Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction
Samo za registrovane korisnike
2020
Autori
Lalić, DijanaMeriluoto, Jussi
Zorić, Miroslav
Dulić, Tamara
Mirosavljević, Milan
Župunski, Milan
Svircev, Zorica
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Loess is the most important archive of Quaternary palaeoclimate evolution, with more thorough and systematic investigations carried out in the past two decades in the Carpathian Basin. Application of novel proxies in loess research could improve the state of knowledge of the past climatic changes. In order to examine the feasibility of cyanobacterial pigments to be used as biomarkers in paleoclimate reconstruction and thereby substantiate the presence of cyanobacterial community during loess accumulation, geochemical evidence of cyanobacteria-specific biomarkers in the sediment is required. In this study structurally different cyanobacterial metabolites were examined for their potential to be used as biomarkers. These compounds included scytonemin wavelength equivalent (SWE) and mycosporine wavelength equivalent (MWE) compounds. The effect of various physico-chemical factors (pH value, temperature and light source) on the production of SWE and MWE compounds in correlation with the nitr...ogen content of the growth medium was studied. SWE compounds were observed in 8 out of 15 soil and aquatic cyanobacterial strains, while MWE compounds were found in all 15 strains. The results show that exposure to UV light induced a higher synthesis of both pigments. Moreover, the presence of SWE compounds was confirmed in cyanobacterial cultures isolated from biological loess crusts (BLCs) as well as in BLC and loess sediment samples. The potential application of these pigment groups as biomarkers in paleoenvironmental and paleoclimatic reconstruction is discussed.
Ključne reči:
Cyanobacteria / Scytonemin / Mycosporine-like amino acids / Double-centered interaction matrix analysis / Biomarkers / Loess / Paleoclimate reconstructionIzvor:
Catena, 2020, 185Izdavač:
- Elsevier, Amsterdam
Finansiranje / projekti:
- Transformacije geoprostora Srbije - prošlost, savremeni problemi i predlozi rešenja (RS-MESTD-Basic Research (BR or ON)-176020)
- Erasmus + Programme of the European Union [2015-2-FI01-KA107-022151, 2017-1-FI01-KA107-034440]
DOI: 10.1016/j.catena.2019.104283
ISSN: 0341-8162
WoS: 000504504500036
Scopus: 2-s2.0-85075372368
Kolekcije
Institucija/grupa
FiVeRTY - JOUR AU - Lalić, Dijana AU - Meriluoto, Jussi AU - Zorić, Miroslav AU - Dulić, Tamara AU - Mirosavljević, Milan AU - Župunski, Milan AU - Svircev, Zorica PY - 2020 UR - http://fiver.ifvcns.rs/handle/123456789/1997 AB - Loess is the most important archive of Quaternary palaeoclimate evolution, with more thorough and systematic investigations carried out in the past two decades in the Carpathian Basin. Application of novel proxies in loess research could improve the state of knowledge of the past climatic changes. In order to examine the feasibility of cyanobacterial pigments to be used as biomarkers in paleoclimate reconstruction and thereby substantiate the presence of cyanobacterial community during loess accumulation, geochemical evidence of cyanobacteria-specific biomarkers in the sediment is required. In this study structurally different cyanobacterial metabolites were examined for their potential to be used as biomarkers. These compounds included scytonemin wavelength equivalent (SWE) and mycosporine wavelength equivalent (MWE) compounds. The effect of various physico-chemical factors (pH value, temperature and light source) on the production of SWE and MWE compounds in correlation with the nitrogen content of the growth medium was studied. SWE compounds were observed in 8 out of 15 soil and aquatic cyanobacterial strains, while MWE compounds were found in all 15 strains. The results show that exposure to UV light induced a higher synthesis of both pigments. Moreover, the presence of SWE compounds was confirmed in cyanobacterial cultures isolated from biological loess crusts (BLCs) as well as in BLC and loess sediment samples. The potential application of these pigment groups as biomarkers in paleoenvironmental and paleoclimatic reconstruction is discussed. PB - Elsevier, Amsterdam T2 - Catena T1 - Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction VL - 185 DO - 10.1016/j.catena.2019.104283 ER -
@article{ author = "Lalić, Dijana and Meriluoto, Jussi and Zorić, Miroslav and Dulić, Tamara and Mirosavljević, Milan and Župunski, Milan and Svircev, Zorica", year = "2020", abstract = "Loess is the most important archive of Quaternary palaeoclimate evolution, with more thorough and systematic investigations carried out in the past two decades in the Carpathian Basin. Application of novel proxies in loess research could improve the state of knowledge of the past climatic changes. In order to examine the feasibility of cyanobacterial pigments to be used as biomarkers in paleoclimate reconstruction and thereby substantiate the presence of cyanobacterial community during loess accumulation, geochemical evidence of cyanobacteria-specific biomarkers in the sediment is required. In this study structurally different cyanobacterial metabolites were examined for their potential to be used as biomarkers. These compounds included scytonemin wavelength equivalent (SWE) and mycosporine wavelength equivalent (MWE) compounds. The effect of various physico-chemical factors (pH value, temperature and light source) on the production of SWE and MWE compounds in correlation with the nitrogen content of the growth medium was studied. SWE compounds were observed in 8 out of 15 soil and aquatic cyanobacterial strains, while MWE compounds were found in all 15 strains. The results show that exposure to UV light induced a higher synthesis of both pigments. Moreover, the presence of SWE compounds was confirmed in cyanobacterial cultures isolated from biological loess crusts (BLCs) as well as in BLC and loess sediment samples. The potential application of these pigment groups as biomarkers in paleoenvironmental and paleoclimatic reconstruction is discussed.", publisher = "Elsevier, Amsterdam", journal = "Catena", title = "Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction", volume = "185", doi = "10.1016/j.catena.2019.104283" }
Lalić, D., Meriluoto, J., Zorić, M., Dulić, T., Mirosavljević, M., Župunski, M.,& Svircev, Z.. (2020). Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction. in Catena Elsevier, Amsterdam., 185. https://doi.org/10.1016/j.catena.2019.104283
Lalić D, Meriluoto J, Zorić M, Dulić T, Mirosavljević M, Župunski M, Svircev Z. Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction. in Catena. 2020;185. doi:10.1016/j.catena.2019.104283 .
Lalić, Dijana, Meriluoto, Jussi, Zorić, Miroslav, Dulić, Tamara, Mirosavljević, Milan, Župunski, Milan, Svircev, Zorica, "Potential of cyanobacterial secondary metabolites as biomarkers for paleoclimate reconstruction" in Catena, 185 (2020), https://doi.org/10.1016/j.catena.2019.104283 . .