by Environmental Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, Available to the public through the National Technical Information Service in Duluth, Minn, Springfield, Va .
Written in English
|Statement||by Ruth E. Holland|
|Series||Research reporting series -- EPA-600/3-80-066|
|Contributions||Environmental Research Laboratory (Duluth, Minn.), Large Lakes Research Station|
|The Physical Object|
|Pagination||x, 85 p. :|
|Number of Pages||85|
Environmental Research Laboratory (Duluth, Minn.): Seasonal fluctuations of major diatom species at five stations across Lake Michigan: May October / (Duluth, Minn.: Environmental Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency ; Springfield, Va.: Available to the public through the. Seasonal fluctuations of major diatom species at five stations across Lake Michigan: May October / by Ruth E. : Ruth E. Holland. Ruth E. Holland has written: 'Seasonal fluctuations of major diatom species at five stations across Lake Michigan' -- subject(s): Freshwater phytoplankton, Diatoms, Phytoplankton Asked in Authors. Annual whole-lake phytoplankton carbon fixation values for – ranged from to Tg/y for Lake Huron, – Tg/y for Lake Michigan, and – Tg/y for Lake Superior. View Show.
Holland, R. Seasonal fluctuations ofmajor diatom species at five stations across Lake Michigan: May ctober Environmental Research Labora tory. Duluth, MN. EPA/ BC (International Joint Commission). Cited by: Sacrower See is a dimictic, 38 m deep, hypertrophic lowland lake ( m a.s.l.). We identified distinct seasonal and interannual changes of diatom assemblages for the studied period. Diatoms. Limnol. Oceanogr. – ———. Seasonal fluctuations of major diatom species at five stations across Lake Michigan, May –October USEPA Report. EPA/ ———, and Beeton, A.M. Significance to eutrophi- cation of spatial differences in nutrients and diatoms in Lake Michigan. Limnol. Oceanogr Cited by: Kriging was then applied to generate a two-dimensional map of phytoplankton biovolumes across all pixels in the western and central basins. First, sample biovolume data were log transformed for total biovolume, diatom biovolume and cyanophyte biovolume, and log 10 (x + 1)-transformed (due to zero values) for A. islandica and -dimensional kriging was processed using the ArcGIS Cited by:
Fifty-five diatom taxa, representing mostly acidophilous and benthic species (e.g., Pinnularia biceps, Nitzschia bryophila, Navicula variostriata), were identified in a 56 cm long core from a. Environmental controls of epilithic diatom depth-distribution in an oligotrophic lake characterized by marked water-level fluctuations Marco Cantonati a ; Silvia Scola a ; Nicola Angeli a. Introduction The degree to which diatoms move across the Earth by natural processes is debatable (Finlay et al., ; Vyverman et al., ), but the inadvertent spread of diatoms in a globalized. Spatial and seasonal patterns of change in phytoplankton composition, size structure, and standing stock along a trophic gradient in Green Bay, Lake Michigan, prior to the colonization of the bay by the zebra mussel (Dreissena polymorpha) are on particle size distributions and microscope analysis of epilimnetic samples collected between June and October throughout Green Cited by: