MARC21

000	02096cam 2200361zi 4500
001	9.873833
003	CaOODSP
005	20221107164028
006	m o d f
007	cr \|n\|\|\|\|\|\|\|\|\|
008	190529s1989 onca #ot f000 0 eng d
040	\|aCaOODSP\|beng\|erda\|cCaOODSP
043	\|an-cn---
086	1 \|aEn13-5/89-134E-PDF
100	1 \|aOnuska, Francis I., \|d1935- \|eauthor.
245	10\|aMicrobore column vs. open tubular columns for supercritical fluid chromatography in environmental analysis : \|bseparation of polychlorinated biphenyls and terphenyls / \|cby F.I. Onuska [and three others].
264	1\|aBurlington, Ontario : \|bResearch and Applications Branch, National Water Research Institute, \|c1989.
300	\|a1 online resource (iii, 16, (4) pages) : \|bfigures.
336	\|atext\|btxt\|2rdacontent
337	\|acomputer\|bc\|2rdamedia
338	\|aonline resource\|bcr\|2rdacarrier
490	1 \|aNWRI contribution ; \|vno. 89-134
500	\|aDigitized edition from print [produced by Environment and Climate Change Canada].
500	\|a"November 1989."
504	\|aIncludes bibliographical references.
520	\|a"This manuscript describes an analytical method for the detection land quantitation of polychlorinated biphenyls and polychlorinated terphenyls in spiked sediment samples at ppm levels. Results indicate that microbore columns could be a better alternative to open tubular columns because they can handle a greater loading of analytes. UV-detector has no advantage over the flame ionization detector as far as sensitivity is concerned but can eliminate some interfering analytes that do not absorb at 208 nm"--Management Perspective.
692	07\|2gccst\|aSediments
692	07\|2gccst\|aWater pollution
710	1 \|aCanada. \|bEnvironment Canada.
710	2 \|aNational Water Research Institute (Canada). \|bResearch and Applications Branch.
830	#0\|aNWRI contribution ;\|vno. 89-134.\|w(CaOODSP)9.844121
856	40\|qPDF\|s1.25 MB\|uhttps://publications.gc.ca/collections/collection_2019/eccc/en13-5/En13-5-89-134-eng.pdf