, Masae I. Ishihara, Diego R. Barneche, Richard G. FitzJohn, Angelica Vårhammar, Masahiro Aiba, Makoto Ando, Niels Anten, Michael J. Aspinwall, Jennifer L. Baltzer, Christopher Baraloto, Michael Battaglia, John J. Battles, Ben Bond Lamberty, Michiel Van Breugel, James Camac, Yves Claveau, Lluís Coll, Masako DannouraSylvain Delagrange, Jean Christophe Domec, Farrah Fatemi, Wang Feng, Veronica Gargaglione, Yoshiaki Goto, Akio Hagihara, Jefferson S. Hall, Steve Hamilton, Degi Harja, Tsutom Hiura, Robert Holdaway, Lindsay B. Hutley, Tomoaki Ichie, Eric J. Jokela, Anu Kantola, Jeff W G Kelly, Tanaka Kenzo, David King, Brian D. Kloeppel, Takashi Kohyama, Akira Komiyama, Jean Paul Laclau, Christopher H. Lusk, Douglas A. Maguire, Guerric Le Maire, Annikki Mäkelä, Lars Markesteijn, John Marshall, Katherine McCulloh, Itsuo Miyata, Karel Mokany, Shigeta Mori, Randall W. Myster, Masahiro Nagano, Shawna L. Naidu, Yann Nouvellon, Anthony P. O'Grady, Kevin L. O'Hara, Toshiyuki Ohtsuka, Noriyuki Osada, Olusegun O. Osunkoya, Pablo Luis Peri, Any Mary Petritan, Lourens Poorter, Angelika Portsmuth, Catherine Potvin, Johannes Ransijn, Douglas Reid, Sabina C. Ribeiro, Scott D. Roberts, Rolando Rodríguez, Angela Saldaña Acosta, Ignacio Santa-Regina, Kaichiro Sasa, N. Galia Selaya, Stephen C. Sillett, Frank Sterck, Kentaro Takagi, Takeshi Tange, Hiroyuki Tanouchi, David Tissue, Toru Umehara, Hajime Utsugi, Matthew A. Vadeboncoeur, Fernando Valladares, Petteri Vanninen, Jian R. Wang, Elizabeth Wenk, Richard Williams, Fabiano De Aquino Ximenes, Atsushi Yamaba, Toshihiro Yamada, Takuo Yamakura, Ruth D. Yanai, Robert A. York

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

93 Citations (Scopus)

46 Downloads (Pure)

Abstract

Understanding how plants are constructed; i.e., how key size dimensions and the amount of mass invested in different tissues varies among individuals; is essential for modeling plant growth, estimating carbon stocks, and mapping energy fluxes in the terrestrial biosphere. Allocation patterns can differ through ontogeny, but also among coexisting species and among species adapted to different environments. While a variety of models dealing with biomass allocation exist, we lack a synthetic understanding of the underlying processes. This is partly due to the lack of suitable data sets for validating and parameterizing models. To that end, we present the Biomass and allometry database (BAAD) for woody plants. The BAAD contains 259 634 measurements collected in 176 different studies, from 21 084 individuals across 678 species. Most of these data come from existing publications. However, raw data were rarely made public at time of publication. Thus the BAAD contains individual level data from different studies, transformed into standard units and variable names. The transformations were achieved using a common workflow for all raw data files. Other features that distinguish the BAAD are: (i) measurements were for individual plants rather than stand averages; (ii) individuals spanning a range of sizes were measured; (iii) inclusion of plants from 0.01-100 m in height; and (iii) biomass was estimated directly, i.e., not indirectly via allometric equations (except in very large trees where biomass was estimated from detailed subsampling). We included both wild and artificially grown plants. The data set contains the following size metrics: total leaf area; area of stem crosssection including sapwood, heartwood, and bark; height of plant and crown base, crown area, and surface area; and the dry mass of leaf, stem, branches, sapwood, heartwood, bark, coarse roots, and fine root tissues. We also report other properties of individuals (age, leaf size, leaf mass per area, wood density, nitrogen content of leaves and wood), as well as information about the growing environment (location, light, experimental treatment, vegetation type) where available. It is our hope that making these data available will improve our ability to understand plant growth, ecosystem dynamics, and carbon cycling in the world's vegetation.

