This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Aktsoglou, D.-C., Kasampalis, D. S., Sarrou, E., Tsouvaltzis, P., Chatzopoulou, P., Martens, S., and Siomos, A. S. (2021). Improvement of the quality in hydroponically grown fresh aromatic herbs by inducing mild salinity stress is species-specific. Folia Horticulturae, 33(2), 265–274.AktsoglouD.-C.KasampalisD. S.SarrouE.TsouvaltzisP.ChatzopoulouP.MartensS.SiomosA. S.(2021).Improvement of the quality in hydroponically grown fresh aromatic herbs by inducing mild salinity stress is species-specific.Folia Horticulturae,33(2),265–274.Search in Google Scholar
Akula, R., and Ravishankar, G. A. (2011). Influence of abiotic stress signals on secondary metabolites in plants. Plant Signaling and Behavior, 6(11), 1720–1731.AkulaR.RavishankarG. A.(2011).Influence of abiotic stress signals on secondary metabolites in plants.Plant Signaling and Behavior,6(11),1720–1731.Search in Google Scholar
Aloui, F., Khoufi, S., Loukil, S., and Sayadi, S. (2009). Performances of an activated sludge process for the treatment of fish processing saline wastewater. Desalination, 246(1–3), 389–396.AlouiF.KhoufiS.LoukilS.SayadiS.(2009).Performances of an activated sludge process for the treatment of fish processing saline wastewater.Desalination,246(1–3),389–396.Search in Google Scholar
Al-Tabbal, J., Alzboon, K., Al-Zou’by, J., Al Smadi, B., and Ammary, B. (2016). Effect of Zeolux use on sage (Salvia officinalis) plant irrigated by fresh and Ro reject waters. Global Nest Journal, 18, 416–425.Al-tabbalJ.AlzboonK.Al-zou’byJ.Al smadiB.AmmaryB.(2016).Effect of Zeolux use on sage (Salvia officinalis) plant irrigated by fresh and Ro reject waters.Global Nest Journal,18,416–425.Search in Google Scholar
Aslani, H., and Razmjoo, J. (2018). Common sage (Salvia officinalis L.) responses to salinity and drought stresses in Isfahan region. Acta Horticulturae, 1190, 145–150.AslaniH.RazmjooJ.(2018).Common sage (Salvia officinalis L.) responses to salinity and drought stresses in Isfahan region.Acta Horticulturae,1190,145–150.Search in Google Scholar
Azeem, A., Javed, Q., Sun, J., Nawaz, M. I., Ullah, I., Kama, R., and Du, D. (2020). Functional traits of okra cultivars (Chinese green and Chinese red) under salt stress. Folia Horticulturae, 32(2), 159–170.AzeemA.JavedQ.SunJ.NawazM. I.UllahI.KamaR.DuD.(2020).Functional traits of okra cultivars (Chinese green and Chinese red) under salt stress.Folia Horticulturae,32(2),159–170.Search in Google Scholar
Aziz, E., Sabry, R., and Ahmed, S. S. (2013). Plant growth and essential oil production of sage (Salvia officinalis L.) and curly-leafed parsley (Petroselinum crispum ssp. crispum L.) cultivated under salt stress conditions. World Applied Sciences Journal, 28, 785–796.AzizE.SabryR.AhmedS. S.(2013).Plant growth and essential oil production of sage (Salvia officinalis L.) and curly-leafed parsley (Petroselinum crispum ssp. crispuL.) cultivated under salt stress conditions.World Applied Sciences Journal,28,785–796.Search in Google Scholar
Ben Taarit, M., Msaada, K., Hosni, K., Hammami, M., Kchouk, M. E., and Marzouk, B. (2009). Plant growth, essential oil yield and composition of sage (Salvia officinalis L.) fruits cultivated under salt stress conditions. Industrial Crops and Products, 30(3), 333–337.Ben taaritM.MsaadaK.HosniK.HammamiM.KchoukM. E.MarzoukB.(2009).Plant growth, essential oil yield and composition of sage (Salvia officinalis L.) fruits cultivated under salt stress conditions.Industrial Crops and Products,30(3),333–337.Search in Google Scholar
Bistgani, Z. E., Hashemi, M., Dacosta, M., Craker, L., Maggi, F., and Morshedloo, M. R. (2019). Effect of salinity stress on the physiological characteristics, phenolic compounds and antioxidant activity of Thymus vulgaris L. and Thymus daenensis Celak. Industrial Crops and Products, 135, 311–320.BistganiZ. E.HashemiM.DacostaM.CrakerL.MaggiF.MorshedlooM. R.(2019).Effect of salinity stress on the physiological characteristics, phenolic compounds and antioxidant activity of Thymus vulgaris L. and Thymus daenensis Celak.Industrial Crops and Products,135,311–320.Search in Google Scholar
