| P50 | author | Denis Taniguchi | Q91917233 |
| P2093 | author name string | Bowen Li | |
| | Darren Wilkinson | |
| | Jinju Chen | |
| | Paolo Zuliani | |
| | Andrew Stephen McGough | |
| | Thomas P Curtis | |
| | Pahala Gedara Jayathilake | |
| | Rebeca González-Cabaleiro | |
| | Irina Dana Ofiteru | |
| | David Swailes | |
| | Valentina Gogulancea | |
| P2860 | cites work | How modeling can reconcile apparently discrepant experimental results: the case of pacemaking in dopaminergic neurons | Q28478322 |
| | Metabolic energy-based modelling explains product yielding in anaerobic mixed culture fermentations | Q28547316 |
| | Social evolution in multispecies biofilms | Q28742796 |
| | Microbial community structure in autotrophic nitrifying granules characterized by experimental and simulation analyses | Q30874473 |
| | Model based evaluation of the effect of pH and electrode geometry on microbial fuel cell performance. | Q33467200 |
| | In situ effective diffusion coefficient profiles in live biofilms using pulsed-field gradient nuclear magnetic resonance | Q33621479 |
| | iDynoMiCS: next-generation individual-based modelling of biofilms | Q33848394 |
| | Two kinds of lithotrophs missing in nature | Q34065175 |
| | The anaerobic oxidation of ammonium | Q34068555 |
| | A multiscale theoretical model for diffusive mass transfer in cellular biological media. | Q50978448 |
| | Influence of low pH on continuous anaerobic digestion of waste activated sludge. | Q51009189 |
| | Individual-based modelling of biofilms. | Q52051890 |
| | BacSim, a simulator for individual-based modelling of bacterial colony growth. | Q52227664 |
| | A black box mathematical model to calculate auto- and heterotrophic biomass yields based on Gibbs energy dissipation. | Q52408292 |
| | Characterising and modelling free ammonia and ammonium inhibition in anaerobic systems | Q57466883 |
| | Division of Labor during Biofilm Matrix Production | Q57578128 |
| | Multidimensional modelling to investigate interspecies hydrogen transfer in anaerobic biofilms | Q61759189 |
| | A thermodynamically based correlation for maintenance gibbs energy requirements in aerobic and anaerobic chemotrophic growth | Q81608645 |
| | Application of macroscopic principles to microbial metabolism | Q83525364 |
| | Effect of different pH-values on process parameters in two-phase anaerobic digestion of high-solid substrates | Q86030755 |
| | The evolution of bacteriocin production in bacterial biofilms | Q34076280 |
| | Cooperation and conflict in microbial biofilms. | Q35612336 |
| | Advancing microbial sciences by individual-based modelling | Q36041733 |
| | Simbiotics: A Multiscale Integrative Platform for 3D Modeling of Bacterial Populations. | Q36364115 |
| | Challenges in microbial ecology: building predictive understanding of community function and dynamics | Q38376483 |
| | Optimization of process parameters for production of volatile fatty acid, biohydrogen and methane from anaerobic digestion. | Q38377746 |
| | Microbial catabolic activities are naturally selected by metabolic energy harvest rate. | Q39783095 |
| | Particle-based multidimensional multispecies biofilm model | Q40512396 |
| | Modeling de novo granulation of anaerobic sludge | Q41041452 |
| | A mechanistic Individual-based Model of microbial communities. | Q41236893 |
| | Multi-scale modelling of bioreactor-separator system for wastewater treatment with two-dimensional activated sludge floc dynamics. | Q43309087 |
| | Evaluating the effect of biofilm thickness on nitrification in moving bed biofilm reactors | Q43337557 |
| | The IWA Anaerobic Digestion Model No 1 (ADM1). | Q44109615 |
| | Thermodynamic electron equivalents model for bacterial yield prediction: modifications and comparative evaluations | Q46067808 |
| | INDISIM-Paracoccus, an individual-based and thermodynamic model for a denitrifying bacterium | Q46548299 |
| | Mathematical model for microbial fuel cells with anodic biofilms and anaerobic digestion. | Q46623001 |
| | Impact of cell cluster size on apparent half-saturation coefficients for oxygen in nitrifying sludge and biofilms | Q47267091 |
| | Phage mobility is a core determinant of phage-bacteria coexistence in biofilms. | Q47361651 |
| | Modeling mechanical interactions in growing populations of rod-shaped bacteria | Q47788318 |
| | Carbon limitation drives GC content evolution of a marine bacterium in an individual-based genome-scale model. | Q48250962 |
| | Liquid flow in heterogeneous biofilms. | Q49144604 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P921 | main subject | speciation | Q39350 |
| | thermodynamics | Q11473 |
| P304 | page(s) | 1871 | |
| P577 | publication date | 2019-08-13 | |
| P1433 | published in | Frontiers in Microbiology | Q27723481 |
| P1476 | title | Individual Based Model Links Thermodynamics, Chemical Speciation and Environmental Conditions to Microbial Growth | |
| P478 | volume | 10 | |