Research Article
BibTex RIS Cite

Kırşehir’de yayılış gösteren bazı Salvia türlerinin Mineral ve İz elementleri Tayini

Year 2021, Volume: 8 Issue: 2, 315 - 328, 23.04.2021
https://doi.org/10.30910/turkjans.820375

Abstract

Bu çalışma Kırşehir ilinin 17 farklı lokasyonunda yetişen Salvia spp. (Salvia aethiopis L., Salvia virgata Jacq., Salvia syriaca L., Salvia absconditiflora Montbret & Aucher ex Bentham, Salvia ceratophylla L., Salvia bracteata Banks et Sol., Salvia cyanenses Boiss et Bal.) türlerinin bazı makro ve mikro besin elementi içeriklerinin belirlenmesi amacıyla yapılmıştır. Elde edilen bulgulara göre, toprak örneklerinin fosfor (P), potasyum (K), kalsiyum (Ca), magnezyum (Mg), demir (Fe), bakır (Cu), mangan (Mn) ve çinko (Zn) içerikleri sırasıyla 3.6-43.2 mg kg-1, 120-398 mg kg-1, 5344-8778 mg kg-1, 134-763 mg kg-1, 0.01-2.43 mg kg-1, 0.03-1.27 mg kg-1, 1.29-8.60 mg kg-1 ve 0.17-1.22 mg kg-1 arasında bulunmuştur. Bitki örneklerinin K, Ca, Mg, Na, Fe, Cu, Mn ve Zn içerikleri sırasıyla % 0.002-0.17, % 1.67-5.54, % 0.26-0.90, % 0.01-0.03, 243-3479 mg kg-1, 4.78-7.77 mg kg-1, 4.75-97.00 mg kg-1, 21.50-45.05 mg kg-1 arasında olduğu belirlenmiştir. En yüksek konsantrasyonlu yarayışlı makro besin elementi Ca ve Mg, en yüksek konsantrasyonlu yarayışlı mikro besin elementi Fe bulunmuş ve bunu azalan sırayla Mn, Zn ve Cu elementleri takip etmiştir. Bitkideki elementler değerlendirildiğinde S.virgata’ da Ca, K, Zn en fazla; S. absconditiflora’ da Ca, Fe en az; S. cyanescens’ te Mg, Mn en fazla, K, Zn en az; S. syriaca’ da Mg en az; S. ceratophylla’ da Cu en fazla, Mn en az; S. aethiopis Cu en az; S. bracteata’ da Fe fazla bulunmuştur. Toprak ve bitki analizleri sonucunda, Salvia bitkilerinin toprakta Fe, Mn ve Zn besin elementlerinin eksik olmasına rağmen gerekli bitki besin elementlerini yeterince aldığı belirlenmiştir.