Castillo-Carvajal, L. C., Sanz-Martín, J. L., and Barragán-Huerta, B. E. (2014). Biodegradation of organic pollutants in saline wastewater by halophilic microorganisms: A review. Environmental Science and Pollution Research, 21(16), 9578–9588.Castillo-carvajalL. C.Sanz-martínJ. L.Barragán-huertaB. E.(2014).Biodegradation of organic pollutants in saline wastewater by halophilic microorganisms: A review.Environmental Science and Pollution Research,21(16),9578–9588.Search in Google Scholar
Castro, R. S., Borges Azevedo, C. M. S., and Bezerra-Neto, F. (2006). Increasing cherry tomato yield using fish effluent as irrigation water in Northeast Brazil. Scientia Horticulturae, 110(1), 44–50.CastroR. S.Borges azevedoC. M. S.Bezerra-netoF.(2006).Increasing cherry tomato yield using fish effluent as irrigation water in Northeast Brazil.Scientia Horticulturae,110(1),44–50.Search in Google Scholar
Cordovilla, M. P., Bueno, M., Aparicio, C., and Urrestarazu, M. (2014). Effects of salinity and the interaction between Thymus vulgaris and Lavandula angustifolia on growth, ethylene production and essential oil contents. Journal of Plant Nutrition, 37(6), 875–888.CordovillaM. P.BuenoM.AparicioC.UrrestarazuM .(2014).Effects of salinity and the interaction between Thymus vulgaris and Lavandula angustifolia on growth, ethylene production and essential oil contents.Journal of Plant Nutrition,37(6),875–888.Search in Google Scholar
De Melo Ribeiro, F. H., and Naval, L. P. (2019). Reuse alternatives for effluents from the fish processing industry through multi-criteria analysis. Journal of Cleaner Production, 227, 336–345.De melo ribeiroF. H.NavalL. P.(2019).Reuse alternatives for effluents from the fish processing industry through multi-criteria analysis.Journal of Cleaner Production,227,336–345.Search in Google Scholar
Del Carmen Rodríguez-Hernández, M., Morcillo, L., and Garmendia, I. (2021). Sensitivity of quinoa cv. ‘Titicaca’ to low salinity conditions. Folia Horticulturae, 33(1), 135–145.Del Carmen Rodríguez-HernándezM.MorcilloL.GarmendiaI.(2021).Sensitivity of quinoa cv. ‘Titicaca’ to low salinity conditions.Folia Horticulturae,33(1),135–145.Search in Google Scholar
Détár, E., Németh, É. Z., Gosztola, B., Demján, I., and Pluhár, Z. (2020). Effects of variety and growth year on the essential oil properties of lavender (Lavandula angustifolia Mill.) and lavandin (Lavandula × intermedia Emeric ex Loisel.). Biochemical Systematics and Ecology, 90, 104020, doi: 10.1016/j.bse.2020.104020.DétárE.Némethé. Z.GosztolaB.DemjánI.PluhárZ.(2020).Effects of variety and growth year on the essential oil properties of lavender (Lavandula angustifolia Mill.) and lavandin (Lavandula × intermedia Emeric ex Loisel.).Biochemical Systematics and Ecology,90,104020, doi:10.1016/j.bse.2020.104020.Open DOISearch in Google Scholar
Es-Sbihi, F. Z., Hazzoumi, Z., Aasfar, A., and Amrani Joutei, K. (2021). Improving salinity tolerance in Salvia officinalis L. by foliar application of salicylic acid. Chemical and Biological Technologies in Agriculture, 8(1), 25.Es-SbihiF. Z.HazzoumiZ.AasfarA.Amrani jouteiK.(2021).Improving salinity tolerance in Salvia officinalis L. by foliar application of salicylic acid.Chemical and Biological Technologies in Agriculture,8(1),25.Search in Google Scholar
Filep, GY. (1999). Quality and qualification of irrigation waters. Agrokémia És Talajtan, 48(1-2), 49–65.FilepGY.(1999).Quality and qualification of irrigation waters.Agrokémia És Talajtan,48(1-2),49–65.Search in Google Scholar
Galbally, P., Ryan, D., Fagan, C. C., Finnan, J., Grant, J., and Mcdonnell, K. (2013). Biosolid and distillery effluent amendments to Irish short rotation coppiced willow plantations: Impacts on groundwater quality and soil. Agricultural Water Management, 116, 193–203.GalballyP.RyanD.FaganC. C.FinnanJ.GrantJ.McdonnellK .(2013).Biosolid and distillery effluent amendments to Irish short rotation coppiced willow plantations: Impacts on groundwater quality and soil.Agricultural Water Management,116,193–203.Search in Google Scholar
