Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites

Andrew N. Gillison; David E. Bignell; Kenneth R.W. Brewer; Erick C.M. Fernandes; David T. Jones; Douglas Sheil; Peter H. May; Allan D. Watt; Reginaldo Constantino; Eduardo G. Couto; Kurniatun Hairiah; Paul Jepson; Agus P. Kartono; Ibnu Maryanto; Germano G. Neto; Meine van Noordwijk; Elton A. Silveira; Francis Xavier Susilo; Stephen A. Vosti; Paulo C. Nunes

doi:10.1007/s10531-013-0517-1

Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites

Andrew N. Gillison, David E. Bignell, Kenneth R.W. Brewer, Erick C.M. Fernandes, David T. Jones, Douglas Sheil, Peter H. May, Allan D. Watt, Reginaldo Constantino, Eduardo G. Couto, Kurniatun Hairiah, Paul Jepson, Agus P. Kartono, Ibnu Maryanto, Germano G. Neto, Meine van Noordwijk, Elton A. Silveira, Francis Xavier Susilo, Stephen A. Vosti, Paulo C. Nunes

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

34 Citations (Scopus)

Abstract

Multi-taxon surveys were conducted in species-rich, lowland palaeotropical and neotropical forested landscapes in Sumatra, Indonesia and Mato Grosso, Brazil. Gradient-directed transects (gradsects) were sampled across a range of forested land use mosaics, using a uniform protocol to simultaneously record vegetation (vascular plant species, plant functional types (PFTs) and vegetation structure), vertebrates (birds, mammals) and invertebrates (termites), in addition to measuring site and soil properties, including carbon stocks. At both sites similar correlations were detected between major components of structure (mean canopy height, woody basal area and litter depth) and the diversities of plant species and PFTs. A plant species to PFT ratio [spp.:PFTs] was the best overall predictor of animal diversity, especially termite species richness in Sumatra. To a notable extent vegetation structure also correlated with animal diversity. These surrogates demonstrate generic links between habitat structural elements, carbon stocks and biodiversity. They may also offer practical low-cost indicators for rapid assessment in tropical forest landscapes.

Original language	English
Pages (from-to)	1909-1930
Number of pages	22
Journal	Biodiversity and Conservation
Volume	22
Issue number	9
DOIs	https://doi.org/10.1007/s10531-013-0517-1
Publication status	Published - Aug 2013

Access to Document

10.1007/s10531-013-0517-1

Cite this

Gillison, A. N., Bignell, D. E., Brewer, K. R. W., Fernandes, E. C. M., Jones, D. T., Sheil, D., May, P. H., Watt, A. D., Constantino, R., Couto, E. G., Hairiah, K., Jepson, P., Kartono, A. P., Maryanto, I., Neto, G. G., van Noordwijk, M., Silveira, E. A., Susilo, F. X., Vosti, S. A., & Nunes, P. C. (2013). Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites. Biodiversity and Conservation, 22(9), 1909-1930. https://doi.org/10.1007/s10531-013-0517-1

@article{24a5ef0f71464c848f7d0a6b33615521,

title = "Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites",

abstract = "Multi-taxon surveys were conducted in species-rich, lowland palaeotropical and neotropical forested landscapes in Sumatra, Indonesia and Mato Grosso, Brazil. Gradient-directed transects (gradsects) were sampled across a range of forested land use mosaics, using a uniform protocol to simultaneously record vegetation (vascular plant species, plant functional types (PFTs) and vegetation structure), vertebrates (birds, mammals) and invertebrates (termites), in addition to measuring site and soil properties, including carbon stocks. At both sites similar correlations were detected between major components of structure (mean canopy height, woody basal area and litter depth) and the diversities of plant species and PFTs. A plant species to PFT ratio [spp.:PFTs] was the best overall predictor of animal diversity, especially termite species richness in Sumatra. To a notable extent vegetation structure also correlated with animal diversity. These surrogates demonstrate generic links between habitat structural elements, carbon stocks and biodiversity. They may also offer practical low-cost indicators for rapid assessment in tropical forest landscapes.",

keywords = "Biodiversity indicators, Fauna, Habitat characterization, Plant functional types, Rapid biodiversity assessment, Tropical forest",

author = "Gillison, {Andrew N.} and Bignell, {David E.} and Brewer, {Kenneth R.W.} and Fernandes, {Erick C.M.} and Jones, {David T.} and Douglas Sheil and May, {Peter H.} and Watt, {Allan D.} and Reginaldo Constantino and Couto, {Eduardo G.} and Kurniatun Hairiah and Paul Jepson and Kartono, {Agus P.} and Ibnu Maryanto and Neto, {Germano G.} and {van Noordwijk}, Meine and Silveira, {Elton A.} and Susilo, {Francis Xavier} and Vosti, {Stephen A.} and Nunes, {Paulo C.}",