References

  • Alizadeh, A. 2013. Essential oil constituents, antioxidant and antimicrobial activities of Salvia virgata Jacq. from Iran. Journal of Essential Oil Bearing Plants, 16 (2):172-182.
  • Anonymous, 2017. Taxon Page. Salvia bracteata Banks et Sol. http://tubives.com/index.php
  • Basgel, S And Erdemoglu, S.B. 2006. Determination of mineral and trace elements in some medicinal herbs and their infusions consumed in Turkey. Science of the Total Environment 359, 82-89.
  • Benavides, M.P., Gallego, S.M and Tomaro, M.L. 2005. Toxic Metals in Plants Cadmium Toxicity in Plants. J. Plant Physiol, 17 (1): 21-34.
  • Black, C.A. 1965. Methods of Analysis Agreon., No: 9, Ame. Soc. Agr. , Madison Wisconsin. USA.
  • Bouyocous G.L. 1951. A Recalibration of Hydrometer Method for Making Mechanical Analysis of soils. Agron. J. 43: 434-438.
  • Cardilea, V., Russob, A., Formısanoc, C., Riganoc, D and Senatorec, F. 2009. Essential oils of Salvia bracteata and Salvia rubifolia from Lebanon: Chemical composition, antimicrobial activity and inhibitory effect on human melanoma cells. Journal of Ethnopharmacology 126: 265-272.
  • Chan, K. 2003. Some Aspects of Toxic Contaminants in Herbal Medicines. Chemosphere 52(9): 1361-1371.
  • Demiralay, I. 1993. Soil Physical Analysis. Atatürk University Faculty of Agriculture Publications No: 143: pp 131.
  • Doğan, M., Pehlivan, S., Akaydın, G., Bağcı, E., Uysal, I and Doğan H.M. 2008. Demonstrating Distribution in Turkey Salvia L. (Labiatae) Taxonomic revision of the genus. Tübitak Project No: 104 T 450. 318.
  • Er, M. 2012. Biochemical and bioactive properties of some Salvia L. (sage) species grown in Konya. Master of Science in Biology. Selcuk University Institute of Science and Technology. pp: 39.
  • Eyüpoğlu, F., Kurucu, N and Talaz, S. 1996. Turkey Plant available soil Some of Micro Nutrient Status of the General Terms. Soil Fertilizer Research Institute General Publication Number: 217, Series No: R-133.
  • FAO/WHO. 1984. List of Maximum Levels Recommended for Contaminants by the Joint FAO/WHO Codex Alimentarius Commission. 2nd Edition, FAO/WHO, Rome, 1-8.
  • Fernandez, P.L., Pablos, F., Martin, M.J and Gonzales, A.G. 2002. Multi-element analysis of tea beverages by inductively coupled plasma atomic emission spectrometry. Food Chem 76:483-489.
  • Follet, R.H. 1969. Zn, Fe, Mn and Cu in Colorado Soils. Ph. D. Dissertation. Colorado State University.
  • Gil, F., Hernande, A.F., Marquez, C., Femia, P., Olmedo, P., Lopez-Guarnıdo, O and Pla, A. 2011. Biomonitorization of Cadmium, Chromium, Manganese, Nickel and Lead in Whole Blood, Urine, Axillary Hair And Saliva in An Exposed Population. Sci. Total Environ, 409 (6): 1172-1180.
  • Gülcür, F. 1974. Physical and Chemical Analysis Methods of Soil, Istanbul University Faculty of Forestry Publications, No: 1970, publish No: 201.
  • Güneş, A., Aktaş., M, İnal, A and Alpaslan, M. 1996. Physical and Chemical Properties of Konya Closed Basin Soils. A.Ü.Z.F. Publication No: 1453; Scientific research and investigation No: 801.
  • Gursoy, N., Tepe, B and Akpulat, H.A. 2012. Chemical composition and antioxidant activity of the essential oils of Salvia palaestina (Bentham) and S. ceratophylla (L.). Records of Natural Products, 6(3):278-287.
  • Haider, S., Naithani, V., Barthwal, J and Kakkar, P. 2004. Heavy Metal Content in Some Therapeutically İmportant Medicinal Plants. Bull. Environ. Contam. Toxicol, 72 (1): 119-127.
  • Helmke, P.A and Sparks D.L. 1996. Lithium, Sodium, Potassium, Rubidium, and Calcium, in Sparks, D.L., (Ed) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison,WI, pp. 551-574.
  • Jackson M.L. 1962. Soil Chemical Analysis. Prentice-Hall Inc., 183.
  • Jing, J., Zhang, F., Rengel, Z and Shen J. 2012. Localized fertilization with P plus N elicits an ammonium-dependent enhancement of maize root growth and nutrient uptake. Field Crops Research, 133, pp: 176-185.
  • Jones, J.B and Case, V.W. 1990. Sampling, Handling, and analyzing plant tissue samples, chapter 15. In R.L. Westerman (ed) Soil Testing and Plant Analysis, Third Edition, SSSA, Madison, Wisconsin, USA, pp: 390-420.
  • Jones, J.B., Wolf, J.R.B and Mills, H.A. 1991. Plant Analysis Handbook. I. Methods of plant analysis and interpretation. Micro‐Macro Publishing Inc. 183 Paradise Blvd. Suite 108. USA Athens Georgia 30607.
  • Kalny, P., Fijalek, Z., Daszczuk, A and Ostapczu, P. 2007. Determination of Selected Microelements in Polish Herbs Their İnfusions. Sci. Total Environ, 381: 99-104.
