AchanKovil (india)

Reference: Prasad, M. & Ramanathan, Al. 2005. Solute Sources and Processes in the Achankovil River Basin, Western Ghats, Southern India. Journal Des Sciences Hydrologiques - HYDROLOG SCI J. 50. 1-354

Aconcagua (Chile)

Reference: Ribbe L. 2020. Design of Watershed Bades Water Quality Monitoring: The Case of Nitrate Pollution in the Aconcagua River, Chile

Adda (Italy)

Reference: Water2Adapt Project. 2011. Resilience enhancemente and water demand management for climate change adaptation. The Adda RiverBasin.
http://www.feem-project.net/water2adapt/files/w2a_factsheet_adda_eng.pdf

Adige (Italy)

Reference: Manfreda S., Fiorentino M. 2008. Flood Volume Estimation and Flood Mitigation: Adige River Basin. Advances in Global Change Research, 243-264

Al Abiadh (Irak)

Reference: Alsaadi L. Wadud H. 2019. The Al-Abiadh Valley Drainage Basin Environmental Aspects Extraction Using Quantitatively Morphometric Analyses of Shuttle Radar Topographic Mission Data. Baghdad Science Journal, 16

Amazon (South America)

Reference: http://www.mappery.com/Amazon-Basin-Hydrosheds-Map

Amur (Asia)

Reference: Simonov E., Nikitina O., Egidarev E. 2019. Freshwater Ecosystems versus Hydropower Development: Environmental Assessments and Conservation Measures in the Transboundary Amur River Basin. Water, 11: 1570

Anjani and  Jhiri (India)

Reference: Golekar R., Baride M., Patil S. 2013. Morphometric analysis and hydrogeological implication: Anjani and Jhiri river basin Maharashtra, India. Archives of Applied Science Research, 5: 33-41

Arno (Italy)

Reference: Garg V. 2014. Modeling catchment sediment yield: a genetic programming approach. Natural Hazards, 70: 39-50

Bahomoleo (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Bangga (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Basento (Italy)

Reference: http://www.adb.basilicata.it/adb/risorseidriche/fiume.asp?fiume=Basento

Bharathapuzha (India)

Reference: Kumar B., Philip S., Ali A., Sushama S., Raghavan R. 2013. Fishes of River Bharathapuzha, Kerala, India: diversity, distribution, threats and conservation. Journal of Threatened Taxa, 5: 4979-4993

Biobio (Chile)

Reference: https://es.wikipedia.org/wiki/Estero_Mininco_(Biob%C3%ADo)

Blanchard river (USA)

Reference: Phil M. et al. 2019. Nine-Element Nonpoint Source Implementation Strategic Plan. City of Findlay Riverside Park-Blanchard River Watershed. http://www.blanchardriver.org/wp- content/uploads/2019/05/Blanchard-R-Findlay_Ver1.0_2-20-2019.pdf

Bouquet (USA)

Reference: http://www.denniskalma.com/river/bedrock.html

Bradano (Italy)

Reference: http://www.adb.basilicata.it/adb/risorseidriche/fiume.asp?fiume=Bradano

Bunta (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718.

Candelaro (Italy)

Reference: Zoppini A., Ademollo N., Amalfitano S. , Casella P., Patrolecco L., Polesello S. 2014. Organic priority substances and microbial processes in river sediments subject to contrasting hydrological conditions. The Science of the total environment, 484: 74-83

Captina Creek (USA)

Reference: http://captinacreekwatershed.blogspot.com/p/where-is-captina-creek.html 

Chalakkudy (India)

Reference: Babu K. J., Sreekumar S., Arish A. 2016. Implication of drainage basin parameters of a tropical river basin of South India. Applied Water Science, 6: 67–75

Chaliyar (India)

