Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, , 54 - 63, 26.04.2020
https://doi.org/10.30897/ijegeo.624488

Öz

Kaynakça

  • REFERENCESAlatorre L. C. and Begueria S. (2010). Analysis of spatial and temporal evolution of the NDVI on vegetated and degraded areas in the central Spanish Pyrenees. In Wegner W., Szwekely, B. (eds): ISPRS TC VII symposium -100 years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, vol. XXXVIII, part 7A.
  • Anand A., Singh S. K. and Kanga S. (2018). Estimating the change in forest cover density and predicting NDVI for west Singh hum using linear regression. Intern. Journ. For Environmental Rehabilitation and Conservation, IX (1): 193-203.
  • Badege B. (2001). Deforestations and Land Degradation in the Ethiopian Highlands. A Strategy for Physical Recovery. Journal of East African Studies. 8 (1): 7-26.
  • Broadbent E. N., Asner G. P., Keller M., Knapp D. E., Oliveira P. J. C. and Silva J. N. (2008). Forest fragmentation and edge effects from deforestation and selective logging in the Brazilian Amazon. Biological Conservation, 141, 1745-1757.
  • Ethiopia Biodiversity Institute (2014). Ethiopia’s fifth national report to the convention on biological diversity. Addis Ababa, Ethiopia.
  • Ethiopia Biodiversity Institute (2015). Ethiopia’s national biodiversity strategy and action plan 2015-2020. Addis Ababa, Ethiopia.
  • Ethiopian Panel on Climate Change (2015). First Assessment Report, Working Group II Biodiversity, and Ecosystems. Ethiopian Academy of Sciences, Addis Ababa.
  • Fahrig L. (2003). Effects of habitat fragmentation on the biodiversity. Annu. Rev. ecol. Evol., 34, 487-515. Doi.10.1146/annrev.ecosy.34.011802.132419.
  • Fahrig L. (2017). Ecological responses to habitat fragmentation per se. annu. Rev. Ecol. Evo. Syst., 48, 1-23.
  • Flaspohler D. J., Guardina C. P., Asner G. P., Hart P., Price J., Lyons C. K., and Castaned X. (2010). Long term effects of fragmentation and fragment properties on bird species richness in Hawaiian forests. Biological Conservation, 143, 280-288. DOI.10.1016/j.biocon.2009.10.009.
  • Fletcher R. J., Didham R. K., Banks-Leite C., Barlow J., Ewers R. M., et al. (2018). Is habitat fragmentation good for biodiversity? Biological Conservation, 226, 9-15.
  • Food and Agriculture Organization (2002). Current issues in biodiversity conservation. Wildlife management. Working paper, no. 4. Rome, Italy.
  • Foody G. M. (2008). GIS: Biodiversity applications: Progress report. Progress in physical geography, 32(2), 223-235.
  • Franklin A. B., Noon B. R. and George T. L. (2002). ‘What is habitat fragmentation?’ In T. L. George and D. S. Dobkin (eds), Effects of habitat fragmentation on birds in western landscapes: contrasts with paradigms from the eastern united states. Studies in Avian Biology, 25, 20-29.
  • Fuller M. R., Doyle M. W. and Strayer D. L. (2015). Causes and consequences of habitat fragmentation in river networks. Ann. N. Y. Acad Sci., 1355, 31-51. Doi.10.1111/nyas.12853.
  • Gaston K. J. and Spicer J. L. (2004). Biodiversity: an introduction. 2nd ed. Blackwell science ltd.
  • Hill J. L. and Curran P. J. (2003). Area, shape, and isolation of tropical forest fragments: effects on tree species diversity and implications for conservation. Journal of Biogeography, 30, 1391-1403.
