Advanced search
Publication Cover
Forest Science and Technology Volume 19, 2023 - Issue 2
Submit an article Journal homepage
1,736
Views
0
CrossRef citations to date
0
Altmetric
Articles

Spatial analysis of landscape rehabilitation in degraded land along topographic variabilities in the Kiliso sub-watershed, Southern Ethiopia

Firehiywet GirmaWondo Genet College of Forestry and Natural Resource, Hawassa University, Shashemene128, EthiopiaCorrespondence[email protected]
View further author information
Pages 116-129 | Received 08 Aug 2022, Accepted 08 Mar 2023, Published online: 04 Apr 2023

References

  • Abiy tsetargachew legesse 2008. Area closure as a strategy for land management: a case study at kelala dalacha enclosure in the central rift valley of Ethiopia Addis ababa university.
  • Al-Fares W. 2013. Theoretical background and state of the Art. Historical land use/land cover classification using remote sensing. Springer Briefs in Geography. Heidelberg: Springer.
  • Anderson JE, Williams J, Kriedemann PE, Austin MP, Farquhar GD. 1996. Correlations between carbon isotope discrimination and climate of native habitats for diverse eucalypt taxa growing in a common garden. Aust J Plant Physiol. 23:311–320.
  • Andreas B, Hugh E, Catherine, B. 2012. Is Africa Losing Its Natural Vegetation? Monitoring Trajectories of Land Cover Change Using Landsat Imagery., In: Chandra G (ed.), Taylor and Francis Group, 369, 374.
  • Ayele GT, Seka AM, Taddese H, Jemberrie MA, Ndehedehe CE, Demissie SS, Awange JL, Jeong J, Hamilton DP, Melesse AM. 2022. Relationship of attributes of soil and topography with land cover change in the rift valley basin of Ethiopia. Remote Sensing. 14(14):3257.
  • Begum F, Bajracharya RM, Sharma S, Sitaula BK. 2010. Influence of slope aspect on soil physico-chemical and biological properties in the mid hills of central Nepal. Int J Sustain Dev World Ecol. 17(5):438–443.
  • Bhardwaj DR, Tahiry H, Sharma P, Pala NA, Kumar D, Kumar A, Bharti B. 2021. Influence of aspect and elevational gradient on vegetation pattern, tree characteristics and ecosystem carbon density in northwestern Himalayas. Land. 10(11):1109.
  • Birhane E, Teferi HH, Fenta AA, Gebremedhin MA. 2018. Land use land cover changes along topographic gradients in Hugumburda national forest priority area, northern Ethiopia. Remote Sens. Appl.: Soc. Environ. (13):61–68.
  • Birhanu L, Hailu BT, Bekele T, Demissew S. 2019, November. Land use/land cover change along elevation and slope gradient in highlands of Ethiopia. J Remote Sens Appl So. Environ. 16:100260. https://doi.org/10.1016/j.rsase.2019.100260
  • Bufebo B, Elias E. 2021. Land Use/Land Cover Change and Its Driving Forces in Shenkolla Watershed, South Central Ethiopia. The Scientific World J. 2021:13 pages, Article ID 9470918. https://doi.org/10.1155/2021/9470918
  • Canty MJ. 2009. Image analysis, classification, and change detection in remote sensing. CRC Press is an imprint of the. Taylor & Francis Group London; New York.
  • Congalton RG, Green K. 2009. Assessing the accuracy of remotely sensed data: principles and practices (2nd ed.). CRC Press.
  • Congedo L. 2022. Semi-automatic classification plugin user manual.
  • Dessalew S. 2022. Cause of land degradation and rehabilitation practices in case of amba sidist western Ethiopia. Am JChemPharm. 1(1):18–25.
  • Famiglietti JS, Rudnicki JW, Rodell M. 1998. Variability insurface moisture content along a hillslope transect: rattlesnake Hill, Texas. J Hydrol. 210(1-4):259–281.
  • FAO 2000. Global Forest Resources Assessment 2000 (FRA 2000), Food and Agriculture Organization of United Nations, Rome.
  • Fichera CR, Modica G, Pollino M. 2012. Land cover classification and change-detection analysis using multi-temporal remote sensed imagery and landscape metrics. European J Remote Sensing. 45(1):1–18.
  • Fick SE, Hijmans RJ. 2017. WorldClim 2: new 1km spatial resolution climate surfaces for global land areas. Int J Climatol. 37(12):4302–4315.
  • Gebrehiwot G, Teka K, Welday Y. 2022. Can landscape restoration improve soil carbon stock? a study from Sero watershed, northern Ethiopia. J Glob Ecol Conserv. 39(4):e02274.
  • Gebremedihin KM, Birhane E, Tadesse T, Gbrewahid H. 2018. Restoration of degraded drylands through exclosures enhancing woody species diversity and soil nutrients in the highlands of Tigray, Northern Ethiopia. Nat Cons Res. 3(1):1–20.
  • Ghosh S, Sen KK, Rana U, Rao KS, Saxena KG. 1996. Application of GIS for land-use/land-cover change analysis in mountainous terrain. J Indian Soc Remote Sens. 24(3):193–202.
  • Habte DG, Belliethathan S, Ayenew T. 2021. Evaluation of the status of land use/land cover change using remote sensing and GIS in Jewha watershed, northeastern Ethiopia. SN Appl Sci. 3(4):501.
  • Hassen EE, Assen, M. 2018. Land use/cover dynamics and its drivers in Gelda catchment, Lake Tana watershed, Ethiopia. Environ Syst Res. 6, 4:1-13. https://doi.org/10.1186/s40068-017-0081-x