Reference: Shahul Hameeda A., Resmia T.R., Suraja S., Unnikrishnan Warriera C., Sudheesha M., Deshpandeb R.D. 2015. Isotopic characterization and mass balance reveals groundwater recharge pattern in Chaliyar river basin, Kerala, India. Journal of Hydrology: Regional Studies, 149

Chari (Africa)

Reference: Wenbin Z., Shaofeng J., Upmanu L., QingCao, Rashid M. 2019. Relative contribution of climate variability and human activities on the water loss of the Chari/Logone River discharge into Lake Chad: A conceptual and statistical approach. Journal of Hydrology, 569: 519-531

Congo (Africa)

Reference: Tshimbalanga V. 2007. The Congo River Basin WWF contribution

Danube (Europe)

Reference: Schnabl S., Kryzanowski A., Brilly M., Rusjan S. 2014. Review Article: Structural flood- protection measures referring to several European case studies. Natural Hazards and Earth System Sciences, 14: 135-142

Devoll (Albania)

Reference: http://www.ittiofauna.org/webmuseum/pesciossei/cypriniformes/cyprinidae/alburnoides/albu rnoides_devolli/index.htm

Don (Russia)

Reference: http://www.mcjazz.f2s.com/Don.htm

Drin (Albania)

Reference: EuroMab. 2017. River Drin Basin –Transboundary river basin management networking with existing Transboundary Biosphere Reserve within watershed. https://euromab2017.org/wp-content/uploads/2017/06/8-River-Drin-Basin-Ohrid-Prespa- TBR.pdf

Ebro (Spain)

Reference: Donadio C., Magdaleno F., Mazzarella A., Kondolf G.M. 2014. Fractal Dimension of the Hydrographic Pattern of Three Large Rivers in the Mediterranean Morphoclimatic System: Geomorphologic Interpretation of Russian (USA), Ebro (Spain) and Volturno (Italy) Fluvial Geometry. http://dx.doi.org/10.1007/s00024-014-0910-z

Elqui (Chile)

Reference: Delorit J., Gonzalez E., Block P. 2017. Evaluation of model-based seasonal streamflow and water allocation forecasts for the Elqui Valley, Chile. Hydrology and Earth System Sciences, 21: 4711-4725

Euphrates (Asia)

Reference: http://www.fao.org/3/ca2132en/CA2132EN.pdf

Yellow River (China)

Reference: Li X., Chen Z., Hongwu Z., Lisheng Z., Zhong D. 2018. Brief discussion on the water-sediment regulation in the Ningxia-Inner Mongolia reach of the Yellow River under the changing environment. MATEC Web of Conferences, 246: 01035

Ganges (India)

Reference: Sadoffa C., Harshadeepa N.R., Blackmoreb D., Wuc X., O’Donnella A., Jeulandd M., Lee
S. and Whittingtonf D. 2013. Ten fundamental questions for water resources development in the Ganges: myths and realities. Water Policy 15: 147–164

Jordan River (Asia)

Reference: http://www.fao.org/3/CA2131EN/ca2131en.pdf

Huasco (Chile)

Reference: https://alchetron.com/Huasco-River

Idice (Italy)

Reference: Billi P., Salemi E., Preciso E. 2012. River response to land use change and sediment control works: the case of the Reno river in Italy. Hydrological Processes

Indus (Asia)

Reference: https://ecopeaceme.wordpress.com/2012/12/30/cooperating-over-water/map-of-the- indus-basin-source-us-senate-report/

Isonzo (Italy)

Reference: Comici C., Bussani A. 2007. Analysis of the river isonzo discharge. Bollettino di geofisica teorica ed applicata vol.48: 435-454. http://www3.ogs.trieste.it/bgta/pdf/bgta48.4_COMICI.pdf

Jharkhand (India)

Reference: Pryjadarshi N. 2016. State of India’s River. India Rivers Week

Kadalundi (India)