Göçer, H., Yetişir, H., Ulaş, A., Arslan, M., and Aydin, A. (2021). Plant growth, ion accumulation and essential oil content of Salvia officinalis Mill. and S. tomentosa L. grown under different salt stress. Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Dergisi, 24(3), 505–514GöçerH.YetişirH.UlaşA.ArslanM.AydinA.(2021).Plant growth, ion accumulation and essential oil content of Salvia officinalis Mill. and S. tomentosa L. grown under different salt stress.Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Dergisi,24(3),505–514Search in Google Scholar
Gouvea, D. R., Gobbo-Neto, L., Sakamoto, H. T., Lopes, N. P., Lopes, J. L. C., Meloni, F., and Amaral, J. G. (2012). Seasonal variation of the major secondary metabolites presents in the extract of Eremanthus mattogrossensis less (Asteraceae: Vernonieae) leaves. Quimica Nova, 35(11), 2139–2145.GouveaD. R.Gobbo-NetoL.SakamotoH. T.LopesN. P.LopesJ. L. C.MeloniF.AmaralJ. G.(2012).Seasonal variation of the major secondary metabolites presents in the extract of Eremanthus mattogrossensis less (Asteraceae: Vernonieae) leaves.Quimica Nova,35(11),2139–2145.Search in Google Scholar
Greenway, H., and Munns, R. (1980). Mechanisms of salt tolerance in nonhalophytes. Annual Review of Plant Physiology, 31, 149–190.GreenwayH.MunnsR.(1980).Mechanisms of salt tolerance in nonhalophytes.Annual Review of Plant Physiology,31,149–190.Search in Google Scholar
Haque, M., Belton, B., Alam, M., Ahmed, A., and MD. Alam, R. (2016). Reuse of fish pond sediments as fertilizer for fodder grass production in Bangladesh: Potential for sustainable intensification and improved nutrition. Agriculture Ecosystems and Environment, 216, 226–236.HaqueM.BeltonB.AlamM.AhmedA.Md. AlamR.(2016).Reuse of fish pond sediments as fertilizer for fodder grass production in Bangladesh: Potential for sustainable intensification and improved nutrition.Agriculture Ecosystems and Environment,216,226–236.Search in Google Scholar
Hassiotis, C. N., Ntana, F., Lazari, D. M., Poulios, S., and Vlachonasios, K. E. (2014). Environmental and developmental factors affect essential oil production and quality of Lavandula angustifolia during flowering period. Industrial Crops and Products, 62, 359–366.HassiotisC. N.NtanaF.LazariD. M.PouliosS.VlachonasiosK. E.(2014).Environmental and developmental factors affect essential oil production and quality of Lavandula angustifolia during flowering period.Industrial Crops and Products,62,359–366.Search in Google Scholar
Hazrati, S., Khurizadeh, S., and Sadeghi, A. R. (2022). Application of zeolite improves water and nitrogen use efficiency while increasing essential oil yield and quality of Salvia officinalis under water-deficit stress. Saudi Journal of Biological Sciences, 29(3), 1707–1716.HazratiS.KhurizadehS.SadeghiA. R.(2022).Application of zeolite improves water and nitrogen use efficiency while increasing essential oil yield and quality of Salvia officinalis under water-deficit stress.Saudi Journal of Biological Sciences,29(3),1707–1716.Search in Google Scholar
Hendawy, S. F., and Khalid, K. A. (2005). Response of sage (Salvia officinalis L.) plants to zinc application under different salinity levels. Journal of Applied Sciences Research, 1, 147–155.HendawyS. F.KhalidK. A.(2005).Response of sage (Salvia officinalis L.) plants to zinc application under different salinity levels.Journal of Applied Sciences Research,1,147–155.Search in Google Scholar
Hirzel, D. R., Steenwerth, K., Parikh, S. J., and Oberholster, A. (2017). Impact of winery wastewater irrigation on soil, grape and wine composition. Agricultural Water Management, 180(PA), 178–189.HirzelD. R.SteenwerthK.ParikhS. J.OberholsterA.(2017).Impact of winery wastewater irrigation on soil, grape and wine composition.Agricultural Water Management,180(PA),178–189.Search in Google Scholar
Ibadzade, M., Kun, Á., Székely, Á., Szalóki, T., Penksza, K., and Jancsó, M. (2020). The influence of irrigation with intensive fish farm water on the quality indicators of aerobic rice (Oryza sativa L.). Applied Ecology and Environmental Research, 18(5), 7077–7088.IbadzadeM.KunÁ.SzékelyÁ.SzalókiT.PenkszaK.JancsóM.(2020).The influence of irrigation with intensive fish farm water on the quality indicators of aerobic rice (Oryza sativa L.).Applied Ecology and Environmental Research,18(5),7077–7088.Search in Google Scholar
