A bacterial index to estimate lake trophic level: National scale validation.
Pearman JK, Wood SA, Vandergoes MJ, Atalah J, Waters S, Adamson J, Thomson-Laing G, Thompson L, Howarth JD, Hamilton DP, Pochon X, Biessy L, Brasell KA, Dahl J, Ellison R, Fitzsimons SJ, Gard H, Gerrard T, Gregersen R, Holloway M, Li X, Kelly DJ, Martin R, McFarlane K, McKay NP, Moody A, Moy CM, Naeher S, Newnham R, Parai R, Picard M, Puddick J, Rees ABH, Reyes L, Schallenberg M, Shepherd C, Short J, Simon KS, Steiner K, Šunde C, Terezow M, Tibby J.
Pearman JK, et al. Among authors: simon ks.
Sci Total Environ. 2022 Mar 15;812:152385. doi: 10.1016/j.scitotenv.2021.152385. Epub 2021 Dec 21.
Sci Total Environ. 2022.
PMID: 34942258
This new, robust DNA-based tool provides a rapid and cost-effective method that will allow a greater number of lakes to be monitored and more effectively managed in New Zealand and globally. ...
This new, robust DNA-based tool provides a rapid and cost-effective method that will allow a greater number of lakes to be monitored …