P. Joshi, Rajeev Joshi, R. Sapkota, Manoj Panta, Priya S. Chand
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Data for vegetation analysis and carbon stock assessment were collected using systematic random sampling using quadrats of 10×10 m with a total number of 35 quadrats. Within each quadrat, individual trees and bamboo were identified in the sites, and their height (m) and DBH (cm) were measured. Density, frequency, basal area, and Important Value Index (IVI) were calculated as structural parameters of vegetation. The Above-Ground Tree Biomass (AGTB) and Below-Ground Tree Biomass (BGTB) were calculated using an allometric equation based on tree diameter, height, and wood-specific gravity. The species diversity, species richness, and evenness were found to be 2.2, 2.35, and 0.83, respectively. A total of 14 tree species, with 723 individuals and one bamboo species were recorded. Rhododendron arboreum Sm. had the highest tree density with 211 trees/ha, while Tsuga dumosa (D.Don) Eichler had the highest IVI. Total wood volume, biomass, and total carbon stock were estimated at 15.37 m3 ha-1, 31.99 t ha-1, and 15.03 t ha-1, respectively. There was a strong negative correlation (r = -0.59) between R. arboreum and R. campanulatum D. Don and a strong positive correlation (r = +0.65) between Malus sikkimensis and Machilus species. For the preservation and sustainable management of community forests, information regarding the structure, composition, and dominance of tree species is provided by the study. The establishment of community forests is thus demonstrated in this article as a means of promoting the protection and preservation of regional biodiversity.","PeriodicalId":115036,"journal":{"name":"Asian Journal of Forestry","volume":"54 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-02-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Vegetation diversity, structure, composition and carbon stock of community managed forests of Mid-hills, Nepal\",\"authors\":\"P. Joshi, Rajeev Joshi, R. Sapkota, Manoj Panta, Priya S. Chand\",\"doi\":\"10.13057/asianjfor/r070104\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract. Joshi P, Joshi R, Sapkota RP, Panta M, Chand P. 2023. Vegetation diversity, structure, composition and carbon stock of community managed forests of Mid-hills Nepal. Asian J For 7: 29-36. Depending on management practices, forests can serve as both carbon sinks and sources. The goal of reducing carbon emissions and increasing the carbon sink is thought to be feasible if carbon reservoirs in current forests are protected and conserved. This study was objectively conducted to assess the vegetation diversity, structure, and carbon stock of the Mid-hills of Nepal. The study was undertaken in the Lanta Community Forest, Jajarkot District, Nepal, which has an extent of 38.65 hectares. Data for vegetation analysis and carbon stock assessment were collected using systematic random sampling using quadrats of 10×10 m with a total number of 35 quadrats. Within each quadrat, individual trees and bamboo were identified in the sites, and their height (m) and DBH (cm) were measured. Density, frequency, basal area, and Important Value Index (IVI) were calculated as structural parameters of vegetation. 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引用次数: 0
摘要
摘要刘建军,刘建军,刘建军,刘建军。尼泊尔中山群落管理森林的植被多样性、结构、组成和碳储量亚洲J: 7: 29-36。根据管理做法,森林既可以作为碳汇,也可以作为碳源。减少碳排放和增加碳汇的目标被认为是可行的,如果现有森林中的碳库得到保护和养护。本研究旨在客观地评估尼泊尔中山地区的植被多样性、结构和碳储量。这项研究是在尼泊尔Jajarkot地区的Lanta社区森林进行的,面积为38.65公顷。植被分析和碳储量评估数据采用系统随机抽样,样方为10×10 m,共35个样方。在每个样方内,鉴定出样地的树木和竹子个体,并测量其高度(m)和胸径(cm)。计算植被密度、频次、基底面积和重要价值指数(IVI)作为结构参数。利用基于树径、树高和木材比重的异速生长方程计算地上和地下树木生物量(AGTB)。物种多样性、物种丰富度和均匀度分别为2.2、2.35和0.83。共记录到14种乔木,723株,1种竹。杜鹃花树密度最高,达211棵/ha, IVI最高的是Tsuga dumosa (d.p ondon) Eichler。总木材量、生物量和总碳储量分别为15.37 m3 ha-1、31.99 t ha-1和15.03 t ha-1。树木林与钟状木林呈极显著负相关(r = -0.59),锡金苹果与马基勒斯呈极显著正相关(r = +0.65)。该研究为群落森林的保护和可持续管理提供了有关树种结构、组成和优势度的信息。因此,本文论证了群落森林的建立是促进区域生物多样性保护的一种手段。
Vegetation diversity, structure, composition and carbon stock of community managed forests of Mid-hills, Nepal
Abstract. Joshi P, Joshi R, Sapkota RP, Panta M, Chand P. 2023. Vegetation diversity, structure, composition and carbon stock of community managed forests of Mid-hills Nepal. Asian J For 7: 29-36. Depending on management practices, forests can serve as both carbon sinks and sources. The goal of reducing carbon emissions and increasing the carbon sink is thought to be feasible if carbon reservoirs in current forests are protected and conserved. This study was objectively conducted to assess the vegetation diversity, structure, and carbon stock of the Mid-hills of Nepal. The study was undertaken in the Lanta Community Forest, Jajarkot District, Nepal, which has an extent of 38.65 hectares. Data for vegetation analysis and carbon stock assessment were collected using systematic random sampling using quadrats of 10×10 m with a total number of 35 quadrats. Within each quadrat, individual trees and bamboo were identified in the sites, and their height (m) and DBH (cm) were measured. Density, frequency, basal area, and Important Value Index (IVI) were calculated as structural parameters of vegetation. The Above-Ground Tree Biomass (AGTB) and Below-Ground Tree Biomass (BGTB) were calculated using an allometric equation based on tree diameter, height, and wood-specific gravity. The species diversity, species richness, and evenness were found to be 2.2, 2.35, and 0.83, respectively. A total of 14 tree species, with 723 individuals and one bamboo species were recorded. Rhododendron arboreum Sm. had the highest tree density with 211 trees/ha, while Tsuga dumosa (D.Don) Eichler had the highest IVI. Total wood volume, biomass, and total carbon stock were estimated at 15.37 m3 ha-1, 31.99 t ha-1, and 15.03 t ha-1, respectively. There was a strong negative correlation (r = -0.59) between R. arboreum and R. campanulatum D. Don and a strong positive correlation (r = +0.65) between Malus sikkimensis and Machilus species. For the preservation and sustainable management of community forests, information regarding the structure, composition, and dominance of tree species is provided by the study. The establishment of community forests is thus demonstrated in this article as a means of promoting the protection and preservation of regional biodiversity.
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