  • Karabacak, E. 2009. Turkey's Euro-Siberian phytogeographic region in Salvia L. (Lamiaceae) revision of the genus. (Doctoral Thesis). Çanakkale Onsekiz Mart University. Institute of Science.
  • Karaman, M.R., Brohi, A.R., Muftuoğlu, N.M., Oztas, T and Zengin, M. 2007. Sustainable Soil Fertility. ISBN:978-975-8629-49-7.
  • Karamian, R., Asadbegy, M and Pakazad, R. 2014. Essential oil compositions, antioxidant and antibacterial activities of two salvia species (S. grossheimii Bioss. and S. syriaca L.) Growing in Iran. Journal of Essential Oil Bearing Plants, 17(2):331-345.
  • Kırmani, M.Z., Mohıuddin, S., Naz, F., Naqvi I.I and Zahir, E. 2011. Determination of Some Toxic and Essential Trace Metals in Some Medicinal and Edible Plants of Karachi City. ISSN: 1814-8085, Journal of Basic and Applied Sciences Vol. 7, No. 2, 89-95.
  • Kobayashı, T and Nishizawa N.K. 2012. Iron Uptake, Translocation, and Regulation in Higher Plants. DOI: 10.1146/annurev-arplant-042811-105522, Annual Review of Plant Biology 63(1):131-52.
  • Koca, Y.K., Derin A and Adiloğlu, S. 2019. Mapping Some Micro Element Levels of Uzunköprü District Soils of Edirne Province by Geostatistical Modeling. Journal of Tekirdağ Faculty of Agriculture. DOI: 10.33462/jotaf.552370.
  • Kocabaş, I., Sonmez, I., Kalkan, H and Kaplan, M. 2007. Effects of Different Organic Fertilizers on Essential Oil Content of Sage (Salvia Fruticosa Mill.) And Plant Nutrients. Akdeniz University Faculty of Agriculture Journal, 20(1),105-110.
  • Kohzadi, S., Shahmoradi, B., Ghaderi, E., Loqmani, H and Maleki, A. 2018. Concentration, Source, and Potential Human Health Risk of Heavy Metals in the Commonly Consumed Medicinal Plants. Biological Trace Element Research, doi: 10.1007/s12011-018-1357-3.
  • Lindsay, W.L and Norvel, W.A. 1978. Development of DTPA soil test for Zn, Fe, Mn and Cu. Soil Sci. Amer. J. 42(3), pp. 421-28.
  • López-Bucıo, J., Hernández-Madrıgal, F., Cervantes, C., Ortiz-Castro, R., Carreón-Abud, Y and Martınez-Trujıllo, M. 2014. Phosphate relieves chromium toxicity in Arabidopsis thaliana plants by interfering with chromate uptake. BioMetals, 1-8.
  • Lozak, A., Soytyk, K., Ostapczuk, P and Fijayek, Z. 2002. Determination of selected trace elements in herbs and their infusions. Sci Total Environ 289:33-40.
  • Maas, E.V. 1986. Salt Tolerance of Plants. Applied Agricultural Research, 1:12-26.
  • Maiga, A., Diallo, D., Fane, S., Sanogo, R., Paulsen, B.S And Cisse, B. 2005. A survey of toxic plants on the market in the district of Bamako, Mali: traditional knowledge compared with a literature search of modern pharmacology and toxicology. Journal of Ethnopharmacology, https://doi.org/10.1016/j.jep.2004.09.005. Volume 96, Issues 1-2, 4 pp 183-193.
  • Meena, A.K., Bansal, P., Kumar, S., Rao, M.M and Garg V.K. 2010. Estimation of heavy metals in commonly used medicinal plants: a market basket survey. Environ Monit Assess 170:657-660.
  • Nelson, D.W. and Sommers, L.E. 1996. Total Carbon, Organic Carbon, and Organic Matter. in D.L. Sparks (Ed) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison,WI, pp 961-1011.
  • Okut, N. 2019. Heavy Metal Contents of Some Medicinal Plants Selected from Van Province. Iğdır University Journal of the Institute of Science, DOI: 10.21597/jist.491129, 9(1): 533-544.
  • Olsen, S.R., Cole, V., Watanabe, F.S. and Dean L.A. 1954. Estimation of Available Phosphorus in Soils by Extraction With Sodium Bicarbonate.
  • Orhan, I.E., Senol, F.S., Ercetin, T., Kahraman, A., Celep, F., Akaydın, G., Sener, B. and Dogan M. 2013. Assessment of anticholinesterase and antioxidant properties of selected sage (Salvia) species with their total phenol and flavonoid contents. Industrial Crops and Products. 41: 21-30.
  • Özcan, M. 2004. Determination of mineral contents of Turkish herbal tea (Salvia aucheri var. canescens) at different infusion periods. Journal of Medicinal Food, 8 (1),110-11.
  • Özcan, M. 2004. Mineral contents of some plants used as condiments in Turkey, Food Chemistry, 84:437-440.
  • Özçelik, R. 2006. Made towards the protection of biodiversity (planning and protection) studies and reflections on Turkey's forestry. Süleyman Demirel University Journal of the Faculty of Forestry. Series: A, No: 2: pp: 23-36.
