Elevational changes in vascular plants richness, diversity, and distribution pattern in Abune Yosef mountain range, Northern Ethiopia

Gebrehiwot, Kflay; Demissew, Sebsebe; Woldu, Zerihun; Fekadu, Mekbib; Desalegn, Temesgen; Teferi, Ermias

doi:10.1016/j.pld.2019.06.005

Cited by 37 publications

(21 citation statements)

References 40 publications

(53 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Patterns of species community are associated with environmental factors including climate, topography, and soil as well as anthropogenic and livestock disturbances (Whittaker et al 2003). Ecological studies conducted in Ethiopia by Woldu et al (1989), Friis (1992), Bekele (1994), Aynekulu (2011), Kelbessa and Girma (2011) and Gebrehiwot et al (2019) reported the importance of environmental variables (altitude, slope, landscape, disturbances, and soil physical and chemical properties) in shaping plant communities. CCA analysis result showed that environmental variables including altitude, slope, silt, sand, soil organic matter, total nitrogen, and disturbances are associated with species compositions of plant communities in the Hirmi woodland.…”

Section: Floristic Composition and Diversitymentioning

confidence: 99%

See 1 more Smart Citation

Ecological and floristic study of Hirmi woodland vegetation in Tigray Region, Northern Ethiopia

et al. 2020

Self Cite

View full text Add to dashboard Cite

The dryland area in Ethiopia covers a substantial region endowed with diverse plant resources. However, the landmass has received less attention even if it has high ecological, environmental, and economic uses. The present study was conducted in Hirmi woodland vegetation, which is one of the dryland areas in Ethiopia, with the objective of investigating the floristic composition, plant community types, vegetation structure, community-environment relations and its regeneration status. Vegetation and environmental data were collected from 80 sampling plots with a size of 25 m × 25 m designated as the main plots. Diameter at breast height (DBH), height, basal area, density, vertical structure, importance value index (IVI), and frequency were computed. Species diversity and evenness were analyzed using Shannon diversity and evenness indices. The plant community types and vegetation-environment relationships were analyzed using classification and ordination tools, respectively. A total of 171 vascular plant species belonging to 135 genera and 56 families were recorded. About 5.3% of the species were endemic and near-endemic to Ethiopia. The highest number of species was recorded in families Fabaceae (16.4%) and Poaceae (11.7%) followed by Asteraceae (7.0%), Combretaceae, Lamiaceae, and Moraceae (3.5% each). Five plant communities were identified. According to the results from ordination analysis, the floristic composition of these plant communities was significantly affected by altitude, slope, sand, silt, soil organic matter, total nitrogen, and disturbance. The vegetation structure reveals that a large number of individual species was categorized in the lower DBH, frequency, and height classes. The highest Shannon diversity index and evenness values of the study area were 4.21 and 0.95, respectively. Anogeissus leiocarpa, Combretum hartmannianum, Ziziphus mucronata, Terminalia macroptera, and Acacia polyacantha were the species with high IVI. Some endemic plants were in the IUCN red list categories of Ethiopia and Eritrea. The overall regeneration status of the study area was poor because of anthropogenic disturbances and grazing pressures. Although the study area is endowed with high plant species diversity including endemism, it is under poor regeneration status due to various disturbances. To overcome this challenge, integrated management measures including monitoring and application of restoration techniques by taking into consideration the significant environmental factors associated with species diversity as well as observed regeneration status and IUCN threat level of the species are highly recommended.

show abstract

Section: Floristic Composition and Diversitymentioning

confidence: 99%

“…This community was less disturbed and had high species richness due to the fact that plots of the community were taken in sites far from the edge effect and sloping areas. Species found on strong slopes are less disturbed and would be rich in species composition (Tilahun et al 2011;Gebrehiwot et al 2019).…”

Section: Floristic Composition and Diversitymentioning

confidence: 99%

Ecological and floristic study of Hirmi woodland vegetation in Tigray Region, Northern Ethiopia

et al. 2020

Self Cite

View full text Add to dashboard Cite

show abstract

“…Patterns of species community is associated with environmental factors such as climate, topography, and soil as well as anthropogenic and livestock disturbances (Whittaker et al 2003). Ecological study conducted in Ethiopia by Woldu et al (1989), Friis (1992), Bekele (1994), Aynekulu (2011), Kelbessa and Girma (2011) and Gebrehiwot et al (2019) reported importance of environmental variables (altitude, slope, landscape, disturbances, and soil physical and chemical properties) in separation of forest communities.…”

Section: Plant Community and Environmental Variables Relationship (Ormentioning

confidence: 99%

“…Soils having high organic matter and moisture holding capacity of the silt loam of soil are suitable for species growth and diversity (Brown 2003;O'Geen 2006). Furtherly, species found in strong slope are less disturbed and would be rich in species composition (Tilahun et al 2011;Gebrehiwot et al, 2019). The longest arrow of altitude in the ordination axis was positively correlated with community type four (Euclea racemosa -Acacia abyssinica) than the other community types.…”

