Carbon Storage and Climate Change Mitigation Potential of the Forests of the Simien Mountains National Park, Ethiopia

Assaye, Habtamu; Asrat, Zerihun

doi:10.11648/j.aff.20160502.11

Cited by 7 publications

(5 citation statements)

References 23 publications

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“…From the carbon pools (AGBC, BGBC, LHGC, and SOC) in this study, SOC pool was the largest carbon pool (86% of the total ecosystem carbon pools in the restored land and 97% in the unrestored land use types). This has confirmed with the reports of Chinasho et al (2015), in which 55.5% of the total ecosystem carbon pool were SOC in forest ecosystem; Assaye and Asrat (2016), who had reported the largest SOC percentages (74.43%) of the total ecosystem carbon pools. Moreover, ; Ullah and Amin (2012); Mekuria (2013); Hailu (2017) had reported the largest SOC pool in the natural forest ecosystem than biomass and litter carbon pools; whereas, Ordonez et al (2007), had reported the lower SOC pool than the biomass carbon pool.…”

Section: Ecosystem Carbon Stockssupporting

confidence: 89%

Restoration of degraded lands for carbon stock enhancement and climate change mitigation: the case of Rebu watershed, Woliso Woreda, Southwest Shoa, Ethiopia

Soboka

Yimer

2022

J.Degrade.Min.Land Manage.

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This study was conducted to estimate carbon stock enhancement and climate change mitigation potential of restoration effort in Rebu Watershed, Woliso Woreda, Ethiopia. Two restored lands of thirteen years old were randomly selected from two kebeles. Biomass and soil data were collected systematically from nested plots. Mensuration of woody species, soil, and grass/litter samples was collected from the subplots of the nested plots. A total of 72 composite soil samples were collected. The results showed the positive impact of restoration activity on enhancing biomass and soil organic carbon stocks. The restored land ecosystem had shown higher carbon stock of (138.51 ± 27.34 t/ha) than the adjacent unrestored land ecosystem (101.43 ± 21.25 t/ha), which confirmed the potential of restoration in enhancing the carbon stock and mitigating climate change. Hence, the restored land use type has been stored about 8.37 t/ha of carbon dioxide equivalent (CO2e) in biomasses. The restored land use type has mitigated climate change (absorb CO2) by 7.7 times than the adjacent unrestored land use type in this study. The significant values in restored land use types were due to the enhanced vegetation and land cover, which contributed to the biomass and soil organic carbon accumulation. Moreover, the lower values in unrestored land use type were due to the continuous degradation and disturbance from livestock and human beings. Therefore, the result of this study showed that protecting the degraded lands from any disturbance could enhance the carbon stocks of the ecosystem and mitigate the carbon emission rate.

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Section: Ecosystem Carbon Stockssupporting

confidence: 89%

Restoration of degraded lands for carbon stock enhancement and climate change mitigation: the case of Rebu watershed, Woliso Woreda, Southwest Shoa, Ethiopia

Soboka

Yimer

2022

J.Degrade.Min.Land Manage.

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“…Most research suggests that soil organic carbon exceeds above-ground carbon (carbon in vegetation). This finding is also aligned with the investigation of (Girmay et al 2008;Chinasho et al 2015;Assaye & Asrat 2016;Bikila et al 2017) also suggested that more than 90% of the total carbon stock was contributed from soil organic carbon in the wooded grassland.…”

Section: Soil Organic Carbonsupporting

confidence: 85%

Carbon Stock Potential of Gara Gola Natural Vegetation in East Hararghe Zone, Eastern Ethiopia

Hussein

2022

J.Tropical Biodiversity Biotechnology

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This study was conducted at Gara Gola, in the Oromia regional state of Ethiopia, to examine the carbon sequestration potentials under three altitudinal gradients [i.e., Lower altitude (LA: 1500–1800 m.a.s.l.); Middle altitude (MA: 1801–2000 m.a.s.l.) and upper altitude (UA: 2001–2300 m.a.s.l.)]. A total of 60 quadrats of 20m x 20m, 5m x 5m, and 1m x 1m with six horizontal transect lines were employed to gather data on the tree, shrub, herbaceous, and soil, respectively. To estimate organic carbon percentage, soil parameters were collected from three soil profiles (i.e., 0 to 10 cm, 10 to 20 cm, and 20 to 30 cm). The mean total carbon stock of the study area was 641.18 Mg ha-1. MA had relatively higher TC than the other gradients. But the LA had the lowest TC stock, due to a high amount of human and animal interference. The results showed that the UA had significantly higher above-ground (AGC) and below-ground carbon (BGC) stocks with 147.3±39.4 Mg ha-1 and 18.37±7.8 Mg ha-1, respectively, compared to other gradients. However, LA had the lowest AGC (66.8±8.7 Mg ha-1) and BGC (12.06±2.6 Mg ha-1). Lower altitude exhibited a significantly higher SOC value than the other two altitudinal gradients followed by MA. The UA had the lowest SOC value. SOC across the three soil profiles follows a reduction trend from topsoil depth to lower soil depth with significant variation. In conclusion, LA should embrace better ecological, policy, and socioeconomic considerations than the other gradients.

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“…Forests absorb carbon emitted from various sources, including industry, agriculture, residences and energy production, by sequestering and storing it. Assaye and Asrat's [ 43 ] study also focused on the same case study. The authors found that above-ground carbon held 34.4% of the total carbon stocks in Simien Mountains National Park, while below-ground carbon contained 8.3% of the carbon stocks.…”

Section: Literature Reviewmentioning

confidence: 99%

Quest for NetZero emissions in South African national parks: A tourism perspective

Nhamo

Dube

Chapungu

et al. 2023

Heliyon

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Carbon Storage and Climate Change Mitigation Potential of the Forests of the Simien Mountains National Park, Ethiopia

Cited by 7 publications

References 23 publications

Restoration of degraded lands for carbon stock enhancement and climate change mitigation: the case of Rebu watershed, Woliso Woreda, Southwest Shoa, Ethiopia

Restoration of degraded lands for carbon stock enhancement and climate change mitigation: the case of Rebu watershed, Woliso Woreda, Southwest Shoa, Ethiopia

Carbon Stock Potential of Gara Gola Natural Vegetation in East Hararghe Zone, Eastern Ethiopia

Quest for NetZero emissions in South African national parks: A tourism perspective

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