Ibadzade, M., Kun, Á., Székely, Á., Szalóki, T., Penksza, K., and Jancsó, M. (2021). The role of effluent water irrigation in the mineral absorption of aerobic rice varieties (Oryza sativa L.). Cereal Research Communications, 49(3), 493–501.IbadzadeM.KunÁ.SzékelyÁ.SzalókiT.PenkszaK.JancsóM.(2021).The role of effluent water irrigation in the mineral absorption of aerobic rice varieties (Oryza sativa L.).Cereal Research Communications,49(3),493–501.Search in Google Scholar
Jiménez, B. (2006). Irrigation in developing countries using wastewater. International Review for Environmental Strategies, 6(2), 229–250.JiménezB.(2006).Irrigation in developing countries using wastewater.International Review for Environmental Strategies,6(2),229–250.Search in Google Scholar
Karimov, A. (2018). Development of magnesium-dominant soils under irrigated agriculture in Southern Kazakhstan. Pedosphere, 19(3), 331–343.KarimovA.(2018).Development of magnesium-dominant soils under irrigated agriculture in Southern Kazakhstan.Pedosphere,19(3),331–343.Search in Google Scholar
Khater, E.-S. G., Bahnasawy, A. H., Shams, A. E.-H. S., Hassaan, M. S., and Hassan, Y. A. (2015). Utilization of effluent fish farms in tomato cultivation. Ecological Engineering, 83, 199–207.KhaterE.-S. G.BahnasawyA. H.ShamsA. E.-H. S.HassaanM. S.HassanY. A.(2015).Utilization of effluent fish farms in tomato cultivation.Ecological Engineering,83,199–207.Search in Google Scholar
Kolozsvári, I., Kun, Á., Jancsó, M., Bakti, B., Bozán, C., Ánd Gyuricza, C. (2021). Utilization of fish farm effluent for irrigation short rotation willow (Salix alba L.) under lysimeter conditions. Forests, 12(4), 457, doi: 10.3390/f12040457.KolozsváriI.KunÁ.JancsóM.BaktiB.BozánC.Ánd GyuriczaC.(2021).Utilization of fish farm effluent for irrigation short rotation willow (Salix alba L.) under lysimeter conditions.Forests,12(4),457, doi:10.3390/f12040457.Open DOISearch in Google Scholar
Kulak, M., Gul, F., and Sekeroglu, N. (2020). Changes in growth parameter and essential oil composition of sage (Salvia officinalis L.) leaves in response to various salt stresses. Industrial Crops and Products, 145, 112078, doi: 10.1016/j.indcrop.2019.112078.KulakM.GulF.SekerogluN.(2020).Changes in growth parameter and essential oil composition of sage (Salvia officinalis L.) leaves in response to various salt stresses.Industrial Crops and Products,145,112078, doi:10.1016/j.indcrop.2019.112078.Open DOISearch in Google Scholar
Kun, Á., Bozán, C., Oncsik Bíróné, M., and Barta, K. (2018b). Calculation nitrogen and sodium budget from lysimeter-grown short rotation willow coppice experiment. Columella : Journal of Agricultural and Environmental Sciences, 5(2), 43–51.KunÁ.BozánC.Oncsik BírónéM.BartaK.(2018b).Calculation nitrogen and sodium budget from lysimeter-grown short rotation willow coppice experiment.Columella : Journal of Agricultural and Environmental Sciences,5(2),43–51.Search in Google Scholar
Kun, Á., Bozán, C., Oncsik, M. B., and Barta, K. (2018a). Evaluating of wastewater irrigation in lysimeter experiment through energy willow yields and soil sodicity. Carpathian Journal of Earth and Environmental Sciences, 13(1), 77–84.KunÁ.BozánC.OncsikM. B.BartaK.(2018a).Evaluating of wastewater irrigation in lysimeter experiment through energy willow yields and soil sodicity.Carpathian Journal of Earth and Environmental Sciences,13(1),77–84.Search in Google Scholar
Lorente, B., Pulido-Suárez, L., Ortuño, M. F., and Sánchez-Blanco, M. J. (2022). Tolerance and recovery capacity to reclaimed wastewater irrigation of Salvia officinalis and Asteriscus maritimus Plants inoculated with arbuscular mycorrhizae. Horticulturae, 8(2), 159, doi: 10.3390/ horticulturae8020159.LorenteB.Pulido-SuárezL.OrtuñoM. F.Sánchez-BlancoM. J.(2022).Tolerance and recovery capacity to reclaimed wastewater irrigation of Salvia officinalis and Asteriscus maritimus Plants inoculated with arbuscular mycorrhizae.Horticulturae,8(2),159, doi:10.3390/horticulturae8020159.Open DOISearch in Google Scholar
