سیدی, ئاکو؛ بهرضا نورمند؛ رامین عبدالله کوخی و ارشاد رمضانی، ۱۳۹۵، مدل عددی سیستم جریان آب زیرزمینی دشت کامیاران در حالت ناماندگار، ششمین کنفرانس ملی مدیریت منابع آب ایران، کردستان، دانشگاه کردستان،
صالحی، حسین؛ حقیزاده، علی،1394، ارزیابی و پهنهبندی کیفیت آبهای زیرزمینی با استفاده از تلفیق مدل AqQA و سیستم اطلاعات جغرافیایی(مطالعه موردی : دشت کامیاران)، نشریه علمی - ترویجی مهندسی نقشهبرداری و اطلاعات مکانی ، دوره هفتم ، شماره 1.
Agarwal, C. S. 1998. Study of drainage pattern through aerial data in Naugarh area of Varanasi district, UP. Journal of the Indian Society of Remote Sensing, 26(4), 169-175.
Altın, T. B., Altın, B. N. 2011. Development and morphometry of drainage network in volcanic terrain, Central Anatolia, Turkey. Geomorphology, 125(4), 485-503.
Avinash, K., Deepika, B., & Jayappa, K. S. 2014. Basin geomorphology and drainage morphometry parameters used as indicators for groundwater prospect: insight from geographical information system (GIS) technique. Journal of Earth Science, 25(6), 1018-1032.
Bharathkumar, L., Mohammed-Aslam, M. A. 2009. Prioritizing Groundwater Potential Zones Using Morphometric Analysis: A Case Study of Gulbarga Watershed.
Chatterjee, A., Tantubay, A. 2009. Morphometric Analysis for Evaluating Groundwater Potential Zones, In Kusangai Jor Watershed Area, Dist. Bolangir, Orissa.
Geena, G. B., Ballukraya, P. N. 2011. Morphometric analysis of Korattalaiyar River basin, Tamil Nadu, India: A GIS approach. International Journal of Geomatics and Geosciences, 2(2), 383.
Hajam, R. A., Hamid, A., Bhat, S. 2013. Application of morphometric analysis for geo-hydrological studies using geo-spatial technology–a case study of Vishav Drainage Basin. Hydrol Current Res, 4(157), 2.
Horton, R. E. 1932. Drainage‐basin characteristics. Eos, transactions american geophysical union, 13(1), 350-361.
Horton, R. E. 1945. Erosional development of streams and their drainage basins; hydrophysical approach to quantitative morphology. Geological society of America bulletin, 56(3), 275-370.
Hurtrez JE, Sol C, Lucazeau F .1999. Effect of drainage area on hypsometry from an analysis of small-scale drainage basins in the Siwalik hills (central Nepal). Earth Surf Process Landform.
Ismail, A. A., Clark, I. 2016. Using GIS techniques and quantitative morphometric analysis to evaluate the groundwater resources in the central flinders ranges, South Australia.
Jobin, T., Joseph, S., Thrivikramji, K. P., & Abe, G. 2011. Morphometric analysis of the drainage system and its hydrological implications in the rain shadow regions, Kerala, India. Journal of Geographical Sciences, 21(6), 1077.
Kanth, T. A., Hassan, Z. 2012. Morphometric analysis and prioritization of watersheds for soil and water resource management in Wular catchment using geo-spatial tools. International Journal of Geology, Earth and Environmental Sciences, 2(1), 30-41.
Nag, S. K. 1998. Morphometric analysis using remote sensing techniques in the Chaka sub-basin, Purulia district, West Bengal. Journal of the Indian society of remote sensing, 26(1-2), 69-76.
Pareta, K., Pareta, U. 2011. Quantitative morphometric analysis of a watershed of Yamuna basin, India using ASTER (DEM) data and GIS. International journal of Geomatics and Geosciences, 2(1), 248.
Pirasteh, S., Safari, H. O., Pradhan, B., Attarzadeh, I.2010. Lithomorphotectonics analysis using Landsat ETM data and GIS techniques: Zagros Fold Belt (ZFB), SW Iran. Int Geoinformatics Res Dev J, 1(2), 28-36.
Rai, P. K., Chandel, R. S., Mishra, V. N., Singh, P. 2018. Hydrological inferences through morphometric analysis of lower Kosi river basin of India for water resource management based on remote sensing data. Applied Water Science, 8(1), 15.
Rai, P. K., Mohan, K., Mishra, S., Ahmad, A., Mishra, V. N. 2017. A GIS-based approach in drainage morphometric analysis of Kanhar River Basin, India. Applied Water Science, 7(1), 217-232.
Rajpoot, P. S., Kumar, A., Goyal, S., Trivedi, R. K. 2015. Morphometric analysis and hydrogeomorphological implication of Paisuni river basin Chitrakoot, Madhya Pradesh, India. Journal of Biology and Earth Sciences, 5(1), 68-73.
Rukmini Florence, K. N,. Satyanarayana Moorthy, D. V. 2017. Delineation of Groundwater Potential zones of Swarnamukhi sub watershed using RS GIS, International Journal of Engineering Development and Research, Vol 5:Pp:18-23.
Samadder R K, Kumar S, Gupta R P .2011. Palaeochannels and their potential for artificial groundwater recharge in the western Ganga plains. J Hydrol (Amst), 400(1 – 2): 154–164.
Sanaullah, M., Ahmad, I., Arslan, M., Ahmad, S. R., Zeeshan, M. 2018. Evaluating Morphometric Parameters of Haro River Drainage Basin in Northern Pakistan. Polish Journal of Environmental Studies, 27(1).
Schumm S.A. 1956. Evolution of drainage systems and slopes in Badlands at Perth Amboy, New Jersey. Bull. Geol. Soc. Amer., v.67, pp.597-646..
Singh, S., Singh, M. C. 1997. Morphometric analysis of Kanhar river basin. National Geographical Journal of India, 43(1), 31-43.
Smith, B., & Sandwell, D.2003. Accuracy and resolution of shuttle radar topography mission data. Geophysical Research Letters, 30(9).
Smith, K. G. 1950. Standards for grading texture of erosional topography. American Journal of Science, 248(9), 655-668.
Sreedevi, P. D., Subrahmanyam, K., Ahmed, S.2005. The significance of morphometric analysis for obtaining groundwater potential zones in a structurally controlled terrain. Environmental Geology, 47(3), 412-420.
Strahler, A. N. 1964. Part II. Quantitative geomorphology of drainage basins and channel networks. Handbook of Applied Hydrology: McGraw-Hill, New York, 4-39.
Waikar, M. L., Nilawar, A. P. 2014. Morphometric analysis of a drainage basin using geographical information system: a case study. International journal of multidisciplinary and current research, 2, 179-184.
Zhang, H. Y., Shi, Z. H., Fang, N. F., Guo, M. H. 2015. Linking watershed geomorphic characteristics to sediment yield: Evidence from the Loess Plateau of China. Geomorphology, 234, 19-27.