Research Article
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Fitoplankton Sınıflarının Belirlenmesinde HPLC ve Spektroflorometrik Yöntemlerin Karşılaştırılması

Year 2017, Volume: 17 Issue: 2, 163 - 170, 01.06.2017
https://doi.org/10.17693/yunusae.vi.286302

Abstract

Bu çalışmada fitoplankton
gruplarının tespit edilmesinde yaygın olarak kullanılan Yüksek Performanslı
Sıvı Kromatografik (HPLC) ve spektroflorometrik metotlar kıyaslanmıştır. Bu
amaçla Mersin Körfezi – Rodos Adası arasında farklı ekosistemleri temsilen 5
farklı istasyondan 4 farklı dönemde (Temmuz-Eylül 2012 ve Mart-Mayıs 2013) 152
adet su örneği alınarak farklı tip filtrelere süzülmüştür. Klorofil-
a, pikoplankton, nanoplankton ve
mikroplankton parametreleri her iki metotla ölçülerek kıyaslanmıştır. HPLC
cihazının spektroflorometreye göre daha hassas olduğu fakat yöntemde kullanılan
GF/F filtrelerin pikoplanktonik hücreleri tutmada başarısız olduğu
belirlenmiştir. Akdeniz gibi pikoplankton yoğunluğunun fazla olduğu denizlerde
kullanılan GF/F filtreler, nükleopor polikarbonat filtrelere göre biyokütle
kaybına neden olarak yanlış okumalara neden olabilmektedir. Toplam klorofil-
a ve mikroplankton ölçümlerinde her iki
yöntem birbirleriyle uyumlu bulunmuştur.
 

References

  • Ağırbaş, E. 2016. Fitoplankton Pigment Konsantrasyonunun ve Boy Gruplarının HPLC Tekniği ile Belirlenmesi (Güneydoğu Karadeniz, Rize). Yunus Araştırma Bülteni, (2): 81-90, doi:10.17693/yunus.20918
  • Barlow R. G., Mantoura R. F. C., Gough M. A. ve Fileman T. W. 1993. Pigment signatures of the phytoplankton composition in the north-eastern Atlantic during the 1990 spring bloom. Deep Sea Research, II, 40 (1-2): 459-477. doi:10.1016/0967-0645(93)90027-K.
  • Bidigare, R. R., Ondrusek, M. E., Morrow, J. H. ve Kiefer, D. A. 1990. In vivo adsorption properties of algal pigments. SPIE Ocean Optics, 1302: 290–302. doi:10.1117/12.21451.
  • Burford, M. A. ve Pollard, P. C. 1994. Pigment contaminants in polycarbonate filters. Marine Ecology Progress Series, 103: 203-206
  • Gibb, S. W., Barlow, R. G. ve Cummings, D. G. 2000. Surface phytoplankton pigment distributions in the Atlantic Ocean: anassessment of basin scale variability between 50° N and 50° S. Progress in Oceanography, 45: 339–368, doi:10.1016/S0079-6611(00)00007-0
  • Gibb, S. W., Cummings, D. G., Irigoien, X., Barlow, R. G., Fauzi, R. ve Mantoura, C. 2001. Phytoplankton pigment chemotaxonomy of the northeastern Atlantic. Deep Sea Research. Part II: Topical Studies in Oceanography, 48 (4-5): 795–823. doi:10.1016/s0967-0645(00)00098-9
  • Jeffrey, S. W., Mantoura, R. F. C. ve Wright, S. W. 1997. Phytoplankton pigments in oceanography: Guidelines to modern methods. UNESCO Publishing Paris, 37–84, ISBN: 9231032755.
  • Laxen, D. P. H. ve Chandler, I. M. 1982. Comparison of filtration techniques for size distribution in freshwater Anal. Chem., 54, pp. 1350–1355
  • Li, W. K. W., Zohary, T., Yacobi, Y. Z. ve Wood, A. M. 1993. Ultraphytoplankton in the eastern Mediterranean Sea: towards deriving phytoplankton biomass from flow cytometric measurements of abundance, fluorescence and light scatter. Marine Ecology Progress Series, 102: 79-87.
  • Mantoura, R. F. C. ve Llewellyn, C. A. 1983. The rapid determination of algal chlorophyll and carotenoid pigments and their breakdown products in natural waters by reverse-phase high-performance liquid chromatography. Analytica Chimica Acta, 151:297-314. doi:10.1016/S0003-2670(00)80092-6.
  • Murray, A. P., Gibbs, C. F., Longmore, A. R. ve Flett, D. J. 1986. Determination of chlorophyll in marine waters: intercomparison of a rapid HPLC method with full HPLC, spectrophotometric and fluorimetric methods. Marine Chemistry, 19:211-227
  • Olenina, I., Hajdu, S., Edler, L., Andersson, A., Wasmund, N., Busch, S., Gobel, J., Gromisz, S., Huseby, S., Huttunen, M., Jaanus, A., Kokkonen, P., Ledaine, I., ve Niemkiewicz, E. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea, HEL-COM Baltic Sea Environment Protection Commission, 106, 1–144, 2006.
  • Strickland, J. D. H. ve Parsons, T. R. 1972. A Practical Handbook of Seawater Analysis, 2nd edition. Bulletin of the Fisheries Research Board of Canada, No. 167, 310 pp.
  • UNEP/MAP. 2005. Sampling and analysis techniques for the eutrophication monitorıng strategy of MED POL, MAP Technical Reports Series No. 163, Athens.
  • Vidussi, F., Claustre, H., Manca, B., Luchetta, A. ve Marty, J. C. 2001. Phytoplankton pigment distribution in relation to upper thermocline circulation in the eastern Mediterranean Sea, during winter. Journal of Geophysical Research, 106, 19, 939–19, 956.
  • Morán X. A. G., Gasol, J. M., Arin, L. ve Estrada, M. 1999. A comparison between glass fiber and membrane filters for the estimation of phytoplankton POC and DOC production. Marine Ecology Progress Series 187:31– 41
  • Yücel, N. 2013. Monthly Changes in Primary and Bacterial Productivity in the North-Eastern Mediterranean Shelf Waters. Doktora Tezi. Mersin, Ortadoğu Teknik Üniversitesi.
  • Yücel, N. ve Uysal, Z. 2017. Kuzeydoğu Akdeniz’de Kıyısal ve Açık sularda Fitoplankton Dinamikleri. Yunus Araştırma Bülteni, 17 (1), doi: 10.17693/yunusae.v17i26557.280523

Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess

Year 2017, Volume: 17 Issue: 2, 163 - 170, 01.06.2017
https://doi.org/10.17693/yunusae.vi.286302

Abstract

In this study, High Performance Liquid
Chromatographic (HPLC) and Spectrofluorometric methods commonly used in
determining of phytoplankton groups were compared. For this purpose, totally
152 water samples were collected in four different periods (July-September 2012
and March-May 2013) from five stations representing different ecosystems between
Mersin Bay and Rhodes Island filtered by using different types of filters.
Chlorophyll
a, picoplankton,
nanoplankton and microplankton parameters were compared by using HPLC and
spectrofluorometric methods. The HPLC was found to be more sensitive than the spectrofluorometer,
but it was determined that the GF/F filters used in the method failed to retain
the picoplanktonic cells. GF/F filters used in seas where the concentration of
picoplankton is high, such as the Mediterranean, may cause biomass loss as compared
to nucleopore polycarbonate filters, causing false readings. Chlorophyll-
a and microplankton measurements were
found to be compatible with each other when using both methods
.

References

  • Ağırbaş, E. 2016. Fitoplankton Pigment Konsantrasyonunun ve Boy Gruplarının HPLC Tekniği ile Belirlenmesi (Güneydoğu Karadeniz, Rize). Yunus Araştırma Bülteni, (2): 81-90, doi:10.17693/yunus.20918
  • Barlow R. G., Mantoura R. F. C., Gough M. A. ve Fileman T. W. 1993. Pigment signatures of the phytoplankton composition in the north-eastern Atlantic during the 1990 spring bloom. Deep Sea Research, II, 40 (1-2): 459-477. doi:10.1016/0967-0645(93)90027-K.
  • Bidigare, R. R., Ondrusek, M. E., Morrow, J. H. ve Kiefer, D. A. 1990. In vivo adsorption properties of algal pigments. SPIE Ocean Optics, 1302: 290–302. doi:10.1117/12.21451.
  • Burford, M. A. ve Pollard, P. C. 1994. Pigment contaminants in polycarbonate filters. Marine Ecology Progress Series, 103: 203-206
  • Gibb, S. W., Barlow, R. G. ve Cummings, D. G. 2000. Surface phytoplankton pigment distributions in the Atlantic Ocean: anassessment of basin scale variability between 50° N and 50° S. Progress in Oceanography, 45: 339–368, doi:10.1016/S0079-6611(00)00007-0
  • Gibb, S. W., Cummings, D. G., Irigoien, X., Barlow, R. G., Fauzi, R. ve Mantoura, C. 2001. Phytoplankton pigment chemotaxonomy of the northeastern Atlantic. Deep Sea Research. Part II: Topical Studies in Oceanography, 48 (4-5): 795–823. doi:10.1016/s0967-0645(00)00098-9
  • Jeffrey, S. W., Mantoura, R. F. C. ve Wright, S. W. 1997. Phytoplankton pigments in oceanography: Guidelines to modern methods. UNESCO Publishing Paris, 37–84, ISBN: 9231032755.
  • Laxen, D. P. H. ve Chandler, I. M. 1982. Comparison of filtration techniques for size distribution in freshwater Anal. Chem., 54, pp. 1350–1355
  • Li, W. K. W., Zohary, T., Yacobi, Y. Z. ve Wood, A. M. 1993. Ultraphytoplankton in the eastern Mediterranean Sea: towards deriving phytoplankton biomass from flow cytometric measurements of abundance, fluorescence and light scatter. Marine Ecology Progress Series, 102: 79-87.
  • Mantoura, R. F. C. ve Llewellyn, C. A. 1983. The rapid determination of algal chlorophyll and carotenoid pigments and their breakdown products in natural waters by reverse-phase high-performance liquid chromatography. Analytica Chimica Acta, 151:297-314. doi:10.1016/S0003-2670(00)80092-6.
