This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Adhena, K., Estifanos, S., Hagos, M., & Abrha, B. (2020). Physicochemical characterization of stream water in maichew area, southern Tigray, Ethiopia. GSJ 8(3).AdhenaK.EstifanosS.HagosM.AbrhaB.2020Physicochemical characterization of stream water in maichew area, southern Tigray, Ethiopia83Search in Google Scholar
Aisha, K. & Shameel, M. (1995). Some freshwater green algae near Balochistan coast of Pakistan. Pakistan Journal of Botany 27: 41–48.AishaK.ShameelM.1995Some freshwater green algae near Balochistan coast of Pakistan274148Search in Google Scholar
Alam, M.M., Kudrat-E-Zahan, M., Rahman, M.H. & Zahid, A.M. (2020). Water Quality Assessment of Shitalakhya River. Asian Journal of Fisheries and Aquatic Research 9–20.AlamM.M.Kudrat-E-ZahanM.RahmanM.H.ZahidA.M.2020Water Quality Assessment of Shitalakhya River92010.9734/ajfar/2020/v6i130086Search in Google Scholar
Al-Badaii, F., Shuhaimi-Othman, M. & Gasim, M.B. (2013). Water quality assessment of the Semenyih river, Selangor, Malaysia. Journal of Chemistry. DOI: 10.1155/2013/871056.Al-BadaiiF.Shuhaimi-OthmanM.GasimM.B.2013Water quality assessment of the Semenyih river, Selangor, Malaysia10.1155/2013/871056Open DOISearch in Google Scholar
Ali, Z., Ahmad, S.S., Akhtar, M., Khan, M.A., & Khan, M.N. (2007). Ecology and diversity of planktons in lakes of Uchalli wetlands complex, Pakistan. The Journal of Animal and Plant Sciences 17: 41–42.AliZ.AhmadS.S.AkhtarM.KhanM.A.KhanM.N.2007Ecology and diversity of planktons in lakes of Uchalli wetlands complex, Pakistan174142Search in Google Scholar
Barinova, S. (2017). Ecological mapping in application to aquatic ecosystems bioindication: Problems and methods. International Journal of Environmental Sciences & Natural Resources 3(2): 1–7.BarinovaS.2017Ecological mapping in application to aquatic ecosystems bioindication: Problems and methods321710.19080/IJESNR.2017.03.555608Search in Google Scholar
Barinova, S., Ali, N., Barkatullah & Sarim, F.M. (2013). Ecological adaptation to altitude of algal communities in the Swat Valley (Hindu Cush Mountains, Pakistan). Expert Opinion on Environmental Biology 2(2): 1–15.BarinovaS.AliN.BarkatullahSarimF.M.2013Ecological adaptation to altitude of algal communities in the Swat Valley (Hindu Cush Mountains, Pakistan)2211510.4172/2325-9655.1000104Search in Google Scholar
Barinova, S., Khuram, I., Asadullah, A.N., Jan, S. & Shin, D.H. (2016). How water quality in the Kabul River, Pakistan, can be determined with algal bio-indication. Advance Studies in Biology 8(4): 151–171.BarinovaS.KhuramI.AsadullahA.N.JanS.ShinD.H.2016How water quality in the Kabul River, Pakistan, can be determined with algal bio-indication8415117110.12988/asb.2016.6830Search in Google Scholar
Becker R., Doege A., Schubert H., van de Weyer K. (2016). Bioindikation mit Characeen. In Arbeitsgruppe Characeen Deutschlands Lehrstuhl für Ökologie der UniversitätArmleuchteralgen. Springer Spektrum, Berlin, Heidelberg.BeckerR.DoegeA.SchubertH.van de WeyerK.2016Bioindikation mit CharaceenInSpringer SpektrumBerlin, Heidelberg10.1007/978-3-662-47797-7_8Search in Google Scholar
Blaženčić, J., Stevanović, B. & Blaženčić, Ž. (2006). Distribution and ecology of charophytes recorded. Cryptogamie Algologie 27(4): 311–322.BlaženčićJ.StevanovićB.BlaženčićŽ.2006Distribution and ecology of charophytes recorded274311322Search in Google Scholar
Blaženčić, J., Kashta, L., Vesić, A., Biberdžić V. & Stevanović, B. (2018). Charophytes (Charales) of lake Skadar/Shkodra: ecology and distribution. In The Skadar/Shkodra Lake Environment (pp: 169–202) Springer.BlaženčićJ.KashtaL.VesićA.BiberdžićV.StevanovićB.2018Charophytes (Charales) of lake Skadar/Shkodra: ecology and distributionIn169202Springer10.1007/698_2018_265Search in Google Scholar
Blaženčić, J., Stevanović, B., Blaženčić, Ž. & Stevanović, V. (2006). Red Data List of Charophytes in the Balkans. Biodivers Conserv. 15: 3445–3457BlaženčićJ.StevanovićB.BlaženčićŽ.StevanovićV.2006Red Data List of Charophytes in the Balkans153445345710.1007/978-1-4020-5734-2_6Search in Google Scholar
Blindow, I. (1992). Decline of charophytes during eutrophication: comparison with angiosperms. Freshwater Biology 28(1): 9–14.BlindowI.1992Decline of charophytes during eutrophication: comparison with angiosperms28191410.1111/j.1365-2427.1992.tb00557.xSearch in Google Scholar
Blindow, I. (2000). Distribution of charophytes along the Swedish coast in relation to salinity and eutrophication. International Review of Hydrobiology: A Journal Covering all Aspects of Limnology and Marine Biology 85(5–6): 707–717.BlindowI.2000Distribution of charophytes along the Swedish coast in relation to salinity and eutrophication855–670771710.1002/1522-2632(200011)85:5/6<707::AID-IROH707>3.0.CO;2-WSearch in Google Scholar
Blindow, I. & Langangen, A. (1995). Lamprothamnium papulosum (Wallr.) J. Groves, a threatened charophyte in Scandinavia. Cryptogamie Algologie 16(1): 47–55.BlindowI.LangangenA.1995Lamprothamnium papulosum (Wallr.) J. Groves, a threatened charophyte in Scandinavia1614755Search in Google Scholar
Bolpagni, R., Bettoni, E., Bonomi, F., Bresciani, M., Caraffini, K. et al. (2013). Charophytes of the lake Garda (Northern Italy): a preliminary assessment of diversity and distribution. Journal of Limnology 72(2): 31.BolpagniR.BettoniE.BonomiF.BrescianiM.CaraffiniK.2013Charophytes of the lake Garda (Northern Italy): a preliminary assessment of diversity and distribution7223110.4081/jlimnol.2013.e31Search in Google Scholar
Bornette, G. & Arens, M.F. (2002). Charophyte communities in cut-off river channels: the role of connectivity. Aquatic Botany 73(2): 149–162.BornetteG.ArensM.F.2002Charophyte communities in cut-off river channels: the role of connectivity73214916210.1016/S0304-3770(02)00017-7Search in Google Scholar
Boszke, P. & Bociąg, K. (2008). Morphological variation of oospores in the population of Chara rudis A. Braun in a mesotrophic lake. Polish Journal of Ecology 56(1): 139–147.BoszkeP.BociągK.2008Morphological variation of oospores in the population of Chara rudis A. Braun in a mesotrophic lake561139147Search in Google Scholar
Caisova, L. & Gąbka, M. (2009). Charophytes (Characeae, Charophyta) in the Czech Republic: taxonomy, autecology and distribution. Fottea 9(1): 1–43.CaisovaL.GąbkaM.2009Charophytes (Characeae, Charophyta) in the Czech Republic: taxonomy, autecology and distribution9114310.5507/fot.2009.001Search in Google Scholar
Dąmbska, I. (1964). Charophyta-stoneworts. Freshwater flora of Poland. 13.DąmbskaI.196413Search in Google Scholar
Domozych, D., Popper, Z.A. & Sorensen, I. (2016). Charophytes: evolutionary giants and emerging model organisms. Frontiers in Plant Science 7: 1470.DomozychD.PopperZ.A.SorensenI.2016Charophytes: evolutionary giants and emerging model organisms7147010.3389/fpls.2016.01470505623427777578Search in Google Scholar
Edler, L., & Elbrächter, M. (2010). The Utermöhl method for quantitative phytoplankton analysis. Microscopic and molecular methods for quantitative phytoplankton analysis 110: 13–20.EdlerL.ElbrächterM.2010The Utermöhl method for quantitative phytoplankton analysis1101320Search in Google Scholar
Eriksson, B.K., Sandstrom, A., Isaus, M. Schreiber, H. & Karas, P. (2004). Effects of boating activities on aquatic vegetation in the Stockholm archipelago, Baltic Sea. Estuarine, Coastal and Shelf Science 61(2): 339–349.ErikssonB.K.SandstromA.IsausM.SchreiberH.KarasP.2004Effects of boating activities on aquatic vegetation in the Stockholm archipelago, Baltic Sea61233934910.1016/j.ecss.2004.05.009Search in Google Scholar
