| Record ID | marc_records_scriblio_net/part06.dat:158993305:1389 |
| Source | Scriblio |
| Download Link | /show-records/marc_records_scriblio_net/part06.dat:158993305:1389?format=raw |
LEADER: 01389cam 2200289 4500
001 70632550 //r873
003 DLC
005 19870313000000.0
008 720410s1969 txua b 00010 eng
010 $a 70632550 //r873
050 0 $aQK565$b.M78
082 $a589/.31/921
100 10 $aMoore, Harry Grady.
245 10 $aSurplus phosphorus uptake by microorganisms--algae,$cby Harry Grady Moore, Jr. E. Gus Fruh, project director.
260 0 $a[Austin]$bUniversity of Texas at Austin, Dept. of Civil Engineering, Environmental Health Engineering Research Laboratory,$c1969.
300 $axv, 218 l.$billus.$c28 cm.
490 1 $a[Texas. University at Austin. Center for Research in Water Resources] ;$vCRWR 39
500 $a"Technical report no. 1 to the Federal Water Pollution Control Administration, Department of the Interior."
500 $a"EHE 69-05."
504 $aBibliography: leaves 208-218.
650 0 $aAlgae$xPhysiology.
650 0 $aPlants, Effect of phosphorus on.
700 10 $aFruh, E. Gus,$d1939-
710 20 $aUniversity of Texas at Austin.$bDept. of Civil Engineering.
710 20 $aUniversity of Texas at Austin.$bEnvironmental Health Engineering Research Laboratory.
710 10 $aUnited States.$bFederal Water Pollution Control Administration.
830 0 $aTechnical report (University of Texas at Austin. Center for Research in Water Resources) ;$vCRWR-39.