Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua

Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua

Eaglewood is Indonesia’s important trade commodity in the form of resins from several infected species of Thymelaeaceae. The basis to determine its international trade quota through CITES is derived from the estimated eaglewood-producing species grown in their habitat. This paper aims to estimate th...

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Bibliographic Details
Main Authors: Andes Hamuraby Rozak, Zaenal Mutaqien, Destri Destri
Format: Article
Language:English
Published: Universitas Gadjah Mada 2021-01-01
Series:Journal of Tropical Biodiversity and Biotechnology
Subjects:
agarwood
allometry
bootstrap
cites
gaharu
Online Access:https://jurnal.ugm.ac.id/jtbb/article/view/59221
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spelling doaj-e280ff7140434bacaf52a7e829db3e9a2021-04-14T03:28:05ZengUniversitas Gadjah MadaJournal of Tropical Biodiversity and Biotechnology2540-95732540-95812021-01-016110.22146/jtbb.5922129180Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West PapuaAndes Hamuraby Rozak0Zaenal Mutaqien1Destri Destri2Research Center for Plant Conservation and Botanic Gardens, Indonesian Institute of Sciences (LIPI), Cibodas Botanic GardensResearch Center for Plant Conservation and Botanic Gardens, Indonesian Institute of Sciences (LIPI), Cibodas Botanic GardensResearch Center for Plant Conservation and Botanic Gardens, Indonesian Institute of Sciences (LIPI), Cibodas Botanic GardensEaglewood is Indonesia’s important trade commodity in the form of resins from several infected species of Thymelaeaceae. The basis to determine its international trade quota through CITES is derived from the estimated eaglewood-producing species grown in their habitat. This paper aims to estimate the biomass of eaglewood, Aquilaria filaria, in the karst ecosystem of West Papua. We conducted a plot-based method and calculated the biomass of A. filaria using a diameter-based allometric equation and simulated using a bootstrap procedure. The results showed that 15,500 tons of naturally infected eaglewood are estimated in the karst ecosystem of West Papua.https://jurnal.ugm.ac.id/jtbb/article/view/59221agarwoodallometrybootstrapcitesgaharu
collection DOAJ
language English
format Article
sources DOAJ
author Andes Hamuraby Rozak
Zaenal Mutaqien
Destri Destri
spellingShingle Andes Hamuraby Rozak
Zaenal Mutaqien
Destri Destri
Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
Journal of Tropical Biodiversity and Biotechnology
agarwood
allometry
bootstrap
cites
gaharu
author_facet Andes Hamuraby Rozak
Zaenal Mutaqien
Destri Destri
author_sort Andes Hamuraby Rozak
title Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
title_short Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
title_full Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
title_fullStr Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
title_full_unstemmed Biomass Estimation of Eaglewood (<i>Aquilaria filaria</i> (Oken) Merr.) in the Karst Ecosystem of West Papua
title_sort biomass estimation of eaglewood (<i>aquilaria filaria</i> (oken) merr.) in the karst ecosystem of west papua
publisher Universitas Gadjah Mada
series Journal of Tropical Biodiversity and Biotechnology
issn 2540-9573
2540-9581
publishDate 2021-01-01
description Eaglewood is Indonesia’s important trade commodity in the form of resins from several infected species of Thymelaeaceae. The basis to determine its international trade quota through CITES is derived from the estimated eaglewood-producing species grown in their habitat. This paper aims to estimate the biomass of eaglewood, Aquilaria filaria, in the karst ecosystem of West Papua. We conducted a plot-based method and calculated the biomass of A. filaria using a diameter-based allometric equation and simulated using a bootstrap procedure. The results showed that 15,500 tons of naturally infected eaglewood are estimated in the karst ecosystem of West Papua.
topic agarwood
allometry
bootstrap
cites
gaharu
url https://jurnal.ugm.ac.id/jtbb/article/view/59221
work_keys_str_mv AT andeshamurabyrozak biomassestimationofeaglewoodiaquilariafilariaiokenmerrinthekarstecosystemofwestpapua
AT zaenalmutaqien biomassestimationofeaglewoodiaquilariafilariaiokenmerrinthekarstecosystemofwestpapua
AT destridestri biomassestimationofeaglewoodiaquilariafilariaiokenmerrinthekarstecosystemofwestpapua
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