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Field methods for sampling tree height for tropical forest biomass estimation.
Sullivan, Martin J P; Lewis, Simon L; Hubau, Wannes; Qie, Lan; Baker, Timothy R; Banin, Lindsay F; Chave, Jerôme; Cuni-Sanchez, Aida; Feldpausch, Ted R; Lopez-Gonzalez, Gabriela; Arets, Eric; Ashton, Peter; Bastin, Jean-François; Berry, Nicholas J; Bogaert, Jan; Boot, Rene; Brearley, Francis Q; Brienen, Roel; Burslem, David F R P; de Canniere, Charles; Chudomelová, Markéta; Dancák, Martin; Ewango, Corneille; Hédl, Radim; Lloyd, Jon; Makana, Jean-Remy; Malhi, Yadvinder; Marimon, Beatriz S; Junior, Ben Hur Marimon; Metali, Faizah; Moore, Sam; Nagy, Laszlo; Vargas, Percy Nuñez; Pendry, Colin A; Ramírez-Angulo, Hirma; Reitsma, Jan; Rutishauser, Ervan; Salim, Kamariah Abu; Sonké, Bonaventure; Sukri, Rahayu S; Sunderland, Terry; Svátek, Martin; Umunay, Peter M; Martinez, Rodolfo Vasquez; Vernimmen, Ronald R E; Torre, Emilio Vilanova; Vleminckx, Jason; Vos, Vincent; Phillips, Oliver L.
Afiliação
  • Sullivan MJP; School of Geography University of Leeds Leeds UK.
  • Lewis SL; School of Geography University of Leeds Leeds UK.
  • Hubau W; Department of Geography University College London London UK.
  • Qie L; School of Geography University of Leeds Leeds UK.
  • Baker TR; Laboratory for Wood Biology and Xylarium Royal Museum for Central Africa Tervuren Belgium.
  • Banin LF; School of Geography University of Leeds Leeds UK.
  • Chave J; Department of Life Sciences Imperial College London Ascot UK.
  • Cuni-Sanchez A; School of Geography University of Leeds Leeds UK.
  • Feldpausch TR; Centre for Ecology and Hydrology Penicuik UK.
  • Lopez-Gonzalez G; Université Paul Sabatier CNRS UMR 5174 Evolution et Diversité Biologique Toulouse France.
  • Arets E; Department of Geography University College London London UK.
  • Ashton P; Environment Department University of York Heslington York UK.
  • Bastin JF; Geography College of Life and Environmental Sciences University of Exeter Exeter UK.
  • Berry NJ; School of Geography University of Leeds Leeds UK.
  • Bogaert J; Wageningen Envrionmental Research (Alterra) Wageningen University and Research Wageningen The Netherlands.
  • Boot R; Department of Organismic and Evolutionary Biology Harvard University Cambridge MA USA.
  • Brearley FQ; Department of Environmental Systems Science Institute of Integrative Biology ETH Zürich Zürich Switzerland.
  • Brienen R; The Landscapes and Livelihoods Partnership Edinburgh UK.
  • Burslem DFRP; Biodiversity and Landscape Unit Gembloux Agro-Bio Tech Université de Liège Gembloux Belgium.
  • de Canniere C; Institute for Environmental Biology Utrecht University Utrecht The Netherlands.
  • Chudomelová M; Tropenbos International Wageningen The Netherlands.
  • Dancák M; School of Science and the Environment Manchester Metropolitan University Manchester UK.
  • Ewango C; School of Geography University of Leeds Leeds UK.
  • Hédl R; School of Biological Sciences University of Aberdeen Aberdeen UK.
  • Lloyd J; Landscape Ecology and Plant Production Systems Unit Université Libre de Bruxelles Bruxelles Belgium.
  • Makana JR; The Czech Academy of Sciences Institute of Botany Brno Czech Republic.
  • Malhi Y; Department of Ecology & Environmental Sciences Faculty of Science Palacký University Olomouc Czech Republic.
  • Marimon BS; Faculty of Science Université de Kisangani Kisangani Democratic Republic of Congo.
  • Junior BHM; The Czech Academy of Sciences Institute of Botany Brno Czech Republic.
