Araştırma Makalesi
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Yıl 2022, Cilt: 9 Sayı: 1, 79 - 96, 06.03.2022
https://doi.org/10.30897/ijegeo.884951

Öz

Kaynakça

  • Asian Development Bank (ADB) 2015, Global Increase in Climate-Related Disaster, ADB Economics Working Paper Series, Asian Development Bank, Philippines. ISSN 2313-6537.
  • Azam, R. and H. Rahman, 2004, Application of satellite based geo-information technology for monitoring natural disasters in Bangladesh. United Nations International Workshop on the Use of Space Technology for Disaster Management, Germany, 18–22 October 2004.
  • Baidya, R.S., and Avissar, R., 2002, Impact of land use/ land cover change on regional hydrometeorology in the Amazon. Journal of Geophysical Research, 107, 8037, doi:10.1029/2000JD000266.
  • Bartholic, J.F., L.N. Namken, and C.L. Wiegand, 1972, Aerial thermal scanner to determine temperatures of soils and of crop canopies differing in water stress, Agronomy Journal, 64,603–608. Buckley, T. N., 2019, How do stomata respond to water status? New Phytologist, Volume 224, Issue 1 p. 21-36. Accessed on 10 February 2021 https://doi.org/10.1111/nph.15899, Geophys. Res., 107, 8037, doi:10.1029/2000JD000266
  • B.B.S., 1998, Yearbook of agricultural statistics of Bangladesh. Published by the Bangladesh Bureau of Statistics, Dhaka, Bangladesh, pp. 331.
  • B.B.S., 1997, Statistical yearbook of Bangladesh. Published by the Bangladesh Bureau of Statistics, Bangladesh, pp. 690.
  • B.B.S., 1987, Yearbook of agricultural statistics of Bangladesh. Published by the Bangladesh Bureau of Statistics, Dhaka, Bangladesh, pp. 718.
  • Ceccato, P., Flasse S., Tarantola S., Jacquemoud S. and Grégoire JM., 2001, Detecting vegetation leaf water content using reflectance in the optical domain. Remote Sensing of Environment 77, 22-33.
  • Charney, J.G., 1975, Dynamics of deserts and drought in the Sahel. Quart .J. Roy. Meteor. Soc., 101, 193-202.
  • Charney, J.G., Quirk, W.G., Chow, S.M. and J. Kornfield, 1977, A comparative study of the effect of albedo change of drought in semi-arid regions. Journal of Atmospheric Science, 34, 1,366-1,385.
  • Chase, T.N., Peilke Sr., R.A., Kittel, T.G.F., Nemani, R.R., and Running, S.W., 2000, Simulated impacts of historical land cover changes on global climate in northern winter. Climate Dynamics, 16, 93-105.
  • Chen, Z., Yu, G., Ge, J., Wang, Q., Zhu, X and Xu, Z., 2015, Roles of Climate, Vegetation and Soil in Regulating the Spatial Variations in Ecosystem Carbon Dioxide Fluxes in the Northern Hemisphere. PLoS ONE 10(4): e0125265. doi:10.1371/journal. pone.0125265.
  • Claussen, M., Brovkin, V., and Ganapolski, A. (2001) Biogeophysical versus biogeochemical feedbacks of large-scale land cover change. Geophysical Research Letters 28(6), 1011-1014.
  • Coleman, J.M., 1969, Brahmaputra river: Channel processes and sedimentation. Sedimentary Geology, 3, 129-239.
  • Colwell, R.N., 1983, Manual of Remote Sensing, Second Edition, Vol. 1 and Vol. 2, Published by the American Society of Photogrammetry, Virginia, pp.2440.
  • Dan Li, D., & Wang, L. 2019, Sensitivity of Surface Temperature to Land Use and Land Cover Change‐Induced Biophysical Changes: The Scale Issue. Geophysical Research Letters, Volume 46, Issue 16 p. 9678-9689. Accessed on 10 February 2021 https://doi.org/10.1029/2019GL084861