Faridi, M. (1955). A contribution to the Charales of west Pakistan. Biologia 1(1): 70–81.FaridiM.1955A contribution to the Charales of west Pakistan117081Search in Google Scholar
Faridi, M. (1956). A new species of Nitella from Pakistan. Biologia 2(1): 254–255.FaridiM.1956A new species of Nitella from Pakistan21254255Search in Google Scholar
Feist, M., Liu, J. & Tafforeau, P. (2005). New insights into Paleozoic charophyte morphology and phylogeny. American Journal of Botany 92(7): 1152–1160.FeistM.LiuJ.TafforeauP.2005New insights into Paleozoic charophyte morphology and phylogeny9271152116010.3732/ajb.92.7.115221646137Search in Google Scholar
Gąbka, M., Owsianny, P.M. Burchardt, L. & Sobczyński, T. (2007). Habitat requirements of the Charetum intermediae phytocoenoses in lakes of western Poland. Biologia 62(6): 657–663.GąbkaM.OwsiannyP.M.BurchardtL.SobczyńskiT.2007Habitat requirements of the Charetum intermediae phytocoenoses in lakes of western Poland62665766310.2478/s11756-007-0128-ySearch in Google Scholar
Government of Pakistan (1998). Population census organization statistics division government of Pakistan. Islamabad Census Publication 68: 1–25.Government of Pakistan1998Population census organization statistics division government of Pakistan68125Search in Google Scholar
Guiry, M.D. (2012). How many species of algae are there? Journal of Phycology 48(5): 1057–1063.GuiryM.D.2012How many species of algae are there?4851057106310.1111/j.1529-8817.2012.01222.x27011267Search in Google Scholar
Guiry, M.D. & Guiry, G.M. (2021). AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. https://www.algaebase.org; searched on 01 January 2021.GuiryM.D.GuiryG.M.2021World-wide electronic publication, National University of IrelandGalwayhttps://www.algaebase.org; searched on 01 January 2021.Search in Google Scholar
Haas, J.N. (1994). First identification key for charophyte oospores from central Europe. European Journal of Phycology 29(4): 227–235.HaasJ.N.1994First identification key for charophyte oospores from central Europe29422723510.1080/09670269400650681Search in Google Scholar
Helcom. (2013). Red List of Baltic Sea species in danger of becoming extinct. Baltic Marine Environment Protection Commission Proceedings 140: 1–106.Helcom2013Red List of Baltic Sea species in danger of becoming extinct1401106Search in Google Scholar
Horne, A.J. & Goldman, C.R. (1994). Limnology. McGraw-Hill New York.HorneA.J.GoldmanC.R.1994McGraw-HillNew YorkSearch in Google Scholar
IUCN. (2012): IUCN Red List Categories and Criteria: Version 3.1. Second edition. IUCN, Gland – Cambridge.IUCN2012Second editionIUCN, GlandCambridgeSearch in Google Scholar
Khuram, I., Barinova, S., Ahmad, N., Ullah, A., Din, S.U. et al. (2017). Ecological assessment of water quality in the Kabul River, Pakistan, using statistical methods. Oceanological and Hydrobiological Studies 46(2): 140–153.KhuramI.BarinovaS.AhmadN.UllahA.DinS.U.2017Ecological assessment of water quality in the Kabul River, Pakistan, using statistical methods46214015310.1515/ohs-2017-0015Search in Google Scholar
Khuram, I., Muhammad, Z., Ahmad, N., Ullah, R. & Barinova, S. (2019). Green and charophyte algae in bioindication of water quality of the shah alam river (District Peshawar, Pakistan). Transylvanian Review of Systematical and Ecological Research 21(1): 1–16.KhuramI.MuhammadZ.AhmadN.UllahR.BarinovaS.2019Green and charophyte algae in bioindication of water quality of the shah alam river (District Peshawar, Pakistan)21111610.2478/trser-2019-0001Search in Google Scholar
Krause, W. (1981). Characeae as an indicator species of water quality. Limnologica Jena 13(2): 399–418.KrauseW.1981Characeae as an indicator species of water quality132399418Search in Google Scholar
Langangen, A. & Leghari, S. (2001). Some charophytes (Charales) from Pakistan. Studiea Botanica Hungarica 32: 63–85.LangangenA.LeghariS.2001Some charophytes (Charales) from Pakistan326385Search in Google Scholar