Mameli, M. G., Zucca, L., Maxia, M., Manca, G., and Satta, M. (2011). Effects of different irrigation management on biomass and essential oil production of Thymus vulgaris L., Salvia officinalis L. and Rosmarinus officinalis L., cultivated in the southern Sardinian climate (Italy). Acta Horticulturae, 889, 469–474.MameliM. G.ZuccaL.MaxiaM.MancaG.SattaM.(2011).Effects of different irrigation management on biomass and essential oil production of Thymus vulgaris L., Salvia officinalis L. and Rosmarinus officinalis L., cultivated in the southern Sardinian climate (Italy).Acta Horticulturae,889,469–474.Search in Google Scholar
Mcmurtry, M. R., Sanders, D. C., Cure, J. D., Hodson, R. G., Haning, B. C., and Amand, E. C. ST. (1997). Efficiency of water use of an integrated fish/vegetable co-culture system. Journal of the World Aquaculture Society, 28(4), 420–428.McmurtryM. R.SandersD. C.CureJ. D.HodsonR. G.HaningB. C.AmandE. C. ST.(1997).Efficiency of water use of an integrated fish/vegetable co-culture system.Journal of the World Aquaculture Society,28(4),420–428.Search in Google Scholar
Michéli, E., Fuchs, M., Láng, V., Szegi, T., Dobos, E., And Szabóné Kele, G. (2015). Javaslat talajosztályozási rendszerünk megújítására: Alapelvek, módszerek, alapegységek. Agrokémia És Talajtan, 64(1), 285–297.MichéliE.FuchsM.LángV.SzegiT.DobosE.Szabóné KeleG.(2015).Javaslat talajosztályozási rendszerünk megújítására: Alapelvek, módszerek, alapegységek.Agrokémia És Talajtan,64(1),285–297.Search in Google Scholar
Morris, J. C., Georgiou, I., Guenther, E., and Caucci, S. (2021). Barriers in implementation of wastewater reuse: Identifying the way forward in closing the loop. Circular Economy and Sustainability, 1(1), 413–433.MorrisJ. C.GeorgiouI.GuentherE.CaucciS.(2021).Barriers in implementation of wastewater reuse: Identifying the way forward in closing the loop.Circular Economy and Sustainability,1(1),413–433.Search in Google Scholar
Nahed, M., Rashed, N., and Moursi, E. (2012). Influence of cultivation method and irrigation regime on growth, oil yield and some water relations of sage (Salvia officinalis L.) in heavy clay soils. Alexandria Science Exchange Journal, 33(2), 165–175.NahedM.RashedN.MoursiE.(2012).Influence of cultivation method and irrigation regime on growth, oil yield and some water relations of sage (Salvia officinalis L.) in heavy clay soils.Alexandria Science Exchange Journal,33(2),165–175.Search in Google Scholar
Nell, M., Vötsch, M., Vierheilig, H., Steinkellner, S., Zitterl-Eglseer, K., Franz, C., and Novak, J. (2009). Effect of phosphorus uptake on growth and secondary metabolites of garden sage (Salvia officinalis L.). Journal of the Science of Food and Agriculture, 89(6), 1090–1096.NellM.VötschM.VierheiligH.SteinkellnerS.Zitterl-EglseerK.FranzC.NovakJ.(2009).Effect of phosphorus uptake on growth and secondary metabolites of garden sage (Salvia officinalis L.).Journal of the Science of Food and Agriculture,89(6),1090–1096.Search in Google Scholar
Nowak, M., Kleinwächter, M., Manderscheid, R., Weigel, H. J., and Selmar, D. (2010). Drought stress increases the accumulation of monoterpenes in sage (Salvia officinalis), an effect that is compensated by elevated carbon dioxide concentration. Journal of Applied Botany and Food Quality, 83(2), 133–136.NowakM.KleinwächterM.ManderscheidR.WeigelH. J.SelmarD.(2010).Drought stress increases the accumulation of monoterpenes in sage (Salvia officinalis), an effect that is compensated by elevated carbon dioxide concentration.Journal of Applied Botany and Food Quality,83(2),133–136.Search in Google Scholar
Ofori, S., Puškáčová, A., Růžičková, I., and Wanner, J. (2021). Treated wastewater reuse for irrigation: Pros and cons. Science of The Total Environment, 760, 144026, doi: 10.1016/j.scitotenv.2020.144026.OforiS.PuškáčováA.RůžičkováI.WannerJ.(2021).Treated wastewater reuse for irrigation: Pros and cons.Science of The Total Environment,760,144026, doi:10.1016/j.scitotenv.2020.144026.Open DOISearch in Google Scholar