  • Holme A. R., Burnside D. G. and Mitchell A. A. (1987). The development of a system for monitoring trend in the range condition in the arid shrublands of Western Australia. Australian range journal, 9, 14-20.
  • Hurni H., Abate S., Bantider A., Debele B., Ludi E., Portner B., Yitaferu B. and Zeleke G. (2010). Land degradation and sustainable land management in the Highlands of Ethiopia.In: Hurni H, Wiesmann U, editors; with an international group of co-editors. Global Change and Sustainable Development: A Synthesis of Regional Experiences from Research Partnerships. Perspectives of the Swiss National Centre of Competence in Research (NCCR) North-South, University of Bern, Vol. 5. Bern, Switzerland: Geographica Bernensia, pp 187–207.
  • Hurni H. (1995). Ethiopia: Agroecological belts, three map sheets, scale 1:1,000,000. Ministry of Agriculture, Ethiopia, and Centre for Development and Environment, Berne.
  • Ibanez T., Hequet V., Chambrey C., Jaffre T. and Birnbaum P. (2017). How does forest fragmentation affect tree communities? A critical case study in the biodiversity hotspot of new Caledonia. Landscape Ecol, doi.10.1007/s10980-017-0534-7.
  • Institute of Biodiversity Conservation (2005). National biodiversity strategy and action plan. Addis Ababa, Ethiopia.
  • Institute of Biodiversity Conservation (2012). Country report submitted to FAO on the state genetic resources of Ethiopia. Addis Ababa, Ethiopia.
  • Jaybhaye R. G., Kale P. K. and Joshi P. (2016). The relevance of geospatial techniques in the assessment of forest fragmentation of Anjani hill, Nasik district, Maharashtra, India. Journal of environmental science, toxicology and food technology, 10 (4): 1-10. Doi.10.9790/2402-1004010110.
  • LaGro J. (1991). Assessing patch shape in landscape mosaics. Photogrammetric engineering and remote sensing, 57 (3): 285-293.
  • Liu S., Wang D., Li H., Li W. and Wang Q. (2017). Ecological land fragmentation evaluation and dynamics change of a typical black soil farming area in Northeast China. Sustainability, 9 (300): 1-21. DOI.10.3390/su9020300.
  • Macleod R. D. and Congalton R. G. (1998). A quantitative comparison of change detection algorithms for monitoring Eelgrass from remotely sensed data. Photogrammetric engineering and remote sensing, 64(3): 207-216.
  • Malczewski J. (1999). GIS and Multicriteria Decision Analysis. John Wiley and Sons, Inc., Canada.
  • Michelsen O. and Lindner J. P. (2015). Why include impacts on biodiversity from land use in LCIA and how to select useful indicators? Sustainability, 7, 6278-6302.
  • Minu S. and Shetty A. (2015). A comparative study of image change detection algorithms in MATLAB. Aquatic procedia, 4, 1366-1373.
  • Munir T., Malik M. F., Naseem S. and Azzam A. (2018). Habitat fragmentation- a menace of biodiversity: A review. International Journal of Fauna and Biological Studies, 5 (4):37-41.
  • Murthy M. S. R., Giriraj A. and Dutt C. B. S. (2003). Geoinformatics for biodiversity assessment. BIOL. LETT. 40(2): 75.100
  • Mutia T. M. (2009). Biodiversity conservation. Presented at short-course IV on exploration for geothermal resources, organized by UNU-GTP, KenGen, and GDC, at Lake Naivasha, Kenya, Nov. 1-22.
  • Puyravaud J. (2003). Standardizing the calculation of the annual rate of deforestation. Forest ecology and management, 177, 593-596.
