Estuary of the River Mersey : The effect of the discharge of crude sewage into the estuary of the River Mersey on the amount and hardness of the deposit in the estuary.

  • Great Britain. Water Pollution Research Board
Date:
1938
Catalogue details

Licence: Public Domain Mark

Credit: Estuary of the River Mersey : The effect of the discharge of crude sewage into the estuary of the River Mersey on the amount and hardness of the deposit in the estuary. Source: Wellcome Collection.

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    DIS SOR SEABEES Area and Character of the Catchment Areas of the Streams Sonar into the Mersey estuary , Records of the Flow of C ertain b Sieanee niet ieee into ae 1 sey ean Approximate Daily Flow from Rivers and Streams into the Mersey Estuary Estimated Daily Addition of Fresh Water to the Mersey Estuary : Organic Content of some Fresh-Water Streams discharging into the Mersey ees Estimated Total voor of Lean Carbon Se the ce ar eb in Fresh- Water Streams ¥ Volume of Sewage deebarsed into ne fees Bette in 1933 | Estimated Discharge of Organic Carbon into the Mersey Estuary in Domestic a age. Analyses of Tannery Effluents. . Estimated Volume of Effluents and Weight of Organic eben discharged fon Teere into the Mersey Estuary ah i. Estimated Weight of Organic Carbon Orenny the Mece “tre, fon ase Sethe Concentration of Dissolved Sete in the ee nak under Different Tidal Conditions a Salinity at High and ne Waren in the nee one at Different Pansat of Tide é Concentration of Free and Saline Ammonia in Mersey Estuary Water Concentration of Soluble Organic Carbon in Mersey Estuary Water Concentration of Sulphide in Mersey Estuary Water ; pH Value of the uae Water and of some Fresh-Water Senn aie discharge into it Estimated eran iraion of Sewage i in fine Mersey Estuary at High vit cae Water of a Spring Tide + Estimated Time taken by rresh Water to pass aan the ee enc Observations taken during a Series of Float Drifts, 28th August to 10th September, 1935 Summary of Results obtained from Float Drifts from Egremont Pier between 28th August and 10th September, 1935, divided into Spring and Neaps Relative Areas of Inter-Tidal Banks in Different Parts of the Estuary . Inter-Tidal Areas of Mud and Sand in the pa ai. from Ree n Gap Section 100) to Rock Light (Section 0) Inter-Tidal Areas of Mud and Sand in Liv hes by Comparison of the Inter-Tidal Areas of Sand and Mud Banks in ih U Pass eer yi a in Liverpool Bay , Composition of Surface eros from shai Tidal Susostian in the nieve Mer sey ee Content of Material extracted by Petroleum Ether in Muds from the Stanlow Bank, Upper Mersey Estuary . . Changes in Distribution of Sulphose in yea Mersey Mud oe at 18: 13° Cs 10 Stoppered Jars ; Changes in Distribution of SMa in Black Mersey Mud snes edt to Bia in Petri Dishes at Room Temperature Distribution of Sulphides in Mud ae the Boilow ede U 'pper eee jester Distribution of Total Sulphur in Mud from the Stanlow Bank, Upper Mersey Estuary Biochemical Oxygen Demand of Mud from the Stanlow Bank, Upper Mersey Estuary Composition of Surface and Sub-Surface Samples from the Stanlow Bank . Inorganic Composition of Different Fractions obtained by Centrifuging Mersey Muds. . Composition of Mud from Salt Marshes on the Shores of the Mersey Estuary .. Composition of Boulder Clay from Cliffs on the Shores of the Mersey Estuary .. 43 Average Composition of pepsin s of Boulder oe from Cliffs on the Shores of the Mersey Estuary ¥ Flow of the River fer at ieee W elr Ae Colter of Severed Moce . Composition of Se Matter in Fresh-Water Streams Cone into the eae Estuary Composition of eotiples redeea oh the Bed of the Meares Ship cainat : Average Composition of Samples dredged from the Bed of the Manchester Ship mal , Organic Content of Samples dredged from the Channels and Submerged Banks in Liverpool Bay “y 7 ty r PaGE 211 212 220 229 35 36 36 37 39 4() 233 4] 46 48 50) 50 240, 60 61 62 62 62 63 246 66 247 247 69 69 248 248 70 249