Omer, E., Said-Al Ahl, H., El Gendy, A. E. N., and Wahby, M. S. (2013). Effect of amino acids application on production, volatile oil and chemical composition of chamomile cultivated in saline soil at Sinai. Journal of Applied Sciences Research, 9, 3006–3021.OmerE.Said-Al AhlH.El gendyA. E. N.WahbyM. S.(2013).Effect of amino acids application on production, volatile oil and chemical composition of chamomile cultivated in saline soil at Sinai.Journal of Applied Sciences Research,9,3006–3021.Search in Google Scholar
Ozturk, A., Unlukara, A., Ipek, F., and Gurbuz, L. (2004). Effects of salt stress and water deficit on plant growth and essential oil content of lemon balm (Melissa officinalis) L. Pakistan Journal of Botany, 36(4), 787–792.OzturkA.UnlukaraA.IpekF.GurbuzL.(2004).Effects of salt stress and water deficit on plant growth and essential oil content of lemon balm (Melissa officinalis) L.Pakistan Journal of Botany,36(4),787–792.Search in Google Scholar
Patterson, S. L., Chanasyk, D. S., Naeth, M. A., and Mapfumo, E. (2008). Effect of municipal and pulp mill effluents on the chemical properties and nutrient status of a coarse-textured Brunisol in a growth chamber. Canadian Journal of Soil Science, 88(3), 429–441.PattersonS. L.ChanasykD. S.NaethM. A.MapfumoE.(2008).Effect of municipal and pulp mill effluents on the chemical properties and nutrient status of a coarse-textured Brunisol in a growth chamber.Canadian Journal of Soil Science,88(3),429–441.Search in Google Scholar
Pounsamy, M., Somasundaram, S., Palanivel, S., Balasubramani, R., Chang, S. W., Nguyen, D. D., and Ganesan, S. (2019). A novel protease-immobilized carbon catalyst for the effective fragmentation of proteins in high-TDS wastewater generated in tanneries: Spectral and electrochemical studies. Environmental Research, 172, 408–419.PounsamyM.SomasundaramS.PalanivelS.BalasubramaniR.ChangS. W.NguyenD. D.GanesanS.(2019).A novel protease-immobilized carbon catalyst for the effective fragmentation of proteins in high-TDS wastewater generated in tanneries: Spectral and electrochemical studies.Environmental Research,172,408–419.Search in Google Scholar
Qadir, M., Wichelns, D., Raschid-Sally, L., Mccornick, P. G., Drechsel, P., Bahri, A., and Minhas, P. S. (2010). The challenges of wastewater irrigation in developing countries. Agricultural Water Management, 97(4), 561–568.QadirM.WichelnsD.Raschid-SallyL.MccornickP. G.DrechselP.BahriA.MinhasP. S.(2010).The challenges of wastewater irrigation in developing countries.Agricultural Water Management,97(4),561–568.Search in Google Scholar
Quaye, A. K., Volk, T. A., Hafner, S., Leopold, D. J., and Schirmer, C . (2011). Impacts of paper sludge and manure on soil and biomass production of willow. Biomass and Bioenergy, 35(7), 2796–2806.QuayeA. K.VolkT. A.HafnerS.LeopoldD. J.SchirmerC .(2011).Impacts of paper sludge and manure on soil and biomass production of willow.Biomass and Bioenergy,35(7),2796–2806.Search in Google Scholar
Richards, L. A . (1954). Diagnosis and improvement of saline and alkali soils. Soil Science, 78(2), 154.RichardsL. A .(1954).Diagnosis and improvement of saline and alkali soils.Soil Science,78(2),154.Search in Google Scholar
Rioba, N. B., Itulya, F. M., Saidi, M., Dudai, N., and Bernstein, N. (2015). Effects of nitrogen, phosphorus and irrigation frequency on essential oil content and composition of sage (Salvia officinalis L.). Journal of Applied Research on Medicinal and Aromatic Plants, 2(1), 21–29.RiobaN. B.ItulyaF. M.SaidiM.DudaiN.BernsteinN.(2015).Effects of nitrogen, phosphorus and irrigation frequency on essential oil content and composition of sage (Salvia officinalis L.).Journal of Applied Research on Medicinal and Aromatic Plants,2(1),21–29.Search in Google Scholar
Roccaro, P., and Verlicchi, P. (2018). Wastewater and reuse. Current Opinion in Environmental Science and Health, 2, 61–63.RoccaroP.VerlicchiP.(2018).Wastewater and reuse.Current Opinion in Environmental Science and Health,2,61–63.Search in Google Scholar
Sabra, A., Daayf, F., and Renault, S. (2012). Differential physiological and biochemical responses of three Echinacea species to salinity stress. Scientia Horticulturae, 135, 23–31.SabraA.DaayfF.RenaultS.(2012).Differential physiological and biochemical responses of three Echinacea species to salinity stress.Scientia Horticulturae,135,23–31.Search in Google Scholar