Section: Plant Community and Environmental Variables Relationship (Ormentioning

confidence: 99%

Ecological and Floristic Study of Hirmi Forest, Tigray Region, Northern Ethiopia

Girmay

Bekele

Demissew

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

Background: The Dryland area in Ethiopia contributes large vegetation resources. However, the landmass has received less attentioneven if it has high ecological, environmental and economic importance. The present study was conducted in Hirmi forest, which is one of the dry forest in Northwestern, Ethiopia; to study the floristic composition, plant community types, community-environment relation, vegetation structure and regeneration status of the forest.Method: Vegetation and environmental data were collected from 80 sampling plots having equal size of 25m×25m were designated as the main plots. Within the main plot, five 2mx2m subplots were laid to record seedlings, saplings, and herbaceous species. Furthermore, within each subplot, soil samples were collected to analyze the relationship of edaphic parameters with the plant community. DBH, height, BA, density, vertical structure and frequency were computed. Floristic diversity and evenness were computed using Shannon diversity and Evenness indices. The plant community types and vegetation-environment relationships were analyzed using classification and ordination tools in R package (ver. 3.6.1), respectively.Result: A total of 171 vascular plant species belonging to 135 genera and 56 families were recorded. About 5.85% of the species were endemic/near endemic to Ethiopia. Woody species (48%) were dominant over herbs (45.6%) and liana (6.4%). The highest number of species was recorded in plant families of Fabaceae (16.37%) and Poaceae (11.7%) followed by Asteraceae (7.02%) and Combretaceae (3.5%). Five plant communities were identified and positively correlated with altitude, slope, sand, silt, soil organic matter, total Nitrogen and disturbance. Vegetation structure reveals that, large number individual species were categorized in the lower class of DBH, BA, frequency and height. The highest Shannon diversity index and evenness values of the study area were 4.21 and 0.95, respectively. Anogeissus leiocarpa, Combretum hartmannianum, Ziziphus mucronata, Terminalia macroptera, Acacia polyacantha were the species with high important value.Conclusion: the study shows Hirmi forest has high species diversity, richness, and endemism. However, due to various disturbances, it is under poor regeneration status that requires urgent conservation measures. Integrated forest management, monitoring, applying restoration techniques by considering the significant environmental factors associated with the species diversity, IUCN threat and regeneration status of the species is recommended to preserve the study forest.

show abstract

“…Many ecological studies reveal two main patterns of relationships between species richness and altitude: a monotonic decline in species richness with increasing elevation, and a hump-shaped relationship, with mid-elevation peaks in species richness [ 1 ]. Both models are well documented by studies focused on plants and vertebrates, especially birds and mammals [ 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 ]. Recent studies show that the second pattern seems to be more common [ 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 ].…”

Section: Introductionmentioning

confidence: 99%

Distributional Patterns of Aquatic Empididae (Diptera) along an Elevational Diversity Gradient in a Low Mountain Range: An Example from Central Europe

Słowińska

Jaskuła

2021

Insects

View full text Add to dashboard Cite

The two subfamilies Hemerodromiinae and Clinocerinae, also known as aquatic dance flies, are a group of small predatory insects occurring mainly in mountainous areas and the northern temperate. However, very little is known about distribution patterns for most of the species. Habitat preferences for 40 aquatic empidid species were analysed in the Pieniny Mts., Poland. Forty-six sampling sites from a major part of this relatively low mountain massif (400-770m) were chosen, for which 17 micro and macrohabitat environmental variables were measured including both abiotic (altitude, stream mean width and depth, and shading) and biotic factors (13 dominant plant communities). Here we show that numerous studied aquatic Empididae were characterized by unique habitat preferences and were restricted to the foothills or the lower montane zone with only a few species characterized by wider elevational distribution. Chelifera pectinicauda, C. flavella, C. subangusta and Phyllodromia melanocephala (Hemerodromiinae), and Clinocera appendiculata, C. fontinalis, C. wesmaeli, Dolichocephala guttata, D. oblongoguttata, Kowarzia plectrum, Wiedemannia jazdzewskii, and W. thienemanni (Clinocerinae) were clearly associated with the highest altitudes and shaded areas while W. bistigma, W. lamellata, W. phantasma, and W. tricuspidata (Clinocerinae) were clearly associated with the lower elevated, wider stream valleys overgrown by willow brakes. Species richness and diversity decreased along elevational gradient with the hump-shaped diversity pattern noted for the subfamily Clinocerinae. The altitude, size of river/stream as well as the type of plant community were found as the most important factors in the distribution of the studied aquatic empidid species. The present study is the first one focused on elevational diversity gradient and habitat preferences of Hemerodromiinae and Clinocerinae of central Europe, and one of only a few in the world.

show abstract

Elevational changes in vascular plants richness, diversity, and distribution pattern in Abune Yosef mountain range, Northern Ethiopia

Cited by 37 publications

References 40 publications

Ecological and floristic study of Hirmi woodland vegetation in Tigray Region, Northern Ethiopia

Ecological and floristic study of Hirmi woodland vegetation in Tigray Region, Northern Ethiopia

Ecological and Floristic Study of Hirmi Forest, Tigray Region, Northern Ethiopia

Distributional Patterns of Aquatic Empididae (Diptera) along an Elevational Diversity Gradient in a Low Mountain Range: An Example from Central Europe

Contact Info

Product

Resources

About