  • James A, Ernest H, John R, Richard W. 1976. A Land Use and Land Cover Classification System for Use with Remote Sensor Data, United States Government Printing Office, Washington.
  • Jendoubi D, Liniger H, Ifejika Speranza C. 2019. Impacts of land use and topography on soil organic carbon in a Mediterranean landscape (north-western Tunisia). J SOI. 5:239–251.
  • Kelbore M. 2015. Harimaya University, Implementation of land rehabilitation practices on livelihood condition, 4/2/2015.
  • Lemenih M. 2004. Eflects of landuse change on soil quality and native flora degradation and restoration in the highlands of Ethiopia. Implication for sustainable Land Management Swedish university of Agricultural science Uppsala, Sweden.
  • Li Q, Li F, Guo J, Guo L, Wang S, Zhang Y, Li M, Zhang C. 2023. The synergistic effect of topographic factors and vegetation indices on the underground coal mine utilizing unmanned aerial vehicle remote sensing. IJERPH. 20(4):3759.
  • Lu L, Yueqing X, An H, Chao L, Raymundo M-M, Ling H. 2020. Influences of Topographic Factors on Outcomes of Forest Programs and Policies in a Mountain Region of China. International Mountain Society. 40(1):48–60. https://doi.org/10.1659/MRD-JOURNAL-D-18-00050.1.
  • Lü D, Lü Y, Gao G, Liu S, Wu B, Fu B. 2021. Existent nature reserves not optimal for waterservice provision and conservation on the Qinghai-Tibet plateau of China. Global Ecology and Conservation, 32, e01945. https://doi.org/10.1016/j.gecco.2021.e01945
  • Lu D, Mausel P, Batistella M, Moran E. 2005. Land-cover binary change detection methods for use in the moist tropical region of the Amazon: a comparative study. Int J Remote Sens. 26(1):101–114.
  • Lu L, Xu Y, Huang A, Liu C, Marcos-Martinez R, Huang L. 2020. Influences of topographic factors on outcomes of forest programs and policies in a mountain region of China. Int Mount Soc. 40:1. 10.2307/27002117.
  • Maki Mateso JC, Bielders CL, Monsieurs E, Depicker A, Smets B, Tambala T, Bagalwa Mateso L, Dewitte O. 2023. Characteristics and causes of natural and human-induced landslides in a tropical mountainous region: the rift flank west of Lake Kivu (Democratic Republic of the Congo). Nat Hazards Earth Syst Sci. 23(2):643–666.
  • Malaperdas G, Panagiotidi V. 2018. The aspects of Aspect: Understanding land exposure and its part in geographic information systems analysis. Energy Environ. 29(6):1022–1037. https://doi.org/10.1177/0958305X18766322
  • Martínez S, Mollicone D. 2012. From land cover to land use: a methodology to assess land use from remote sensing data. Rem Sens. 4(4):1024–1045. 10.3390/rs4041024.
  • Mölders N. 2012. Impact of land-cover and land-cover changes. In: Land-Use and Land-Cover Changes. Atmospheric and Oceanographic Sciences Library, vol. 44. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-1527-1_3
  • Mulualem T, Lemenih M, Negash M, Teketay D. 2014. Rehabilitation of degraded forest and woodland ecosystems in Ethiopia for sustenance of livelihoods and ecosystem services.
  • Owojori A, Xie H. 2005. Landsat image-based LULC changes of San Antonio, Texas using advanced atmospheric correction and object-oriented image analysis approaches. Paper presented at the 5th international symposium on remote sensing of urban areas. Tempe, AZtfst
  • Peng H, Jia Y, Zhan C, Xu W. 2020. Topographic controls on ecosystem evapotranspiration and net primary productivity under climate warming in the Taihang Mountains, China. J Hydrol. 581(581):124394.
  • Puyravaud JP. 2003. Standardizing the calculation of the annual rate of deforestation. For Ecol Manag. 177(1-3):593–596.
  • Rwanga S, Ndambuki J. 2017. Accuracy assessment of land use/land cover classification using remote sensing and GIS. IJG. 08(04):611–622.
  • Tamene GM, Adiss HK, Alemu MY. 2020. Effect of slope aspect and land use types on selected soil physicochemical properties in north western Ethiopian highlands. Appl Environ Soil Sci. 2020:1–8.
  • Tilahun A, Teferie B. 2015. Accuracy assessment of land use land cover classification using google earth. AJEP. 4(4):193–198.
  • Tou JT, Gonzalez RC. 1974. Pattern recognition principles. Addison:Wesley Publishing Company (USA), p. 377.
  • Van de Water PK, Leavitt S, Betancourt J. 2002. Leaf?13C variability with elevation, slope aspect, and precipitation in the southwest United States. JOecologia. (132):332–343.
  • Vivekananda GN, Swathi R, Sujith AVLN. 2021. Multi-temporal image analysis for LULC classification and change detection. European J Remote Sens. 54(sup2):189–199. .
  • Welsh T. 2022. Global food security threatened by land degradation, UN report finds. United Nation.
  • Wondie M, Teketay D, Melesse AM, Schneider W. 2012. Relationship between topographic variables and land cover in the Simen mountains national park, a world heritage site in northern Ethiopia. Int J Remote Sens Appl. 2:36–43.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.