Said-Al Ahl, H. A. H., and Omer, E. A. (2011). Medicinal and aromatic plants production under salt stress. A review. Herba Polonica, 57(2), 72–87.Said-al ahlH. A. H.OmerE. A.(2011).Medicinal and aromatic plants production under salt stress. A review.Herba Polonica,57(2),72–87.Search in Google Scholar
Ŝanli, A., and Karadoğan, T. (2017). Geographical impact on essential oil composition of endemic Kundmannia Anatolica Hub.-Mor. (Apiaceae). African Journal of Traditional, Complementary, and Alternative Medicines, 14(1), 131–137.ŜanliA.KaradoğanT.(2017).Geographical impact on essential oil composition of endemic Kundmannia Anatolica Hub.-Mor. (Apiaceae).African Journal of Traditional, Complementary, and Alternative Medicines,14(1),131–137.Search in Google Scholar
Sárosi, S., Sipos, L., Kókai, Z., Pluhár, Z., Szilvássy, B., and Novák, I. (2013). Effect of different drying techniques on the aroma profile of Thymus vulgaris analyzed by GC-MS and sensory profile methods. Industrial Crops and Products, 46, 210–216.SárosiS.SiposL.KókaiZ.PluhárZ.SzilvássyB.NovákI.(2013).Effect of different drying techniques on the aroma profile of Thymus vulgaris analyzed by GC-MS and sensory profile methods.Industrial Crops and Products,46,210–216.Search in Google Scholar
Schad, P. (2016). The international soil classification system WRB, Third Edition, 2014. In L. Mueller, A. K. Sheudshen and F. Eulenstein (Eds), Novel methods for monitoring and managing land and water resources in Siberia (pp. 563–571). Cham: Springer.SchadP.(2016).The international soil classification system WRB,Third Edition,2014.In
MuellerL.SheudshenA. K.EulensteinF.(Eds),Novel methods for monitoring and managing land and water resources in Siberia (pp.563–571).Cham:Springer.Search in Google Scholar
Selmar, D., and Kleinwächter, M. (2013). Stress enhances the synthesis of secondary plant products: The Impact of stress-related over-reduction on the accumulation of natural products. Plant and Cell Physiology, 54(6), 817–826.SelmarD.KleinwächterM.(2013).Stress enhances the synthesis of secondary plant products: The Impact of stress-related over-reduction on the accumulation of natural products.Plant and Cell Physiology,54(6),817–826.Search in Google Scholar
Simmons, R., Quadir, M., and Drechsel, P. (2009). Farm-based measures for reducing human and environmental health risks from chemical constituents in wastewater. In: P. Drechsel, C. A. Scott, L. Raschid-Sally, M. Redwood and A. Bahri (Ed.). Wastewater irrigation and health: Assessing and mitigating risk in low-income countries (pp. 209–238). International Water Management Institute and International Development Research Centre, Taylor & Francis Routledge.SimmonsR.QuadirM.DrechselP.(2009).Farm-based measures for reducing human and environmental health risks from chemical constituents in wastewater. In:DrechselP.ScottC. A.Raschid-SallyL.RedwoodM.BahriA. (Ed.).Wastewater irrigation and health: Assessing and mitigating risk in low-income countries (pp.209–238).International Water Management Institute and International Development Research Centre,Taylor & Francis Routledge.Search in Google Scholar
Soltani, V. (2017). Effect of diluted saline water on some vegetative and physiological triats of pomegranate rooted cutting cv. Malas-e Yazdi. Journal of Plant Production Research, 24(3), 1–11.SoltaniV.(2017).Effect of diluted saline water on some vegetative and physiological triats of pomegranate rooted cutting cv. Malas-e Yazdi.Journal of Plant Production Research,24(3),1–11.Search in Google Scholar
Soltanbeigi, A., Yildiz, M., Diraman, H., Terzi, H., Sakartepe, E., and Yildiz, E. (2021). Growth responses and essential oil profile of Salvia officinalis L. influenced by water deficit and various nutrient sources in the greenhouse. Saudi Journal of Biological Sciences, 28(12), 7327–7335.SoltanbeigiA.YildizM.DiramanH.TerziH.SakartepeE.YildizE.(2021).Growth responses and essential oil profile of Salvia officinalis L. influenced by water deficit and various nutrient sources in the greenhouse.Saudi Journal of Biological Sciences,28(12),7327–7335.Search in Google Scholar
