Land-use systems are a key factor influencing the biomass and carbon sequestration potential of a given plant species.This study aimed to estimate the above-and belowground biomass and carbon sequestration potential o...Land-use systems are a key factor influencing the biomass and carbon sequestration potential of a given plant species.This study aimed to estimate the above-and belowground biomass and carbon sequestration potential of the Bauhinia thonningii tree across different land-use types in northern Ethiopia.Vegetation and soil data were collected from 72 sampling plots(100 m×50 m)in cultivated and grazing land-use types in the Tselemti district,Tigray region,Ethiopia.Soil organic carbon stocks were calculated from measured carbon contents between 0–15 and 15–30 cm soil depths and bulk density values for cultivated and grazing land-use types.B.thonningii dendrometric parameters showed significant variation among the land-use types.The highest aboveground biomass(16.57±3.64 Mg ha^(-1)),aboveground carbon(8.28±1.82 Mg C ha^(-1)),total carbon stock(65.58±3.92 Mg C ha^(-1)),and CO_(2)sequestration(237.52±14.37 Mg C ha^(-1))were observed in grazing lands compared to cultivated lands.Dendrometric parameters,above-and belowground biomass,and carbon sequestration were significantly higher in grazing lands than in cultivated lands.Soil organic carbon was higher in the upper surface layer(0–15 cm)than in the sub-surface layer(15–30 cm)for both land-use types.Basal area,aboveground biomass,belowground biomass,above-and belowground carbon stocks,total carbon stock,CO_(2),and total biomass carbon stocks exhibited a perfect to moderate range of positive correlation with each other,while showing a low positive correlation with land-use types(p<0.05).Grazing land with B.thonningii trees possesses a higher carbon stock than cultivated land,showing the potential for increasing biomass and carbon stock in grazing land systems by scaling up similar practices.Improved tree-based farming systems can contribute to mitigate global warming,support carbon financing initiatives,and serve as a benchmark for comparing future changes in biomass and carbon stocks.展开更多
In the Ethiopian highlands, communal grazing lands are one of the major land uses, and are source of livelihood for the rural people. Free and uncontrolled grazing in the communal grazing lands is the dominant grazing...In the Ethiopian highlands, communal grazing lands are one of the major land uses, and are source of livelihood for the rural people. Free and uncontrolled grazing in the communal grazing lands is the dominant grazing system. The traditional uncontrolled and free grazing system has caused severe degradation of the grazing lands. As a result, communities have started to establish exclosures and support the restoration of degraded communal grazing lands. Studies have shown that exclosures are effective to restoring degraded communal grazing lands and improving ecosystem services. However, studies that investigate the changes in aboveground biomass following the establishment of exclosures and compare it with fuelwood demand of the beneficiaries in our study area is lacking. Therefore, our study aimed at:(1) quantifying yearly biomass accumulation in exclosures and compare it to fuelwood demand of households that manage the exclosures;(2) assessing household energy sources and their consumption levels. To monitor changes in biomass production with over time, replicated(n = 3) 5 and10 year-old exclosures were sampled. To investigate fuelwood sources and consumption patterns, household surveys, key informant interviews and focus group discussion were conducted. Our results demonstrated that total biomass production increased with exclosure age. In both exclosure, biomass production from Vachellia etbaica was significantly(p \ 0.05) greater than that from Euclea.racemosa. Average daily fuelwood consumption per person was(0.63 ± 0.2) kg day^(-1). This means that the total biomass(27.5 Mg year^(-1)) obtained from 114.6 ha of exclosures covers only 9.4% of yearly fuelwood demand of the residents who manage the sampled exclosures. Nearly all respondents(95%) confirmed that they travel more than10 km day^(-1) to gather fuelwood from surrounding degraded forest patches. We recommend plantings of fast growing native tree species within exclosures and around homesteads to provide a sustainable fuelwood supply and using improved stoves to address the problem of fuelwood shortage. District agricultural offices could provide seedlings of native plant species, while communities provide unpaid labour for planting and managing plantations.展开更多
