scholarly journals The effects of seaward distance on above and below ground carbon stocks in estuarine mangrove ecosystems

2020 ◽  
Vol 15 (1) ◽  
Author(s):  
Georgia de Jong Cleyndert ◽  
Aida Cuni-Sanchez ◽  
Hamidu A. Seki ◽  
Deo D. Shirima ◽  
Pantaleo K. T. Munishi ◽  
...  
Keyword(s):  
Climate Change ◽  
Climate Change Mitigation ◽  
Soil Depth ◽  
Carbon Stocks ◽  
Mangrove Forests ◽  
Tree Roots ◽  
Mangrove Tree ◽  
True Value ◽  
Carbon Store ◽  
Change Mitigation

Abstract Background Mangrove forests have gained recognition for their potential role in climate change mitigation due to carbon sequestration in live trees, and carbon storage in the sediments trapped by mangrove tree roots and pneumatophores. Africa hosts about 19% of the world’s mangroves, yet relatively few studies have examined the carbon stocks of African mangroves. The available studies report considerable differences among sites and amongst the different pools of carbon stocks. None considered the effects of seaward distance. We present details of AGC and SOC carbon stocks for Lindi in Tanzania, and focus on how these values differ with increasing seaward distance and, how our results compare to those reported elsewhere across Africa. Results AGC ranged between 11 and 55 Mg C ha−1, but was not significantly affected by seaward distance. SOC for 0–1 m depth ranged from 154 to 484, with a mean of 302 Mg C ha−1. SOC was significantly negatively correlated with seaward distance. Mangrove type (estuarine/oceanic), soil erosion, soil depth may explain these differences We note important methodological differences in previous studies on carbon stocks in mangroves in Africa. Conclusion This study indicates that seaward distance has an important effect on SOC stocks in the Lindi region of Tanzania. SOC should be fully incorporated into national climate change mitigation policies. Studies should report seaward distance and to describe the type of mangrove stand to make results easily comparable across sites and to assess the true value of Blue Carbon in Africa. We recommend focusing on trees > 10 cm diameter for AGC, and sampling soils to at least 1 m depth for SOC, which would provide a more complete assessment of the potentially considerable mangrove carbon store.

scholarly journals The effects of seaward distance on above and below ground carbon stocks in estuarine mangrove ecosystems

2020 ◽  
Author(s):  
Georgia de Jong Cleyndert ◽  
Aida Cuni-Sanchez ◽  
Hamidu A Seki ◽  
Deo D Shirima ◽  
Pantaleo K.T. Munishi ◽  
...  
Keyword(s):  
Climate Change ◽  
Climate Change Mitigation ◽  
Soil Depth ◽  
Carbon Stocks ◽  
Mangrove Forests ◽  
Tree Roots ◽  
Mangrove Tree ◽  
True Value ◽  
Carbon Store ◽  
Change Mitigation

Abstract Background: Mangrove forests have gained recognition for their potential role in climate change mitigation due to carbon sequestration in live trees, and carbon storage in the sediments trapped by mangrove tree roots and pneumatophores. Africa hosts about 19% of the world’s mangroves, yet relatively few studies have examined the carbon stocks of African mangroves. The available studies report considerable differences among sites and amongst the different pools of carbon stocks. None considered the effects of seaward distance. We present details of AGC and SOC carbon stocks for Lindi in Tanzania, and focus on how these values differ with increasing seaward distance and, how our results compare to those reported elsewhere across Africa.Results: AGC ranged between 11-55Mg C ha-1, but was not significantly affected by seaward distance. SOC for 0-1m depth ranged from 154-484, with a mean of 302 Mg C ha-1. SOC was significantly negatively correlated with seaward distance. Mangrove type (estuarine/oceanic), soil erosion, soil depth may explain these differences We note important methodological differences in previous studies on carbon stocks in mangroves in Africa. Conclusion:This study indicates that seaward distance has an important effect on SOC stocks in the Lindi region of Tanzania. SOC should be fully incorporated into national climate change mitigation policies. Studies should report seaward distance and to describe the type of mangrove stand to make results easily comparable across sites and to assess the true value of Blue Carbon in Africa. We recommend focusing on trees >10cm diameter for AGC, and sampling soils to at least 1m depth for SOC, which would provide a more complete assessment of the potentially considerable mangrove carbon store.