Sonmez, C., and Bayram, E . (2017). The influence of different water and nitrogen applications on some yield parameters and antioxidant activity in sage (Salvia officinalis L.). Turkish Journal of Field Crops, 22, 96–103.SonmezC.BayramE .(2017).The influence of different water and nitrogen applications on some yield parameters and antioxidant activity in sage (Salvia officinalis L.).Turkish Journal of Field Crops,22,96–103.Search in Google Scholar
Srivastava, A., Parida, V. K., Majumder, A., Gupta, B., and Gupta, A. K. (2021). Treatment of saline wastewater using physicochemical, biological, and hybrid processes: Insights into inhibition mechanisms, treatment efficiencies and performance enhancement. Journal of Environmental Chemical Engineering, 9(4), 105775, doi: 10.1016/j. jece.2021.105775.SrivastavaA.ParidaV. K.MajumderA.GuptaB.GuptaA. K.(2021).Treatment of saline wastewater using physicochemical, biological, and hybrid processes: Insights into inhibition mechanisms, treatment efficiencies and performance enhancement.Journal of Environmental Chemical Engineering,9(4),105775, doi:10.1016/j.jece.2021.105775.Open DOISearch in Google Scholar
Traykova, B., Stanilova, M., Nikolova, M., and Berkov, S. (2019). Growth and essential oils of Salvia officinalis plants derived from conventional or aeroponic produced seedlings. Agriculturae Conspectus Scientificus, 84(1), 77–81.TraykovaB.StanilovaM.NikolovaM.BerkovS.(2019).Growth and essential oils of Salvia officinalis plants derived from conventional or aeroponic produced seedlings.Agriculturae Conspectus Scientificus,84(1),77–81.Search in Google Scholar
Van Den Dool, H., and Kratz, P. D. (1963). A generalization of the retention index system including linear temperature programmed gas – Liquid partition chromatography. Journal of Chromatography A, 11, 463–471.Van Den DoolH.KratzP. D.(1963).A generalization of the retention index system including linear temperature programmed gas – Liquid partition chromatography.Journal of Chromatography A,11,463–471.Search in Google Scholar
Verma, N., and Shukla, S. (2015). Impact of various factors responsible for fluctuation in plant secondary metabolites. Journal of Applied Research on Medicinal and Aromatic Plants, 2(4), 105–113.VermaN.ShuklaS.(2015).Impact of various factors responsible for fluctuation in plant secondary metabolites.Journal of Applied Research on Medicinal and Aromatic Plants,2(4),105–113.Search in Google Scholar
Vyas, A., and Jethoo, A. S. (2015). Diversification in measurement methods for determination of irrigation water quality parameters. Aquatic Procedia, 4, 1220–1226.VyasA.JethooA. S.(2015).Diversification in measurement methods for determination of irrigation water quality parameters.Aquatic Procedia,4,1220–1226.Search in Google Scholar
Yaldiz, G., and Camlica, M. (2021). Selenium and salt interactions in sage (Salvia officinalis L.): Growth and yield, chemical content, ion uptake. Industrial Crops and Products, 171(1), 113855, doi: 10.1016/j. indcrop.2021.113855.YaldizG.CamlicaM.(2021).Selenium and salt interactions in sage (Salvia officinalis L.): Growth and yield, chemical content, ion uptake.Industrial Crops and Products,171(1),113855, doi:10.1016/j.indcrop.2021.113855.Open DOISearch in Google Scholar
Yeager, T. H., Von Merveldt, J. K., and Larsen, C. A. (2010). Ornamental plant response to percentage of reclaimed water irrigation. HortScience, 45(11), 1610–1615.YeagerT. H.Von MerveldtJ. K.LarsenC. A.(2010).Ornamental plant response to percentage of reclaimed water irrigation.HortScience,45(11),1610–1615.Search in Google Scholar
Zheljazkov, V. D., Astatkie, T., and Hristov, A. N. (2012). Lavender and hyssop productivity, oil content, and bioactivity as a function of harvest time and drying. Industrial Crops and Products, 36(1), 222–228.ZheljazkovV. D.AstatkieT.HristovA. N.(2012).Lavender and hyssop productivity, oil content, and bioactivity as a function of harvest time and drying.Industrial Crops and Products,36(1),222–228.Search in Google Scholar