Biomass and carbon storage in an age-sequence of Acacia mangium plantation forests in Southeastern region, Vietnam

IF 0.8 4区农林科学 Q3 FORESTRY

Forest Systems Pub Date : 2020-08-10 DOI:10.5424/fs/2020292-16685

Cuong Levan, Hung Buimanh, Bolanle-Ojo Oluwasanmi Tope, Xiaoniu Xu, T. Nguyenminh, Chai Lak, Legesse Nebiyou, Jingjing Wang, Thang Buivan

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引用次数: 7

Abstract

Aim of the study: The major objective of this study was to estimate the biomass increment and carbon (C) storage of the main ecosystem components in an age-sequence of three Acacia mangium plantation stands.Area of study: Chang Riec Historical - Cultural Forest, Southeastern region, Vietnam.Material and methods: In order to assess the biomass of different tree components, 36 trees with diameter at breast height ranging from 13.38 to 22.87 cm were harvested from the different aged stands. Biomasses of understory (shrubs and herbs), and litter were also determined. Carbon storage in the trees and understory biomass, litter, and mineral soil (0-50 cm) were determined by analyzing the C content of each compartment.Main results: The biomass in trees, understory vegetation, litter, and ecosystem increased with stand age. Soil C represented 61.99% of the total, aboveground tree biomass C made up 26.73%, belowground tree biomass C accounted for 7.01%, and litter comprised 2.96%, whereas only a small amount (1.30%) was associated with understory vegetation. The average C content of total tree (47.97%) was higher than those of understory and litter. Soil organic C stock in the top 50 cm depth in 4-, 7- and 11-year-old stands of A. mangium were 86.86, 126.88 and 140.94 Mg. C ha-1 respectively. Soil C concentration decreased continually with increasing soil depth. Total C storage of three planted forests ranged from 131.36 to 255.86 Mg. C ha-1, of which 56.09 - 67.61% of C storage was in the soil and 26.88 - 40.40% in the trees.Research highlights: These results suggest that A. mangium is a promising afforestation tree species with fast growing, high biomass accumulation and high C sequestration potential.Keywords: Acacia mangium plantations; Biomass; Ecosystem carbon storage; Age-sequence; Vietnam.

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越南东南部地区芒果Acacia人工林年龄序列中的生物量和碳储量

研究目的：本研究的主要目的是估算三个芒果Acacia人工林年龄序列中主要生态系统成分的生物量增量和碳储量。研究区域：昌黎历史文化森林，越南东南部地区。材料和方法：为了评估不同树木成分的生物量，从不同年龄的林分中收获了36棵直径在13.38至22.87厘米之间的树木。还测定了下层林（灌木和草本植物）和枯枝落叶的生物评估。通过分析每个隔室的碳含量来确定树木和林下生物量、枯枝落叶和矿质土壤（0-50 cm）中的碳储量。主要结果：树木、林下植被、枯枝落叶和生态系统的生物量随林分年龄的增加而增加。土壤碳占总碳的61.99%，地上树木生物量碳占26.73%，地下树木生物量C占7.01%，枯枝落叶占2.96%，而只有少量（1.30%）与林下植被有关。全树平均含碳量（47.97%）高于下层和枯枝落叶层。芒果4年生、7年生和11年生林分顶部50cm深度土壤有机碳储量分别为86.86、126.88和140.94 Mg.Cha-1。土壤C浓度随土层深度的增加而不断降低。三种人工林的总碳储量在131.36～255.86 Mg.Cha-1之间，其中56.09～67.61%的碳储量在土壤中，26.88～40.40%在树木中。研究重点：这些结果表明，芒果是一种生长快、生物量积累高、固碳潜力大的造林树种。关键词：芒果Acacia人工林；生物量生态系统碳储存；年龄序列；越南

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来源期刊

Forest Systems FORESTRY-

CiteScore

1.40

自引率

14.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Forest Systems is an international peer-reviewed journal. The main aim of Forest Systems is to integrate multidisciplinary research with forest management in complex systems with different social and ecological background