A New Method to Identify Surface-Waters from DEM

Dosage du Sr-90 dans l'eau des lacs et des rivières du Québec par précipitation avec l'oxine et comptage β

Canadian Journal of Chemistry ◽

10.1139/v88-027 ◽

1988 ◽

Vol 66 (1) ◽

pp. 174-177 ◽

Cited By ~ 1

Author(s):

E. Haddad ◽

L. Zikovsky

Keyword(s):

Detection Limit ◽

Surface Waters ◽

New Method ◽

The Mean ◽

Better Than

A new method for the determination of Sr-90 dissolved in surface waters has been developed. It is based on the precipitation of Sr with 8-hydroxyquinoline at pH 11.3 and counting of β particles with energy above 150 keV. The detection limit obtained is 0.5 mBq/L and the mean yield is 28%. The decontamination factors from other β emitters achieved are better than 10 000. This method has been used to measure the Sr-90 in 5 lakes and 5 rivers in Québec and activities ranging from 3 to 15 mBq/L were obtained. This new method is as efficient and reliable as conventional techniques while being less tedious.

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New Method for Analysis of Pyrethroid Insecticides: Esfenvalerate, cis- Permethrin, and trans- Permethrin, in Surface Waters Using Solid-Phase Extraction and Gas Chromatography

Bulletin of Environmental Contamination and Toxicology ◽

10.1007/s001289900461 ◽

1997 ◽

Vol 59 (2) ◽

pp. 171-178 ◽

Cited By ~ 17

Author(s):

M. J. Hengel ◽

C. R. Mourer ◽

T. Shibamoto

Keyword(s):

Gas Chromatography ◽

Solid Phase Extraction ◽

Surface Waters ◽

Solid Phase ◽

New Method ◽

Phase Extraction ◽

Pyrethroid Insecticides

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A new method for continuous measurement of methane and carbon dioxide in surface waters using off-axis integrated cavity output spectroscopy (ICOS): An example from the Baltic Sea

Limnology and Oceanography Methods ◽

10.4319/lom.2011.9.176 ◽

2011 ◽

Vol 9 (5) ◽

pp. 176-184 ◽

Cited By ~ 44

Author(s):

Wanda Gülzow ◽

Gregor Rehder ◽

Bernd Schneider ◽

Jens Schneider v. Deimling ◽

Bernd Sadkowiak

Keyword(s):

Carbon Dioxide ◽

Baltic Sea ◽

Surface Waters ◽

Continuous Measurement ◽

New Method ◽

The Baltic Sea ◽

Cavity Output ◽

The Baltic

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Rapid Detection and Enumeration of Naegleria fowleri in Surface Waters by Solid-Phase Cytometry

Applied and Environmental Microbiology ◽

10.1128/aem.68.6.3102-3107.2002 ◽

2002 ◽

Vol 68 (6) ◽

pp. 3102-3107 ◽

Cited By ~ 24

Author(s):

Claire Pougnard ◽

Philippe Catala ◽

Jean-Louis Drocourt ◽

Stephane Legastelois ◽

Pierre Pernin ◽

...

Keyword(s):

Surface Waters ◽

Solid Phase ◽

Fluorescein Isothiocyanate ◽

Environmental Water ◽

New Method ◽

Naegleria Fowleri ◽

Reporter Systems ◽

Nægleria Fowleri ◽

Filtration Capacity ◽

Direct Counts

ABSTRACT A new method for the rapid and accurate detection of pathogenic Naegleria fowleri amoebae in surface environmental water was developed. The method is based on an immunofluorescent assay combined with detection by solid-phase cytometry. In this study we developed and compared two protocols using different reporter systems conjugated to antibodies. The monoclonal antibody Ac5D12 was conjugated with biotin and horseradish peroxidase, and the presence of cells was revealed with streptavidin conjugated to both R-phycoerythrin and cyanine Cy5 (RPE-Cy5) and tyramide-fluorescein isothiocyanate, respectively. The RPE-Cy5 protocol was the most efficient protocol and allowed the detection of both trophozoite and cyst forms in water. The direct counts obtained by this new method were not significantly different from those obtained by the traditional culture approach, and results were provided within 3 h. The sensitivity of the quantitative method is 200 cells per liter. The limit is due only to the filtration capacity of the membrane used.

