Spectral properties observations: a first comparison of bulgarian and chilean mountain lakes

• Autorzy: De los Rios Escalante P. , Acevedo P. , Pandourski I.
• Języki publikacji: EN

Abstrakty

EN

While Bulgaria has oligotrophic lakes in mountain zones with Pinus mugus shrubs associated with mountains with Fagus forests, northern Chilean Patagonia has numerous pristine lakes associated with Nothofagus forests. The present study consists of an optical properties description of mountain lakes from Bulgaria with Chilean mountain lakes (Huerquehue and Alerce Andino National Parks) with Nothofagus forest, in visible, close, and medium infrared wavelengths. The results revealed that Bulgarian lakes have different optical properties than Chilean lakes, in spite of the oligotrophy associated with surrounding vegetation and geological characteristics of both groups of studied sites.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2016
• Tom: 25
• Numer: 6
• Opis fizyczny: P.2701-2704,fig.,ref.

Twórcy

autor

De los Rios Escalante P.

• Laboratorio de Ecologia Aplicada y Biodiversidad, Escuela de Ciencias Ambientales, Facultad de Recursos Naturales, Universidad Catolica de Temuco, Casilla15-D, Temuco, Chile
• Nucleo de Estudios Ambientales, UC Temuco

autor

Acevedo P.

• Departamento de Ciencias Fisicas, Facultad de Ingenieria y Ciencias, Universidad de LaFrontera, Casilla 54-D, Temuco
• Center for Optics and Photonics, Universidad de Concepcion, Casilla4012, Concepcion, Chile

autor

Pandourski I.

• Institute of Biodiversity and Ecosystem Research, Bulgarian Academy of Sciences, Sofia, Bulgaria

Bibliografia

• 1. HRISTOZOVA M., BOTEV I., KALCHEV R., NAIDENOW W. Composition and temporal changes of zooplankton in high mountains lakes in the Rila mountains (South-West Bulgaria). Acta Zoologica Bulgarica, 56, 341, 2004.
• 2. KALCHEV R., BOTEV I., HRISTOZOVA M., NAIDENOW W., RAIKOVA-PETROVA G., STOYNEVA G., TEMMNISKOVA-TOPALOVA D. TRICHKOVA T. 2004. Ecological relations and temporal changes in the pelagial of the high mountain lakes in the Rila mountains (Bulgaria). Journal of Limnology, 63, 90, 2004.
• 3. HAUENSTEIN E., BARRIGA K., DE LOS RÍOSESCALANTE P. Macrophytes assemblages in mountain lakes of Huerquehue National Park (39ºS, Araucanía Region, Chile). Latin American Journal of Aquatic Research, 39, 593, 2011.
• 4. DE LOS RÍOS-ESCALANTE P., HAUENSTEIN E., ACEVEDO P., ROMERO-MIERES M., PANDOURSKI I. Regulatory factors in crustacean zooplankton assemblages in mountain lakes of northern Chilean Patagonia (38-41°S): a comparison with Bulgarian counterparts. Latin American Journal of Aquatic Research, 40, 473, 2012.
• 5. DE LOS RÍOS P., HAUENSTEIN E., ACEVEDO P., JAQUE X. Littoral crustaceans in mountain lakes of Huerquehue National Park (38°S, Araucania region, Chile). Crustaceana, 80, 401, 2007.
• 6. DE LOS RÍOS-ESCALANTE P., ACEVEDO P. First observations on zooplankton and optical properties in a glacial north Patagonian lake (Tagua Tagua lake, 41°S Chile). Polish Journal of Environmental Studies, 25, 453, 2016.
• 7. DE LOS RÍOS-ESCALANTE P., ACEVEDO P. First observations of Boeckella michaelseni Mrázek 1901 (Crustacea, Copepoda) and optical properties of central Patagonian lake (General Carrera Lake, 46°S Chile). Polish Journal of Environmental Studies, In press.
• 8. DE LOS RÍOS-ESCALANTE P., QUINAN E., ACEVEDO P. Crustacean zooplankton communities in lake General Carrera (46°S) and their possible association with optical properties. Crustaceana, 86, 507, 2013.
• 9. MODENUTTI B.E., BALSEIRO E.G., QUEIMALIÑOS C.P., SUAREZ D.A., DIÉGUEZ M.C., ALBARIÑO R.J. Structure and dynamics of food webs in Andean lakes. Lakes and Reservoirs, Research and Management, 3, 179, 1998.
• 10. SOTO D. Oligotrophic patters in southern Chilean lakes: the relevante of nutrients and mixing depth. Revists Chilena de Historia Natural, 75, 393, 2002.
• 11. KROGH S.A., POMEROY J.W., McPHEE J., Physically based mountain hydrological modeling using reanalysis data in Patagonia. Journal of Hydrometeorology, 16, 172, 2015.
• 12. PASQUINI A.I., DEPETRIS P.J., Southern Patagonia´s Perito Moreno Glacier, Lake Argentino and Santa Cruz river hydrological system: an overview. Journal of Hydrology, 405, 48, 2011.
• 13. LASPOUMADERES C., MODENUTTI B., SOUZA M., BASTIDAS M., CUASSOLO F., BALSEIRO E., 2013. Glacier melting and stoichiometric implications for lake community structure: zooplankton species distributions across a natural light gradient. Global Change Biology, 19, 316, 2013.
• 14. HYLANDER S., JEPHSON T., LEBRET, K., VON EINEM J., FAGEBERG T., BALSEIRO E., MODENUTTI B., SOUZA M., LASPOUMADERES, C., JÖHNSON M., LJUNGBERG P., NICOLLE A., NILSSON P.A., RANAKER L., HANSSON L.A. Climate-induced imput of turbid glacial meltwater affects vertical distribution and community composition of phyto- and zooplankton. Journal of Plankton Research, 33, 1239, 2011.
• 15. PALMER S.C.J., HUNTER P.D., LANKESTER T., HUBBARD S., SPYRAKOS E., TYLER A.N., PRÉSIG M., HORVATH H., LAMB, A., BALSTER H., TOTH V.R., Validation of envisat MERIS algorithms for chlorophyll retrievan in a large turbid and optically-complex shallow lake. Remote Sensing of Environment 157, 158, 2015.
• 16. PALMER S.C.J., KUTZER T., HUNTER P.D. Remote sensing of inland waters: challenges, progress and future directions. Remote sensing of Environment, 157, 1, 2015

Identyfikatory

DOI

10.15244/pjoes/62680