  • Raghubanshi A. S. and Triparthi A. (2009). Effects of disturbance, habitat fragmentation and alien invasive plants on floral diversity in dry tropical forests of Vindhyan: a review. Tropical Ecology, 50 (1): 57-69.
  • Ragub J. O. and Bagarina R. T. (2012). Fractal dimension and patchiness in Hinabian-Lawigan watershed southern Leyte, Philipines. IAMURE International Journal of Ecology and Conservation, 4, 17-33.
  • Rees W. G. (2001). Physical principles of remote sensing.2nd ed. Cambridge university press, Cambridge.
  • Roy A. and Srivasta V. K. (2012). Geospatial approach to the identification of potential hotspots of land-use and land-cover change for biodiversity conservation. Current Science, 103 (8), 1174-1180.
  • Roy P. S. (2011). Geospatial characterization of biodiversity: need and challenges. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXVII-8/W20, 2011 ISPRS Bhopal 2011 Workshop, 8 November 2011, Bhopal, India
  • Roy P. S. and Behera M. D. (2002). Biodiversity assessment at the landscape level. Tropical Ecology 43(1): 151-171, 2002.
  • Roy P. S. and Roy A. (2010). Land use and land cover change in India. A remote sensing and GIS perspective. Journal of the Indian Institute of Science, 90 (4): 489-501.
  • Roy P.S. and Tomar S. (2000). Biodiversity characterization at landscape level using geospatial modeling technique. Biological Conservation, 95: 95-109.
  • Salem B. B. (2003). Application of GIS to biodiversity monitoring. Journal of arid environments, 54: 91-114.
  • Solomon C. and Dereje T. (2015).Threats of biodiversity conservation and ecotourism activities in Nechsar National Park, Ethiopia. International journal of biodiversity and conservation, 7(2), 130-139.
  • Tchouto M.G.P., Yemefack M., De Boer W.F., De Wilde J.J.F.E., Van der Maesen L.J.G., Cleef A.M. (2006). Biodiversity hotspots and conservation priorities in the Campo-Ma'an rain forests, Cameroon. Biodiversity and Conservation, 15, 1219-1252.
  • Teillard F., Anton A., Dumont B., Finn J. A., Henry B., Souza D. M., Manzano P. et al. (2016). A review of indicators and methods to assess biodiversity: Application to livestock production at a global scale. Livestock environmental assessment and performance (LEAP) partnership. FAO, Rome, Italy.
  • Viera, A. J., and Garrett, J. M. (2005). Understanding interobserver agreement: The Kappa statistic. Research series, 37 (5): 360-363.
  • Wan H. Y., Cushman S. A. and Ganey J. I. (2018). Habitat fragmentation reduces genetic diversity and connectivity of the Mexican spotted owl: A simulation study using empirical resistance models. Genes, 9 (403):1-21. Doi.10.3390/genes9080403.
  • Wang X., Blanchet F. G. and Koper N. (2014). Measuring habitat fragmentation: an evaluation of landscape pattern metrics. Methods in ecology and evolution, 5, 634-646. Doi.10.111/2041-210x.12198
  • Woldeamlak B. (2002). Land Cover Dynamics since the 1950s in Chemoga Watershed, Blue Nile Basin, Ethiopia. Mountain Research and Development 22(3): 263-269.
  • Zaitunah A., Samsuri, Ahmad A. G. and Safitri R. A. (2018). Normalized difference vegetation index (NDVI) analysis for land cover types using Landsat 8 OLI in besitang watershed, Indonesia.IOP conf. series. Earth and Environmental Science, 126, 012112. Doi:10.1088/1755-1315/126/1/012112.