  • Dickinson, R.E., 1983, Land surface processes and climate - surface albedos and energy balance. Add. Geophysics, 25, 305-353. Dunne, T. and Leopold, L.B., 1978, Water in environmental planning. San Francisco: W. H. Freeman and Company, New York, 818 pp. ERDAS Field Guide, 1999, ERDAS, Inc. Atlanta, Georgia, pp379.
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  • Hunt, S., King BJ. and Layzell DB., 1989, Effects of gradual increases in oxygen on nodule activity in soybean. Plant Physiology, 91, 315-321.
  • Jackson, RD, 1982, Canopy temperature and crop water stress. In: Hillel D, ed. Advances in irrigation, Vol. 1. New York, NY: Academic Press, 43–85.
  • Jacob, F., Olioso, A., Gu, X., F., Su, Z., Seguin, B., 2002, Mapping surface fluxes using airborne visible, near infrared, thermal infrared remote sensing data and a spatialized surface energy balance model. Agronomie, 22, 669–680.
  • Jager, J. and H.L. Ferguson, 1991, Climate change: Science, impacts and policy. Proceedings of the Second World Climate Conference, Cambridge University Press, Cambridge, pp. 578.
  • Jasechko, S., Birks, S.J., Gleeson, T., Wada, Y., Fawcett, P.J., Sharp, Z.D., McDonnell, J.J. and Welker, J.M., 2014, Water Resources Research. Volume 50, Issue 11 p. 8845-8867. Accessed on 10 February 2021. https://doi.org/10.1002/2014WR015809
  • Kalma, J.D., 1971, The Annual Course of Air Temperature and Near-surface Soil Temperature in a Tropical Savannah Environment, Agricultural Meteorology, 8, 293-303.
  • Keeling, C.D., Bacastow, R.D. and T.P. Whorf, 1982, Measurements of the concentration of carbon dioxide at Mauna-Loa Observatory, Hawaii, Carbon Dioxide Review, Edited by W.C. Clark, Oxford University Press, 377-385.
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  • Kotoky, P., Bezbaruah, D., Baruah, J. and J. N. Sarma, 2005, Nature of bank erosion along the Brahmaputra river channel, Assam, India. Current Science, 88, 634-640.
  • Lambin, E.F. and Strahler, A.H., 1994, Indicators of land-cover change for change-vector analysis in multitemporal space at coarse spatial scales, International Journal of Remote Sensing, 15, 2099-2119.
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  • Lerner, D. et al. 1990. Groundwater Recharge. A Guide to Understanding and Estimating Natural Recharge. International Association of Hydrogeologists. International Contributions to Hydrogeology Volume 8, Hannover, Heise 345pp.
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  • Matsuyama, H., 1992, The water budget in the Amazon river basin during the FGGE period, Journal Meteorological Society of Japan., 70, 1071–1083.
  • Melton, M.A., 1957, An analysis of the relations among elements of climate, surface properties and geomorphology. Tech. Rep. II Project NR 389-042 O.N.R. Dept. Geol. Columbia Univ.
  • Morisawa, M., 1968, Streams. Their dynamics and morphology, McGraw-Hill Book Company, New York, pp 175.
  • Miska Luoto (2007) New Insights into Factors Controlling Drainage Density in Subarctic Landscapes. Arctic, Antarctic, and Alpine Research, 39:1,117-126. Accessed on 6 February 2021 https://doi.org/10.1657/1523-0430(2007)39[117:NIIFCD]2.0.CO;2
  • Norbert, S. and Rothman, D. H., 2002, A causal relations between topographic slope and drainage area, Geophysical Research Letters, 29, 1633.
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Study on the Aridity in the North-Western (NW) Part of Bangladesh through Combined Application of Remote Sensing, GIS and Geophysical Data

