Methods and systems to replicate soil properties

What is claimed is: 1. A soil-emulating apparatus comprising: an inlet wall; an outlet wall; at least one access port fluidically connected to one or both of the inlet wall and the outlet wall; at least one channel extending between the inlet wall and the outlet wall; at least one soil micromodel region comprising emulated soil particles positioned within the at least one channel, wherein the emulated soil particles comprise particles having a diameter of between 10 μm and 300 μm. 2. The soil-emulating apparatus of claim 1 , wherein the channel is saturated with an aqueous suspension of live bacteria. 3. The soil-emulating apparatus of claim 2 , wherein the aqueous suspension includes one of the following: a mucoid extracellular polymeric substance (EPS+) bacteria strain, or a non-mucoid extracellular polymeric substance (EPS−) bacteria strain. 4. The soil-emulating apparatus of claim 1 , wherein the emulated soil particles comprise a biocompatible polymer. 5. The soil-emulating apparatus of claim 1 , further comprising: air infiltration openings through the at least one soil micromodel. 6. The soil-emulating apparatus of claim 1 , further comprising: an environmental control chamber, wherein the at least one soil micromodel is positioned within a channel within the environmental control chamber; and a microscope. 7. The soil-emulating apparatus of claim 6 , wherein the channel is saturated with a mucoid extracellular polymeric substance (EPS+) bacteria strain or a non-mucoid extracellular polymeric substance (EPS−) bacteria strain. 8. The soil-emulating apparatus of claim 6 , wherein the environmental control chamber provides a constant humidity via circulation of humidity-controlled air. 9. The soil-emulating apparatus of claim 6 , wherein the microscope is an inverted microscope. 10. The soil-emulating apparatus of claim 6 , further comprising an imaging device for capturing images of the soil micromodel over time. 11. The soil-emulating apparatus of claim 1 , wherein pores of the at least one soil micromodel have a radius of between 16 μm and 130 μm. 12. The soil-emulating apparatus of claim 2 , wherein pores of the at least one soil micromodel have a radius of between 16 μm and 130 μm. 13. The soil-emulating apparatus of claim 4 , wherein pores of the at least one soil micromodel have a radius of between 16 μm and 130 μm. 14. The soil-emulating apparatus of claim 1 , wherein the emulated soil particles comprise ellipsoidal particles. 15. The soil-emulating apparatus of claim 12 , wherein the emulated soil particles comprise ellipsoidal particles. 16. The soil-emulating apparatus of claim 13 , wherein the emulated soil particles comprise ellipsoidal particles.