  • Özer, H., Altun, A., Saraydın, S.U., Soylu, S., Goktas, S., Tuncer, E., Inan, D.S., Koksal, B., Temiz, T.K. and Tepe B. 2013. Antitumoral effects of Salvia absconditiflora Greuter & Burdet syn. Salvia cryptantha Montbret & Aucher ex Benth. on Breast cancer. Indian Journal of traditional knowledge, 12(3): 390-397.
  • Özer, H. 2016. Salvia Species Spread Naturally Around Erzurum and Their Medicinal Properties. Journal of Field Crops Central Research Institute, 25 (special number-2):340-345.
  • Özkan, M. 2001. A morphological, anatomical and kariological study on some Salvia L. (Lamiaceae) species distributed in the Central and Western Black Sea region. Ondokuz Mayıs University Institute of Science, PhD thesis. Samsun. 165.
  • Özler, H., Pehlivan, S., Celep, F., Doğan, M., Kahraman, A., Fişne, A.Y., BAŞER, B. and Bagherpour, S. 2013. Pollen morphology of Hymenosphace and Aethiopis sections of the genus Salvia (Lamiaceae) in Turkey. Turkish Journal of Botany, 37:1070-1084.
  • Rajan, J.P., Sıngh, K.B., Kumar, S. and Mıshra, R.K. 2014. Trace Elements Content in the Selected Medicinal Plants Used for Curing Skin Diseases by the Natives of Mizoram, India. Asian Pacific Journal of Tropical Medicine. 7:410-414.
  • Rıchards, L.A. 1954. Diagnosis and improvement of saline and alkali soils. United States Department of Agriculture Handbook, 60.
  • Rubio, C., Lucas, J.D., Gutıérrez, A.J., Glez-Weller, D., Pérez Marrero, B., Caballero, J.M. and Hardısson, A. 2012. Evaluation of Metal Concentrations in Mentha Herbal Teas (Mentha piperita, Mentha pulegium and Mentha species) by inductively coupled plasma spectrometry. J. Pharm. Biomed. Anal, 71: 11-17.
  • Sarbanha, S., Masoomi, F., Kamalınejad, M. and Yassa, N. 2011. Chemical composition and antioxidant activity of Salvia virgata Jacq. and S. verticillata L. volatile Oils from Iran. Planta Medica. 77(12): 1297-1298.
  • Sarma, H., Deka, S., Deka, H. and Saikia, R.R. 2011. Accumulation of Heavy Metals in Selected Medicinal Plants. Rev. Environ. Contam. Toxicol, 214: 63-86.
  • Silanpää, M. 1990. Micronutrient assessment at country level: An international study. In: FAO Soils Bulletin. N.63. Rome.
  • Sumner, M.E. and Miller, W.P. 1996. Cation exchange capacity and exchange coefficients. In D.L. Sparks (ed.) Methods of soil analysis, Part 3. Chemical methods. Soil Science Society of America, Book series no. 5.
  • Suntar, I., Akkol, E.K., Senol, F.S., Keles, H. and Orhan, I.E. 2011. Investigating wound healing, tyrosinase inhibitory and antioxidant activities of the ethanol extracts of Salvia cryptantha and Salvia cyanescens using in vivo and in vitro experimental models. Journal of Ethnopharmacology. 135 (1): 71-77.
  • Tosun, M., Ercişli, S., Şengul, M., Özer, H., Polat, T. and Özturk, E. 2009. Antioxidant properties and total phenolic content of eight Salvia species from Turkey. Biological Research 42 (2): 175-181.
  • Tüzüner, A. 1990. Soil and Water Analysis Laboratories Handbook. T.C. Ministry of Agriculture, Forestry and Rural Affairs General Directorate of Rural Services. pp.21-27.
  • Ülgen, N. ve Yurtsever, N. 1974. Türkiye gübreler ve gübreleme rehberi. Toprak ve Gübre Araştırma Enstitüsü Müdürlüğü, Teknik Yayınlar No:28. Ankara.
  • WHO. 2007. Guidelines for assessing quality of herbal medicines with reference to contaminants and residues. World Health Organization, Geneva.
  • Yılar, M. and Kadıoğlu, İ. 2018. Salvia Species and their Biological Activities Naturally Distributed in Tokat Province. http://scholarsbulletin.com (Agriculture) pp:208-212.
  • Yılar, M., Bayar, Y. and Abacı Bayar, AA. 2020a. Allelopathic and Antifungal potentials of endemic Salvia absconditiflora Greuter & Burdet collected from different locations in Turkey. https://doi.0rg/10.26651/allelo.j/2020-49-2-1268 Allelopathy Journal 49 (2): 243-256.
  • Yılar, M., Bayar, Y., Abacı Bayar, A.A. and Genç, N. 2020b. Chemical composition of the essential oil of Salvia bracteata Banks and the biological activity of its extracts: antioxidant, total phenolic, total flavonoid, antifungal and allelopathic effects. Botanica serbica. DOI: https://doi.org/10.2298/BOTSERB2001071Y, 44 (1): 71-79.
  • Yılmaz, G. and Güvenç, A. 2007. Morphological and anatomical investigation on the herbal drugs which sold under the name “sage” in Herbalist in Ankara. Journal of the Faculty of Pharmacy of Ankara University, 36 (2): 87-104.
  • Zengin, M., Gezgin, S., Özcan, M. and Çetin, Ü. 2004. Determination of mineral content of herbs and teas used as herbal tea, T.C. Selcuk University Scientific Research Projects, Proje no: ZF 2003-129.