year = "2013",

month = aug,

doi = "10.1007/s10531-013-0517-1",

language = "English",

volume = "22",

pages = "1909--1930",

journal = "Biodiversity and Conservation",

issn = "0960-3115",

publisher = "Springer Netherlands",

number = "9",

}

Gillison, AN, Bignell, DE, Brewer, KRW, Fernandes, ECM, Jones, DT, Sheil, D, May, PH, Watt, AD, Constantino, R, Couto, EG, Hairiah, K, Jepson, P, Kartono, AP, Maryanto, I, Neto, GG, van Noordwijk, M, Silveira, EA, Susilo, FX, Vosti, SA & Nunes, PC 2013, 'Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites', Biodiversity and Conservation, vol. 22, no. 9, pp. 1909-1930. https://doi.org/10.1007/s10531-013-0517-1

Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites. / Gillison, Andrew N.; Bignell, David E.; Brewer, Kenneth R.W. et al.
In: Biodiversity and Conservation, Vol. 22, No. 9, 08.2013, p. 1909-1930.

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

TY - JOUR

T1 - Plant functional types and traits as biodiversity indicators for tropical forests

T2 - Two biogeographically separated case studies including birds, mammals and termites

AU - Gillison, Andrew N.

AU - Bignell, David E.

AU - Brewer, Kenneth R.W.

AU - Fernandes, Erick C.M.

AU - Jones, David T.

AU - Sheil, Douglas

AU - May, Peter H.

AU - Watt, Allan D.

AU - Constantino, Reginaldo

AU - Couto, Eduardo G.

AU - Hairiah, Kurniatun

AU - Jepson, Paul

AU - Kartono, Agus P.

AU - Maryanto, Ibnu

AU - Neto, Germano G.

AU - van Noordwijk, Meine

AU - Silveira, Elton A.

AU - Susilo, Francis Xavier

AU - Vosti, Stephen A.

AU - Nunes, Paulo C.

PY - 2013/8

Y1 - 2013/8

N2 - Multi-taxon surveys were conducted in species-rich, lowland palaeotropical and neotropical forested landscapes in Sumatra, Indonesia and Mato Grosso, Brazil. Gradient-directed transects (gradsects) were sampled across a range of forested land use mosaics, using a uniform protocol to simultaneously record vegetation (vascular plant species, plant functional types (PFTs) and vegetation structure), vertebrates (birds, mammals) and invertebrates (termites), in addition to measuring site and soil properties, including carbon stocks. At both sites similar correlations were detected between major components of structure (mean canopy height, woody basal area and litter depth) and the diversities of plant species and PFTs. A plant species to PFT ratio [spp.:PFTs] was the best overall predictor of animal diversity, especially termite species richness in Sumatra. To a notable extent vegetation structure also correlated with animal diversity. These surrogates demonstrate generic links between habitat structural elements, carbon stocks and biodiversity. They may also offer practical low-cost indicators for rapid assessment in tropical forest landscapes.

AB - Multi-taxon surveys were conducted in species-rich, lowland palaeotropical and neotropical forested landscapes in Sumatra, Indonesia and Mato Grosso, Brazil. Gradient-directed transects (gradsects) were sampled across a range of forested land use mosaics, using a uniform protocol to simultaneously record vegetation (vascular plant species, plant functional types (PFTs) and vegetation structure), vertebrates (birds, mammals) and invertebrates (termites), in addition to measuring site and soil properties, including carbon stocks. At both sites similar correlations were detected between major components of structure (mean canopy height, woody basal area and litter depth) and the diversities of plant species and PFTs. A plant species to PFT ratio [spp.:PFTs] was the best overall predictor of animal diversity, especially termite species richness in Sumatra. To a notable extent vegetation structure also correlated with animal diversity. These surrogates demonstrate generic links between habitat structural elements, carbon stocks and biodiversity. They may also offer practical low-cost indicators for rapid assessment in tropical forest landscapes.

KW - Biodiversity indicators

KW - Fauna

KW - Habitat characterization

KW - Plant functional types

KW - Rapid biodiversity assessment

KW - Tropical forest

UR - http://www.scopus.com/inward/record.url?scp=84881023412&partnerID=8YFLogxK

U2 - 10.1007/s10531-013-0517-1

DO - 10.1007/s10531-013-0517-1

M3 - Article

SN - 0960-3115

VL - 22

SP - 1909

EP - 1930

JO - Biodiversity and Conservation

JF - Biodiversity and Conservation

IS - 9

ER -

Plant functional types and traits as biodiversity indicators for tropical forests: Two biogeographically separated case studies including birds, mammals and termites

Abstract

Access to Document

Other files and links

Fingerprint

Cite this