Reference: Bindu K.B., Jayapal G. 2016. The Sand Bar Formation and its Impact on the Mangrove Ecosystem: A Case Study of Kadalundi Estuary of Kadalundi River Basin in Kerala, India. Current World Environment, 11: 65-71. 
https://www.cwejournal.org/pdf/vol11no1/Vol11_No1_p_65-71.pdf

Kadvi (India)

Reference: Chougale S. S, Sapkale J. B. 2017. Morphometric Analysis of Kadvi River Basin, Maharashtra Using Geospatial Techniques. Curr World Environ, 12. http://dx.doi.org/10.12944/CWE.12.3.15

Kallada (India)

Reference: http://www.fao.org/3/v5930e/V5930E05.htm

Karamana (India)

Reference: Sreeja R. 2017. Evolution of Karamana river basin and its implications on hydrogeology: a geomatics approach using morphometric analysis. http://ws.kscste.kerala.gov.in/site/publications/blp/Sreejar.pdf

Karuvannur (India)

Reference: Magesh N.S, Jitheshlal K.V., Chandrasekar N., Jini K.V. 2013. Geographical information system-based morphometric analysis of Bharathapuzha river basin, Kerala, India. Appl Water Sci, 3: 467–477

Cauvery (India)

Reference: http://cwc.gov.in/csro/about-basins

Kentucky (USA)

Reference: Peckham S. 1995. Self-Similarity in the Three-Dimensional Geometry and Dynamics of Large River Basins

Kolyma (Russia)

Reference: https://commons.wikimedia.org/wiki/File:Kolyma_River_Basin.png

Krishna (India)

Reference: Bouwer L., Droogers P., Dolman H. 2006. Detecting the long-term impacts from climate variability and increasing water consumption on runoff in the Krishna river basin (India). Hydrology and Earth System Sciences, 10: 703-713

Kuttiyadi (India)

Reference: Sumesh. K, Vijayan. P.K. 2018. Sub-watershed prioritization based on potential zones of Kuttiadi river basin, A Geo-Morphometric approach using GIS. International journal of geomatics and geosciences, 8. 
http://www.ipublishing.co.in/jggsarticles/voleight/EIJGGS8001.pdf

Lena (Russia)

Reference: http://ultima0thule.blogspot.com/2018/10/the-lena-river-in-artic-siberia.html

Liri (Italy)

Reference: https://simple.wikipedia.org/wiki/Liri

Loire (France)

Reference: Abonyi A., Leitao M., Stankovic I., Borics G., Varbiro G. Padisak J. 2014. A large river (River Loire, France) survey to compare phytoplankton functional approaches: Do they display river zones in similar ways? Ecological Indicators, 46: 11-22

Luni (India)

Reference: https://www.rajras.in/index.php/luni-river-origin-tributaries-basin-dams-concerns/

Mackenzie (Canada)

Reference: https://phys.org/news/2012-09-major-world-stake-canada-vast.html

Mahé (India)

Reference: http://www.indiaenvironmentportal.org.in/files/file/Water%20Quality%20Hot%20Spots_state%20report.pdf

Maipo (Chile)

Reference: Vicuna S., Gil M., Melo O.A., Donos G., Merino P. 2018. Water option contracts for climate change adaptation in Santiago (Chile). Water International, 237-256

Malino (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Manimala (India)

Reference: https://walkforpamba.files.wordpress.com/2013/10/pamba-map.gif

Maule (Chile)

Reference: Craswell E., Bonnell M., Bossio D., Demuth S., Giesen N., Berger T., Birner R., DÃ•az J., McCarthy N., Wittmer H. 2007. Capturing the complexity of water uses and water users within a multi-agent framework, 129-148

Meenachil (India)

Reference: Prince G., Sabu J. 2016. Assessment on factors controlling nutrient dynamics in a small tropical river using multivariate analysis. International Journal of Scientific and Research Publications, 6: 282-293

Mekong (Asia)

Reference: Campbell I.C. 2016. Integrated management in the Mekong River Basin. Ecohydrology & Hydrobiology, 16: 255-262

