Improved allometric equations for tree aboveground biomass estimation in tropical dipterocarp forests of Kalimantan,Indonesia-中国期刊网

摘要 Background:Currently,thecommonandfeasiblewaytoestimatethemostaccurateforestbiomassrequiresgroundmeasurementsandallometricmodels.Previousstudieshavebeenconductedonallometricequationsdevelopmentforestimatingtreeabovegroundbiomass(AGB)oftropicaldipterocarpforests(TDFs)inKalimantan(IndonesianBorneo).However,beforetheuseofexistingequations,avalidationfortheselectionofthebestallometricequationisrequiredtoassessthemodelbiasandprecision.Thisstudyaimsatevaluatingthevalidityoflocalandpantropicalequations;developingnewallometricequationsforestimatingtreeAGBinTDFsofKalimantan;andvalidatingthenewequationsusingindependentdatasets.Methods:Weused108treesamplesfromdestructivesamplingtodeveloptheallometricequations,withmaximumtreediameterof175cmandanother109samplesfrompreviousstudiesforvalidatingourequations.WeperformedordinaryleastsquareslinearregressiontoexploretherelationshipbetweentheAGBandthepredictorvariablesinthenaturallogarithmicform.Results:Thisstudyfoundthatmostoftheexistinglocalequationstendedtobebiasedandimprecise,withmeanrelativeerrorandmeanabsoluterelativeerrormorethan0.1and0.3,respectively.WedevelopednewallometricequationsfortreeAGBestimationintheTDFsofKalimantan.Throughavalidationusinganindependentdataset,wefoundthatourequationswerereliableinestimatingtreeAGBinTDF.Thepantropicalequation,whichincludestreediameter,wooddensityandtotalheightaspredictorvariablesperformedonlyslightlyworsethanournewmodels.Conclusions:OurequationsimprovetheprecisionandreducethebiasofAGBestimatesofTDFs.Localmodelsdevelopedfromsmallsamplestendtosystematicallybias.AvalidationofexistingAGBmodelsisessentialbeforetheuseofthemodels.

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Improved allometric equations for tree aboveground biomass estimation in tropical dipterocarp forests of Kalimantan,Indonesia

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Improved allometric equations for tree aboveground biomass estimation in tropical dipterocarp forests of Kalimantan,Indonesia

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