scholarly journals The effects of seaward distance on above and below ground carbon stocks in estuarine mangrove ecosystems

2020 ◽  
Author(s):  
Georgia de Jong Cleyndert ◽  
Aida Cuni-Sanchez ◽  
Hamidu A Seki ◽  
Deo D Shirima ◽  
Pantaleo K.T. Munishi ◽  
...  
Keyword(s):  
Organic Carbon ◽  
Soil Depth ◽  
Carbon Stocks ◽  
Mangrove Forests ◽  
Tree Roots ◽  
Mangrove Tree ◽  
True Value ◽  
Below Ground ◽  
Carbon Store ◽  
And Storage

Abstract Background: Mangrove forests have gained recognition for their potential role in climate change mitigation due to the carbon sequestration of the productive ecosystems and storage in the sediments that are trapped by the mangrove tree roots and pneumatophores. Africa hosts about 19% of the world’s mangroves, yet there are relatively few studies that have examined the carbon stocks of African mangroves, and the studies available report great differences among sites and amongst the different pools of carbon stocks, particularly between the above ground carbon stored in trees (AGC) and organic carbon stored within the sediment - ‘soil organic carbon (SOC)’ and none considered the effects of seaward distance. We investigate if AGC and SOC carbon stocks differ with increasing seaward distance for estuarine mangroves in Tanzania and, how our results compare to those reported elsewhere across Africa.Results: AGC ranged between 10.9-54.9 Mg C ha-1 , but was not significantly affected by seaward distance. SOC for 0-1m depth ranged from 153.7-483.6, with a mean of 301.7 Mg C ha-1. SOC was significantly negatively correlated with seaward distance, which is different from studies in Micronesia and the Indo-Pacific. Mangrove type (estuarine/oceanic), soil erosion and soil depth may explain these differences We note important methodological differences in previous studies on carbon stocks in mangroves in Africa. Conclusion:This study indicates that seaward distance has an important effect on SOC stocks in the Lindi region of Tanzania. There is the need to standardise methodological approaches for mangroves in Africa, to report seaward distance and to describe the type of mangrove stand to make results easily comparable across sites and to assess the true value of Blue Carbon in Africa. We recommend focusing on trees >10cm diameter for AGC, and sampling soils to greater than 1m depth for SOC, which would provide a more complete assessment of the potentially considerable mangrove carbon store.

scholarly journals The Use of Homegarden Agroforestry Systems for Climate Change Mitigation in Lowlands of Southern Tigray, Northern Ethiopia

2019 ◽  
pp. 1-13
Author(s):  
Gebru Eyasu Siyum ◽  
Tuemay Tassew
Keyword(s):  
Climate Change ◽  
Species Diversity ◽  
Climate Change Mitigation ◽  
Woody Species ◽  
Agroforestry Systems ◽  
Carbon Stocks ◽  
Land Uses ◽  
Woody Species Diversity ◽  
Soil Carbon Stocks ◽  
Change Mitigation

Mitigation of climate change is one of the major environmental challenges facing the globe. In this context, homegarden agroforestry systems (HGAFs) have large potential for climate change mitigation. Therefore, this study was initiated to estimate the biomass and soil carbon stocks of HGAFs in relation to adjacent Natural Forest (NF). It also analyzed the relationship between woody species diversity, evenness and richness with biomass and soil carbon stocks. Three sites were purposely selected on the basis of the presence of HGAFs and NF adjacent to each other. Random sampling was used to select representative homegardens from the study population. In NF, a systematic sampling technique was employed. A total of 60 plots with a size of 10 m x 20 m were used to collect vegetation and soil data in both land uses. Soil samples were collected from each plot of the samples laid for vegetation sampling. Accordingly, 120 composite and 120 undisturbed soil samples from 0-30 cm and 30-60 cm soil depths were collected for soil organic carbon (SOC) and bulk density analysis respectively. Biomass estimation for each woody species was analyzed by using appropriate allometric equations. The result showed that the total amount of carbon stocks was 148.32±35.76 tons ha-1 and 157.27±51.61 tons ha-1 in HGAFs and adjacent NF respectively which did not vary significantly between the two studied land uses (P > 0.05). The finding also shows a positive but non-significant (P>0.05) relationship between carbon stocks and woody species diversity, richness, and evenness. Specifically, in NF lands, woody species diversity with SOC (r=0.36) and in HGAFs species richness with biomass carbon (r=0.39) was correlated positively and significantly (P=0.05). We concluded that HGAFs have the same potential as the NF for carbon stock accumulation and to counteract the loss of biomass.