Mississippi (USA)

Reference: https://www.americanrivers.org/river/mississippi-river/

Missouri (USA)

Reference: Wu M., Zhang Z. 2015. Identifying and mitigating potential nutrient and sediment hot spots under a future scenario in the Missouri river basin

Moreau (USA)

Reference: https://geomorphologyresearch.com/2011/12/28/moreau-river-drainage-basin- landform-origins-northwest-south-dakota-usa-overview-essay/

Meuse (Europe)

Reference: https://it.wikipedia.org/wiki/Mosa_(fiume)

Muvattupuzha (India)

Reference: Laluraj C.M., Gopinath G. 2006. Assessment on Seasonal Variation of Groundwater Quality of Phreatic Aquifers – a River Basin System. Environmental monitoring and assessment, 117: 45-57

Neyyar (India)

Reference: http://www.fao.org/3/v5930e/V5930E05.htm

Niger (Africa)

Reference: http://www.ce.utexas.edu/prof/maidment/gishydro/olivera/esri97/ESRI.htm

Nilo (Africa)

Reference: Kidanewold B., Seleshi Y., Amare M., Melesse A. 2016. Upstream–Downstream Linkages of Hydrological Processes in the Nile River Basin. Landscape Dynamics, Soils and Hydrological Processes in Varied Climates, 207-223

Dnister (Europe)

Reference: https://en.wikipedia.org/wiki/List_of_rivers_of_Moldova

Ob (Russia)

Reference: Kalka H. 2009. Modeling Water Quality and Water Polution in Ob-Irtysh River Basin

Oder (Europe)

Reference: Zieliński M., Dopieralska J., Belka Z., Walczak A., Siepak M., Jakubowicz M. 2018. Strontium isotope identification of water mixing and recharge sources in a river system (Oder River, central Europe): A quantitative approach. Hydrological Processes, 32

Ohio (USA)

Reference: Weber T., Schwartz M. 2011. Maximum entropy habitat modeling of four endangered mussels in the Ohio River basin, USA. Journal of Conservation Planning, 7:13-26

Olenyok (Russia)

Reference: https://it.wikipedia.org/wiki/Olen%C3%ABk#/media/File:Olenyok_IT.png

Ombrone (Italy)

Reference: http://www.sienanatura.net/ombgeologia.htm

Orr AshokNagar (India)

Reference: Singh P., Gupta A., Singh M. 2014. Hydrological inferences from watershed analysis for water resource management using remote sensing and GIS techniques. The Egyptian Journal of Remote Sensing and Space Science, 17

Ottawa (Canada)

Reference: https://equitableeducation.ca/2015/podcast-history-ottawa-river-watershed

Pamba (India)

reference: https://walkforpamba.files.wordpress.com/2013/10/pamba-map.gif

Paraguay (South America)

Reference: Ioris A. 2014. Approaches and Responses to Climate Change: Challenges for the Pantanal and the Upper Paraguay River Basin. Alternative Routes, 25: 119-145

Paraná (South America)

Reference: http://www.fao.org/3/ad525e/ad525e0h.htm

Peneus (Greece)

Reference: Migiros G., Bathrellos G., Skilodimou H., Karamousalis T. 2012. Pinios (Peneus) River (Central Greece): Hydrological — Geomorphological elements and changes during the quaternary. Central European Journal of Geosciences, 3: 215-228

Periyar (India)

Reference: Babu K. J., Sreekumar S., Arish A. 2016. Implication of drainage basin parameters of a tropical river basin of South India. Applied Water Science, 6: 67–75

Petrace (Italy)

Reference: Caridi F., Marguccio S., Belvedere A., Belmusto G. 2015. Measurements of Gamma Radioactivity in River Sediment Samples of the Mediterranean Central Basin, 2015: 61-68

Piave (Italy)