Yıl 2022, Cilt: 9 Sayı: 1, 79 - 96, 06.03.2022
https://doi.org/10.30897/ijegeo.884951

Öz

In the present paper, hydro-environmental behaviour of two adjacent but characteristically different land areas of (i) semi-arid Barind Tract and (ii) Ganges flood plain situated in the north-western part of Bangladesh have been studied and possible mechanisms of variability in the two study sites have been investigated. Time series remote sensing data supplemented with climatic, geophysical and groundwater data and other ancillary information have been analysed for the purpose. Coupling of Landsat TM derived vegetation cover information with meteorological data depicts higher sensitivity of Barind Tract than the other study site towards vegetation cover changes in response to rainfall amount. Temporal sequence of albedo value as derived from Landsat TM data manifests appropriate seasonal trend that is consistent with field observations. Analysis of rainfall data over a period of about 50 years depicts substantially higher rainfall in both the study sites as compared to a typical semiarid region. However, temporal distribution of rainfall events is mostly concentrated within very short period of time in the year. Lithological information on the subsurface configuration depicts the existence of a relatively impermeable clayey layer near the top surface in these areas. Relatively higher thickness of this impermeable clayey layer over the semiarid Barind areas has been noticed that slows down the infiltration process significantly as compared to that in adjacent floodplain areas. Analysis of drainage network exhibits relatively higher drainage density in the Barind Tract area as compared to that in floodplain area. The drainage pattern shows predominantly unidirectional and distributary nature of drainage in the Barind Tract area and in general, distribution is oriented towards basin direction and most of the branches of the drainage system. Ultimately, relatively higher elevation, steeper slope result in relatively quicker surface runoff to carry out excess rain water to the nearest basins, results in decreased infiltration of rainwater. Eventually, the conversion efficiency of Barind Tract area to transform intercepted rainwater into underground reservoir water through infiltration seems to be lower as compared to that of floodplain areas.

Teşekkür

The authors are thankful to the Chairman, Bangladesh Space Research and Remote Sensing Organization (SPARRSO) for permitting us to carry out and publish this research work.

Kaynakça

  • Asian Development Bank (ADB) 2015, Global Increase in Climate-Related Disaster, ADB Economics Working Paper Series, Asian Development Bank, Philippines. ISSN 2313-6537.
  • Azam, R. and H. Rahman, 2004, Application of satellite based geo-information technology for monitoring natural disasters in Bangladesh. United Nations International Workshop on the Use of Space Technology for Disaster Management, Germany, 18–22 October 2004.
  • Baidya, R.S., and Avissar, R., 2002, Impact of land use/ land cover change on regional hydrometeorology in the Amazon. Journal of Geophysical Research, 107, 8037, doi:10.1029/2000JD000266.
  • Bartholic, J.F., L.N. Namken, and C.L. Wiegand, 1972, Aerial thermal scanner to determine temperatures of soils and of crop canopies differing in water stress, Agronomy Journal, 64,603–608. Buckley, T. N., 2019, How do stomata respond to water status? New Phytologist, Volume 224, Issue 1 p. 21-36. Accessed on 10 February 2021 https://doi.org/10.1111/nph.15899, Geophys. Res., 107, 8037, doi:10.1029/2000JD000266
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  • B.B.S., 1987, Yearbook of agricultural statistics of Bangladesh. Published by the Bangladesh Bureau of Statistics, Dhaka, Bangladesh, pp. 718.
  • Ceccato, P., Flasse S., Tarantola S., Jacquemoud S. and Grégoire JM., 2001, Detecting vegetation leaf water content using reflectance in the optical domain. Remote Sensing of Environment 77, 22-33.
  • Charney, J.G., 1975, Dynamics of deserts and drought in the Sahel. Quart .J. Roy. Meteor. Soc., 101, 193-202.
  • Charney, J.G., Quirk, W.G., Chow, S.M. and J. Kornfield, 1977, A comparative study of the effect of albedo change of drought in semi-arid regions. Journal of Atmospheric Science, 34, 1,366-1,385.
  • Chase, T.N., Peilke Sr., R.A., Kittel, T.G.F., Nemani, R.R., and Running, S.W., 2000, Simulated impacts of historical land cover changes on global climate in northern winter. Climate Dynamics, 16, 93-105.
  • Chen, Z., Yu, G., Ge, J., Wang, Q., Zhu, X and Xu, Z., 2015, Roles of Climate, Vegetation and Soil in Regulating the Spatial Variations in Ecosystem Carbon Dioxide Fluxes in the Northern Hemisphere. PLoS ONE 10(4): e0125265. doi:10.1371/journal. pone.0125265.
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  • Colwell, R.N., 1983, Manual of Remote Sensing, Second Edition, Vol. 1 and Vol. 2, Published by the American Society of Photogrammetry, Virginia, pp.2440.
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  • Khaleque, M.A., 1994, Geophysical study of time variation of the depth of aquifer and its thickness in parts of Barind Tract, north-west of Bangladesh, Ph.D. Thesis, University of Rajshahi University, Rajshahi, Bangladesh, pp. 195.
  • King, R.B., 1984, Remote Sensing Manual of Tanzania, Land Resources Development Centre, pp.59.
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  • Kotoky, P., Bezbaruah, D., Baruah, J. and J. N. Sarma, 2005, Nature of bank erosion along the Brahmaputra river channel, Assam, India. Current Science, 88, 634-640.
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  • Markham, B.L., and Barker, J.L., 1987, Thematic Mapper bandpass solar exoatmospheric irradiances. International Journal of Remote Sensing, 8, 517-523. Markham, B.L., and Barker, J.L., 1986, Landsat MSS and TM post-calibration dynamic ranges, exoatmospheric reflectances and at-satellite temperatures. EOSAT-Landsat Technical Notes, 1(Lanham, Maryland: EOSAT), 3-8.
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  • Melton, M.A., 1957, An analysis of the relations among elements of climate, surface properties and geomorphology. Tech. Rep. II Project NR 389-042 O.N.R. Dept. Geol. Columbia Univ.
  • Morisawa, M., 1968, Streams. Their dynamics and morphology, McGraw-Hill Book Company, New York, pp 175.
  • Miska Luoto (2007) New Insights into Factors Controlling Drainage Density in Subarctic Landscapes. Arctic, Antarctic, and Alpine Research, 39:1,117-126. Accessed on 6 February 2021 https://doi.org/10.1657/1523-0430(2007)39[117:NIIFCD]2.0.CO;2
  • Norbert, S. and Rothman, D. H., 2002, A causal relations between topographic slope and drainage area, Geophysical Research Letters, 29, 1633.
  • Norton, C.C., Mosher, F.R., and Hinton, B., 1979, An Investigation of surface albedo variations during the Recent Sahel Drought. Journal of Applied Meteorology, 18, 1252-1262.
  • Pitman, A.J., 2003, The evolution of, and revolution in, land surface schemes designed for climate models, Int. J. Climatol., 23, 479-510.
  • Quesada, C.A., A.C. Miranda, M.G. Hodnett, A.J.B. Santos, H.S. Miranda, et al., 2004: Seasonal and depth variation of soil moisture in a burned open savanna (campo sujo) in central Brazil. Ecol. Appl., 14, S33-41.
  • Rahman, H. and G. Dedieu, 1994, SMAC: A Simplified Method for the Atmospheric Correction of Satellite Measurements in the Solar Spectrum. International Journal of Remote Sensing, 15, 123-143.
  • Rahman, S., Rahman, H. and M. Keramat, 2007, Study on the Seasonal Changes of Land Cover and Their Impacts on Surface Albedo in the North-Western Part of Bangladesh using Remote Sensing. International Journal of Remote Sensing 28, 1001-1022.
  • Rahman, H., Rahman, S., Rahman, M.S. and M. Ahmed, 2004, Satellite Image Based Information Retrieval on the Geo-environment in the Northwestern Part of Bangladesh: Effects of Image Resolution. Proceeding of the 7th International Conference on Computer and Information Technology (ICCIT), 26-28 December 2004.
  • Rahman, S., Rahman, H. and M. Keramat, 2003, Monitoring Hydro-Environmental Condition and Its Evolution in the North-Western Part of Bangladesh using Combined Remote Sensing, GIS and Geophysical Data. Presented in the International Conference on 'The Role of Natural Resources and Environment in Sustainable Development in South and Southeast Asia (NESDA)' held in Dhaka, Bangladesh during January 17-20, 2003.
  • Ralm, J.J., and Brown, D.M., 1971, Estimating corn canopy extreme temperature from shelter values. Agricultural Meteorology, 8, 129-138.
  • Riazanoff, S., Julien, P., Cervelle, B. and Chorowicz, J., 1992, Extraction et analyse automatiques d’un réseau hiérarchisé de talwegs. Application à un modèle numérique de terrain dérivé d’un couple stéréoscopique SPOT, International Journal of Remote Sensing, 13, 337-364.
  • Salam, A., 1998, Ana agro-hydro-climatic and environmental analysis on the changes in cropping style in Bangladesh and their impacts on rice crop yield: A combined remote sensing and GIS approach. M. Tech. Thesis, Andhra University, India, 93p.
  • Schneider, N., Eugster, W. and B. Schichler, 2004, The impact of historical landuse changes on the near-surface atmospheric conditions on the Swiss Plateau Nicolas Schneider, Earth Interactions, 8, 1-27.
  • Simmers, I. et al. Eds. 1992 Selected papers on aquifer overexploitation. Puerto de la Cruz. Tenerife, Spain April 15-19 1991. International Association of Hydrogeologists, Heise.
  • Sinha, S.K., 1996, Global change scenario – Current and future, with reference to land cover changes and sustainable agriculture in the South East Asian context. Regional land cover changes, sustainable agriculture and their interactions with global change (Proceedings of the South Asian Regional Workshop on Regional land cover changes and sustainable agriculture in South Asia, India, 16-19 December, 1996), Edited by V. Ravichandran, pp 208.
  • Small, R.J., 1978, The study of landforms. Second Edition, Cambridge University Press, Cambridge, pp. 502. Smith, R.C.G. and Choudhury, B.J., 1991, Analysis of normalized difference and surface temperature observations over southeastern Australia. International Journal of Remote Sensing, 12, 2021-2044.
  • Stohlgren, T. J., T. N. Chase, R. A. Pielke, T. G. F. Kittel, and J. S. Baron, 1998: Evidence that local land use practices influence regional climate, vegetation, and stream flow patterns in adjacent natural areas. Global Change Biol., 4, 495–504.
  • Stromberg, J.C., R. Tiller, and B. Richter, 1996, Effects of groundwater decline on riparian vegetation of semiarid regions: The San Pedro, Arizona. Ecological Applications 6:113–131.
  • Tassan, S, 1992, An algorithm for the identification of benthic algae in the Venice lagoon from Thematic Mapper data. International Journal of Remote Sensing, 13, 2887-2909.
  • Uwiringiyimana, J., Sent. Y. and Lubczynski., M. W, 2019, Hydrogeophysics for designing the hydrogeophysical conceptual model of a sub-catchment in Maqu, Tibet-China. Dissertation for Master of Science degree, Department of Geo-Information Science and Earth Observation, University of Twente.
  • Verstraete, M.M. and B. Pinty, 1991, The potential contribution of satellite remote sensing to the understanding arid lands process. Vegetation, 91,59-72. Walesh, S. G., 1989, Urban Surface Water Management, New York, John Wiley.
  • William, W., Kellogg and Robert, Schware, 1982, Climate Change and Society, Western Press, Boulder, Colorado, USA, p2.
  • Yang, Z., L., 2004, Modeling land surface processes in short-term weather and climate studies. Observation, Theory and Modeling of Atmospheric Variability, edited by X. Zhu, X. Li, M. Cai, S. Zhou, Y. Zhu, F.F. Jin, X. Zou, and M. Zhang, World Scientific Series on Meteorology of East Asia, World Scientific, New Jersey, pp. 288-313.
  • Zeng, N., 1999, Seasonal cycle and interannual variability in the Amazon hydrologic cycle. Journal of Geophysical Research, 104, 9097–9106.
Toplam 68 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Fotogrametri ve Uzaktan Algılama
Bölüm Research Articles
Yazarlar

Sajıdur Rahman 0000-0002-9001-3790

Hafızur Rahman 0000-0003-3366-4076

Yayımlanma Tarihi 6 Mart 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 9 Sayı: 1

Kaynak Göster

APA Rahman, S., & Rahman, H. (2022). Study on the Aridity in the North-Western (NW) Part of Bangladesh through Combined Application of Remote Sensing, GIS and Geophysical Data. International Journal of Environment and Geoinformatics, 9(1), 79-96. https://doi.org/10.30897/ijegeo.884951