5. ConclusionsTwelve consecutive ye

5. Conclusions
Twelve consecutive years of water quality data were analyzed at drain estuaries discharging to Northern Egypt Lakes and the Mediterranean Sea. In an effort to better understand the trends in these data, a simple linear regression was conducted on the 12-year dataset from 2002 to 2013, using CCME WQI involving 11 water quality variables. Resultsof the site-specific analysis demonstrate that water quality is improving at 4 sites (Bahr ElBaqar Drain, Drain No. 1,Tabia Drain and No. 11 Drain), but declining at 1 site (Ramsis Drain). Although the total number of sewage water treatment plants amounted 333 plants in year 2010/2011 in comparison to 301 treatment plants in year 2008/2009 with increase of 32 plants by ratio 11%. However, most of the sites do not demonstrate any statistically significant trends.This may be due to bad practice in monitoring process, operation and maintenance of wastewater treatment plants.In general, results of the statistical methods as regression demonstrate that temporal changes in excursions ofcoliform count from their threshold can explain only 83.3% (in general) of the temporal variability observed in theWQI monitored in all drains discharging to north Lakes and Mediterranean Sea. Therefore, high level of coliform hadthe most effect on WQI score. However, temporal changes in water quality parameters can be used as a ‘barometer’by which the success of pollution controls can be evaluated; this agree with the results found by Vezzaro et al. (2014),Chang et al. (2012), García-Barcina et al. (2006) and Doering (1996).