Reference: Formetta G. Antonello A., Franceschi S., David O. Rigon R. 2014. Digital watershed representation within the NewAge-JGrass system. Boletín geológico y minero, 125: 369-379

Pinamula (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Po (Italy)

Reference: Pedro-Monzonísa M., Del Longob M., Solera A., Pecorab S., Andreua J. 2016. Water accounting in the Po River Basin applied to climate change scenarios. Procedia Engineering, 162: 246-253

Powder (USA)

Reference: http://www.fossilfuelconnections.org/powder-river-coal-basin

Rapel (Chile)

Reference: Bennison G., Edmundo C., Rodrigo R., Hernan B., Correa G. 2019. Participatory process and sustainable water management: the case of the Rapel basin, Chile

Rhine (Reno, Europe)

Reference: Pinter N., Ickes B., Wlosinski J., Ploeg R. 2006. Trends in flood stages: Contrasting results from the Mississippi and Rhine River systems. Journal of Hydrology, 331: 554-566

Rio Itata (Chile)

Reference: https://en.wikipedia.org/wiki/File:Chile.cuencas.hidrograficas.region.del.biobio.svg

Rhône (Rodano, Europe)

Reference: Olivier J.M., Carrel G., Lamouroux N., Dole-Olivier M.J., Malard F., Bravard J.P, Amoros C. 2009. The RhÔne river basin. Rivers of Europe: 247-295

Russian (Russia)

Reference: Donadio C., Magdaleno F., Mazzarella A., Kondolf G.M. 2014. Fractal Dimension of the Hydrographic Pattern of Three Large Rivers in the Mediterranean Morphoclimatic System: Geomorphologic Interpretation of Russian (USA), Ebro (Spain) and Volturno (Italy) Fluvial Geometry. http://dx.doi.org/10.1007/s00024-014-0910-z

Sabarmati (India)

Reference: http://www.indiaenvironmentportal.org.in/files/file/Water%20Quality%20Hot%20Spots_state
%20report.pdf

Saitama (Japan)

Reference: https://commons.wikimedia.org/wiki/File:Saitamaken_g%C3%A9olocalisation_relief.svg

Saluda (USA)

Reference: https://www.friendsofthereedyriver.org/resources

San Joaquin (USA)

Reference: https://www.waterboards.ca.gov/centralvalley/water_issues/swamp/sanjoaquin_river_basin/

Sava (Italy)

Reference: Vrzel J., Vukovic-Gacic B., Kolarevic S., Gacic Z., Kracun-Kolarevic M., Kostic J., Aborgiba M., Farnleitner A., Reischer G., Linke R., Paunovic M., Ogrinc N. 2016. Determination of the
sources of nitrate and the microbiological sources of pollution in the Sava River Basin. Science of the Total Environment, 573: 1460-1471

Senna (France)

Reference: Rochard E., Pellegrini P., Marchal J., Béguer M., Ombredane D., Lassalle G., Menvielle E., Baglinière J.L. 2009. Identification of diadromous fish species on which to focus river restoration: an example using an eco-anthropological approach (the Seine basin, France). American Fisheries Society Symposium, 69: 691-711

Simeto (Italy)

Reference: Bonaccorso B., Cancelliere A., Nicolosi V., Rossi G., Alba I., Cristaudo G. 2007. Application of the Drought Management Guidelines in Italy: The Simeto River Basin. http://projects.iamz.ciheam.org/medroplan/guidelines/archivos/Guidelines_Chapter18.pdf

Singkoyo (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Snake (USA)

Reference: https://en.wikipedia.org/wiki/Snake_River

Saint Joseph (USA)

Reference: http://www.sjrbc.com/

Susquehanna (USA)

Reference: Zhang Q., Brady D., Ball W. 2013. Long-Term Seasonal Trends of Nitrogen, Phosphorus, and Suspended Sediment Load from the Non-Tidal Susquehanna River Basin to Chesapeake Bay. The Science of the total environment, 452-453C: 208-221

