Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements?

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements? / Zhao, Mingxu; Brofeldt, Søren; Li, Qiaohong; Xu, Jianchu; Danielsen, Finn; Læssøe, Simon Bjarke Lægaard ; Poulsen, Michael Køie; Gottlieb, Anna; Maxwell, James Franklin; Theilade, Ida.

In: PloS one, Vol. 11, No. 11, e0152061, 2016.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Zhao, M, Brofeldt, S, Li, Q, Xu, J, Danielsen, F, Læssøe, SBL, Poulsen, MK, Gottlieb, A, Maxwell, JF & Theilade, I 2016, 'Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements?', PloS one, vol. 11, no. 11, e0152061. https://doi.org/10.1371/journal.pone.0152061

APA

Zhao, M., Brofeldt, S., Li, Q., Xu, J., Danielsen, F., Læssøe, S. B. L., Poulsen, M. K., Gottlieb, A., Maxwell, J. F., & Theilade, I. (2016). Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements? PloS one, 11(11), [e0152061]. https://doi.org/10.1371/journal.pone.0152061

Vancouver

Zhao M, Brofeldt S, Li Q, Xu J, Danielsen F, Læssøe SBL et al. Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements? PloS one. 2016;11(11). e0152061. https://doi.org/10.1371/journal.pone.0152061

Author

Zhao, Mingxu ; Brofeldt, Søren ; Li, Qiaohong ; Xu, Jianchu ; Danielsen, Finn ; Læssøe, Simon Bjarke Lægaard ; Poulsen, Michael Køie ; Gottlieb, Anna ; Maxwell, James Franklin ; Theilade, Ida. / Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements?. In: PloS one. 2016 ; Vol. 11, No. 11.

Bibtex

@article{c0de9ba0b04242b39ac20798de19dac0,
title = "Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements?",
abstract = "Biodiversity conservation is a required co-benefit of REDD+. Biodiversity monitoring is therefore needed, yet in most areas it will be constrained by limitations in the available human professional and financial resources. REDD+ programs that use forest plots for biomass monitoring may be able to take advantage of the same data for detecting changes in the tree diversity, using the richness and abundance of canopy trees as a proxy for biodiversity. If local community members are already assessing the above-ground biomass in a representative network of forest vegetation plots, it may require minimal further effort to collect data on the diversity of trees. We compare community members and trained scientists' data on tree diversity in permanent vegetation plots in montane forest in Yunnan, China. We show that local community members here can collect tree diversity data of comparable quality to trained botanists, at one third the cost. Without access to herbaria, identification guides or the Internet, community members could provide the ethno-taxonomical names for 95% of 1071 trees in 60 vegetation plots. Moreover, we show that the community-led survey spent 89% of the expenses at village level as opposed to 23% of funds in the monitoring by botanists. In participatory REDD+ programs in areas where community members demonstrate great knowledge of forest trees, community-based collection of tree diversity data can be a cost-effective approach for obtaining tree diversity information.",
author = "Mingxu Zhao and S{\o}ren Brofeldt and Qiaohong Li and Jianchu Xu and Finn Danielsen and L{\ae}ss{\o}e, {Simon Bjarke L{\ae}gaard} and Poulsen, {Michael K{\o}ie} and Anna Gottlieb and Maxwell, {James Franklin} and Ida Theilade",
year = "2016",
doi = "10.1371/journal.pone.0152061",
language = "English",
volume = "11",
journal = "PLoS ONE",
issn = "1932-6203",
publisher = "Public Library of Science",
number = "11",

}

RIS

TY - JOUR

T1 - Can community members identify tropical tree species for REDD+ carbon and biodiversity measurements?

AU - Zhao, Mingxu

AU - Brofeldt, Søren

AU - Li, Qiaohong

AU - Xu, Jianchu

AU - Danielsen, Finn

AU - Læssøe, Simon Bjarke Lægaard

AU - Poulsen, Michael Køie

AU - Gottlieb, Anna

AU - Maxwell, James Franklin

AU - Theilade, Ida

PY - 2016

Y1 - 2016

N2 - Biodiversity conservation is a required co-benefit of REDD+. Biodiversity monitoring is therefore needed, yet in most areas it will be constrained by limitations in the available human professional and financial resources. REDD+ programs that use forest plots for biomass monitoring may be able to take advantage of the same data for detecting changes in the tree diversity, using the richness and abundance of canopy trees as a proxy for biodiversity. If local community members are already assessing the above-ground biomass in a representative network of forest vegetation plots, it may require minimal further effort to collect data on the diversity of trees. We compare community members and trained scientists' data on tree diversity in permanent vegetation plots in montane forest in Yunnan, China. We show that local community members here can collect tree diversity data of comparable quality to trained botanists, at one third the cost. Without access to herbaria, identification guides or the Internet, community members could provide the ethno-taxonomical names for 95% of 1071 trees in 60 vegetation plots. Moreover, we show that the community-led survey spent 89% of the expenses at village level as opposed to 23% of funds in the monitoring by botanists. In participatory REDD+ programs in areas where community members demonstrate great knowledge of forest trees, community-based collection of tree diversity data can be a cost-effective approach for obtaining tree diversity information.

AB - Biodiversity conservation is a required co-benefit of REDD+. Biodiversity monitoring is therefore needed, yet in most areas it will be constrained by limitations in the available human professional and financial resources. REDD+ programs that use forest plots for biomass monitoring may be able to take advantage of the same data for detecting changes in the tree diversity, using the richness and abundance of canopy trees as a proxy for biodiversity. If local community members are already assessing the above-ground biomass in a representative network of forest vegetation plots, it may require minimal further effort to collect data on the diversity of trees. We compare community members and trained scientists' data on tree diversity in permanent vegetation plots in montane forest in Yunnan, China. We show that local community members here can collect tree diversity data of comparable quality to trained botanists, at one third the cost. Without access to herbaria, identification guides or the Internet, community members could provide the ethno-taxonomical names for 95% of 1071 trees in 60 vegetation plots. Moreover, we show that the community-led survey spent 89% of the expenses at village level as opposed to 23% of funds in the monitoring by botanists. In participatory REDD+ programs in areas where community members demonstrate great knowledge of forest trees, community-based collection of tree diversity data can be a cost-effective approach for obtaining tree diversity information.

U2 - 10.1371/journal.pone.0152061

DO - 10.1371/journal.pone.0152061

M3 - Journal article

C2 - 27814370

VL - 11

JO - PLoS ONE

JF - PLoS ONE

SN - 1932-6203

IS - 11

M1 - e0152061

ER -

ID: 168883551