  • Murray, A. P., Gibbs, C. F., Longmore, A. R. ve Flett, D. J. 1986. Determination of chlorophyll in marine waters: intercomparison of a rapid HPLC method with full HPLC, spectrophotometric and fluorimetric methods. Marine Chemistry, 19:211-227
  • Olenina, I., Hajdu, S., Edler, L., Andersson, A., Wasmund, N., Busch, S., Gobel, J., Gromisz, S., Huseby, S., Huttunen, M., Jaanus, A., Kokkonen, P., Ledaine, I., ve Niemkiewicz, E. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea, HEL-COM Baltic Sea Environment Protection Commission, 106, 1–144, 2006.
  • Strickland, J. D. H. ve Parsons, T. R. 1972. A Practical Handbook of Seawater Analysis, 2nd edition. Bulletin of the Fisheries Research Board of Canada, No. 167, 310 pp.
  • UNEP/MAP. 2005. Sampling and analysis techniques for the eutrophication monitorıng strategy of MED POL, MAP Technical Reports Series No. 163, Athens.
  • Vidussi, F., Claustre, H., Manca, B., Luchetta, A. ve Marty, J. C. 2001. Phytoplankton pigment distribution in relation to upper thermocline circulation in the eastern Mediterranean Sea, during winter. Journal of Geophysical Research, 106, 19, 939–19, 956.
  • Morán X. A. G., Gasol, J. M., Arin, L. ve Estrada, M. 1999. A comparison between glass fiber and membrane filters for the estimation of phytoplankton POC and DOC production. Marine Ecology Progress Series 187:31– 41
  • Yücel, N. 2013. Monthly Changes in Primary and Bacterial Productivity in the North-Eastern Mediterranean Shelf Waters. Doktora Tezi. Mersin, Ortadoğu Teknik Üniversitesi.
  • Yücel, N. ve Uysal, Z. 2017. Kuzeydoğu Akdeniz’de Kıyısal ve Açık sularda Fitoplankton Dinamikleri. Yunus Araştırma Bülteni, 17 (1), doi: 10.17693/yunusae.v17i26557.280523
There are 18 citations in total.

Details

Journal Section Research Articles
Authors

Nebil Yücel

Publication Date June 1, 2017
Published in Issue Year 2017 Volume: 17 Issue: 2

Cite

APA Yücel, N. (2017). Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess. Aquaculture Studies, 17(2), 163-170. https://doi.org/10.17693/yunusae.vi.286302
AMA Yücel N. Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess. AquaST. June 2017;17(2):163-170. doi:10.17693/yunusae.vi.286302
Chicago Yücel, Nebil. “Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess”. Aquaculture Studies 17, no. 2 (June 2017): 163-70. https://doi.org/10.17693/yunusae.vi.286302.
EndNote Yücel N (June 1, 2017) Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess. Aquaculture Studies 17 2 163–170.
IEEE N. Yücel, “Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess”, AquaST, vol. 17, no. 2, pp. 163–170, 2017, doi: 10.17693/yunusae.vi.286302.
ISNAD Yücel, Nebil. “Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess”. Aquaculture Studies 17/2 (June 2017), 163-170. https://doi.org/10.17693/yunusae.vi.286302.
JAMA Yücel N. Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess. AquaST. 2017;17:163–170.
MLA Yücel, Nebil. “Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess”. Aquaculture Studies, vol. 17, no. 2, 2017, pp. 163-70, doi:10.17693/yunusae.vi.286302.
Vancouver Yücel N. Comparison of HPLC and Spectrofluorometric Method for Determination of Phytoplankton Classess. AquaST. 2017;17(2):163-70.