Tambun (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Thames (UK)

Reference: https://ccm.jrc.ec.europa.eu/documents/CCM2-Report_EUR-22920-EN_2007_STD.pdf

Tanaro (Italy)

Reference: Luino, Fabio. 2005. Sequence of instability processes triggered by heavy rainfall in the Northern Italy. Geomorphology. 66. 13-39

Tarali (India)

Reference: Bartakke V., Golekar R., Baride M., Patil S., Anandrao S. 2014. Lineament and Morphometric Analysis for Watershed Development of Tarali River Basin, Western India. International Journal of Economic and Environment Geology, 4: 21-26

Tevere (Italy)

Reference: Patrolecco L., Capri S., Ademollo N. 2014. Occurrence of selected pharmaceuticals in the principal sewage treatment plants in Rome (Italy) and in the receiving surface waters. Environmental Science and Pollution Research, 22

Ticino (Europe)

Reference: https://en.wikipedia.org/wiki/Canton_of_Ticino

Tigri (Asia)

Reference: http://www.fao.org/3/ca2132en/CA2132EN.pdf

Toaya (Indonesia)

Reference: Gede T., Nadjadji A., Umboro L. 2016. Fractal Characteristic Analysis of Watershed as Variable of Synthetic Unit Hydrographic Model. The Open Civil Engineering Journal, 10: 706-718

Tobol (Russia)

Reference: https://en.wikipedia.org/wiki/Tavda_River

Turkey (USA)

Reference: https://www.in.gov/idem/nps/3254.htm

Umbro (Italy)

Reference: https://www.arpa.umbria.it/articoli/qualita-acque-superficiali?visual=1

Uruguay (South America)

Reference: https://cals.arizona.edu/OALS/ALN/aln44/milich7.html

Vamanapuram (India)

Reference: Manoj G., Anilkumar Dr. R. 2016. Analysis of Morphometric Characteristics of Vamanapuram River Basin, Kerala. International Journal of Science and Research (IJSR), 5: 1240- 1243. https://www.ijsr.net/archive/v5i10/ART20161965.pdf

Varuna (India)

Reference: Rai P., Singh P., Mishra V., Singh A., Sajan B., Shahi A. 2019. Geospatial Approach for Quantitative Drainage Morphometric Analysis of Varuna River Basin, India. Journal of Landscape Ecology, 12: 1-25

Vergas (Greece)

Reference: Kalivas D.P., Kollias V.J., Karantounias G., A GIS for the assessment of the Spatio-Temporal changes of the Kotychi Lagoon, Western Peloponnese, Greece. Water Resources Management (17):19-36, Kluwer Academic Publishers, The Netherland (2003)

Vishwamitri (India)

Reference: Vyas R. 2010. The muggers (Crocodylus Palustris) of Vishwamitri river: past and present

Vistula (Poland)

Reference: Salomons W., Ledoux L., Turner R. 2015. EuroCat - Ledoux Turner – Scenario Analysis 2003

Vjosa (Albania-Greece)

Reference: Bego F., Hysaj E. 2018. The European otter (Lutra lutra) in Vjosa River and its main tributaries. Acta ZooBot Austria 155: 337–348.
https://www.zobodat.at/pdf/VZBG_155_1_0337-0348.pdf

Volga (Russia)

Reference: Balzannikova M.I. 2015. The use of low-head waterpower developments in making cargo passages through lowland rivers. Procedia Engineering, 111: 65 – 71. https://cyberleninka.org/article/n/622806

Volturno (Italy)

Reference: Donadio C., Magdaleno F., Mazzarella A., Kondolf G.M. 2014. Fractal Dimension of the Hydrographic Pattern of Three Large Rivers in the Mediterranean Morphoclimatic System: Geomorphologic Interpretation of Russian (USA), Ebro (Spain) and Volturno (Italy) Fluvial Geometry. http://dx.doi.org/10.1007/s00024-014-0910-z