Spatio-Temporal Assessment of Biodiversity Habitat Loss and Fragmentation at Gugu Mountain Ranges, South East Ethiopia.

Yıl 2020, , 54 - 63, 26.04.2020
https://doi.org/10.30897/ijegeo.624488

Öz

This study was aimed at assessing afro-alpine
and sub-afro-alpine biodiversity habitat loss and fragmentation of Gugu
Mountain Ranges using geospatial techniques. Satellite imageries, key
informants and field observation were the major sources of data. The land sat
images of 1989, 2001 and 2019 were used to compute change and fragmentation
level. ERDAS IMAGINE 2014, ArcGIS 10.4 and FRAGSTAT version 4.2 was used to
process data. Image differencing (extent and rate of change), normalized
difference vegetation index (NDVI), and area, shape, and aggregation metrics
were used to analyze the data. The findings showed that a decline in greenness
value and shrinking of afro-alpine and sub-afro-alpine habitat by 1.49% between
1989 and 2001, and 2.62% between 2001 and 2019. Due to this, the total area
covered declined from 3540.65 to 1846.98 hectares over the last 30 years.
Moreover, the result further revealed that not only decline in size but also
there were habitat fragmentations in the study area.

Kaynakça

  • REFERENCESAlatorre L. C. and Begueria S. (2010). Analysis of spatial and temporal evolution of the NDVI on vegetated and degraded areas in the central Spanish Pyrenees. In Wegner W., Szwekely, B. (eds): ISPRS TC VII symposium -100 years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, vol. XXXVIII, part 7A.
  • Anand A., Singh S. K. and Kanga S. (2018). Estimating the change in forest cover density and predicting NDVI for west Singh hum using linear regression. Intern. Journ. For Environmental Rehabilitation and Conservation, IX (1): 193-203.
  • Badege B. (2001). Deforestations and Land Degradation in the Ethiopian Highlands. A Strategy for Physical Recovery. Journal of East African Studies. 8 (1): 7-26.
  • Broadbent E. N., Asner G. P., Keller M., Knapp D. E., Oliveira P. J. C. and Silva J. N. (2008). Forest fragmentation and edge effects from deforestation and selective logging in the Brazilian Amazon. Biological Conservation, 141, 1745-1757.
  • Ethiopia Biodiversity Institute (2014). Ethiopia’s fifth national report to the convention on biological diversity. Addis Ababa, Ethiopia.
  • Ethiopia Biodiversity Institute (2015). Ethiopia’s national biodiversity strategy and action plan 2015-2020. Addis Ababa, Ethiopia.
  • Ethiopian Panel on Climate Change (2015). First Assessment Report, Working Group II Biodiversity, and Ecosystems. Ethiopian Academy of Sciences, Addis Ababa.
  • Fahrig L. (2003). Effects of habitat fragmentation on the biodiversity. Annu. Rev. ecol. Evol., 34, 487-515. Doi.10.1146/annrev.ecosy.34.011802.132419.
  • Fahrig L. (2017). Ecological responses to habitat fragmentation per se. annu. Rev. Ecol. Evo. Syst., 48, 1-23.
  • Flaspohler D. J., Guardina C. P., Asner G. P., Hart P., Price J., Lyons C. K., and Castaned X. (2010). Long term effects of fragmentation and fragment properties on bird species richness in Hawaiian forests. Biological Conservation, 143, 280-288. DOI.10.1016/j.biocon.2009.10.009.
  • Fletcher R. J., Didham R. K., Banks-Leite C., Barlow J., Ewers R. M., et al. (2018). Is habitat fragmentation good for biodiversity? Biological Conservation, 226, 9-15.
  • Food and Agriculture Organization (2002). Current issues in biodiversity conservation. Wildlife management. Working paper, no. 4. Rome, Italy.
  • Foody G. M. (2008). GIS: Biodiversity applications: Progress report. Progress in physical geography, 32(2), 223-235.
  • Franklin A. B., Noon B. R. and George T. L. (2002). ‘What is habitat fragmentation?’ In T. L. George and D. S. Dobkin (eds), Effects of habitat fragmentation on birds in western landscapes: contrasts with paradigms from the eastern united states. Studies in Avian Biology, 25, 20-29.
  • Fuller M. R., Doyle M. W. and Strayer D. L. (2015). Causes and consequences of habitat fragmentation in river networks. Ann. N. Y. Acad Sci., 1355, 31-51. Doi.10.1111/nyas.12853.
  • Gaston K. J. and Spicer J. L. (2004). Biodiversity: an introduction. 2nd ed. Blackwell science ltd.
  • Hill J. L. and Curran P. J. (2003). Area, shape, and isolation of tropical forest fragments: effects on tree species diversity and implications for conservation. Journal of Biogeography, 30, 1391-1403.
  • Holme A. R., Burnside D. G. and Mitchell A. A. (1987). The development of a system for monitoring trend in the range condition in the arid shrublands of Western Australia. Australian range journal, 9, 14-20.
  • Hurni H., Abate S., Bantider A., Debele B., Ludi E., Portner B., Yitaferu B. and Zeleke G. (2010). Land degradation and sustainable land management in the Highlands of Ethiopia.In: Hurni H, Wiesmann U, editors; with an international group of co-editors. Global Change and Sustainable Development: A Synthesis of Regional Experiences from Research Partnerships. Perspectives of the Swiss National Centre of Competence in Research (NCCR) North-South, University of Bern, Vol. 5. Bern, Switzerland: Geographica Bernensia, pp 187–207.
  • Hurni H. (1995). Ethiopia: Agroecological belts, three map sheets, scale 1:1,000,000. Ministry of Agriculture, Ethiopia, and Centre for Development and Environment, Berne.
  • Ibanez T., Hequet V., Chambrey C., Jaffre T. and Birnbaum P. (2017). How does forest fragmentation affect tree communities? A critical case study in the biodiversity hotspot of new Caledonia. Landscape Ecol, doi.10.1007/s10980-017-0534-7.
  • Institute of Biodiversity Conservation (2005). National biodiversity strategy and action plan. Addis Ababa, Ethiopia.
  • Institute of Biodiversity Conservation (2012). Country report submitted to FAO on the state genetic resources of Ethiopia. Addis Ababa, Ethiopia.
  • Jaybhaye R. G., Kale P. K. and Joshi P. (2016). The relevance of geospatial techniques in the assessment of forest fragmentation of Anjani hill, Nasik district, Maharashtra, India. Journal of environmental science, toxicology and food technology, 10 (4): 1-10. Doi.10.9790/2402-1004010110.
  • LaGro J. (1991). Assessing patch shape in landscape mosaics. Photogrammetric engineering and remote sensing, 57 (3): 285-293.
  • Liu S., Wang D., Li H., Li W. and Wang Q. (2017). Ecological land fragmentation evaluation and dynamics change of a typical black soil farming area in Northeast China. Sustainability, 9 (300): 1-21. DOI.10.3390/su9020300.
  • Macleod R. D. and Congalton R. G. (1998). A quantitative comparison of change detection algorithms for monitoring Eelgrass from remotely sensed data. Photogrammetric engineering and remote sensing, 64(3): 207-216.
  • Malczewski J. (1999). GIS and Multicriteria Decision Analysis. John Wiley and Sons, Inc., Canada.
  • Michelsen O. and Lindner J. P. (2015). Why include impacts on biodiversity from land use in LCIA and how to select useful indicators? Sustainability, 7, 6278-6302.
  • Minu S. and Shetty A. (2015). A comparative study of image change detection algorithms in MATLAB. Aquatic procedia, 4, 1366-1373.
  • Munir T., Malik M. F., Naseem S. and Azzam A. (2018). Habitat fragmentation- a menace of biodiversity: A review. International Journal of Fauna and Biological Studies, 5 (4):37-41.
  • Murthy M. S. R., Giriraj A. and Dutt C. B. S. (2003). Geoinformatics for biodiversity assessment. BIOL. LETT. 40(2): 75.100
  • Mutia T. M. (2009). Biodiversity conservation. Presented at short-course IV on exploration for geothermal resources, organized by UNU-GTP, KenGen, and GDC, at Lake Naivasha, Kenya, Nov. 1-22.
  • Puyravaud J. (2003). Standardizing the calculation of the annual rate of deforestation. Forest ecology and management, 177, 593-596.