Mursaleen, S.S., Ali, L., Ahmad, N., Kuram, I. & Barinova, S.S. (2018a). Algal communities of the Mardan River in ecological assessment of water quality in district Mardan, Pakistan. MOJ Ecology & Environmental Sciences 3(2): 82–92.MursaleenS.S.AliL.AhmadN.KuramI.BarinovaS.S.2018aAlgal communities of the Mardan River in ecological assessment of water quality in district Mardan, Pakistan328292Search in Google Scholar
Mursaleen, S., Shah, S.Z., Ali, L., Ahmad, N., Kuram, I. et al. (2018b). Bioindication of water quality by algal communities in the Mardan River, Pakistan. International Journal of Biology and Chemistry 11(1): 65–81.MursaleenS.ShahS.Z.AliL.AhmadN.KuramI.2018bBioindication of water quality by algal communities in the Mardan River, Pakistan111658110.26577/ijbch-2018-1-315Search in Google Scholar
Noedoost, F., Riahi, H., Sheidai, M. & Ahmadi, A. (2015). Distribution of Charophytes from Iran with three new records of Characeae (Charales, Chlorophyta). Cryptogamie Algologie 36(4): 389–405.NoedoostF.RiahiH.SheidaiM.AhmadiA.2015Distribution of Charophytes from Iran with three new records of Characeae (Charales, Chlorophyta)36438940510.7872/crya/v36.iss4.2015.389Search in Google Scholar
Pal, B.P., Kundu, B., Sandaralingagam, V. & Venkataraman, G. (1962). Charophyta. Indian Council of Agricultural Research New Delhi.PalB.P.KunduB.SandaralingagamV.VenkataramanG.1962Indian Council of Agricultural Research New DelhiSearch in Google Scholar
Palamar-Mordvintseva G.M. & Tsarenko P.M. (2004). Red list of Charales of the Ukraine. Inter. J. on Algae 6(4): 305–318. DOI: 10.1615/InterJAlgae.v6.i4.10.Palamar-MordvintsevaG.M.TsarenkoP.M.2004Red list of Charales of the Ukraine6430531810.1615/InterJAlgae.v6.i4.10Open DOISearch in Google Scholar
Pełechata, A. & Pełechaty, M. (2010). The in-situ influence of Ceratophyllum demersum on a phytoplankton assemblage. Oceanological and Hydrobiological Studies 39(1): 95–101.PełechataA.PełechatyM.2010The in-situ influence of Ceratophyllum demersum on a phytoplankton assemblage3919510110.2478/v10009-010-0004-xSearch in Google Scholar
Pełechaty, M., Pukacz, A. & Pełechata, A. (2004). Diversity of micro-and macrophyte communities in the context of the habitat conditions of a meromictic lake on Lubuskie Lakeland. Limnological Review 4: 209–214.PełechatyM.PukaczA.PełechataA.2004Diversity of micro-and macrophyte communities in the context of the habitat conditions of a meromictic lake on Lubuskie Lakeland4209214Search in Google Scholar
Prescott, G.W. (1962). Algae of the Western Great Lakes Area. Wm. C. Brown Co., Dubuque, Iowa.PrescottG.W.1962Wm. C. Brown Co.Dubuque, Iowa10.5962/bhl.title.4650Search in Google Scholar
Pukacz, A. & Pełechaty, M. (2013). Spatial structure of vegetation in a small charophyte dominated lake. Biodiversity Research and Conservation 29(1): 97–104.PukaczA.PełechatyM.2013Spatial structure of vegetation in a small charophyte dominated lake2919710410.2478/biorc-2013-0001Search in Google Scholar
Romanov, R. (2009). Charophytes (Charales: Streptophyta) of the south of the west Siberian Plain. Rastitelnyi mir Aziatskoi Rossii 1: 19–30.RomanovR.2009Charophytes (Charales: Streptophyta) of the south of the west Siberian Plain11930Search in Google Scholar
Romanov, R. & Kipriyanova, L. (2010). Charophyte species diversity and distribution on the south of the west-Siberian Plain. Charophytes 2(2): 72–86.RomanovR.KipriyanovaL.2010Charophyte species diversity and distribution on the south of the west-Siberian Plain227286Search in Google Scholar
Romanov, R. & Barinova, S. (2012). The charophytes of Israel: historical and contemporary species richness, distribution, and ecology. Biodiversity Research and Conservation 25(1): 67–74.RomanovR.BarinovaS.2012The charophytes of Israel: historical and contemporary species richness, distribution, and ecology251677410.2478/v10119-012-0015-4Search in Google Scholar