Wadi Qena (Africa)

Reference: Abdel-Fattah M., Saber M., Sameh K. Khalil M., Sumi T., Sefelnasr A. 2017. A Hydrological and Geomorphometric Approach to Understanding the Generation of Wadi Flash Floods. Water, 9:553

Wabash (USA)

reference: http://past.ctic.org/resourcedisplay/365/

Wheeling (USA)

Reference: https://www.loc.gov/item/89694223/

Wyoming (USA)

Reference: Roger W. 2018. Wyoming- Dendritic Drainage. Geology Exploration Using Google Earth. http://skywalker.cochise.edu/wellerr/Google-geology/WY-dendritic/index.htm

Yangtze (China)

Reference: Saito K., Tada R., Zheng, H. et all. 2017. ESR signal intensity of quartz in the fine-silt fraction of riverbed sediments from the Yangtze River: a provenance tracer for suspended particulate matter. Prog. in Earth and Planet. Sci 4, 4. https://progearthplanetsci.springeropen.com/articles/10.1186/s40645-017-0118-9#citeas

Yellowstone (USA)

Reference: Mcmahon R., Kumar S., Hall R., Sytsma M. 2009. Ais Inventory and Monitoring Framework For The Gya. http://files.cfc.umt.edu/cesu/NPS/UWY/2008/08Harlow_GRTE_ANS%20workshop_Final%20rpt t.pdf

Yenisei (Russia)

Reference: Prokushkin A., Korets M., Panov A., Prokushkina M., Tokareva I., Vorobyev S., Pokrovsky O. 2019. Carbon and nutrients in the Yenisei River tributaries draining the Western Siberia Peatlands. IOP Conference Series: Earth and Environmental Science, 232: 012010

Zambesi (Africa)

Reference: Kirchhoff C.J. Bulkley J.W. 2008. Sustainable Water Management in the Zambezi River Basin. The Journal of the International Institute Spring. 
https://pdfs.semanticscholar.org/6023/6503578324cf767cfb97f4d8a8721153b767.pdf

--------------------------------------------
MARS

Aeolis Planum

Reference: https://www.astrobio.net/mars/the-meandering-channels-of-mars/

Arabia Quadrangle 

Reference: Ramirez R., Craddock R., Kaltenegger L. 2018. THE ROLE OF METHANE ON AN ICY EARLY MARS AND IN EXOPLANETARY ATMOSPHERES

Chryse Planitia

Reference: https://www.lpi.usra.edu/education/resources/s_system/mappingMars.shtml

Cusus Valles

Reference: Anbazhagan S., Muthusamy C. 2019. GEOMORPHIC PROCESSES AND ORIGIN OF CUSUS VALLES ON MARS

Eberswalde Delta Crater

Reference: Wood L.L. 2016. Quantitative geomorphology of the Mars Eberswalde delta. Geological Society of America Bulletin, 18: 557-566

Gale Crater

Reference: https://www.somagnews.com/nasa-announces-rivers-mars-evaporated-3-3-billion-years-ago/

Indus Vallis

Reference: Davis J.M., Gupta S, Balme, M, Grindrod M.P., Fawdon P., Dickeson Z.I.,34 Williams R.M.E. 2019. A Diverse Array of Fluvial Depositional Systems in Arabia Terra: Evidence for mid-Noachian to Early Hesperian Rivers on Mars. Journal of Geophysical Research Planets

Locras Valles

Reference: Stepinski T.F, Collier M.L., McGovern P.J., Clifford S.M. 2004. Martian geomorphology from fractal analysis of drainage networks. JOURNAL OF GEOPHYSICAL RESEARCH, 109: E02005.
https://www.lpi.usra.edu/science/stepinskiWebPage/pdfFiles/stepinskiCollierETAL2004.pdf

