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The Use of Mixed Effects Models for Obtaining Low-Cost Ecosystem Carbon Stock Estimates in Mangroves of the Asia-Pacific

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  • Jacob J Bukoski
  • Jeremy S Broadhead
  • Daniel C Donato
  • Daniel Murdiyarso
  • Timothy G Gregoire

Abstract

Mangroves provide extensive ecosystem services that support local livelihoods and international environmental goals, including coastal protection, biodiversity conservation and the sequestration of carbon (C). While voluntary C market projects seeking to preserve and enhance forest C stocks offer a potential means of generating finance for mangrove conservation, their implementation faces barriers due to the high costs of quantifying C stocks through field inventories. To streamline C quantification in mangrove conservation projects, we develop predictive models for (i) biomass-based C stocks, and (ii) soil-based C stocks for the mangroves of the Asia-Pacific. We compile datasets of mangrove biomass C (197 observations from 48 sites) and soil organic C (99 observations from 27 sites) to parameterize the predictive models, and use linear mixed effect models to model the expected C as a function of stand attributes. The most parsimonious biomass model predicts total biomass C stocks as a function of both basal area and the interaction between latitude and basal area, whereas the most parsimonious soil C model predicts soil C stocks as a function of the logarithmic transformations of both latitude and basal area. Random effects are specified by site for both models, which are found to explain a substantial proportion of variance within the estimation datasets and indicate significant heterogeneity across-sites within the region. The root mean square error (RMSE) of the biomass C model is approximated at 24.6 Mg/ha (18.4% of mean biomass C in the dataset), whereas the RMSE of the soil C model is estimated at 4.9 mg C/cm3 (14.1% of mean soil C). The results point to a need for standardization of forest metrics to facilitate meta-analyses, as well as provide important considerations for refining ecosystem C stock models in mangroves.

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  • Jacob J Bukoski & Jeremy S Broadhead & Daniel C Donato & Daniel Murdiyarso & Timothy G Gregoire, 2017. "The Use of Mixed Effects Models for Obtaining Low-Cost Ecosystem Carbon Stock Estimates in Mangroves of the Asia-Pacific," PLOS ONE, Public Library of Science, vol. 12(1), pages 1-15, January.
    • Handle: RePEc:plo:pone00:0169096
    DOI: 10.1371/journal.pone.0169096
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    1. Catherine E. Lovelock & Donald R. Cahoon & Daniel A. Friess & Glenn R. Guntenspergen & Ken W. Krauss & Ruth Reef & Kerrylee Rogers & Megan L. Saunders & Frida Sidik & Andrew Swales & Neil Saintilan & , 2015. "The vulnerability of Indo-Pacific mangrove forests to sea-level rise," Nature, Nature, vol. 526(7574), pages 559-563, October.
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    1. Bin Fu & Naiwen Li, 2019. "Tradeoff between Hydropower and River Visual Landscape Services in Mountainous Areas," Sustainability, MDPI, vol. 11(19), pages 1-20, October.

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