Determination of Minerals and Trace Elements of Some Salvia Species Distributed in Kırşehir

Year 2021, Volume: 8 Issue: 2, 315 - 328, 23.04.2021
https://doi.org/10.30910/turkjans.820375

Abstract

This study was conducted to determine the contents of some macro and micronutrients of Salvia spp. (Salvia aethiopis L., S. virgata Jacq., S. syriaca L., S. absconditiflora Montbret & Aucher ex Bentham, S. ceratophylla L., S. bracteata Banks et Sol., S. cyanenses Boiss et Bal.) species growing in 17 locations of Kırşehir city. Based on the findings, it was found that phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), copper (Cu), manganese (Mn) and zinc (Zn) contents of the samples obtained from the soil were 3.6-43.2 mg kg-1, 120-398 mg kg-1, 5344-8778 mg kg-1, 134-763 mg kg-1, 0.01-2.43 mg kg-1, 0.03-1.27 mg kg-1, 1.29-8.60 mg kg-1 and 0.17-1.22 mg kg-1, respectively. The K, Ca, Mg, Fe, Cu, Mn, and Zn contents of the plant samples were 0.002-0.17%, 1.67-5.54%, 0.26-0.90%, 243-3479 mg kg-1, 4.78-7.77 mg kg-1, 4.75-97.00 mg kg-1 and 21.50-45.05 mg kg-1, respectively. The Ca and Mg were the available macronutrients with the highest concentration, Fe was the available micronutrient with the highest concentration, which was followed by Mn, Zn and Cu elements, respectively. When the elements in the plant are evaluated, Ca, K and Zn in S. virgata are the most; Ca and Fe in S. absconditiflora is at least; in S. cyanescens, Mg and Mn are the most, K and Zn the least; in S. syriaca, Mg is at least; in S. ceratophylla Cu the most, Mn least; S. aethiopis Cu at least; Fe was found in excess in S. bracteata. As a result of the soil and plant analyses, it was determined that Salvia plants received the required plant nutrient elements sufficiently although Fe, Mn and Zn nutrient elements were deficient in soil.