Ma’adim Vallis

Reference: Alemanno G., Oroﬁno V., Di Achille G. , Mancarella F. 2015. Mapping and formation timescales of Martian valley netwoks. European Planetary Science Congress (EPSC), 10: 237-238

Ma’adim Vallis 2 

Reference: Alemanno G., Oroﬁno V., Di Achille G. , Mancarella F. 2016. A new model for evaluating the duration of water flow in the Martian fluvial systems. Mem. S.A.It., 87: 40-46

Eberswalde Delta Crater 2

Reference: Rhawn Gabriel J. 2017. Evidence of Current and Past Life; Viking LR, Meteor ALH8401, Stromatolites, Methane, Fungi. Journal of Cosmology

Naktong Vallis 

Reference: SCHIAPARELLI CRATER: Stepinski T.F, Collier M.L., McGovern P.J., Clifford
S.M. 2004. Extraction of Martian valley networks from digital topography. JOURNAL OF GEOPHYSICAL RESEARCH, 109: E11005.
https://agupubs.onlinelibrary.wiley.com/doi/pdf/10.1029/2004JE002269

Nirgal Vallis 

Reference: http://www.esa.int/Science_Exploration/Space_Science/Mars_Express/River_relic_spied_by_ Mars_Express

Osuga Valles

Reference: https://news.uchicago.edu/story/rain-or-snow-likely-formed-martian-rivers

Huygens Crater (est); Hellas Crater (nord) 

Reference: https://thesmokingearth.com/29/03/2019/ancient-martian-rivers- beds-reveal-more-about-the-red-planets-past/

Paraná Valles

Reference: https://earthobservatory.nasa.gov/blogs/earthmatters/2017/05/31/rivers-on- earth-titan-and-mars/

Efesto Fossae

Reference: https://blog.geolsoc.org.uk/2013/08/01/rivers-under-the-sea/

Schiaparelli Crater

Reference: Stepinski T.F, Collier M.L., McGovern P.J., Clifford
S.M. 2004. Extraction of Martian valley networks from digital topography. JOURNAL OF GEOPHYSICAL RESEARCH, 109: E11005

Terra Cimmeria

Reference: Scanlon K.E, Head J.W, Madeleine J.B., Wordsworth R.D, Forget F. 2013. Orographic precipitation in valley network headwaters: Constraints on the ancient Martian atmosphere. Geophysical Research Letters, American Geophysical Union, 40(16): 4182-4187

Terra Cimmeria1

Reference: Scanlon K.E, Head J.W, Madeleine J.B., Wordsworth R.D, Forget F. 2013. Orographic precipitation in valley network headwaters: Constraints on the ancient Martian atmosphere. Geophysical Research Letters, American Geophysical Union, 40(16): 4182-4187

Tyras Vallis

Reference: Di Achille G., Marinangeli L., Ori G.G, Hauber E., Gwinner K., Reiss D., Neukum
G. .2006. GEOLOGICAL EVOLUTION OF THE TYRAS VALLIS PALEOLACUSTRINE SYSTEM, MARS. Lunar and Planetary Science XXXVII: 1710-1711

Warrego Valles

Reference: Alemanno G., Oroﬁno V., Di Achille G. , Mancarella F. 2015. Mapping and formation timescales of Martian valley netwoks. European Planetary Science Congress (EPSC), 10: 237-238

Warrego Valles 2

Reference: Alemanno G., Oroﬁno V., Di Achille G. , Mancarella F. 2016. A new model for evaluating the duration of water flow in the Martian fluvial systems. Mem. S.A.It., 87: 40-46

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Titan

Titan River

Reference: https://sci.esa.int/web/cassini-huygens/-/36397-river-channel-on-titan

Titan River 2

Reference: Davies C. 2012. Pack up the space canoe: 200 mile “Mini Nile” spotted
on Saturn moon Titan.
https://www.slashgear.com/pack-up-the-space-canoe-200-mile-mini-nile- spotted-on-saturn-moon-titan-13260724/