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Habitat Association of Klebsiella Species

Infection Control ◽

10.1017/s0195941700062603 ◽

1985 ◽

Vol 6 (2) ◽

pp. 52-58 ◽

Cited By ~ 111

Author(s):

Susan T. Bagley

Keyword(s):

Drinking Water ◽

Gastrointestinal Tract ◽

Surface Waters ◽

Industrial Effluents ◽

Opportunistic Pathogen ◽

Habitat Associations ◽

Habitat Association ◽

Klebsiella Species ◽

Almost All ◽

Polluted Waters

AbstractThe genus Klebsiella is seemingly ubiquitous in terms of its habitat associations. Klebsiella is a common opportunistic pathogen for humans and other animals, as well as being resident or transient flora (particularly in the gastrointestinal tract). Other habitats include sewage, drinking water, soils, surface waters, industrial effluents, and vegetation. Until recently, almost all these Klebsiella have been identified as one species, ie, K. pneumoniae. However, phenotypic and genotypic studies have shown that “K. pneumoniae” actually consists of at least four species, all with distinct characteristics and habitats. General habitat associations of Klebsiella species are as follows: K. pneumoniae—humans, animals, sewage, and polluted waters and soils; K. oxytoca—frequent association with most habitats; K. terrigena— unpolluted surface waters and soils, drinking water, and vegetation; K. planticola—sewage, polluted surface waters, soils, and vegetation; and K. ozaenae/K. rhinoscleromatis—infrequently detected (primarily with humans).

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Selective Sampling and Orientation of Non-Homogeneous Tissues

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100100238 ◽

1968 ◽

Vol 26 ◽

pp. 98-99

Author(s):

C. C. Clawson ◽

L. W. Anderson ◽

R. A. Good

Keyword(s):

Electron Microscopy ◽

Electron Microscope ◽

Light Microscopy ◽

Random Sampling ◽

New Method ◽

Microscope Examination ◽

Small Areas ◽

Selective Sampling ◽

Large Numbers ◽

Specific Orientation

Investigations which require electron microscope examination of a few specific areas of non-homogeneous tissues make random sampling of small blocks an inefficient and unrewarding procedure. Therefore, several investigators have devised methods which allow obtaining sample blocks for electron microscopy from region of tissue previously identified by light microscopy of present here techniques which make possible: 1) sampling tissue for electron microscopy from selected areas previously identified by light microscopy of relatively large pieces of tissue; 2) dehydration and embedding large numbers of individually identified blocks while keeping each one separate; 3) a new method of maintaining specific orientation of blocks during embedding; 4) special light microscopic staining or fluorescent procedures and electron microscopy on immediately adjacent small areas of tissue.

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Identifying Sources of Sulfate Aerosols Reaching Whiteface Mountain, NY

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100117546 ◽

1985 ◽

Vol 43 ◽

pp. 98-101

Author(s):

James S. Webber

Keyword(s):

Trace Metals ◽

Acid Deposition ◽

Surface Waters ◽

Dry Deposition ◽

Coal Combustion ◽

Public Awareness ◽

Sulfate Aerosols ◽

Wet And Dry Deposition ◽

Whiteface Mountain ◽

Toxic Trace Metals

INTRODUCTION“Acid rain” and “acid deposition” are terms no longer confined to the lexicon of atmospheric scientists and 1imnologists. Public awareness of and concern over this phenomenon, particularly as it affects acid-sensitive regions of North America, have increased dramatically in the last five years. Temperate ecosystems are suffering from decreased pH caused by acid deposition. Human health may be directly affected by respirable sulfates and by the increased solubility of toxic trace metals in acidified waters. Even man's monuments are deteriorating as airborne acids etch metal and stone features.Sulfates account for about two thirds of airborne acids with wet and dry deposition contributing equally to acids reaching surface waters or ground. The industrial Midwest is widely assumed to be the source of most sulfates reaching the acid-sensitive Northeast since S02 emitted as a byproduct of coal combustion in the Midwest dwarfs S02 emitted from all sources in the Northeast.

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