شناسایی مناطق برداشت گرد و غبار در شرق خاورمیانه با استفاده از سنجش از دور

رضایی بنفشه، مجید؛ شریفی، لیلا؛ خضرانیان، لقمان (1391).  برآورد میزان گرد و غبار با استفاده از تصاویر ماهواره­ای مطالعه موردی:    استان کردستان، فصل­نامه جغرافیای طبیعی، 18(4): 13- 22.

سعادت­آبادی، عباس؛ عزیزی، قاسم (1391). مطالعه الگوهای هواشناسی، شناسایی چشمه­های تولید گرد و غبار و مسیر حرکت ذرات                 معلق برای طوفان جولای 2009، پژوهش­های جغرافیای طبیعی، 44(3): 73-92.

کریمی، خدیجه؛ شهرآئینی، حمید؛ نوخندان، مجید و حافظی­مقدس، ناصر (1390). شناسایی خاستگاه­های تولید توفان­های گرد و غبار در خاورمیانه با استفاده از سنجش از دور، نشریه پژوهش­های اقلیم شناسی، 7(2): 57-72.

 

Ackerman, S.A., (1997). Remote sensing aerosols using satellite infrared observations. Journal of Geophysical Research 102, 17069–17080.

AlizadehChoobari, O., Zawar-Reza, P., Sturman, A., (2014). The global distribution of mineral dust and its impacts on the climate system: A review. Atmospheric Research 138(1), 152-165.

Baddock, M.C., Gill, T.E., Bullard, J.E., Dominguez, Acosta, M., Rivera, N.I., (2011). Geomorphology of the Chihuahuan Desert based on potential dust emissions. Journal of Maps 7(1), 249–259.

Bullard, J., Baddock, M., McTainsh, G., Leys, J., (2008). Sub-basin scale dust source geomorphology detected using MODIS. Geophysical Research Letters 35(15), 1-19.

Engelstaedter, S., Kohfeld, K.E., Tegen, I., Harrison, S.P., (2003). Controls of dust emissions by vegetation and topographic depressions: an evaluation using dust storm frequency data. Geophysics Research Letter 30. doi:10.1029/2002GL016471.

Floyd, K.W., Gill, T.E., (2011). The association of land covers with aeolian sediment production at Jornada Basin New Mexico, USA. Aeolian Research 3, 55–66.

Goudie, A., (2014). Review Desert dust and human health disorders. Environment International 63(3), 101-113.

Hahnenberger, M., Kathleen, N., (2014). Geomorphic and land cover identification of dust sources in the eastern Great Basin of Utah, U.S.A. Geomorphology 204(2), 657-672.

Karimi, V., HabibNejad, M., Abkar, A., (2011). Synoptic stations of meteorological drought index in Mazandaran. Journal of Irrigation and Water Engineering, 5(3), 15-25. (in Persian)

Lee, J., Baddock, M., Mbuh, M., Gill, T. (2012). Geomorphic and land cover characteristics of aeolian dust sources in West Texas and eastern New Mexico, USA.  Aeolian Research 3(4), 459-466.

Lee, J., Gill, T., Mulligan, K., Acosta, M.D., Perez, A., (2009). Land use/land cover and point sources of the 15 December 2003 dust storm in southwestern North America. Geomorphology 105(2), 18-27.

Lindley, T.T., Vitale, J.D., Burgett, W.S., Beierle, M.J., (2011). Proximity meteorological observations for wind-driven grassland wildfire starts on the southern High Plains. Elec. J. Severe Storms Meteor 6, 1–27.

Mahowald, N.M., Bryant, R.G., del Corral, J., Steinberger, L., (2003). Ephemeral lakes and desert dust sources. Geophysical Research Letters 30(2), 1074-1083

Miller, M.E., Bowker, M.A., Reynolds, R.L., Goldstein, H.L., (2012). Post-fire land treatments and wind erosion lessons from the Milford Flat Fire, UT, USA. Aeolian Research 7(4), 29–44.

Prospero, J.M., Ginoux, P., Torres, O., Nicholson, S.E., Gill, T.E., (2002). Environmental characterization of global sources of atmospheric soil dust identified with the Nimbus 7 total ozone mapping spectrometer absorbing aerosol product. Reviews of Geophysics 40(1), 2–31

Qu, J., Hao, X.J., Kafatos, M., Wang, L., (2006), Asian Dust Storm Monitoring Combining Terra and Aqua MODIS SRB Measurements. IEEE Geoscience and Remote Sensing Letters 3(4), 484-486.

Rashki, A., Kaskaoutis, D.G., Rautenbach, C., Eriksson, P.G., Qiang, M., Gupta, P., (2012). Dust storms and their horizontal dust loading in the Sistan region, Iran. Aeolian Research 5(3), 51-62.

Rezazadeh, M., Irannejad, P., Shao, Y., (2013). Climatology of the Middle East dust events. Aeolian Research 103-109.

Rivera Rivera, N.I., Gill, T.E., Bleiweiss, M.P., Hand, J.L., (2010). Source characteristics of hazardous Chihuahuan Desert dust outbreaks. Atmospheric Environmental 44, 2457–2468.

Roscovensky, J.K., Liou, K.N., (2005). Differentiating airborne dust from cirrus clouds using MODIS data. Geophysical Research Letters 32, L12809.Doi: 10. 1029/2005GL022798.

Schepanski, K., Tegen, I., Macke, a., (2012). Comparison of satellite based observations of Saharan dust source areas. Remote Sensing of Environment 123(3), 90-97.

Shao, Y., Wyrwoll, K.H., Chappell, A., Huang, J., Lin, Z., McTainsh, G.H., (2011). Dust cycle: an emerging core theme in Earth system science. Aeolian Research 2(4), 181–204.

Sharma, A.R., Kharol, S.K., Badarinath. K.V.S., (2009). Satellite observations of unusual dust event over North-East India and its relation with meteorological conditions. Journal of Atmospheric and Solar-Terrestrial Physics 71(18), 2032-2039.

Tan, M., Li, X., Xin, L., 2014. Intensity of dust storms in China from 1980 to (2007): A new definition. Atmospheric Environment 85(4), 215-222.

Vickery, K., Eckardt, F., (2013). Dust emission controls on the lower Kuiseb River valley, Central Namib. Aeolian Research 10(3), 125-133.

Walker, A.L., Liu, M., Miller, S.D., Richardson, K.A., Westphal, D.L., (2009). Development of a dust source database for mesoscale forecasting in Southwest Asia. Journal of Geophysical Research 114(18), 1-24.

Zhang, B., Tsunekawa, A., Tsubo, M., (2008). Contributions of sandy lands and stony deserts to long-distance dust emission in China and Mongolia during 2000–2006. Global and Planetary Change 60(6), 487−504.