Prediction of substrate removal rates of attached microorganisms and of relative contributions of attached and suspended communities at field sitesLEWIS, D. L; GATTIE, D. K.Applied and environmental microbiology (Print). 1988, Vol 54, Num 2, pp 434-440, issn 0099-2240Article

Total suspended solids and flow regime effects on periphyton development in a laboratory channelBIRKETT, C; TOLLNER, E. W; GATTIE, D. K et al.Transactions of the ASABE. 2007, Vol 50, Num 3, pp 1095-1104, 10 p.Article

Initial test of the benchmark chemical approach for predicting microbial transformation rates in aquatic environmentsNEWTON, T. D; GATTIE, D. K; LEWIS, D. L et al.Applied and environmental microbiology (Print). 1990, Vol 56, Num 1, pp 288-291, issn 0099-2240Article

Indirect effects and distributed control in ecosystems : Distributed control in the environ networks of a seven-compartment model of nitrogen flow in the Neuse River Estuary, USA-Steady-state analysisSCHRAMSKI, John R; GATTIE, D. K; PATTEN, B. C et al.Ecological modelling. 2006, Vol 194, Num 1-3, pp 189-201, issn 0304-3800, 13 p.Conference Paper

Laboratory procedure for determining substrate removal rate coefficients for biofilmsLEWIS, D. L; POPE, J. D. JR; GATTIE, D. K et al.Journal of microbiological methods. 1989, Vol 10, Num 2, pp 103-111, issn 0167-7012Article

The Reynolds transport theorem: Application to ecological compartment modeling and case study of ecosystem energeticsSCHRAMSKI, J. R; PATTEN, B. C; KAZANCI, C et al.Ecological modelling. 2009, Vol 220, Num 22, pp 3225-3232, issn 0304-3800, 8 p.Conference Paper

Indirect effects and distributed control in ecosystems : Distributed control in the environ networks of a seven-compartment model of nitrogen flow in the Neuse River Estuary, USA-Time series analysisSCHRAMSKI, J. R; GATTIE, D. K; PATTEN, B. C et al.Ecological modelling. 2007, Vol 206, Num 1-2, pp 18-30, issn 0304-3800, 13 p.Article