References

  • Alizadeh, A. 2013. Essential oil constituents, antioxidant and antimicrobial activities of Salvia virgata Jacq. from Iran. Journal of Essential Oil Bearing Plants, 16 (2):172-182.
  • Anonymous, 2017. Taxon Page. Salvia bracteata Banks et Sol. http://tubives.com/index.php
  • Basgel, S And Erdemoglu, S.B. 2006. Determination of mineral and trace elements in some medicinal herbs and their infusions consumed in Turkey. Science of the Total Environment 359, 82-89.
  • Benavides, M.P., Gallego, S.M and Tomaro, M.L. 2005. Toxic Metals in Plants Cadmium Toxicity in Plants. J. Plant Physiol, 17 (1): 21-34.
  • Black, C.A. 1965. Methods of Analysis Agreon., No: 9, Ame. Soc. Agr. , Madison Wisconsin. USA.
  • Bouyocous G.L. 1951. A Recalibration of Hydrometer Method for Making Mechanical Analysis of soils. Agron. J. 43: 434-438.
  • Cardilea, V., Russob, A., Formısanoc, C., Riganoc, D and Senatorec, F. 2009. Essential oils of Salvia bracteata and Salvia rubifolia from Lebanon: Chemical composition, antimicrobial activity and inhibitory effect on human melanoma cells. Journal of Ethnopharmacology 126: 265-272.
  • Chan, K. 2003. Some Aspects of Toxic Contaminants in Herbal Medicines. Chemosphere 52(9): 1361-1371.
  • Demiralay, I. 1993. Soil Physical Analysis. Atatürk University Faculty of Agriculture Publications No: 143: pp 131.
  • Doğan, M., Pehlivan, S., Akaydın, G., Bağcı, E., Uysal, I and Doğan H.M. 2008. Demonstrating Distribution in Turkey Salvia L. (Labiatae) Taxonomic revision of the genus. Tübitak Project No: 104 T 450. 318.
  • Er, M. 2012. Biochemical and bioactive properties of some Salvia L. (sage) species grown in Konya. Master of Science in Biology. Selcuk University Institute of Science and Technology. pp: 39.
  • Eyüpoğlu, F., Kurucu, N and Talaz, S. 1996. Turkey Plant available soil Some of Micro Nutrient Status of the General Terms. Soil Fertilizer Research Institute General Publication Number: 217, Series No: R-133.
  • FAO/WHO. 1984. List of Maximum Levels Recommended for Contaminants by the Joint FAO/WHO Codex Alimentarius Commission. 2nd Edition, FAO/WHO, Rome, 1-8.
  • Fernandez, P.L., Pablos, F., Martin, M.J and Gonzales, A.G. 2002. Multi-element analysis of tea beverages by inductively coupled plasma atomic emission spectrometry. Food Chem 76:483-489.
  • Follet, R.H. 1969. Zn, Fe, Mn and Cu in Colorado Soils. Ph. D. Dissertation. Colorado State University.
  • Gil, F., Hernande, A.F., Marquez, C., Femia, P., Olmedo, P., Lopez-Guarnıdo, O and Pla, A. 2011. Biomonitorization of Cadmium, Chromium, Manganese, Nickel and Lead in Whole Blood, Urine, Axillary Hair And Saliva in An Exposed Population. Sci. Total Environ, 409 (6): 1172-1180.
  • Gülcür, F. 1974. Physical and Chemical Analysis Methods of Soil, Istanbul University Faculty of Forestry Publications, No: 1970, publish No: 201.
  • Güneş, A., Aktaş., M, İnal, A and Alpaslan, M. 1996. Physical and Chemical Properties of Konya Closed Basin Soils. A.Ü.Z.F. Publication No: 1453; Scientific research and investigation No: 801.
  • Gursoy, N., Tepe, B and Akpulat, H.A. 2012. Chemical composition and antioxidant activity of the essential oils of Salvia palaestina (Bentham) and S. ceratophylla (L.). Records of Natural Products, 6(3):278-287.
  • Haider, S., Naithani, V., Barthwal, J and Kakkar, P. 2004. Heavy Metal Content in Some Therapeutically İmportant Medicinal Plants. Bull. Environ. Contam. Toxicol, 72 (1): 119-127.
  • Helmke, P.A and Sparks D.L. 1996. Lithium, Sodium, Potassium, Rubidium, and Calcium, in Sparks, D.L., (Ed) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison,WI, pp. 551-574.
  • Jackson M.L. 1962. Soil Chemical Analysis. Prentice-Hall Inc., 183.
  • Jing, J., Zhang, F., Rengel, Z and Shen J. 2012. Localized fertilization with P plus N elicits an ammonium-dependent enhancement of maize root growth and nutrient uptake. Field Crops Research, 133, pp: 176-185.
  • Jones, J.B and Case, V.W. 1990. Sampling, Handling, and analyzing plant tissue samples, chapter 15. In R.L. Westerman (ed) Soil Testing and Plant Analysis, Third Edition, SSSA, Madison, Wisconsin, USA, pp: 390-420.
  • Jones, J.B., Wolf, J.R.B and Mills, H.A. 1991. Plant Analysis Handbook. I. Methods of plant analysis and interpretation. Micro‐Macro Publishing Inc. 183 Paradise Blvd. Suite 108. USA Athens Georgia 30607.
  • Kalny, P., Fijalek, Z., Daszczuk, A and Ostapczu, P. 2007. Determination of Selected Microelements in Polish Herbs Their İnfusions. Sci. Total Environ, 381: 99-104.
  • Karabacak, E. 2009. Turkey's Euro-Siberian phytogeographic region in Salvia L. (Lamiaceae) revision of the genus. (Doctoral Thesis). Çanakkale Onsekiz Mart University. Institute of Science.