Original language	English
Pages (from-to)	1445
Number of pages	1
Journal	Ecology
Volume	96
Issue number	5
DOIs	https://doi.org/10.1890/141889.1
Publication status	Published - 1 May 2015

Bibliographical note

Copyright by the Ecological Society of America. Article published in Ecology 96(5), p. 1445 by Falster, Daniel et al.

Access to Document

10.1890/141889.1

Publisher version (open access).pdfFinal published version, 94.9 KB

Cite this

Falster, D. S., Duursma, R. A., Ishihara, M. I., Barneche, D. R., FitzJohn, R. G., Vårhammar, A., Aiba, M., Ando, M., Anten, N., Aspinwall, M. J., Baltzer, J. L., Baraloto, C., Battaglia, M., Battles, J. J., Lamberty, B. B., Van Breugel, M., Camac, J., Claveau, Y., Coll, L., ... York, R. A. (2015). BAAD: a Biomass And Allometry Database for woody plants. Ecology, 96(5), 1445. https://doi.org/10.1890/141889.1

@article{1ed6b2b35a7a410eaf65a9a45a6b109a,

title = "BAAD: a Biomass And Allometry Database for woody plants",

abstract = "Understanding how plants are constructed; i.e., how key size dimensions and the amount of mass invested in different tissues varies among individuals; is essential for modeling plant growth, estimating carbon stocks, and mapping energy fluxes in the terrestrial biosphere. Allocation patterns can differ through ontogeny, but also among coexisting species and among species adapted to different environments. While a variety of models dealing with biomass allocation exist, we lack a synthetic understanding of the underlying processes. This is partly due to the lack of suitable data sets for validating and parameterizing models. To that end, we present the Biomass and allometry database (BAAD) for woody plants. The BAAD contains 259 634 measurements collected in 176 different studies, from 21 084 individuals across 678 species. Most of these data come from existing publications. However, raw data were rarely made public at time of publication. Thus the BAAD contains individual level data from different studies, transformed into standard units and variable names. The transformations were achieved using a common workflow for all raw data files. Other features that distinguish the BAAD are: (i) measurements were for individual plants rather than stand averages; (ii) individuals spanning a range of sizes were measured; (iii) inclusion of plants from 0.01-100 m in height; and (iii) biomass was estimated directly, i.e., not indirectly via allometric equations (except in very large trees where biomass was estimated from detailed subsampling). We included both wild and artificially grown plants. The data set contains the following size metrics: total leaf area; area of stem crosssection including sapwood, heartwood, and bark; height of plant and crown base, crown area, and surface area; and the dry mass of leaf, stem, branches, sapwood, heartwood, bark, coarse roots, and fine root tissues. We also report other properties of individuals (age, leaf size, leaf mass per area, wood density, nitrogen content of leaves and wood), as well as information about the growing environment (location, light, experimental treatment, vegetation type) where available. It is our hope that making these data available will improve our ability to understand plant growth, ecosystem dynamics, and carbon cycling in the world's vegetation.",

author = "Falster, {Daniel S.} and Duursma, {Remko A.} and Ishihara, {Masae I.} and Barneche, {Diego R.} and FitzJohn, {Richard G.} and Angelica V{\aa}rhammar and Masahiro Aiba and Makoto Ando and Niels Anten and Aspinwall, {Michael J.} and Baltzer, {Jennifer L.} and Christopher Baraloto and Michael Battaglia and Battles, {John J.} and Lamberty, {Ben Bond} and {Van Breugel}, Michiel and James Camac and Yves Claveau and Llu{\'i}s Coll and Masako Dannoura and Sylvain Delagrange and Domec, {Jean Christophe} and Farrah Fatemi and Wang Feng and Veronica Gargaglione and Yoshiaki Goto and Akio Hagihara and Hall, {Jefferson S.} and Steve Hamilton and Degi Harja and Tsutom Hiura and Robert Holdaway and Hutley, {Lindsay B.} and Tomoaki Ichie and Jokela, {Eric J.} and Anu Kantola and Kelly, {Jeff W G} and Tanaka Kenzo and David King and Kloeppel, {Brian D.} and Takashi Kohyama and Akira Komiyama and Laclau, {Jean Paul} and Lusk, {Christopher H.} and Maguire, {Douglas A.} and {Le Maire}, Guerric and Annikki M{\"a}kel{\"a} and Lars Markesteijn and John Marshall and Katherine McCulloh and Itsuo Miyata and Karel Mokany and Shigeta Mori and Myster, {Randall W.} and Masahiro Nagano and Naidu, {Shawna L.} and Yann Nouvellon and O'Grady, {Anthony P.} and O'Hara, {Kevin L.} and Toshiyuki Ohtsuka and Noriyuki Osada and Osunkoya, {Olusegun O.} and Peri, {Pablo Luis} and Petritan, {Any Mary} and Lourens Poorter and Angelika Portsmuth and Catherine Potvin and Johannes Ransijn and Douglas Reid and Ribeiro, {Sabina C.} and Roberts, {Scott D.} and Rolando Rodr{\'i}guez and Acosta, {Angela Salda{\~n}a} and Ignacio Santa-Regina and Kaichiro Sasa and Selaya, {N. Galia} and Sillett, {Stephen C.} and Frank Sterck and Kentaro Takagi and Takeshi Tange and Hiroyuki Tanouchi and David Tissue and Toru Umehara and Hajime Utsugi and Vadeboncoeur, {Matthew A.} and Fernando Valladares and Petteri Vanninen and Wang, {Jian R.} and Elizabeth Wenk and Richard Williams and {De Aquino Ximenes}, Fabiano and Atsushi Yamaba and Toshihiro Yamada and Takuo Yamakura and Yanai, {Ruth D.} and York, {Robert A.}",

note = "Copyright by the Ecological Society of America. Article published in Ecology 96(5), p. 1445 by Falster, Daniel et al.",

year = "2015",

month = may,

day = "1",

doi = "10.1890/141889.1",

language = "English",

volume = "96",

pages = "1445",

journal = "Ecology",

issn = "0012-9658",

publisher = "Wiley-Liss, Wiley",

number = "5",

}

Falster, DS, Duursma, RA, Ishihara, MI, Barneche, DR, FitzJohn, RG, Vårhammar, A, Aiba, M, Ando, M, Anten, N, Aspinwall, MJ, Baltzer, JL, Baraloto, C, Battaglia, M, Battles, JJ, Lamberty, BB, Van Breugel, M, Camac, J, Claveau, Y, Coll, L, Dannoura, M, Delagrange, S, Domec, JC, Fatemi, F, Feng, W, Gargaglione, V, Goto, Y, Hagihara, A, Hall, JS, Hamilton, S, Harja, D, Hiura, T, Holdaway, R, Hutley, LB, Ichie, T, Jokela, EJ, Kantola, A, Kelly, JWG, Kenzo, T, King, D, Kloeppel, BD, Kohyama, T, Komiyama, A, Laclau, JP, Lusk, CH, Maguire, DA, Le Maire, G, Mäkelä, A, Markesteijn, L, Marshall, J, McCulloh, K, Miyata, I, Mokany, K, Mori, S, Myster, RW, Nagano, M, Naidu, SL, Nouvellon, Y, O'Grady, AP, O'Hara, KL, Ohtsuka, T, Osada, N, Osunkoya, OO, Peri, PL, Petritan, AM, Poorter, L, Portsmuth, A, Potvin, C, Ransijn, J, Reid, D, Ribeiro, SC, Roberts, SD, Rodríguez, R, Acosta, AS, Santa-Regina, I, Sasa, K, Selaya, NG, Sillett, SC, Sterck, F, Takagi, K, Tange, T, Tanouchi, H, Tissue, D, Umehara, T, Utsugi, H, Vadeboncoeur, MA, Valladares, F, Vanninen, P, Wang, JR, Wenk, E, Williams, R, De Aquino Ximenes, F, Yamaba, A, Yamada, T, Yamakura, T, Yanai, RD & York, RA 2015, 'BAAD: a Biomass And Allometry Database for woody plants', Ecology, vol. 96, no. 5, pp. 1445. https://doi.org/10.1890/141889.1

TY - JOUR

T1 - BAAD

T2 - a Biomass And Allometry Database for woody plants

AU - Falster, Daniel S.

AU - Duursma, Remko A.

AU - Ishihara, Masae I.

AU - Barneche, Diego R.

AU - FitzJohn, Richard G.

AU - Vårhammar, Angelica

AU - Aiba, Masahiro

AU - Ando, Makoto

AU - Anten, Niels

AU - Aspinwall, Michael J.

AU - Baltzer, Jennifer L.

AU - Baraloto, Christopher

AU - Battaglia, Michael

AU - Battles, John J.

AU - Lamberty, Ben Bond

AU - Van Breugel, Michiel

AU - Camac, James

AU - Claveau, Yves

AU - Coll, Lluís

AU - Dannoura, Masako

AU - Delagrange, Sylvain

AU - Domec, Jean Christophe

AU - Fatemi, Farrah

AU - Feng, Wang

AU - Gargaglione, Veronica

AU - Goto, Yoshiaki

AU - Hagihara, Akio

AU - Hall, Jefferson S.

AU - Hamilton, Steve

AU - Harja, Degi

AU - Hiura, Tsutom

AU - Holdaway, Robert

AU - Hutley, Lindsay B.

AU - Ichie, Tomoaki

AU - Jokela, Eric J.

AU - Kantola, Anu

AU - Kelly, Jeff W G

AU - Kenzo, Tanaka

AU - King, David

AU - Kloeppel, Brian D.

AU - Kohyama, Takashi

AU - Komiyama, Akira

AU - Laclau, Jean Paul

AU - Lusk, Christopher H.

AU - Maguire, Douglas A.

AU - Le Maire, Guerric

AU - Mäkelä, Annikki

AU - Markesteijn, Lars

AU - Marshall, John

AU - McCulloh, Katherine

AU - Miyata, Itsuo

AU - Mokany, Karel

AU - Mori, Shigeta

AU - Myster, Randall W.

AU - Nagano, Masahiro

AU - Naidu, Shawna L.

AU - Nouvellon, Yann

AU - O'Grady, Anthony P.

AU - O'Hara, Kevin L.

AU - Ohtsuka, Toshiyuki

AU - Osada, Noriyuki

AU - Osunkoya, Olusegun O.

AU - Peri, Pablo Luis

AU - Petritan, Any Mary

AU - Poorter, Lourens

AU - Portsmuth, Angelika

AU - Potvin, Catherine

AU - Ransijn, Johannes

AU - Reid, Douglas

AU - Ribeiro, Sabina C.

AU - Roberts, Scott D.

AU - Rodríguez, Rolando

AU - Acosta, Angela Saldaña

AU - Santa-Regina, Ignacio

AU - Sasa, Kaichiro

AU - Selaya, N. Galia

AU - Sillett, Stephen C.

AU - Sterck, Frank

AU - Takagi, Kentaro

AU - Tange, Takeshi

AU - Tanouchi, Hiroyuki

AU - Tissue, David

AU - Umehara, Toru

AU - Utsugi, Hajime

AU - Vadeboncoeur, Matthew A.

AU - Valladares, Fernando

AU - Vanninen, Petteri

AU - Wang, Jian R.

AU - Wenk, Elizabeth

AU - Williams, Richard

AU - De Aquino Ximenes, Fabiano

AU - Yamaba, Atsushi

AU - Yamada, Toshihiro

AU - Yamakura, Takuo

AU - Yanai, Ruth D.

AU - York, Robert A.

N1 - Copyright by the Ecological Society of America. Article published in Ecology 96(5), p. 1445 by Falster, Daniel et al.

