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• 2.0 MONITORING ML1'hIOllS <br />z.i suxr~cr rACt~iTlrs <br />During each monitoring event, iu-silo water quality measurements of temperature. <br />conductivity, and pII were made. An expanded list oI water quality analyses was <br />conducted during the annual sampling period which were scut to a conuncrcial <br />laboratory. Prior to any Held samplings, the field meters were calibrated to known <br />standards. <br />Water quality or Ilo4v u~easurcnrcuts were po~uluctal b}' a iuuubcr oC medwds. At U~c <br />begimiing of the program, a sh~aight Ilat, stable reach oCcach stream station was selected <br />as a sampling location. Near the down stream end of the reach, across-section was <br />surveyed perpendicular to the stream (low and permanently nuui.cd with sial;cs and <br />flagging. Flow was measured with a "fdedyne-Gurley Cv~ludcl C25 Pygmy type current <br />tneter (or similar type meter) using the USES six-tenths-dcp(h method. <br />2.2 GI2OUNll Wt\T1;12 SI'I'liS <br />Depth to water below top of [he well casing was measured I„ the nearest tenth-Ih~~t using <br />an electric fine water level detector. Water yualily was sampled in the field directly From <br />the wells with a hand bailer. The wells were cleared by bailing at least three culunins of <br />water (or bailing Qie well dry and allowing recharge) prior to collecting the sample. <br />Equipment and procedut'es used lur water chemistry analysis; were amsislcnt with Ihusc <br />described above for surface water. <br />L~ <br /> <br />