Rootstocks have a significant influence on adaptation to biotic and abiotic stress conditions and quality of fruit.So,choice of rootstock for a specific growing region is an important decision for a grower to make whe...Rootstocks have a significant influence on adaptation to biotic and abiotic stress conditions and quality of fruit.So,choice of rootstock for a specific growing region is an important decision for a grower to make when establishing a commercial citrus orchard.This study was undertaken to assess effects of rootstock and location on quality of orange fruit.The study was conducted over two consecutive years(2017/18 and 2018/19).Scions from the Gunda Gundo orange grove were grafted on rough lemon and sour orange rootstocks and planted in Tigray and Afar,Ethiopia at four sites(Abala,Agulae,Adiha and Rama).The experiment was laid out in Randomized Complete Block Design(RCBD)with four replications.Data on different physico-chemical and bioactive compounds were collected and analyzed using R software(version 4).Compared to sour orange,rough lemon rootstock revealed higher fruit mass(151.96 g,195.38 g),fruit length(62.27 mm,68.88 mm)and fruit diameter(65.58 mm,71.3 mm),in 2017/18,2018/19,respectively.Among the four locations(Abala,Agulae,Adiha and Rama),higher juice percentage was found in Adiha(43.47%in 2017/18)and Abala(49.87%,in 2018/19).In 2017/18 higher total soluble solid(TSS,13.87%),TSS/acid ratio(19.18)and fruit rag(32.77%),were obtained at the Rama site.On the one hand,higher vitamin C(826.6 mg·kg^(-1))and total phenolic content(208 mg·kg^(-1 )GAE)were recorded at Agulae than Abala,Adiha and Rama sites from sour orange rootstock.High TSS,TSS/acid ratio and antioxidant were recorded from orange fruits at Rama site.This was expected to have resulted from hot climate conditions at the site.Besides,at a relatively cooler condition of the Agulae site,high phenolic,reduced ferric power and high vitamin C were recorded.Rough lemon rootstock improved fruit size,while rootstock did not affect the contents of TSS,TSS/acid ratio across the sites in both harvesting years.展开更多
A study was conducted in 2007/2008 at Absela locality, Banja Shikudad District of the Amhara National Regional State, Ethiopia to evaluate the effects of soil bunds stabilized with vetiver grass (IT. zizanioides) an...A study was conducted in 2007/2008 at Absela locality, Banja Shikudad District of the Amhara National Regional State, Ethiopia to evaluate the effects of soil bunds stabilized with vetiver grass (IT. zizanioides) and tree lucerne (C. palmensis) on soil physical and chemical properties, bund height, inter-terrace slope and barley (Hordeum vulgare L.) yield. Data were analyzed using one-way analysis of variance (ANOVA) and mean values for the treatments were separated using Duncan's Multiple Range Test. Results indicated that the non-conserved fields had significantly (p 〈 0.05) lower organic carbon and was found to contain 66% less OM from the average of the conserved treatment. 9-year old sole soil bund, the 9-year old soil bund stabilized with tree lucerne, the 9-year old soil bund stabilized with vetiver, and the 6-year old soil bund stabilized with tree lucerne had 71.20, 68.56, 52.30, and 36.12%, respectively higher percent OM than the control treatment. The trend was similar for total nitrogen. The non-conserved treatment had a higher bulk density when compared to the conserved fields. Fields with soil bunds stabilized with vetiver grass had the highest bund height and the lowest inter-terrace slope than fields treated with the rest of remaining conservation measures. Barley grain yields were significantly (P 〈 0.05) greater in both the soil accumulation and loss zones of the conserved fields than the non-conserved (control) treatment. Practicing soil conservation measures and curtailing causes of land degradation could improve the soil physical and chemical properties thereby increase land productivity of the conserved land.展开更多
基金financial support from Mekelle University and the MU-HU-NMBU institutional collaboration project。
文摘Land-use systems are a key factor influencing the biomass and carbon sequestration potential of a given plant species.This study aimed to estimate the above-and belowground biomass and carbon sequestration potential of the Bauhinia thonningii tree across different land-use types in northern Ethiopia.Vegetation and soil data were collected from 72 sampling plots(100 m×50 m)in cultivated and grazing land-use types in the Tselemti district,Tigray region,Ethiopia.Soil organic carbon stocks were calculated from measured carbon contents between 0–15 and 15–30 cm soil depths and bulk density values for cultivated and grazing land-use types.B.thonningii dendrometric parameters showed significant variation among the land-use types.The highest aboveground biomass(16.57±3.64 Mg ha^(-1)),aboveground carbon(8.28±1.82 Mg C ha^(-1)),total carbon stock(65.58±3.92 Mg C ha^(-1)),and CO_(2)sequestration(237.52±14.37 Mg C ha^(-1))were observed in grazing lands compared to cultivated lands.Dendrometric parameters,above-and belowground biomass,and carbon sequestration were significantly higher in grazing lands than in cultivated lands.Soil organic carbon was higher in the upper surface layer(0–15 cm)than in the sub-surface layer(15–30 cm)for both land-use types.Basal area,aboveground biomass,belowground biomass,above-and belowground carbon stocks,total carbon stock,CO_(2),and total biomass carbon stocks exhibited a perfect to moderate range of positive correlation with each other,while showing a low positive correlation with land-use types(p<0.05).Grazing land with B.thonningii trees possesses a higher carbon stock than cultivated land,showing the potential for increasing biomass and carbon stock in grazing land systems by scaling up similar practices.Improved tree-based farming systems can contribute to mitigate global warming,support carbon financing initiatives,and serve as a benchmark for comparing future changes in biomass and carbon stocks.
基金financially supported by VLIRfunded project ‘Forest Rehabilitation through Natural Regeneration’DAAD
文摘In the Ethiopian highlands, communal grazing lands are one of the major land uses, and are source of livelihood for the rural people. Free and uncontrolled grazing in the communal grazing lands is the dominant grazing system. The traditional uncontrolled and free grazing system has caused severe degradation of the grazing lands. As a result, communities have started to establish exclosures and support the restoration of degraded communal grazing lands. Studies have shown that exclosures are effective to restoring degraded communal grazing lands and improving ecosystem services. However, studies that investigate the changes in aboveground biomass following the establishment of exclosures and compare it with fuelwood demand of the beneficiaries in our study area is lacking. Therefore, our study aimed at:(1) quantifying yearly biomass accumulation in exclosures and compare it to fuelwood demand of households that manage the exclosures;(2) assessing household energy sources and their consumption levels. To monitor changes in biomass production with over time, replicated(n = 3) 5 and10 year-old exclosures were sampled. To investigate fuelwood sources and consumption patterns, household surveys, key informant interviews and focus group discussion were conducted. Our results demonstrated that total biomass production increased with exclosure age. In both exclosure, biomass production from Vachellia etbaica was significantly(p \ 0.05) greater than that from Euclea.racemosa. Average daily fuelwood consumption per person was(0.63 ± 0.2) kg day^(-1). This means that the total biomass(27.5 Mg year^(-1)) obtained from 114.6 ha of exclosures covers only 9.4% of yearly fuelwood demand of the residents who manage the sampled exclosures. Nearly all respondents(95%) confirmed that they travel more than10 km day^(-1) to gather fuelwood from surrounding degraded forest patches. We recommend plantings of fast growing native tree species within exclosures and around homesteads to provide a sustainable fuelwood supply and using improved stoves to address the problem of fuelwood shortage. District agricultural offices could provide seedlings of native plant species, while communities provide unpaid labour for planting and managing plantations.
基金supported by the Open Society Foundation-Africa Climate Change Adaptation Initiative(OSF-ACCAI Grant No.OR2014-18350)。
文摘Rootstocks have a significant influence on adaptation to biotic and abiotic stress conditions and quality of fruit.So,choice of rootstock for a specific growing region is an important decision for a grower to make when establishing a commercial citrus orchard.This study was undertaken to assess effects of rootstock and location on quality of orange fruit.The study was conducted over two consecutive years(2017/18 and 2018/19).Scions from the Gunda Gundo orange grove were grafted on rough lemon and sour orange rootstocks and planted in Tigray and Afar,Ethiopia at four sites(Abala,Agulae,Adiha and Rama).The experiment was laid out in Randomized Complete Block Design(RCBD)with four replications.Data on different physico-chemical and bioactive compounds were collected and analyzed using R software(version 4).Compared to sour orange,rough lemon rootstock revealed higher fruit mass(151.96 g,195.38 g),fruit length(62.27 mm,68.88 mm)and fruit diameter(65.58 mm,71.3 mm),in 2017/18,2018/19,respectively.Among the four locations(Abala,Agulae,Adiha and Rama),higher juice percentage was found in Adiha(43.47%in 2017/18)and Abala(49.87%,in 2018/19).In 2017/18 higher total soluble solid(TSS,13.87%),TSS/acid ratio(19.18)and fruit rag(32.77%),were obtained at the Rama site.On the one hand,higher vitamin C(826.6 mg·kg^(-1))and total phenolic content(208 mg·kg^(-1 )GAE)were recorded at Agulae than Abala,Adiha and Rama sites from sour orange rootstock.High TSS,TSS/acid ratio and antioxidant were recorded from orange fruits at Rama site.This was expected to have resulted from hot climate conditions at the site.Besides,at a relatively cooler condition of the Agulae site,high phenolic,reduced ferric power and high vitamin C were recorded.Rough lemon rootstock improved fruit size,while rootstock did not affect the contents of TSS,TSS/acid ratio across the sites in both harvesting years.
文摘A study was conducted in 2007/2008 at Absela locality, Banja Shikudad District of the Amhara National Regional State, Ethiopia to evaluate the effects of soil bunds stabilized with vetiver grass (IT. zizanioides) and tree lucerne (C. palmensis) on soil physical and chemical properties, bund height, inter-terrace slope and barley (Hordeum vulgare L.) yield. Data were analyzed using one-way analysis of variance (ANOVA) and mean values for the treatments were separated using Duncan's Multiple Range Test. Results indicated that the non-conserved fields had significantly (p 〈 0.05) lower organic carbon and was found to contain 66% less OM from the average of the conserved treatment. 9-year old sole soil bund, the 9-year old soil bund stabilized with tree lucerne, the 9-year old soil bund stabilized with vetiver, and the 6-year old soil bund stabilized with tree lucerne had 71.20, 68.56, 52.30, and 36.12%, respectively higher percent OM than the control treatment. The trend was similar for total nitrogen. The non-conserved treatment had a higher bulk density when compared to the conserved fields. Fields with soil bunds stabilized with vetiver grass had the highest bund height and the lowest inter-terrace slope than fields treated with the rest of remaining conservation measures. Barley grain yields were significantly (P 〈 0.05) greater in both the soil accumulation and loss zones of the conserved fields than the non-conserved (control) treatment. Practicing soil conservation measures and curtailing causes of land degradation could improve the soil physical and chemical properties thereby increase land productivity of the conserved land.