  • Karaman, M.R., Brohi, A.R., Muftuoğlu, N.M., Oztas, T and Zengin, M. 2007. Sustainable Soil Fertility. ISBN:978-975-8629-49-7.
  • Karamian, R., Asadbegy, M and Pakazad, R. 2014. Essential oil compositions, antioxidant and antibacterial activities of two salvia species (S. grossheimii Bioss. and S. syriaca L.) Growing in Iran. Journal of Essential Oil Bearing Plants, 17(2):331-345.
  • Kırmani, M.Z., Mohıuddin, S., Naz, F., Naqvi I.I and Zahir, E. 2011. Determination of Some Toxic and Essential Trace Metals in Some Medicinal and Edible Plants of Karachi City. ISSN: 1814-8085, Journal of Basic and Applied Sciences Vol. 7, No. 2, 89-95.
  • Kobayashı, T and Nishizawa N.K. 2012. Iron Uptake, Translocation, and Regulation in Higher Plants. DOI: 10.1146/annurev-arplant-042811-105522, Annual Review of Plant Biology 63(1):131-52.
  • Koca, Y.K., Derin A and Adiloğlu, S. 2019. Mapping Some Micro Element Levels of Uzunköprü District Soils of Edirne Province by Geostatistical Modeling. Journal of Tekirdağ Faculty of Agriculture. DOI: 10.33462/jotaf.552370.
  • Kocabaş, I., Sonmez, I., Kalkan, H and Kaplan, M. 2007. Effects of Different Organic Fertilizers on Essential Oil Content of Sage (Salvia Fruticosa Mill.) And Plant Nutrients. Akdeniz University Faculty of Agriculture Journal, 20(1),105-110.
  • Kohzadi, S., Shahmoradi, B., Ghaderi, E., Loqmani, H and Maleki, A. 2018. Concentration, Source, and Potential Human Health Risk of Heavy Metals in the Commonly Consumed Medicinal Plants. Biological Trace Element Research, doi: 10.1007/s12011-018-1357-3.
  • Lindsay, W.L and Norvel, W.A. 1978. Development of DTPA soil test for Zn, Fe, Mn and Cu. Soil Sci. Amer. J. 42(3), pp. 421-28.
  • López-Bucıo, J., Hernández-Madrıgal, F., Cervantes, C., Ortiz-Castro, R., Carreón-Abud, Y and Martınez-Trujıllo, M. 2014. Phosphate relieves chromium toxicity in Arabidopsis thaliana plants by interfering with chromate uptake. BioMetals, 1-8.
  • Lozak, A., Soytyk, K., Ostapczuk, P and Fijayek, Z. 2002. Determination of selected trace elements in herbs and their infusions. Sci Total Environ 289:33-40.
  • Maas, E.V. 1986. Salt Tolerance of Plants. Applied Agricultural Research, 1:12-26.
  • Maiga, A., Diallo, D., Fane, S., Sanogo, R., Paulsen, B.S And Cisse, B. 2005. A survey of toxic plants on the market in the district of Bamako, Mali: traditional knowledge compared with a literature search of modern pharmacology and toxicology. Journal of Ethnopharmacology, https://doi.org/10.1016/j.jep.2004.09.005. Volume 96, Issues 1-2, 4 pp 183-193.
  • Meena, A.K., Bansal, P., Kumar, S., Rao, M.M and Garg V.K. 2010. Estimation of heavy metals in commonly used medicinal plants: a market basket survey. Environ Monit Assess 170:657-660.
  • Nelson, D.W. and Sommers, L.E. 1996. Total Carbon, Organic Carbon, and Organic Matter. in D.L. Sparks (Ed) Methods of Soil Analysis, Part 3, Chemical Methods, SSSA Book Series Number 5, SSSA., Madison,WI, pp 961-1011.
  • Okut, N. 2019. Heavy Metal Contents of Some Medicinal Plants Selected from Van Province. Iğdır University Journal of the Institute of Science, DOI: 10.21597/jist.491129, 9(1): 533-544.
  • Olsen, S.R., Cole, V., Watanabe, F.S. and Dean L.A. 1954. Estimation of Available Phosphorus in Soils by Extraction With Sodium Bicarbonate.
  • Orhan, I.E., Senol, F.S., Ercetin, T., Kahraman, A., Celep, F., Akaydın, G., Sener, B. and Dogan M. 2013. Assessment of anticholinesterase and antioxidant properties of selected sage (Salvia) species with their total phenol and flavonoid contents. Industrial Crops and Products. 41: 21-30.
  • Özcan, M. 2004. Determination of mineral contents of Turkish herbal tea (Salvia aucheri var. canescens) at different infusion periods. Journal of Medicinal Food, 8 (1),110-11.
  • Özcan, M. 2004. Mineral contents of some plants used as condiments in Turkey, Food Chemistry, 84:437-440.
  • Özçelik, R. 2006. Made towards the protection of biodiversity (planning and protection) studies and reflections on Turkey's forestry. Süleyman Demirel University Journal of the Faculty of Forestry. Series: A, No: 2: pp: 23-36.
  • Özer, H., Altun, A., Saraydın, S.U., Soylu, S., Goktas, S., Tuncer, E., Inan, D.S., Koksal, B., Temiz, T.K. and Tepe B. 2013. Antitumoral effects of Salvia absconditiflora Greuter & Burdet syn. Salvia cryptantha Montbret & Aucher ex Benth. on Breast cancer. Indian Journal of traditional knowledge, 12(3): 390-397.
  • Özer, H. 2016. Salvia Species Spread Naturally Around Erzurum and Their Medicinal Properties. Journal of Field Crops Central Research Institute, 25 (special number-2):340-345.