Sarim, F. (1991). Further notes on the Charales of Pakistan. Pakistan Journal of Scientific and Industrial Research 34(9): 348–351.SarimF.1991Further notes on the Charales of Pakistan349348351Search in Google Scholar
Sarim, F. & Ayaz, M. (2000). Genes Chara from Malakand Division, NWFP, Pakistan. Pak. J. Pl. Sci. 6(1): 1–7.SarimF.AyazM.2000Genes Chara from Malakand Division, NWFP, Pakistan6117Search in Google Scholar
Shepherd, V., Beilby, M. & Heslop, D. (1999). Ecophysiology of the hypotonic response in the salt-tolerant charophyte alga Lamprothamnium papulosum. Plant, Cell & Environment 22(4): 333–346.ShepherdV.BeilbyM.HeslopD.1999Ecophysiology of the hypotonic response in the salt-tolerant charophyte alga Lamprothamnium papulosum22433334610.1046/j.1365-3040.1999.00414.xSearch in Google Scholar
Sviridenko, B.F. & Sviridenko, T.V. (2003). Distribution and ecology and charophyta in the northern Kazakhstan. Acta Micropalaeontologica Sinica 21(1): 139–146.SviridenkoB.F.SviridenkoT.V.2003Distribution and ecology and charophyta in the northern Kazakhstan211139146Search in Google Scholar
Ter Braak, C.J. & Šmilauer, P. (2002). CANOCO reference manual and CanoDraw for Windows user's guide: software for canonical community ordination (version 4.5). Microcomputer Power Press, Ithaca NY, USA.Ter BraakC.J.ŠmilauerP.2002Microcomputer Power PressIthaca NY, USASearch in Google Scholar
Torn, K., Kovtun-Kante, A. Herkul, K. Martin, G. & Maemets, H. (2015). Distribution and predictive occurrence model of charophytes in Estonian waters. Aquatic Botany 120: 142–149.TornK.Kovtun-KanteA.HerkulK.MartinG.MaemetsH.2015Distribution and predictive occurrence model of charophytes in Estonian waters12014214910.1016/j.aquabot.2014.05.005Search in Google Scholar
Torn, K., Martin, G. Kukk, H. & Trei, T. (2004). Distribution of charophyte species in Estonian coastal water (NE Baltic Sea). Scientia Marina 68(1): 129–136.TornK.MartinG.KukkH.TreiT.2004Distribution of charophyte species in Estonian coastal water (NE Baltic Sea)68112913610.3989/scimar.2004.68s1129Search in Google Scholar
Urbaniak, J. & Gąbka, M. (2014). Polish Charophytes: an illustrated guide to identification. Wydawnictwo Uniwersytetu Przyrodniczego.UrbaniakJ.GąbkaM.2014Wydawnictwo Uniwersytetu PrzyrodniczegoSearch in Google Scholar
Vesić, A., Blaženčić, J. & Šinžar-Sekulić, J. (2016). Ecological preferences of charophytes in Serbia in relation to habitat type and other aquatic macrophytes. Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology 150(3): 490–500.VesićA.BlaženčićJ.Šinžar-SekulićJ.2016Ecological preferences of charophytes in Serbia in relation to habitat type and other aquatic macrophytes150349050010.1080/11263504.2014.976293Search in Google Scholar
Wade, P. (1990). The colonisation of disturbed freshwater habitats by Characeae. Folia Geobotanica et Phytotaxonomica 25(3): 275–278.WadeP.1990The colonisation of disturbed freshwater habitats by Characeae25327527810.1007/BF02913027Search in Google Scholar
Wetzel, R.G. (1983). Limnology. Saunders College Publishing, Philadelphia, PA.WetzelR.G.1983Saunders College PublishingPhiladelphia, PASearch in Google Scholar
Wood, R.D. & Imahori, K. (1959). Geographical distribution of Characeae. Bulletin of the Torrey Botanical Club 86(3): 172–183.WoodR.D.ImahoriK.1959Geographical distribution of Characeae86317218310.2307/2482517Search in Google Scholar
Wood, R.D. & Imahori, K. (1964). A revision of the Characeae: Monograph of the Characeae. Volume I. Cramer.WoodR.D.ImahoriK.1964Volume I. Cramer.10.2307/2483253Search in Google Scholar
Wood, R.D. & Imahori, K. (1965). A Revision of the Characeae: Monograph of the Characeae. Volume II. Cramer.WoodR.D.ImahoriK.1965Volume II. Cramer.10.2307/2483823Search in Google Scholar