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

2022 ◽  
Vol 9 (2) ◽  
pp. 3387-3396
Author(s):  
Diriba Megersa Soboka ◽  
Fantaw Yimer
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Organic Carbon ◽  
Soil Organic Carbon ◽  
Carbon Stock ◽  
Climate Change Mitigation ◽  
Carbon Stocks ◽  
Land Use Type ◽  
Degraded Lands ◽  
Change Mitigation

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.

scholarly journals Exploring the Potential of Nipa Palm for Ecosystem Restoration and Climate Change Mitigation, Sustainable Rural Livelihoods and Renewable Energy

2019 ◽  
Author(s):  
KELOLA Sendang
Keyword(s):  
Climate Change ◽  
Renewable Energy ◽  
Climate Change Mitigation ◽  
Rural Livelihoods ◽  
Ecosystem Restoration ◽  
Mangrove Forests ◽  
Palm Sugar ◽  
Nipa Palm ◽  
Change Mitigation ◽  
Sustainable Rural Livelihoods

Nypa fruiticans, commonly known as Nipa Palm, is a species of palm native to the coastlines and estuarine habitats of the Indian and Pacific Oceans. In Indonesia, nipa palm covers about 700,000 ha, while, in South Sumatra, the Nipa Palm is a natural component of mangrove forests and covers extensive areas along the coast, estuaries, and riparian zones of rivers. About half of the natural nipa palm ecosystem in South Sumatra has been disturbed by human activities and requires restoration. Since Nipa Palm can be used to produce nipa palm sugar, natural nipa palm forests have the potential to generate sustainable rural livelihoods for those living in the lowland zone. More recently, nipa palm has been identified as a potential source of renewable energy. The sugar rich sap can be used to produce ethanol, a biofuel. Because of this potential, the KELOLA Sendang Project is exploring the potential of nipa palm for ecosystem restoration and climate change mitigation, sustainable rural livelihoods and renewable energy.

scholarly journals Local scale climate change mitigation through mangrove revegetation on the south coast of Lombok island

2021 ◽  
Vol 913 (1) ◽  
pp. 012052
Author(s):  
A A Idrus ◽  
A Syukur ◽  
L H N Zohri ◽  
Zulhalifah ◽  
J Aulia
Keyword(s):  
Climate Change ◽  
Climate Change Mitigation ◽  
Local Scale ◽  
Mangrove Forests ◽  
Social Data ◽  
Essential Value ◽  
Sonneratia Alba ◽  
Study Results ◽  
Mangrove Vegetation ◽  
Change Mitigation

Abstract The mangrove vegetation in the coastal environment has a vital role, especially as a regulation for CO2 and O2 gas exchange. Mangrove revegetation has significant relevance for local-scale climate change mitigation. This study aims to assess and describe the success of mangrove revegetation in mitigating climate change at a local scale. Ecological data research methods are through surveys, observations and transect methods. Furthermore, the collection of social data through surveys, interviews, questionnaires, and Focus Group Discussions (FGD). Meanwhile, the research data were analyzed using descriptive statistical analysis, and analysis of the mangrove vegetation structure through frequency, density, cover, and essential value index analyses. The study results found seven types of mangroves, namely Sonneratia alba, Rhizophora stylosa, Rhizophora apiculata, Avicennia marina, Bruguira gymnoryzha, Lumnitzara racemosa, and Ceriops tagal. Sonneratia alba and Rizoporastylosaare species with the highest importance value of 194.04 where S. alba found Poton Bako and R. Stylosa found in Tanjung Luar. As for social data and knowledge, people in areas with a distance of 0-50 meters from mangrove forest have a better understanding than people living in areas with an average percentage value perspective of 52 %. Then, most respondents agreed that mangroves could prevent abrasion and reduce heat temperatures, with the percentage of respondents responding more than 41 % and 61 %, respectively in all locations. Based on the essential value index and respondents’ perceptions, it can be concluded that the Sonneratia alba and Rizopora Stylosa are species that have the highest ecological function because they have good adaptability in the coastal areas of South Lombok making them suitable as species for revegetation programs in South Lombok, and for the next revegetation program should be involving people who are close to mangrove forests because they are the ones who know and feel the benefits of mangrove forests.

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