通过辅助自然再生恢复热带干旱森林:提高树木多样性、结构和碳储量

IF 2.7 Q1 FORESTRY Trees, Forests and People Pub Date : 2024-06-27 DOI:10.1016/j.tfp.2024.100616
Rajive Rajapakshe , Jeyavanan Karthigesu , Sivananthawerl Thavananthan , Sivamathy Sivachandiran , Venukopan Navaneetham , Sritharan Sinnamani
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引用次数: 0

摘要

毁林是全球气候变化的一个关键因素,严重影响生态系统服务。有效实施降低因森林砍伐和退化所产生的排放(REDD+)倡议对减缓这一变化至关重要。重新造林是减缓毁林影响的一种可持续方式。我们研究了辅助自然再生(ANR)对恢复干旱林地、增加生物多样性、结构和碳储量的影响。在干旱热带地区的多行种植系统中建立了重新造林单元。我们选择了 63 个地块,每个地块 20 米 × 20 米,分为多行混合人工林(MRMP)和多行非混合人工林(MRUP)。我们测量了树高和胸径(DBH),并评估了生物多样性指数,包括香农-韦纳指数(SWI)、物种丰富度、均匀度和重要价值指数(IVI)。碳储量采用异速方程进行估算。我们确定了 931 棵树,代表 27 个种、24 个属和 14 个科。MRMP 的生物多样性、物种丰富度和均匀度均明显高于 MRUP。阿月浑子(Terminalia arjuna)是最主要的物种(IVI=124.45),其次是卡亚(Khaya senegalensis)(53.84)。T. arjuna、K. senegalensis、Madhuca longifolia 和 Pongamia pinnata 的存活率超过 90%(p<0.001)。各类种植园的树木 DBH、树高、树木密度、基部面积和碳储量均无明显差异。Albizia saman 的直径增长率较高(4.07 ± 1.55 厘米/年),其次是 K. senegalensis(3.83 ± 0.43 厘米/年)。碳储量的平均值为 5.63 ± 1.13 兆碳/公顷,而大气二氧化碳的固碳量为 20.66 ± 4.13 兆克/公顷。研究结果表明,推广多行混交树种可提高生物多样性,优化碳调节。这项技术应得到推广,以恢复整个地区的干旱森林景观。
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Restoring a dry tropical forest through assisted natural regeneration: enhancing tree diversity, structure, and carbon stock

Deforestation is a key factor in global climate change, severely impacting ecosystem services. Effective implementation of reducing emissions from deforestation and forest degradation (REDD+) initiatives is essential for mitigating this change. Reforestation is a sustainable way to mitigate deforestation effects. We studied the impact of assisted natural regeneration (ANR) on restoring dry forest land, increasing biodiversity, structure, and carbon stock. Reforestation units were established at a multiple row planting system in a dry tropic region. We selected 63 plots, each 20 m × 20 m, categorized into multiple row–mixed plantation (MRMP) and multiple row–unmixed plantation (MRUP). We measured tree height and diameter at breast height (DBH) and evaluated biodiversity indices, including the Shannon–Weiner Index (SWI), species richness, evenness, and Important Value Index (IVI). Carbon stock was estimated using allometric equations. We identified 931 individual trees representing 27 species, 24 genera, and 14 families. MRMP showed significantly higher biodiversity, species richness, and evenness than MRUP. Terminalia arjuna was the most dominant species (IVI=124.45), followed by Khaya senegalensis (53.84). Survival rates exceeded 90 % for T. arjuna, K. senegalensis, Madhuca longifolia, and Pongamia pinnata (p<0.001). No significant differences were observed in tree DBH, tree height, tree density, basal area, and carbon stock among the plantation categories. The species Albizia saman exhibited a high diameter increment rate (4.07 ± 1.55 cm/year), followed by K. senegalensis (3.83 ± 0.43 cm/year). A mean value of 5.63 ± 1.13 MgC/ha of carbon stock was stored, while 20.66 ± 4.13 Mg/ha of atmospheric CO2 was sequestered. The results highlight that promoting mixed tree species in multiple rows to enhance biodiversity and optimize carbon regulation. This technique should be popularized to restore the dry forest landscape across the region.

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来源期刊
Trees, Forests and People
Trees, Forests and People Economics, Econometrics and Finance-Economics, Econometrics and Finance (miscellaneous)
CiteScore
4.30
自引率
7.40%
发文量
172
审稿时长
56 days
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