  • Metali F; Department of Botany Faculty of Science Palacký University in Olomouc Czech Republic.
  • Moore S; Department of Life Sciences Imperial College London Ascot UK.
  • Nagy L; School of Marine and Environmental Sciences James Cook University Cairns Qld Australia.
  • Vargas PN; Faculdade de Filosofia Cîencias e Letras de Ribeirão Preto Universidade de São Paulo Ribeirão Preto Brazil.
  • Pendry CA; Faculty of Science Université de Kisangani Kisangani Democratic Republic of Congo.
  • Ramírez-Angulo H; Environmental Change Institute School of Geography and the Environment University of Oxford Oxford UK.
  • Reitsma J; Universidade do Estado de Mato Grosso Nova Xavantina Brazil.
  • Rutishauser E; Universidade do Estado de Mato Grosso Nova Xavantina Brazil.
  • Salim KA; Environmental and Life Sciences Programme Faculty of Science Universiti Brunei Darussalam Brunei-Muara Brunei Darussalam.
  • Sonké B; Faculdade de Filosofia Cîencias e Letras de Ribeirão Preto Universidade de São Paulo Ribeirão Preto Brazil.
  • Sukri RS; Universidade Estadual de Campinas Campinas Brazil.
  • Sunderland T; Universidad Nacional de San Antonio Abad del Cusco Cusco Perú.
  • Svátek M; Royal Botanic Garden Edinburgh Edinburgh UK.
  • Umunay PM; Instituto de Investigaciones para el Desarrollo Forestal Universidad de Los Andes Avenida Principal Chorros de Milla Campus Universitario Forestal Edificio Principal Mérida Venezuela.
  • Martinez RV; Bureau Waardenburg bv Culemborg The Netherlands.
  • Vernimmen RRE; Carboforexpert Geneva Switzerland.
  • Torre EV; Smithsonian Tropical Research Institute Balboa, Ancon Panama.
  • Vleminckx J; Environmental and Life Sciences Programme Faculty of Science Universiti Brunei Darussalam Brunei-Muara Brunei Darussalam.
  • Vos V; Plant Systematic and Ecology Laboratory Department of Biology Higher Teachers' Training College University of Yaounde I Yaounde Cameroon.
  • Phillips OL; Environmental and Life Sciences Programme Faculty of Science Universiti Brunei Darussalam Brunei-Muara Brunei Darussalam.
Methods Ecol Evol ; 9(5): 1179-1189, 2018 May.
Article em En | MEDLINE | ID: mdl-29938017
ABSTRACT
Quantifying the relationship between tree diameter and height is a key component of efforts to estimate biomass and carbon stocks in tropical forests. Although substantial site-to-site variation in height-diameter allometries has been documented, the time consuming nature of measuring all tree heights in an inventory plot means that most studies do not include height, or else use generic pan-tropical or regional allometric equations to estimate height.Using a pan-tropical dataset of 73 plots where at least 150 trees had in-field ground-based height measurements, we examined how the number of trees sampled affects the performance of locally derived height-diameter allometries, and evaluated the performance of different methods for sampling trees for height measurement.Using cross-validation, we found that allometries constructed with just 20 locally measured values could often predict tree height with lower error than regional or climate-based allometries (mean reduction in prediction error = 0.46 m). The predictive performance of locally derived allometries improved with sample size, but with diminishing returns in performance gains when more than 40 trees were sampled. Estimates of stand-level biomass produced using local allometries to estimate tree height show no over- or under-estimation bias when compared with biomass estimates using field measured heights. We evaluated five strategies to sample trees for height measurement, and found that sampling strategies that included measuring the heights of the ten largest diameter trees in a plot outperformed (in terms of resulting in local height-diameter models with low height prediction error) entirely random or diameter size-class stratified approaches.Our results indicate that even limited sampling of heights can be used to refine height-diameter allometries. We recommend aiming for a conservative threshold of sampling 50 trees per location for height measurement, and including the ten trees with the largest diameter in this sample.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Methods Ecol Evol Ano de publicação: 2018 Tipo de documento: Article
Texto completo
Adicionar na Minha BVS
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Methods Ecol Evol Ano de publicação: 2018 Tipo de documento: Article