  • Raghubanshi A. S. and Triparthi A. (2009). Effects of disturbance, habitat fragmentation and alien invasive plants on floral diversity in dry tropical forests of Vindhyan: a review. Tropical Ecology, 50 (1): 57-69.
  • Ragub J. O. and Bagarina R. T. (2012). Fractal dimension and patchiness in Hinabian-Lawigan watershed southern Leyte, Philipines. IAMURE International Journal of Ecology and Conservation, 4, 17-33.
  • Rees W. G. (2001). Physical principles of remote sensing.2nd ed. Cambridge university press, Cambridge.
  • Roy A. and Srivasta V. K. (2012). Geospatial approach to the identification of potential hotspots of land-use and land-cover change for biodiversity conservation. Current Science, 103 (8), 1174-1180.
  • Roy P. S. (2011). Geospatial characterization of biodiversity: need and challenges. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXVII-8/W20, 2011 ISPRS Bhopal 2011 Workshop, 8 November 2011, Bhopal, India
  • Roy P. S. and Behera M. D. (2002). Biodiversity assessment at the landscape level. Tropical Ecology 43(1): 151-171, 2002.
  • Roy P. S. and Roy A. (2010). Land use and land cover change in India. A remote sensing and GIS perspective. Journal of the Indian Institute of Science, 90 (4): 489-501.
  • Roy P.S. and Tomar S. (2000). Biodiversity characterization at landscape level using geospatial modeling technique. Biological Conservation, 95: 95-109.
  • Salem B. B. (2003). Application of GIS to biodiversity monitoring. Journal of arid environments, 54: 91-114.
  • Solomon C. and Dereje T. (2015).Threats of biodiversity conservation and ecotourism activities in Nechsar National Park, Ethiopia. International journal of biodiversity and conservation, 7(2), 130-139.
  • Tchouto M.G.P., Yemefack M., De Boer W.F., De Wilde J.J.F.E., Van der Maesen L.J.G., Cleef A.M. (2006). Biodiversity hotspots and conservation priorities in the Campo-Ma'an rain forests, Cameroon. Biodiversity and Conservation, 15, 1219-1252.
  • Teillard F., Anton A., Dumont B., Finn J. A., Henry B., Souza D. M., Manzano P. et al. (2016). A review of indicators and methods to assess biodiversity: Application to livestock production at a global scale. Livestock environmental assessment and performance (LEAP) partnership. FAO, Rome, Italy.
  • Viera, A. J., and Garrett, J. M. (2005). Understanding interobserver agreement: The Kappa statistic. Research series, 37 (5): 360-363.
  • Wan H. Y., Cushman S. A. and Ganey J. I. (2018). Habitat fragmentation reduces genetic diversity and connectivity of the Mexican spotted owl: A simulation study using empirical resistance models. Genes, 9 (403):1-21. Doi.10.3390/genes9080403.
  • Wang X., Blanchet F. G. and Koper N. (2014). Measuring habitat fragmentation: an evaluation of landscape pattern metrics. Methods in ecology and evolution, 5, 634-646. Doi.10.111/2041-210x.12198
  • Woldeamlak B. (2002). Land Cover Dynamics since the 1950s in Chemoga Watershed, Blue Nile Basin, Ethiopia. Mountain Research and Development 22(3): 263-269.
  • Zaitunah A., Samsuri, Ahmad A. G. and Safitri R. A. (2018). Normalized difference vegetation index (NDVI) analysis for land cover types using Landsat 8 OLI in besitang watershed, Indonesia.IOP conf. series. Earth and Environmental Science, 126, 012112. Doi:10.1088/1755-1315/126/1/012112.
Toplam 51 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Research Articles
Yazarlar

Demissie Mallie 0000-0001-5666-1762

Kefelegn Getahun Chernet Bu kişi benim

Tesfaye Debela Duguma Bu kişi benim

Yayımlanma Tarihi 26 Nisan 2020
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Mallie, D., Chernet, K. G., & Duguma, T. D. (2020). Spatio-Temporal Assessment of Biodiversity Habitat Loss and Fragmentation at Gugu Mountain Ranges, South East Ethiopia. International Journal of Environment and Geoinformatics, 7(1), 54-63. https://doi.org/10.30897/ijegeo.624488