  • Özkan, M. 2001. A morphological, anatomical and kariological study on some Salvia L. (Lamiaceae) species distributed in the Central and Western Black Sea region. Ondokuz Mayıs University Institute of Science, PhD thesis. Samsun. 165.
  • Özler, H., Pehlivan, S., Celep, F., Doğan, M., Kahraman, A., Fişne, A.Y., BAŞER, B. and Bagherpour, S. 2013. Pollen morphology of Hymenosphace and Aethiopis sections of the genus Salvia (Lamiaceae) in Turkey. Turkish Journal of Botany, 37:1070-1084.
  • Rajan, J.P., Sıngh, K.B., Kumar, S. and Mıshra, R.K. 2014. Trace Elements Content in the Selected Medicinal Plants Used for Curing Skin Diseases by the Natives of Mizoram, India. Asian Pacific Journal of Tropical Medicine. 7:410-414.
  • Rıchards, L.A. 1954. Diagnosis and improvement of saline and alkali soils. United States Department of Agriculture Handbook, 60.
  • Rubio, C., Lucas, J.D., Gutıérrez, A.J., Glez-Weller, D., Pérez Marrero, B., Caballero, J.M. and Hardısson, A. 2012. Evaluation of Metal Concentrations in Mentha Herbal Teas (Mentha piperita, Mentha pulegium and Mentha species) by inductively coupled plasma spectrometry. J. Pharm. Biomed. Anal, 71: 11-17.
  • Sarbanha, S., Masoomi, F., Kamalınejad, M. and Yassa, N. 2011. Chemical composition and antioxidant activity of Salvia virgata Jacq. and S. verticillata L. volatile Oils from Iran. Planta Medica. 77(12): 1297-1298.
  • Sarma, H., Deka, S., Deka, H. and Saikia, R.R. 2011. Accumulation of Heavy Metals in Selected Medicinal Plants. Rev. Environ. Contam. Toxicol, 214: 63-86.
  • Silanpää, M. 1990. Micronutrient assessment at country level: An international study. In: FAO Soils Bulletin. N.63. Rome.
  • Sumner, M.E. and Miller, W.P. 1996. Cation exchange capacity and exchange coefficients. In D.L. Sparks (ed.) Methods of soil analysis, Part 3. Chemical methods. Soil Science Society of America, Book series no. 5.
  • Suntar, I., Akkol, E.K., Senol, F.S., Keles, H. and Orhan, I.E. 2011. Investigating wound healing, tyrosinase inhibitory and antioxidant activities of the ethanol extracts of Salvia cryptantha and Salvia cyanescens using in vivo and in vitro experimental models. Journal of Ethnopharmacology. 135 (1): 71-77.
  • Tosun, M., Ercişli, S., Şengul, M., Özer, H., Polat, T. and Özturk, E. 2009. Antioxidant properties and total phenolic content of eight Salvia species from Turkey. Biological Research 42 (2): 175-181.
  • Tüzüner, A. 1990. Soil and Water Analysis Laboratories Handbook. T.C. Ministry of Agriculture, Forestry and Rural Affairs General Directorate of Rural Services. pp.21-27.
  • Ülgen, N. ve Yurtsever, N. 1974. Türkiye gübreler ve gübreleme rehberi. Toprak ve Gübre Araştırma Enstitüsü Müdürlüğü, Teknik Yayınlar No:28. Ankara.
  • WHO. 2007. Guidelines for assessing quality of herbal medicines with reference to contaminants and residues. World Health Organization, Geneva.
  • Yılar, M. and Kadıoğlu, İ. 2018. Salvia Species and their Biological Activities Naturally Distributed in Tokat Province. http://scholarsbulletin.com (Agriculture) pp:208-212.
  • Yılar, M., Bayar, Y. and Abacı Bayar, AA. 2020a. Allelopathic and Antifungal potentials of endemic Salvia absconditiflora Greuter & Burdet collected from different locations in Turkey. https://doi.0rg/10.26651/allelo.j/2020-49-2-1268 Allelopathy Journal 49 (2): 243-256.
  • Yılar, M., Bayar, Y., Abacı Bayar, A.A. and Genç, N. 2020b. Chemical composition of the essential oil of Salvia bracteata Banks and the biological activity of its extracts: antioxidant, total phenolic, total flavonoid, antifungal and allelopathic effects. Botanica serbica. DOI: https://doi.org/10.2298/BOTSERB2001071Y, 44 (1): 71-79.
  • Yılmaz, G. and Güvenç, A. 2007. Morphological and anatomical investigation on the herbal drugs which sold under the name “sage” in Herbalist in Ankara. Journal of the Faculty of Pharmacy of Ankara University, 36 (2): 87-104.
  • Zengin, M., Gezgin, S., Özcan, M. and Çetin, Ü. 2004. Determination of mineral content of herbs and teas used as herbal tea, T.C. Selcuk University Scientific Research Projects, Proje no: ZF 2003-129.
There are 68 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Ahu Alev Abacı-bayar 0000-0002-4467-7676

Publication Date April 23, 2021
Submission Date November 3, 2020
Published in Issue Year 2021 Volume: 8 Issue: 2

Cite

APA Abacı-bayar, A. A. (2021). Determination of Minerals and Trace Elements of Some Salvia Species Distributed in Kırşehir. Türk Tarım Ve Doğa Bilimleri Dergisi, 8(2), 315-328. https://doi.org/10.30910/turkjans.820375