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Understanding how plants are constructed; i.e., how key size dimensions and the amount of mass invested in different tissues varies among individuals; is essential for modeling plant growth, estimating carbon stocks, and mapping energy fluxes in the terrestrial biosphere. Allocation patterns can differ through ontogeny, but also among coexisting species and among species adapted to different environments. While a variety of models dealing with biomass allocation exist, we lack a synthetic understanding of the underlying processes. This is partly due to the lack of suitable data sets for validating and parameterizing models. To that end, we present the Biomass and allometry database (BAAD) for woody plants. The BAAD contains 259 634 measurements collected in 176 different studies, from 21 084 individuals across 678 species. Most of these data come from existing publications. However, raw data were rarely made public at time of publication. Thus the BAAD contains individual level data from different studies, transformed into standard units and variable names. The transformations were achieved using a common workflow for all raw data files. Other features that distinguish the BAAD are: (i) measurements were for individual plants rather than stand averages; (ii) individuals spanning a range of sizes were measured; (iii) inclusion of plants from 0.01-100 m in height; and (iii) biomass was estimated directly, i.e., not indirectly via allometric equations (except in very large trees where biomass was estimated from detailed subsampling). We included both wild and artificially grown plants. The data set contains the following size metrics: total leaf area; area of stem crosssection including sapwood, heartwood, and bark; height of plant and crown base, crown area, and surface area; and the dry mass of leaf, stem, branches, sapwood, heartwood, bark, coarse roots, and fine root tissues. We also report other properties of individuals (age, leaf size, leaf mass per area, wood density, nitrogen content of leaves and wood), as well as information about the growing environment (location, light, experimental treatment, vegetation type) where available. It is our hope that making these data available will improve our ability to understand plant growth, ecosystem dynamics, and carbon cycling in the world's vegetation.

AB - Understanding how plants are constructed; i.e., how key size dimensions and the amount of mass invested in different tissues varies among individuals; is essential for modeling plant growth, estimating carbon stocks, and mapping energy fluxes in the terrestrial biosphere. Allocation patterns can differ through ontogeny, but also among coexisting species and among species adapted to different environments. While a variety of models dealing with biomass allocation exist, we lack a synthetic understanding of the underlying processes. This is partly due to the lack of suitable data sets for validating and parameterizing models. To that end, we present the Biomass and allometry database (BAAD) for woody plants. The BAAD contains 259 634 measurements collected in 176 different studies, from 21 084 individuals across 678 species. Most of these data come from existing publications. However, raw data were rarely made public at time of publication. Thus the BAAD contains individual level data from different studies, transformed into standard units and variable names. The transformations were achieved using a common workflow for all raw data files. Other features that distinguish the BAAD are: (i) measurements were for individual plants rather than stand averages; (ii) individuals spanning a range of sizes were measured; (iii) inclusion of plants from 0.01-100 m in height; and (iii) biomass was estimated directly, i.e., not indirectly via allometric equations (except in very large trees where biomass was estimated from detailed subsampling). We included both wild and artificially grown plants. The data set contains the following size metrics: total leaf area; area of stem crosssection including sapwood, heartwood, and bark; height of plant and crown base, crown area, and surface area; and the dry mass of leaf, stem, branches, sapwood, heartwood, bark, coarse roots, and fine root tissues. We also report other properties of individuals (age, leaf size, leaf mass per area, wood density, nitrogen content of leaves and wood), as well as information about the growing environment (location, light, experimental treatment, vegetation type) where available. It is our hope that making these data available will improve our ability to understand plant growth, ecosystem dynamics, and carbon cycling in the world's vegetation.

UR - http://www.scopus.com/inward/record.url?scp=84981550270&partnerID=8YFLogxK

U2 - 10.1890/141889.1

DO - 10.1890/141889.1

M3 - Article

AN - SCOPUS:84981550270

VL - 96

SP - 1445

JO - Ecology

JF - Ecology

SN - 0012-9658

IS - 5

ER -

BAAD: a Biomass And Allometry Database for woody plants

Abstract

Bibliographical note

Access to Document

Other files and links

Fingerprint

Cite this